aDT-a clone of Cachero 2010 [VFB_00020114]
[aDT-a clone of Cachero 2010; confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aDT-a lineage clone]
[aDT-a clone of Cachero 2010; confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aDT-a lineage clone]
[confocal microscopy; male organism; is part of; aDT-a_M clone of Cachero 2010; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aDT-a lineage clone]
[confocal microscopy; aDT-b clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aDT-b (female) lineage clone]
[confocal microscopy; adult fruitless aDT-c lineage clone; is part of; aDT-c clone of Cachero 2010; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; male organism; adult fruitless aDT-c lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; aDT-c_M clone of Cachero 2010]
[confocal microscopy; aDT-d clone of Cachero 2010; adult fruitless aDT-d (female) lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; male organism; aDT-d_M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aDT-d (male) lineage clone]
[confocal microscopy; is part of; JRC2018Unisex; adult fruitless aDT-e (female) lineage clone; adult brain; adult brain template JFRC2; aDT-e clone of Cachero 2010]
[confocal microscopy; male organism; aDT-e_M clone of Cachero 2010; adult brain template JFRC2; is part of; JRC2018Unisex; adult brain; adult fruitless aDT-e (male) lineage clone]
[aDT-f clone of Cachero 2010; confocal microscopy; adult fruitless aDT-f lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult fruitless aDT-f lineage clone; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; aDT-f_M clone of Cachero 2010]
[confocal microscopy; adult fruitless aDT-g lineage clone; aDT-g clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; male organism; adult fruitless aDT-g lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; aDT-g_M clone of Cachero 2010]
[confocal microscopy; adult fruitless aDT-h lineage clone; JRC2018Unisex; is part of; aDT-h clone of Cachero 2010; adult brain; adult brain template JFRC2]
[confocal microscopy; male organism; adult fruitless aDT-h lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; aDT-h_M clone of Cachero 2010]
A clone of neurons in the adult brain, all of which develop from neuroblast ALad1 (FBbt:00067346).
A clone of neurons in the adult brain, all of which develop from neuroblast ALl1.
A clone of neurons in the adult brain, all of which develop from neuroblast ALlv1.
A clone of neurons in the adult brain, all of which develop from neuroblast ALv1.
A clone of neurons in the adult brain, all of which develop from neuroblast ALv2.
A clone of neurons in the adult brain, all of which develop from neuroblast PSa1.
A clone of neurons in the adult brain, all of which develop from neuroblast WEDa2.
A clone of neurons in the adult brain, all of which develop from neuroblast BAlv (WEDa1).
A clone of neurons in the adult brain, all of which develop from neuroblast BAmas1 (FLAa2).
A clone of neurons in the adult brain, all of which develop from neuroblast BAmas2 (FLAa3) (female).
A clone of neurons in the adult brain, all of which develop from neuroblast BAmas2 (FLAa3) (male).
A clone of neurons in the adult brain, all of which develop from neuroblast BAmas2 (FLAa3).
A clone of neurons in the adult brain, all of which develop from neuroblast BAMv2.
A clone of neurons in the adult brain, all of which develop from neuroblast BLAd1 (LHa1).
A clone of neurons in the adult brain, all of which develop from neuroblast BLAd2 (SIPa1).
A clone of neurons in the adult brain, all of which develop from neuroblast BLAd3 (SLPal3).
A clone of neurons in the adult brain, all of which develop from neuroblast BLAv1 (VLPl&d1).
A clone of neurons in the adult brain, all of which develop from neuroblast BLAv2 (VLPl2).
A clone of neurons in the adult brain, all of which develop from neuroblast BLD1 (LHl4).
A clone of neurons in the adult brain, all of which develop from neuroblast BLD4 (LHl1).
A clone of neurons in the adult brain, all of which develop from neuroblast BLD6 (VPNd1).
A clone of neurons in the adult brain, all of which develop from neuroblast VLPp1.
A clone of neurons in the adult brain, all of which develop from neuroblast BLP4 (LHp1).
A clone of neurons in the adult brain, all of which develop from neuroblast BLVa1.
A clone of neurons in the adult brain, all of which develop from neuroblast BLVp1 (VLPl&p2).
A clone of neurons in the adult brain, all of which develop from neuroblast BLVp2 (VLPl&p1).
A clone of neurons in the adult brain, all of which develop from neuroblast CLp1.
A clone of neurons in the adult brain, all of which develop from neuroblast CLp2.
A clone of neurons in the adult brain, all of which develop from neuroblast CP1 (SMPpv2).
A clone of neurons in the adult brain, all of which develop from neuroblast CP2.
A clone of neurons in the adult brain, all of which develop from neuroblast CP3.
A clone of neurons in the adult brain, all of which develop from neuroblast CREa1 (female).
A clone of neurons in the adult brain, all of which develop from neuroblast CREa1 (male).
A clone of neurons in the adult brain, all of which develop from neuroblast CREa1 (Yu et al., 2013). There are differences between the male and female clones (Yu et al., 2013).
A clone of neurons in the adult brain, all of which develop from neuroblast DALcl1.
A clone of neurons in the adult brain, all of which develop from neuroblast DALcl2.
A clone of neurons in the adult brain, all of which develop from neuroblast DALcm1 (CREa2).
A clone of neurons in the adult brain, all of which develop from neuroblast DALcm2 (AOTUv1).
A clone of neurons in the adult brain, all of which develop from neuroblast DALd (WEDd1).
A clone of neurons in the adult brain, all of which develop from neuroblast DALl1 (AOTUv2).
A clone of neurons in the adult brain, all of which develop from neuroblast EBa1.
A clone of neurons in the adult brain, all of which develop from neuroblast DM1.
A clone of neurons in the adult brain, all of which develop from neuroblast DM2.
A clone of neurons in the adult brain, all of which develop from neuroblast DM3.
A clone of neurons in the adult brain, all of which develop from neuroblast DM4.
A clone of neurons in the adult brain, all of which develop from neuroblast DM5.
A clone of neurons in the adult brain, all of which develop from neuroblast DM6.
A clone of neurons in the adult brain, all of which develop from neuroblast DPLal1 (SLPal1).
A clone of neurons in the adult brain, all of which develop from neuroblast DPLal2 (LHl2).
A clone of neurons in the adult brain, all of which develop from neuroblast SLPal2.
A clone of neurons in the adult brain, all of which develop from neuroblast DPLc1 (SMPpd1).
A clone of neurons in the adult brain, all of which develop from neuroblast DPLc3 (SLPpm3).
A clone of neurons in the adult brain, all of which develop from neuroblast DPLd (LHd1).
A clone of neurons in the adult brain, all of which develop from neuroblast DPLl1 (SLPpl1).
A clone of neurons in the adult brain, all of which develop from neuroblast DPLl2 (VLPd&p1).
A clone of neurons in the adult brain, all of which develop from neuroblast DPLl3 (SLPad1).
A clone of neurons in the adult brain, all of which develop from neuroblast SLPpm1.
A clone of neurons in the adult brain, all of which develop from neuroblast DPLp1 (LHp2).
A clone of neurons in the adult brain, all of which develop from neuroblast DPLpv (VLPp&l1).
A clone of neurons in the adult brain, all of which develop from neuroblast DPMl1.
A clone of neurons in the adult brain, all of which develop from neuroblast DPMpl1 (SMPpv1).
A clone of neurons in the adult brain, all of which develop from neuroblast DPMpl2 (SIPp1).
A clone of neurons in the adult brain, all of which develop from neuroblast EBp1.
A clone of neurons in the adult brain, all of which develop from neuroblast FLAa1.
A clone of neurons in the adult brain that express fruitless, all of which develop from neuroblast ALad1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast CREa1. Its cell bodies are located dorsal to the antennal lobe. Neurites project medioventrally, with differences between males and females. Neurites form contralateral dendritic arborizations in the subesophageal zone, and then project dorsally to terminate in lateral junction. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast CREa1. Its cell bodies are located dorsal to the antennal lobe. Neurites project medioventrally, with differences between males and females. Neurites form bilateral dendritic arborizations in the subesophageal zone, and then project dorsally to terminate in lateral junction. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the anterior protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, whose cell bodies are located junction of the ventrolateral protocerebrum and the antennal lobe. A neurite projects medially and forms two arbors: a dendritic arbor in the lateral junction and an axonal arbor in the anterior medial protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, whose cell bodies are located junction of the ventrolateral protocerebrum and the antennal lobe. A neurite projects medially and forms two arbors: a dendritic arbor in the lateral junction and an axonal arbor in the anterior medial protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast ALl1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast ALl1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast ALv1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast PSa1. Its cell bodies are located ventral to antennal lobe. Neurites bend medially and branches. The dorsal branch projects bilaterally and forms axonal arbors predominantly in the ventral ring. The ventral branch terminates in ipsilateral dendritic arborizations in the lateral subesophageal zone, in close proximity to the ventral lateral region of the antennal mechanosensory and motor center. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast BAmas2 (FLAa3). Its cell bodies are located medially, between the antennal lobe and the subesophageal zone. Neurites form local arborizations close to the cell bodies but also project dorsally along the midline forming the median bundle, and terminating bilaterally in the superior neuropils. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located dorsomedial to the antennal lobe. Neurites project bilaterally terminating with granular arborizations in the medial subesophageal zone and in the ipsilateral dorsal medial protocerebrum. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located ventrolateral to the antennal lobe, usually away from the neuropil. Neurites project dorsally, fasciculating with the mediolateral antennal lobe tract until the fan-shaped body. It then makes a lateral dorsal turn. Neurites form web-like arborizations, likely to be axonal in the ipsi- and contralateral in the posterior region of the superior lateral and intermediate protocerebrum. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located medioventral to the antennal lobe. A neurite projects through the esophageal foramen posteriorly then ipsilaterally to form axonal arbors in the anterior dorsal region of the lobula. There is also arborization in the posterior brain. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located medially, between the antennal lobe and the subesophageal zone. A neurite forms dense bilateral arbors in the antennal lobe and the subesophageal zone. A major neurite exits the brain via the posterior subesophageal zone to terminate in the pro-, meso, and metathoracic neuromeres. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast VLPa2. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast VLPa1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast VLPa1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast VLPl_d1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast VLPl&d1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, whose cell bodies are located in the anterior inferior protocerebrum. Neurites project medially. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, whose cell bodies are located in the anterior inferior protocerebrum. Neurites project medially. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast VLP2. Its cell bodies are located in the lateral cell body region, away from the neuropil and always ventral to aSP-k cell bodies. Neurites project dorsally on the surface of the ventrolateral protocerebrum before entering a tract in the neuropil region below the lateral horn. Unlike aSP-k, the projection from the cell body does not bend before entering the tract. Within the tract, the neurite projects medially arborizing first in the ventral lateral horn, then projects medially to arborize a discrete ventral region in the ring. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast VLP2. Its cell bodies are located in the lateral cell body region, away from the neuropil and always ventral to aSP-k cell bodies. Neurites project dorsally on the surface of the ventrolateral protocerebrum before entering a tract in the neuropil region below the lateral horn. Unlike aSP-k, the projection from the cell body does not bend before entering the tract. Within the tract, the neurite projects medially arborizing first in the ventral lateral horn, then projects medially to arborize a discrete ventral region in the ring. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast VPNl&d1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast BLVp2 (VLPl&p1). Its cell bodies are located in the lateral cell body region. A neurite projects medially through the ring and crosses the midline. Another branch projects to the lateral junction. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast VLPl_p1. Its cell bodies are located in the lateral cell body region. A neurite projects medially through the ring and crosses the midline. Another branch projects to the lateral junction. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast WEDa2. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the anterior ventrolateral protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the lateral cell body region. Neurites innervates a thin region in the lateral crescent. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the lateral cell body region. Neurites terminate in the ventrolateral protocerebrum. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located laterally in the ventrolateral protocerebrum. Neurites terminate at the anterior region of the anterior ventrolateral protocerebrum and wedge, and posterior region of the posterior ventrolateral protocerebrum (VLPr). These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, whose cell bodies are located in the lateral cell body region. Neurites form a local arbor and then project dorsally. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the anterior subesophageal ganglion. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located at the ventral midline of the esophageal foramen, dorsal to the adult subesophageal zone. Neurites project posteriorly before making a turn anteriorly. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located at the anterior midline of the adult subesophageal zone, ventral to the aSG1 lineage clone. Neurites project posteriorly, towards the esophageal foramen. The path each neuron takes is highly variable. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located medially at the ventral adult subesophageal zone. A neurite projects dorsally towards the esophageal foramen. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located near the midline of the adult subesophageal zone. Neurites project dorsally to the dorsal esophageal foramen. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located lateral to the midline, ventral to the subesophageal zone. A neurite projects mostly ipsilaterally forming extensive networks in the subesophageal zone. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located lateral to the ventral adult subesophageal zone. Neurites arborize extensively in the ipsilateral subesophageal zone. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast SMPad1. Its cell bodies located are located in the pars intercerebralis. Projections extend laterally away from the pars intercerebralis and then ventrally to the lateral junction. The extensive arbors span the arch, lateral junction and the medial ring. The axonal arbors are likely to be enriched in the lateral junction. Females have less extensive arbors compared with males. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast SMPad1. Its cell bodies located are located in the pars intercerebralis. Projections extend laterally away from the pars intercerebralis and then ventrally to the lateral junction. The extensive arbors span the arch, lateral junction and the medial ring. The axonal arbors are likely to be enriched in the lateral junction. Females have less extensive arbors compared with males. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast SMPad2. Its cell bodies are located in the dorsal pars intercerebralis. Neurites project ventroposteriorly and then bifurcate. One branch projects ipsilaterally and terminates in the medial protocerebrum. The other branch projects ventromedially, turns dorsally at the midline and then joins the path of the same cluster on the contralateral side possibly arborizing in the contralateral hemisphere. The dendritic arbors are likely to be located in the lateral junction while the axonal arbors are in the ventral medial protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast SMPad2. Its cell bodies are located in the dorsal pars intercerebralis. Neurites project ventroposteriorly and then bifurcate. One branch projects ipsilaterally and terminates in the medial protocerebrum. The other branch projects ventromedially, turns dorsally at the midline and then joins the path of the same cluster on the contralateral side possibly arborizing in the contralateral hemisphere. The dendritic arbors are likely to be located in the lateral junction while the axonal arbors are in the ventral medial protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast SMPad4. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast DALcm1 (CREa2). These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the anterior superior protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, whose cell bodies are located in the anterior superior protocerebrum. Neurites project ventrally in the dorsal lateral protocerebrum and form arbors extending down to the lateral crescent. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, whose cell bodies are located in the anterior superior protocerebrum. Neurites project ventrally in the dorsal lateral protocerebrum and form arbors extending down to the lateral crescent. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the anterior superior protocerebrum. Neurites project ventrally in the dorsal lateral protocerebrum and form arbors extending down to the lateral crescent. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast SLPal2. The cell bodies are located away from the neuropil, lateroanteriorly from the lateral horn. A neurite enters a neuropil tract anterior to lateral horn and projects medially to arborize in the dorsolateral protocerebrum. It also projects to the contralateral hemisphere. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast SLPal2. The cell bodies are located away from the neuropil, lateroanteriorly from the lateral horn. A neurite enters a neuropil tract anterior to lateral horn and projects medially to arborize in the lateral junction and the lateral crescent. It also projects to the contralateral hemisphere. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast SLPal2. The cell bodies are located away from the neuropil, lateroanteriorly from the lateral horn. A neurite enters a neuropil tract anterior to lateral horn and projects medially to arborize in the dorsolateral protocerebrum. It also projects to the contralateral hemisphere. May not all develop from SLPal2 - Bates et al. (2020) - FlyBase:FBrf0246460 data has one from SLPal2 (DPLal3) ventral hemilineage, one from LHl2 (DPLal2) medial hemilineage.
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast DPLal2 (LHl2). These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast DPLal2 (LHl2). These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast AOTUv3. Its cell bodies are located ventrally to the anterior optic tubercle. Neurites project medially to arborize in the ipsilateral anterior optic tubercle. Arborization localizes to the dorsal region of the anterior optic tubercle. A neurite also branches to cross the midline in a distinctive V shape to arborize in the contralateral anterior optic tubercle. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast AOTUv3. Its cell bodies are located ventrally to the anterior optic tubercle. Neurites project medially to arborize in the ipsilateral anterior optic tubercle. Arborization localizes to the dorsal region of the anterior optic tubercle. A neurite also branches to cross the midline in a distinctive V shape to arborize in the contralateral anterior optic tubercle. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast AOTUv4. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast LHl1. The cell bodies are located in the lateral cell body region. The neurites first curve ventrally before entering a tract in neuropil region below lateral horn, then projects medially forming arborizations in the region medial to the lateral horn. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast LHl1. The cell bodies are located in the lateral cell body region. The neurites first curve ventrally before entering a tract in neuropil region below lateral horn, then projects medially forming arborizations in the region medial to the lateral horn. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast SLPav2. Its cell bodies are located in the lateral cell body region. A neurite makes a distinct turn, travels on the surface of the neuropil around the lateral horn to the posterior superior lateral protocerebrum to form broad superficial web-like arborizations in the superior medial and intermediate protocerebrum. A neurite also crosses the midline and arborizes in a small region at the medial end of the contralateral superior medial and intermediate protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast SLPa&l1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located dorsolaterally in the ventrolateral protocerebrum. Neurites enter the tract below the anterior optic tubercle and branches. The first branch arborizes in the anterior ventrolateral protocerebrum and wedge, and posterior region of the posterior ventrolateral protocerebrum (VLPr). The other branch continues medially, with one branch of the neurite arborizing in the lateral junction while the other crosses the midline and arborizes in the contralateral lateral junction. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the anterior inferior protocerebrum. Neurites project posteromedially arborizing in the superior intermediate and medial protocerebrum, and a discrete region at the medial terminal of the mushroom gamma lobes in both hemispheres. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in a cleft between the anterior optic tubercle and the mushroom body lobe junction. A neurite projects medioventrally in the neuropil forming arborizations in the ventral body and then descends out of the brain. The neurites in the ventral nerve cord terminate in the pro-, meso- and metathoracic neuromere. These are likely to be axonal based on morphology. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, whose cell bodies are located between the anterior optic tract and the ventrolateral protocerebrum, immediately medial to aSP5 lineage clone. A neurite projects ventrally before turning dorsally and extends superficially along the arch to the contralateral hemisphere. Arbors span the lateral junction. Females do not have extensive arbors in the ring structure. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, whose cell bodies are located between the anterior optic tract and the ventrolateral protocerebrum, immediately medial to aSP5 lineage clone. A neurite projects ventrally before turning dorsally and extends superficially along the arch to the contralateral hemisphere. Arbors span the lateral junction, lateral and medial ring. Females do not have extensive arbors in the ring structure. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the dorsal abdominal segment, between the metathoracic segment and the abdominal segment. It arborizes in the dorsal anterior region of the metathoracic segment. One branch of the neurite leaves the ventral nerve cord. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the dorsal abdominal segment. It projects anteriorly along the midline, forming arbors in the pro- and mesothoracic segments, close to the terminals of the leg sensory afferents. It also arborizes in the brain. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the dorsal abdominal segment, between the metathoracic and the abdominal segments. Bilateral dendritic arborizations are located in the dorsal anterior region of the metathoracic segment, with axon terminals found in the dorsal abdominal segment. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the dorsal posterior region of the prothoracic segment. Neurites project medially entering the neuropil through a tract entrance located laterally to the region between the pro- and mesothoracic neuromeres. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the dorsal region of the mesothoracic segment. Neurites enter the neuropil via a tract entrance in the dorsal anterior region of the mesothoracic segment. It projects ventromedially and turns back dorsally. Dendritic arbors are located in the dorsal region while the axonal arbors are located in the ventral region of the mesothoracic segment. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the dorsal region of the prothoracic segment, at the midline. A neurite enters the neuropil and projects anteriorly, exiting the VNC. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the dorsal region between the mesothoracic and metathoracic segments. A neurite enters the neuropil laterally and projects anteriorly. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult female that express fruitless, whose cell bodies are located in the dorsal region between the mesothoracic and metathoracic segments, very close to those of the dMS4 lineage clone. Arborization is confined in the mesothoracic neuromere. This clone is not found in males. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the dorsal region between the mesothoracic and metathoracic segments, close to an entry tract. Neurites project ventrally. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the dorsal region of the metathoracic segment. It projects outs of the abdominal segment. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult male ventral nerve cord that express fruitless, whose cell bodies are located in the medial anterior region of the prothoracic ganglion. Its neurons extend neurites bilaterally to innervate the wing neuropil of the anterior mesothoracic ganglion. This clone is not found in females. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (von Philipsborn et al., 2011).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the lobula. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the medulla. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from one of the mushroom body neuroblasts. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast PSp3. Its cell bodies are located laterally in a cluster close to the tract entrance below the protocerebral bridge. A neurite projects anteriorly before branching. The dorsal branch leads to dense arborizations in the ventral and medial ipsilateral ring. The dorsal projection travels lateroventrally forming dense arborizations in multiple regions including the lateral accessory lobe, posterior antennal mechanosensory motor center and subesophageal zone before exiting the brain. In the ventral nerve cord, the projections travel along a lateral tract and arborize mostly in the meso- and metathoracic neuromeres. This clone is rare in females. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast PSp3. Its cell bodies are located laterally in a cluster close to the tract entrance below the protocerebral bridge. A neurite projects anteriorly before branching. The dorsal branch leads to dense arborizations in the ventral and medial ipsilateral ring. The dorsal projection travels lateroventrally forming dense arborizations in multiple regions including the lateral accessory lobe, posterior antennal mechanosensory motor center and subesophageal zone before exiting the brain. In the ventral nerve cord, the projections travel along a lateral tract and arborize mostly in the meso- and metathoracic neuromeres. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast VPNp1. The cell bodies are located in the lateral cell body region. A neurite projects ventrally, arborizing in the dorsal anterior lobula. The neurite then fasciculates with the great commissure to terminate in the contralateral lobula. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast VPNp&v1. Its cell bodies are located in the lateral cell body region. Neurites are likely to project to a region in the posterior ventrolateral protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast VPNd2. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast DL1. The cell bodies are located in the posteriolateral brain. Neurites project anteriorly forming arbors in the entire ring and regions ventral to the ring. One branch projects medially and crosses the midline. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast DL1. The cell bodies are located in the posteriolateral brain. Neurites project anteriorly forming arbors in the entire ring and regions ventral to the ring. One branch projects medially and crosses the midline. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior inferior protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast DM5. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, whose cell bodies are located in the posterior inferior protocerebrum. The cell bodies are located medial to pIP-a neurons. Neurites enter the neuropil through the same tract opening as pIP-a and branches. One branch travels dorsoanteriorly, towards the medial ring. Another projects to the ventromedial region of the contralateral ring. The third branch crosses the midline above the esophageal foramen and travels ventrally and exits the brain to terminate in the ventral nerve cord. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, whose cell bodies are located in the posterior inferior protocerebrum. The cell bodies are located medial to pIP-a neurons. Neurites enter the neuropil through the same tract opening as pIP-a and branches. One branch travels dorsoanteriorly, towards the medial ring. Another projects to the ventromedial region of the contralateral ring. The third branch crosses the midline above the esophageal foramen and travels ventrally and exits the brain to terminate in the ventral nerve cord. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior inferior protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior inferior protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male that express fruitless, whose cell bodies are located in the medial posterior brain. Its neurons extend neurites bilaterally, branching ventrally to innervate the periesophageal region and dorsally to the superior protocerebrum. One process descends to the ventral nerve cord innervating the wing neuropil of the mesothoracic ganglion. This clone is not found in females. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (von Philipsborn et al., 2011).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior inferior protocerebrum. Neurites enter a tract in the medial posterior brain and project anteriorly behind the mushroom body lobes. The projections are likely to terminate in the lateral crescent and medial ring. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the lateral cell body region. It arborizes in the posterior lobula, with a neurite projecting medially to arborize in the medial region of the ring. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior inferior protocerebrum. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast DM1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast DM1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast DM2. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast DM2. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast DM4. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast DM4. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior medial protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, whose cell bodies are located in the posterior medial protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010). The pMP-e clone includes the male specific P1 neurons which arborize extensively in the protocerebrum (Kimura et al., 2008).
A clone of neurons in the adult male brain that expresses fruitless, whose cell bodies are located in the posterior medial protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010). The pMP-e clone includes the male specific P1 neurons which arborize extensively in the protocerebrum (Kimura et al., 2008).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast DM6. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast DM6. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior medial protocerebrum. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located medial to the mushroom body calyx. Neurites project initially medially, then dorsally to form a fork at the pars intercerebralis. A lateral branch arborizes in the lateral junction. The ventral branch continues ventrally along the median bundle and descends into the ventral nerve cord to terminate in the abdominal segment. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult male that express fruitless, whose cell bodies are located medial to the mushroom body calyx. A neurite projects medially and forms two branches. The lateral branch forms dendritic arbors in the medial ring and lateral crescent. The ventral branch travels long the contralateral midline and forms axonal arbors in the adult subesophageal zone before leaving the brain. In the ventral nerve cord, there is an A-shaped axonal arbor near the dorsal anterior region. The other terminals in the ventral nerve cord are located at the dorsal metathoracic segment and the abdominal segment. This clone is not found in females. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located medial to the mushroom body calyx. A neurite forms a dorsal branch soon after entering the neuropil and projects to the lateral junction. The ventral branch crosses the midline to arborize in a region near the ventral medial antennal lobe. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located anterior to the protocerebral bridge. Neurites project ventrally through a tract posterior to the fan-shaped body and extends anteriorly towards region above the antennal lobe and in the anteriomedial protocerebrum. Arborizations are found in the bulb and in part of the superior medial and intermediate protocerebrum. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located posterior to the protocerebral bridge. A neurite projects ventrally then laterally, along the posterior optic commissure to arborize sparsely the lobula. Two arborization regions are observed: one in the posterior adult subesophageal zone and a smaller region in the lateral subesophageal zone. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior subesophageal ganglion. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior subesophageal ganglion. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior subesophageal ganglion. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior subesophageal ganglion. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located in the posterior subesophageal ganglion. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located at the ventral midline. A neurite projects anteriorly and dorsally towards the anterior esophageal foramen. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located posteroventrally to the adult subesophageal zone. Neurites project ventrally to the dorsal esophageal foramen. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast SMPpd1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult female brain that expresses fruitless, all of which develop from neuroblast SLPpl1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult male brain that expresses fruitless, all of which develop from neuroblast SLPpl1. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast LHp2. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast DPLal2 (LHl2). These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast LHp2. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, all of which develop from neuroblast LHl3. These clones were obtained by MARCM using a fru-GAL4 driver (FBal0276838), with clones induced at the first instar larval stage (Cachero et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located posterior to the posterior superior lateral protocerebrum. A neurite projects medially and arborizes in the posterior region of the dorsal superior intermediate protocerebrum and in the anterior part of the dorsal superior medial protocerebrum (MSMPr). These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located lateral to the mushroom body calyx. A neurite enters the neuropil close to a small ridge medial to the posterior lateral horn and projects medially. The projection extends towards the lateral junction. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located laterally to the posterior lateral horn. Neurites project medially then bend lateral dorsally. It seems to arborize locally in the lateral horn. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located lateroventral to the mushroom body calyx. A neurite projects medially, crossing the mushroom body pedunculus towards the medial protocerebrum. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain that expresses fruitless, whose cell bodies are located lateral to the mushroom body calyx, ventral to the pSP4 lineage clone. A neurite projects medially, entering and crossing the tract containing the mushroom body pedunculus. The projection continues towards the lateral junction. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventral region of the abdominal segment. It projects to the ipsilateral metathoracic neuromere. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventral region of the midline of the abdominal segment. It projects along the ventral nerve cord to the brain. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult female that express fruitless, whose cell bodies are located in the ventral abdominal ganglion. It is composed of ascending neurons that innervate the three leg pairs and the subesophageal zone, terminating in the superior lateral protocerebrum. It is a sexually dimorphic clone: neuron arborization in the subesophageal zone is ventral to male vAB3 clones. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult male that express fruitless, whose cell bodies are located in the ventral abdominal ganglion. It is composed of ascending neurons that innervate the three leg pairs and the subesophageal zone, terminating in the superior lateral protocerebrum. It is a sexually dimorphic clone: neuron arborization in the subesophageal zone is dorsal to female vAB3 clones. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventrolateral region of the mesothoracic segment. It arborizes extensively in the ipsilateral mesothoracic neuromere before exiting the ventral nerve cord to the mesothoracic legs. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventromedial region of the anterior mesothoracic segment. The neurite projects to the contralateral prothoracic neuromere. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventroanterior region of the mesothoracic segment. Its neurite projects dorsally forming thick arbors in the dorsal mesothoracic neuromere. One branch exits the VNC via the anterior dorsal mesothoracic nerve to innervate direct and indirect flight muscles (basalar muscles and coxal tergal remotor muscles, respectively). These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the anteriolateral region of the mesothoracic segment. Neurites project medially and slightly posteriorly, bifurcating into an ipsilateral and a contralateral branches that run along close to the midline. Both branches terminate in the prothoracic neuromere possibly connecting to the foreleg afferents. The contralateral branch then exits the ventral nerve cord. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventroanterior region of the mesothoracic segment, adjacent to the vMS2 lineage clone. A neurite projects medially and branches. The ipsilateral branch projects anteriorly to the prothoracic neuromere to arborize in the anterior region. The other branch crosses the midline and forms a contralateral arbor in the prothoracic neuromere before projecting to the metathoracic neuromere. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventromedial region of the anterior mesothoracic segment. The ipsilateral branch projects anteriorly and terminates in the prothoracic neuromere. The other branch crosses the midline and projects posteriorly. The arborization is similar to that of the vMS4 lineage clone. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located on the midline in the ventroanterior region of the mesothoracic segment. Its neurite projects dorsally. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventroposterior region of the mesothoracic segment. Neurites project dorsally and anteriorly to arborize locally in the mesothoracic neuromere. It is similar to the arborization pattern of the vAB1 lineage clone. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventral region of the mesothoracic segment. Neurites project dorsally and curves anteriorly. The projection pattern is highly variable between neurons of this clone. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventral region of the mesothoracic segment. The neurite projects dorsally. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventrolateral region of the metathoracic segment. Neurites enter the neuropil close to the anterior region of the metathoracic neuromere and projects anteriorly. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult male that express fruitless, whose cell bodies are located in the ventral anterior region of the prothoracic ganglion close to the midline. Its neurons extend neurites into the brain to innervate the medial ring in the protocerebrum. It projects posteriorly forming arborizations in a distinct ‘A’ shape extending to the anterior of the mesothoracic segment. This clone is not found in females. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the anterior region of the prothoracic segment. The neurite enters the prothoracic neuromere and projects laterally, seeming to exit the ventral nerve cord to innervate the foreleg. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the anterior region of the prothoracic segment. The neurite projects posteriorly in the prothoracic segment. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventrolateral region of the prothoracic segment. The neurite projects medially in the prothoracic neuromere. The arborization is located in the anterior prothoracic neuromere. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventrolateral region of the prothoracic segment, very close to the soma of vPR4 lineage clone neurons. The neurite projects dorsally and arborizes in the anterior medial prothoracic neuromere. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the female adult ventral nerve cord that express fruitless, whose cell bodies are located laterally near the border of the prothoracic and mesothoracic ganglia. Its neurons extend neurites medially and posteriorly within the wing neuropil. This clone is dimorphic, with differences in arborization in the mesothoracic triangle between males and females. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the male adult ventral nerve cord that express fruitless, whose cell bodies are located laterally near the border of the prothoracic and mesothoracic ganglia. Its neurons extend neurites medially and posteriorly within the wing neuropil. This clone is dimorphic, with differences in arborization in the mesothoracic triangle between males and females. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventral region of the posterior prothoracic segment, close to the midline. Neurites project dorsomedially towards the midline and form arborizations in the medial prothoracic neuromere. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located in the ventromedial region of the prothoracic segment. A neurite projects dorsally and branches. The lateral branch projects to the anterior region of the prothoracic neuromere while the medial branch projects dorsally to the midline. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult that express fruitless, whose cell bodies are located on the midline, immediately posterior to the prothoracic neuromere. A neurite projects dorsally. These clones were obtained by FLP recombinase, combining a fru[FLP] allele (FBal0248671) and several GAL4 drivers whose expression includes subsets of fruitless neurons (Yu et al., 2010).
A clone of neurons in the adult brain, all of which develop from neuroblast LALv1.
A clone of neurons in the adult brain, all of which develop from neuroblast LHa3.
A clone of neurons in the adult brain, all of which develop from neuroblast LHa4.
A clone of neurons in the adult brain, all of which develop from neuroblast LHd2.
A clone of neurons in the adult brain, all of which develop from neuroblast LHl3.
A clone of neurons in the adult brain, all of which develop from the neuroblasts MBp1-4. There are four equivalent lineage clones of this type, MBp1-p4, which develop from one of four neuroblasts (Ito et al., 2013; Yu et al., 2013).
A clone of neurons in the adult brain, all of which develop from neuroblast MBp1. There are four equivalent lineage clones of this type, which develop from one of four neuroblasts (Ito et al., 2013; Yu et al., 2013).
A clone of neurons in the adult brain, all of which develop from neuroblast MBp2. There are four equivalent lineage clones of this type, MBp1-p4, which develop from one of four neuroblasts (Ito et al., 2013; Yu et al., 2013).
A clone of neurons in the adult brain, all of which develop from neuroblast MBp3. There are four equivalent lineage clones of this type, MBp1-p4, which develop from one of four neuroblasts (Ito et al., 2013; Yu et al., 2013).
A clone of neurons in the adult brain, all of which develop from neuroblast MBp4. There are four equivalent lineage clones of this type, MBp1-p4, which develop from one of four neuroblasts (Ito et al., 2013; Yu et al., 2013).
A clone of neurons in the adult brain, all of which develop from neuroblast PBp1.
A clone of neurons in the adult brain, all of which develop from neuroblast PSp1.
A clone of neurons in the adult brain, all of which develop from neuroblast PSp2.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPa&l1.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPal4.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPal5.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPav1.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPav2.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPav3.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPav4.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPp&v1.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPpl2.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPpl3.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPpl4.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPpm2.
A clone of neurons in the adult brain, all of which develop from neuroblast SLPpm4.
A clone of neurons in the adult brain, all of which develop from neuroblast SMPad1 (female).
A clone of neurons in the adult brain, all of which develop from neuroblast SMPad1 (male).
A clone of neurons in the adult brain, all of which develop from neuroblast SMPad1 (Yu et al., 2013). There are differences between the male and female clones (Yu et al., 2013).
A clone of neurons in the adult brain, all of which develop from neuroblast SMPad2.
A clone of neurons in the adult brain, all of which develop from neuroblast SMPad3.
A clone of neurons in the adult brain, all of which develop from neuroblast SMPad4.
A clone of neurons in the adult brain, all of which develop from neuroblast SMPp&v1.
A clone of neurons in the adult brain, all of which develop from neuroblast SMPp&v2.
A clone of neurons in the adult brain, all of which develop from neuroblast SMPpd2.
A clone of neurons in the adult brain, all of which develop from neuroblast VESa1.
A clone of neurons in the adult brain, all of which develop from neuroblast VLPa1.
A clone of neurons in the adult brain, all of which develop from neuroblast VLPa2.
A clone of neurons in the adult brain, all of which develop from neuroblast VLPd1.
A clone of neurons in the adult brain, all of which develop from neuroblast VLPd2.
A clone of neurons in the adult brain, all of which develop from neuroblast VLPl1.
A clone of neurons in the adult brain, all of which develop from neuroblast VLPl3.
A clone of neurons in the adult brain, all of which develop from neuroblast VLPl4.
A clone of neurons in the adult brain, all of which develop from neuroblast VLPp2.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNd2.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNd3.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNd4.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNl&d1.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNp&v1.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNp1.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNp2.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNp3.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNp4.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNv1.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNv2.
A clone of neurons in the adult brain, all of which develop from neuroblast VPNv3.
A clone of neurons in the adult brain, all of which develop from neuroblast WEDd2.
[confocal microscopy; aIP-a clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aIP-a lineage clone]
[confocal microscopy; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aIP-a lineage clone; aIP-a_M clone of Cachero 2010]
[confocal microscopy; aIP-b clone of Cachero 2010; is part of; JRC2018Unisex; adult fruitless aIP-b (female) lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; aIP-b_M clone of Cachero 2010; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aIP-b (male) lineage clone]
[confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; aIP-c clone of Cachero 2010; adult fruitless aIP-c (female) lineage clone]
[confocal microscopy; aIP-c_M clone of Cachero 2010; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aIP-c (male) lineage clone]
[confocal microscopy; adult fruitless aIP-d (female) lineage clone; JRC2018Unisex; is part of; aIP-d clone of Cachero 2010; adult brain; adult brain template JFRC2]
[confocal microscopy; male organism; aIP-d_M clone of Cachero 2010; adult fruitless aIP-d (male) lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult fruitless aIP-e (female) lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; aIP-e clone of Cachero 2010]
[adult fruitless aIP-e (male) lineage clone; confocal microscopy; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; aIP-e_M clone of Cachero 2010]
[adult fruitless aIP-f lineage clone; confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; aIP-f clone of Cachero 2010]
[adult fruitless aIP-f lineage clone; confocal microscopy; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; aIP-f_M clone of Cachero 2010]
[confocal microscopy; adult fruitless aIP-g (female) lineage clone; is part of; JRC2018Unisex; aIP-g clone of Cachero 2010; adult brain; adult brain template JFRC2]
[confocal microscopy; male organism; aIP-g_M clone of Cachero 2010; is part of; JRC2018Unisex; adult fruitless aIP-g (male) lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; adult fruitless aIP-h lineage clone; aIP-h clone of Cachero 2010]
[confocal microscopy; aIP-h_M clone of Cachero 2010; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aIP-h lineage clone]
[confocal microscopy; JRC2018Unisex; aIP-i_F clone of Cachero 2010; adult brain template JFRC2; adult fruitless aIP-i lineage clone]
[confocal microscopy; aIP-i_M clone of Cachero 2010; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aIP-i lineage clone]
[ALad1 clone of Ito 2013; confocal microscopy; is part of; JRC2018Unisex; adult ALad1 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; ALad1 clone of Yu 2013; JRC2018Unisex; is part of; adult ALad1 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; ALl1 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult ALl1 lineage clone]
[confocal microscopy; ALl1 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult ALl1 lineage clone]
[confocal microscopy; ALlv1 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult ALlv1 lineage clone]
[confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult ALlv1 lineage clone; ALlv1 clone of Yu 2013]
[confocal microscopy; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; adult ALv1 lineage clone; ALv1 clone of Ito 2013]
[confocal microscopy; ALv1 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult ALv1 lineage clone]
[confocal microscopy; ALv2 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult ALv2 lineage clone]
[AOTUv1 clone of Ito 2013; confocal microscopy; adult DALcm2 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[AOTUv1 clone of Yu 2013; confocal microscopy; adult DALcm2 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[AOTUv2 clone of Ito 2013; confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult DALl1 lineage clone]
[AOTUv2 clone of Yu 2013; confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult DALl1 lineage clone]
[confocal microscopy; adult DALcl1 lineage clone; AOTUv3 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DALcl1 lineage clone; AOTUv3 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; AOTUv4 clone of Ito 2013; adult DALcl2 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DALcl2 lineage clone; AOTUv4 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[aSG-a clone of Cachero 2010; confocal microscopy; adult fruitless aSG-a lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; male organism; adult fruitless aSG-a lineage clone; is part of; JRC2018Unisex; aSG-a_M clone of Cachero 2010; adult brain; adult brain template JFRC2]
[confocal microscopy; adult brain template JFRC2; JRC2018Unisex; is part of; adult brain; aSP-a clone of Cachero 2010; adult fruitless aSP-a (female) lineage clone]
[confocal microscopy; adult brain; aSP-a_M clone of Cachero 2010; male organism; is part of; JRC2018Unisex; adult fruitless aSP-a (male) lineage clone; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; aSP-b clone of Cachero 2010; adult fruitless aSP-b (female) lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; aSP-b_M clone of Cachero 2010; male organism; adult fruitless aSP-b (male) lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult fruitless aSP-c lineage clone; aSP-c clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; aSP-c_M clone of Cachero 2010; adult fruitless aSP-c lineage clone; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; JRC2018Unisex; is part of; adult fruitless aSP-d lineage clone; adult brain; adult brain template JFRC2; aSP-d clone of Cachero 2010]
[confocal microscopy; male organism; aSP-d_M clone of Cachero 2010; is part of; JRC2018Unisex; adult fruitless aSP-d lineage clone; adult brain; adult brain template JFRC2]
[aSP-e clone of Cachero 2010; confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aSP-e lineage clone]
[aSP-e_M clone of Cachero 2010; confocal microscopy; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aSP-e lineage clone]
[aSP-f clone of Cachero 2010; confocal microscopy; adult fruitless aSP-f (female) lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult fruitless aSP-f (male) lineage clone; male organism; is part of; JRC2018Unisex; aSP-f_M clone of Cachero 2010; adult brain; adult brain template JFRC2]
[adult fruitless aSP-g (female) lineage clone; confocal microscopy; aSP-g clone of Cachero 2010; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; adult fruitless aSP-g (male) lineage clone; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; aSP-g_M clone of Cachero 2010]
[confocal microscopy; adult brain template JFRC2; aSP-h clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult fruitless aSP-h (female) lineage clone]
[adult fruitless aSP-h (male) lineage clone; confocal microscopy; male organism; aSP-h_M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; aSP-i clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aSP-i (female) lineage clone]
[confocal microscopy; male organism; adult fruitless aSP-i (male) lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; aSP-i_M clone of Cachero 2010]
[aSP-j clone of Cachero 2010; confocal microscopy; adult fruitless aSP-j lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult fruitless aSP-j lineage clone; male organism; aSP-j_M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; aSP-k clone of Cachero 2010; adult brain; adult brain template JFRC2; adult fruitless aSP-k (female) lineage clone]
[aSP-k_M clone of Cachero 2010; confocal microscopy; male organism; is part of; JRC2018Unisex; adult fruitless aSP-k (male) lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; aSP-l clone of Cachero 2010; adult brain template JFRC2; is part of; JRC2018Unisex; adult brain; adult fruitless aSP-l lineage clone]
[confocal microscopy; male organism; adult brain template JFRC2; aSP-l_M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult fruitless aSP-l lineage clone]
[aSP-m clone of Cachero 2010; confocal microscopy; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; adult fruitless aSP-m lineage clone]
[confocal microscopy; male organism; aSP-m_M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless aSP-m lineage clone]
[confocal microscopy; adult brain template JFRC2; is part of; JRC2018Unisex; CLp1 clone of Ito 2013; adult brain; adult CLp1 lineage clone]
[confocal microscopy; adult brain template JFRC2; is part of; CLp1 clone of Yu 2013; JRC2018Unisex; adult brain; adult CLp1 lineage clone]
[confocal microscopy; CLp2 clone of Yu 2013; is part of; JRC2018Unisex; adult CLp2 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; adult brain template JFRC2; is part of; JRC2018Unisex; adult CREa1 (female) lineage clone; adult brain; CREa1 (female) clone of Yu 201]
[confocal microscopy; CREa1 (male) clone of Yu 2013; adult CREa1 (male) lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[CREa1 clone of Ito 2013; confocal microscopy; is part of; JRC2018Unisex; adult CREa1 (female) lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; CREa2 clone of Ito 2013; adult DALcm1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; CREa2 clone of Yu 2013; adult DALcm1 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[DL1 clone of Ito 2013; confocal microscopy; adult CP2 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; adult CP2 lineage clone; adult brain template JFRC2; is part of; JRC2018Unisex; adult brain; DL1 clone of Yu 2013]
[confocal microscopy; DL2 clone of Ito 2013; adult CP3 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; DL2 clone of Yu 2013; adult CP3 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; DM1 clone of Ito 2013; adult DM1 lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult brain template JFRC2; is part of; JRC2018Unisex; adult DM1 lineage clone; adult brain; DM1 clone of Yu 2013]
[confocal microscopy; adult brain template JFRC2; DM2 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult DM2 lineage clone]
[confocal microscopy; adult brain template JFRC2; adult DM2 lineage clone; is part of; JRC2018Unisex; adult brain; DM2 clone of Yu 2013]
[confocal microscopy; DM3 clone of Ito 2013; adult DM3 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; DM3 clone of Yu 2013; adult DM3 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[adult DM4 lineage clone; confocal microscopy; DM4 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[adult DM4 lineage clone; confocal microscopy; DM4 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DM5 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; DM5 clone of Ito 2013]
[confocal microscopy; DM5 clone of Yu 2013; adult DM5 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DM6 lineage clone; JRC2018Unisex; is part of; DM6 clone of Ito 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DM6 lineage clone; DM6 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; adult DALv2 lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2; EBa1 clone of Ito 2013]
[confocal microscopy; is part of; adult DALv2 lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2; EBa1 clone of Yu 2013]
[confocal microscopy; adult EBp1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; EBp1 clone of Ito 2013]
[confocal microscopy; adult brain template JFRC2; adult FLAa1 lineage clone; is part of; JRC2018Unisex; adult brain; FLa1 clone of Ito 2013]
[confocal microscopy; FLAa1 clone of Yu 2013; adult FLAa1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BAmas1 lineage clone; FLAa2 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; FLAa2 clone of Yu 2013; adult BAmas1 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; adult brain template JFRC2; is part of; JRC2018Unisex; adult brain; FLAa3 (female) clone of Yu 201; adult BAmas2 (female) lineage clone]
[confocal microscopy; adult BAmas2 (male) lineage clone; FLAa3 (male) clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[adult SLPav4 lineage clone; expresses; confocal microscopy; neuronbridge; P{GMR22G09-GAL4} expression pattern; is part of; FlyLight; JRC2018Unisex; JRC_R22G09 GAL4 in the adult brain; adult brain template JFRC2]
[expresses; P{GMR30A02-GAL4} expression pattern; confocal microscopy; adult fruitless pSP-d lineage clone; neuronbridge; is part of; FlyLight; JRC2018Unisex; adult brain template JFRC2; JRC_R30A02 GAL4 in the adult brain]
[adult fruitless pSP-e lineage clone; expresses; confocal microscopy; JRC_R41F09 GAL4 in the adult brain; neuronbridge; is part of; FlyLight; JRC2018Unisex; adult brain template JFRC2; P{GMR41F09-GAL4} expression pattern]
[expresses; confocal microscopy; P{GMR44H11-GAL4} expression pattern; JRC_R44H11 GAL4 in the adult brain; adult fruitless pSP-f lineage clone; neuronbridge; is part of; FlyLight; JRC2018Unisex; adult brain template JFRC2]
[adult LALv1 lineage clone; confocal microscopy; LALv1 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[adult LALv1 lineage clone; confocal microscopy; LALv1 clone of Yu 2013; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; LHa1 clone of Ito 2013; adult BLAd1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult brain template JFRC2; LHa1 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult BLAd1 lineage clone]
[confocal microscopy; is part of; JRC2018Unisex; adult BLVa1 lineage clone; adult brain; adult brain template JFRC2; LHa2 clone of Ito 2013]
[confocal microscopy; is part of; LHa2 clone of Yu 2013; JRC2018Unisex; adult BLVa1 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; adult LHa3 lineage clone; adult brain; adult brain template JFRC2; LHa3 clone of Ito 2013]
[confocal microscopy; is part of; JRC2018Unisex; adult LHa3 lineage clone; adult brain; adult brain template JFRC2; LHa3 clone of Yu 2013]
[confocal microscopy; LHa4 clone of Ito 2013; is part of; adult LHa4 lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DPLd lineage clone; LHd1 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DPLd lineage clone; LHd1 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; adult LHd2 lineage clone; LHd2 clone of Yu 2013; adult brain; adult brain template JFRC2]
[adult BLD4 lineage clone; confocal microscopy; LHl1 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[adult BLD4 lineage clone; confocal microscopy; is part of; JRC2018Unisex; LHl1 clone of Yu 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult DPLal2 lineage clone; LHl2 clone of Ito 2013]
[confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; LHl2 clone of Yu 2013; adult DPLal2 lineage clone]
[confocal microscopy; adult LHl3 lineage clone; LHl3 clone of Ito 2013; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; adult LHl3 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; LHl3 clone of Yu 2013]
[confocal microscopy; LHl4 clone of Ito 2013; is part of; JRC2018Unisex; adult BLD1 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; LHl4 clone of Yu 2013; JRC2018Unisex; adult BLD1 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; LHp1 clone of Ito 2013; adult BLP4 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; LHp1 clone of Yu 2013; adult BLP4 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; adult DPLp1 lineage clone; adult brain; adult brain template JFRC2; LHp2 clone of Ito 2013]
[confocal microscopy; is part of; JRC2018Unisex; adult DPLp1 lineage clone; adult brain; adult brain template JFRC2; LHp2 clone of Yu 2013]
[confocal microscopy; Lo clone of Cachero 2010; JRC2018Unisex; is part of; adult fruitless Lo lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; neuroblast lineage clone; M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[adult MBp1 lineage clone; confocal microscopy; is part of; JRC2018Unisex; MBp1 clone of Ito 2013; adult brain; adult brain template JFRC2]
[adult MBp1 lineage clone; confocal microscopy; MBp1 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; MBp2 clone of Ito 2013; adult MBp2 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[adult MBp3 lineage clone; confocal microscopy; MBp3 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult MBp4 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; MBp4 clone of Ito 2013]
[confocal microscopy; adult PBp1 lineage clone; JRC2018Unisex; PBp1 clone of Yu 2013; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; adult fruitless pIP-a (female) lineage clone; adult brain template JFRC2; is part of; JRC2018Unisex; adult brain; pIP-a clone of Cachero 2010]
[confocal microscopy; male organism; pIP-a_M clone of Cachero 2010; is part of; JRC2018Unisex; adult fruitless pIP-a (male) lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; adult fruitless pIP-b lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2; pIP-b clone of Cachero 2010]
[confocal microscopy; male organism; is part of; adult fruitless pIP-b lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2; pIP-b_M clone of Cachero 2010]
[confocal microscopy; pIP-c clone of Cachero 2010; adult fruitless pIP-c lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[pIP-c_M clone of Cachero 2010; confocal microscopy; male organism; adult fruitless pIP-c lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult fruitless pIP-d lineage clone; pIP-d clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[pIP-d_M clone of Cachero 2010; confocal microscopy; adult fruitless pIP-d lineage clone; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult brain template JFRC2; pIP-e clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult fruitless pIP-e (female) lineage clone]
[confocal microscopy; male organism; pIP-e_M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless pIP-e (male) lineage clone]
[confocal microscopy; adult fruitless pIP-f lineage clone; pIP-f clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult fruitless pIP-f lineage clone; male organism; adult brain template JFRC2; is part of; JRC2018Unisex; adult brain; pIP-f_M clone of Cachero 2010]
[confocal microscopy; adult fruitless pIP-g lineage clone; JRC2018Unisex; is part of; pIP-g clone of Cachero 2010; adult brain; adult brain template JFRC2]
[confocal microscopy; adult fruitless pIP-g lineage clone; male organism; pIP-g_M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; pIP-h clone of Cachero 2010; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; adult fruitless pIP-h (female) lineage clone]
[pIP-h_M clone of Cachero 2010; confocal microscopy; adult fruitless pIP-h (male) lineage clone; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; pIP-i clone of Cachero 2010; adult fruitless pIP-i lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; pIP-i_M clone of Cachero 2010; male organism; is part of; adult fruitless pIP-i lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; pIP-j clone of Cachero 2010; JRC2018Unisex; is part of; adult fruitless pIP-j lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; male organism; is part of; JRC2018Unisex; pIP-j_M clone of Cachero 2010; adult fruitless pIP-j lineage clone; adult brain; adult brain template JFRC2]
[pMP-a clone of Cachero 2010; confocal microscopy; adult fruitless pMP-a (female) lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; pMP-a_M clone of Cachero 2010; male organism; is part of; adult fruitless pMP-a (male) lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult fruitless pMP-b (female) lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; pMP-b clone of Cachero 2010]
[confocal microscopy; adult fruitless pMP-b (male) lineage clone; male organism; pMP-b_M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[adult fruitless pMP-c (female) lineage clone; confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; pMP-c clone of Cachero 2010]
[confocal microscopy; pMP-c_M clone of Cachero 2010; male organism; is part of; adult fruitless pMP-c (male) lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; pMP-d clone of Cachero 2010; adult fruitless pMP-d lineage clone]
[confocal microscopy; male organism; pMP-d_M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless pMP-d lineage clone]
[confocal microscopy; pMP-e clone of Cachero 2010; is part of; JRC2018Unisex; adult fruitless pMP-e (female) lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; pMP-e_M clone of Cachero 2010; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless pMP-e (male) lineage clone]
[confocal microscopy; adult fruitless pMP-f (female) lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; pMP-f clone of Cachero 2010]
[confocal microscopy; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless pMP-f (male) lineage clone; pMP-f_M clone of Cachero 2010]
[confocal microscopy; adult fruitless pMP-g lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; pMP-g clone of Cachero 2010]
[confocal microscopy; male organism; adult fruitless pMP-g lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; pMP-g_M clone of Cachero 2010]
[confocal microscopy; is part of; JRC2018Unisex; PSa1 clone of Ito 2013; adult brain; adult brain template JFRC2; adult BAlp1 lineage clone]
[confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; PSa1 clone of Yu 2013; adult BAlp1 lineage clone]
[pSG-a clone of Cachero 2010; confocal microscopy; is part of; adult fruitless pSG-a lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; pSG-a_M clone of Cachero 2010; male organism; is part of; adult fruitless pSG-a lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]
[adult fruitless pSG-b lineage clone; confocal microscopy; pSG-b clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[adult fruitless pSG-b lineage clone; confocal microscopy; pSG-b_M clone of Cachero 2010; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; pSG-c clone of Cachero 2010; adult fruitless pSG-c lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; pSG-c_M clone of Cachero 2010; male organism; adult fruitless pSG-c lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; pSG-d clone of Cachero 2010; adult fruitless pSG-d lineage clone]
[confocal microscopy; male organism; pSG-d_M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless pSG-d lineage clone]
[confocal microscopy; adult fruitless pSG-e lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; pSG-e clone of Cachero 2010]
[confocal microscopy; male organism; adult fruitless pSG-e lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; pSG-e_M clone of Cachero 2010]
[confocal microscopy; pSP-a clone of Cachero 2010; is part of; adult fruitless pSP-a lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]
[pSP-a_M clone of Cachero 2010; confocal microscopy; male organism; is part of; adult fruitless pSP-a lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]
[pSP-b clone of Cachero 2010; confocal microscopy; adult fruitless pSP-b (female) lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; pSP-b_M clone of Cachero 2010; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless pSP-b (male) lineage clone]
[confocal microscopy; pSP-c clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult fruitless pSP-c lineage clone]
[confocal microscopy; adult fruitless pSP-d lineage clone; pSP-d_F clone of Cachero 2010; JRC2018Unisex; adult brain template JFRC2]
[confocal microscopy; adult fruitless pSP-d lineage clone; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; pSP-d_M clone of Cachero 2010]
[adult fruitless pSP-e lineage clone; confocal microscopy; pSP-e_F clone of Cachero 2010; JRC2018Unisex; adult brain template JFRC2]
[adult fruitless pSP-e lineage clone; confocal microscopy; male organism; pSP-e_M clone of Cachero 2010; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; pSP-f_F clone of Cachero 2010; adult fruitless pSP-f lineage clone; JRC2018Unisex; adult brain template JFRC2]
[confocal microscopy; adult fruitless pSP-f lineage clone; male organism; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; pSP-f_M clone of Cachero 2010]
[confocal microscopy; PSp1 clone of Ito 2013; adult PSp1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult PSp1 lineage clone; PSp1 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; PSp2 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult PSp2 lineage clone]
[confocal microscopy; PSp2 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult PSp2 lineage clone]
[confocal microscopy; adult DPMl1 lineage clone; PSp3 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DPMl1 lineage clone; is part of; PSp3 clone of Yu 2013; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; adult BLAd2 lineage clone; SIPa1 clone of Ito 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; SIPa1 clone of Yu 2013; JRC2018Unisex; is part of; adult BLAd2 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DPMpl2 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; SIPp1 clone of Yu 2013]
[confocal microscopy; adult SLPa&l1 lineage clone; SLPa&l1 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; SLPa&l1 clone of Yu 2013; adult SLPa&l1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[SLPad1 clone of Ito 2013; confocal microscopy; adult DPLl3 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; SLPad1 clone of Yu 2013; adult DPLl3 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[adult DPLal1 lineage clone; confocal microscopy; SLPal1 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[adult DPLal1 lineage clone; confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; SLPal1 clone of Yu 2013]
[confocal microscopy; SLPal2 clone of Ito 2013; is part of; JRC2018Unisex; adult DPLal3 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; SLPal2 clone of Yu 2013; JRC2018Unisex; is part of; adult DPLal3 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BLAd3 lineage clone; SLPal3 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BLAd3 lineage clone; SLPal3 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; adult SLPal4 lineage clone; adult brain; adult brain template JFRC2; SLPal4 clone of Yu 2013]
[confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult SLPal5 lineage clone; SLPal5 clone of Yu 2013]
[confocal microscopy; SLPav1 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult SLPav1 lineage clone]
[confocal microscopy; SLPav1 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult SLPav1 lineage clone]
[SLPav2 clone of Ito 2013; confocal microscopy; adult SLPav2 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult SLPav2 lineage clone; SLPav2 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult SLPav3 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; SLPav3 clone of Yu 2013]
[adult SLPav4 lineage clone; confocal microscopy; JRC2018Unisex; adult brain template JFRC2; SLPav4 clone of Ito 2013]
[adult SLPp&v1 lineage clone; confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; SLPp&v1 clone of Ito 2013]
[adult SLPp&v1 lineage clone; confocal microscopy; JRC2018Unisex; is part of; SLPp&v1 clone of Yu 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DPLl1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; SLPpl1 clone of Ito 2013]
[confocal microscopy; adult DPLl1 lineage clone; SLPpl1 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; SLPpl2 clone of Yu 2013; adult SLPpl2 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; SLPpl3 clone of Yu 2013; adult SLPpl3 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; SLPpl4 clone of Ito 2013; adult SLPpl4 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; JRC2018Unisex; is part of; SLPpm1 clone of Ito 2013; adult brain; adult brain template JFRC2; adult DPLm1 lineage clone]
[confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; SLPpm1 clone of Yu 2013; adult DPLm1 lineage clone]
[confocal microscopy; adult SLPpm2 lineage clone; SLPpm2 clone of Yu 2013; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[adult DPLc3 lineage clone; confocal microscopy; is part of; JRC2018Unisex; SLPpm3 clone of Yu 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; SLPpm4 clone of Ito 2013; is part of; JRC2018Unisex; adult SLPpm4 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; SMPad1 (female) clone of Yu 20; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; adult SMPad1 (female) lineage clone]
[confocal microscopy; SMPad1 (male) clone of Yu 2013; adult SMPad1 (male) lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; SMPad1 clone of Ito 2013; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; adult SMPad1 (female) lineage clone]
[confocal microscopy; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; SMPad2 clone of Ito 2013; adult SMPad2 lineage clone]
[confocal microscopy; SMPad2 clone of Yu 2013; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; adult SMPad2 lineage clone]
[confocal microscopy; SMPad3 clone of Yu 2013; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; adult SMPad3 lineage clone]
[confocal microscopy; JRC2018Unisex; is part of; adult SMPad4 lineage clone; adult brain; adult brain template JFRC2; SMPad4 clone of Ito 2013]
[confocal microscopy; SMPp_v2 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult SMPp&v2 lineage clone]
[confocal microscopy; adult SMPp&v1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; SMPp&v1 clone of Ito 2013]
[confocal microscopy; adult SMPp&v1 lineage clone; is part of; SMPp&v1 clone of Yu 2013; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; SMPpd1 clone of Ito 2013; adult DPLc1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DPLc1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; SMPpd1 clone of Yu 2013]
[confocal microscopy; SMPpd2 clone of Ito 2013; adult SMPpd2 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DPMpl1 lineage clone; SMPpv1 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult CP1 lineage clone; SMPpv2 clone of Yu 2013; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; VESa1 clone of Ito 2013; adult VESa1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; VESa1 clone of Yu 2013; adult VESa1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BAmv2 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; VESa2 clone of Yu 2013]
[confocal microscopy; VLPa1 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult VLPa1 lineage clone]
[confocal microscopy; is part of; JRC2018Unisex; VLPa1 clone of Yu 2013; adult brain; adult brain template JFRC2; adult VLPa1 lineage clone]
[confocal microscopy; VLPa2 clone of Ito 2013; adult VLPa2 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult VLPa2 lineage clone; is part of; JRC2018Unisex; VLPa2 clone of Yu 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; adult DPLl2 lineage clone; VLPd&p1 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[VLPd&p1 clone of Yu 2013; confocal microscopy; adult DPLl2 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult brain template JFRC2; is part of; JRC2018Unisex; adult brain; VLPd1 clone of Ito 2013; adult VLPd1 lineage clone]
[confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; VLPd1 clone of Yu 2013; adult VLPd1 lineage clone]
[adult VLPd2 lineage clone; confocal microscopy; JRC2018Unisex; is part of; VLPd2 clone of Ito 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BLAv1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; VLPl&d1 clone of Ito 2013]
[confocal microscopy; adult BLAv1 lineage clone; is part of; JRC2018Unisex; VLPl&d1 clone of Yu 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; VLPl&p1 clone of Ito 2013; adult BLVp2 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; VLPl&p1 clone of Yu 2013; adult BLVp2 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BLVp1 lineage clone; VLPl&p2 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BLVp1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; VLPl&p2 clone of Yu 2013]
[VLPl1 clone of Ito 2013; confocal microscopy; is part of; JRC2018Unisex; adult VLPl1 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; VLPl1 clone of Yu 2013; is part of; JRC2018Unisex; adult VLPl1 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BLAv2 lineage clone; is part of; JRC2018Unisex; VLPl2 clone of Ito 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BLAv2 lineage clone; is part of; JRC2018Unisex; VLPl2 clone of Yu 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; adult VLPl3 lineage clone; VLPl3 clone of Ito 2013]
[confocal microscopy; VLPl4 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult VLPl4 lineage clone]
[adult DPLpv lineage clone; confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; VLPp&l1 clone of Ito 2013]
[adult DPLpv lineage clone; confocal microscopy; VLPp&l1 clone of Yu 2013; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BLP2 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; VLPp1 clone of Ito 2013]
[confocal microscopy; adult BLP2 lineage clone; VLPp1 clone of Yu 2013; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; VLPp2 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult VLPp2 lineage clone]
[confocal microscopy; VLPp2 clone of Yu 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; adult VLPp2 lineage clone]
[VPNd1 clone of Ito 2013; confocal microscopy; adult BLD6 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BLD6 lineage clone; is part of; JRC2018Unisex; VPNd1 clone of Yu 2013; adult brain; adult brain template JFRC2]
[VPNd2 clone of Ito 2013; confocal microscopy; JRC2018Unisex; is part of; adult VPNd2 lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; adult VPNd3 lineage clone; VPNd3 clone of Ito 2013]
[confocal microscopy; adult brain template JFRC2; is part of; JRC2018Unisex; adult brain; VPNd4 clone of Ito 2013; adult VPNd4 lineage clone]
[confocal microscopy; adult VPNl&d1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2; VPNl&d1 clone of Ito 2013]
[confocal microscopy; VPNl&d1 clone of Yu 2013; adult VPNl&d1 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2]
[confocal microscopy; VPNp&v1 clone of Ito 2013; adult VPNp&v1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[VPNp&v1 clone of Yu 2013; confocal microscopy; adult VPNp&v1 lineage clone; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult VPNp1 lineage clone; VPNp1 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult VPNp1 lineage clone; is part of; JRC2018Unisex; VPNp1 clone of Yu 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; adult VPNp2 lineage clone; is part of; JRC2018Unisex; VPNp2 clone of Ito 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; adult VPNp3 lineage clone; adult brain; adult brain template JFRC2; VPNp3 clone of Ito 2013]
[VPNp4 clone of Ito 2013; adult VPNp4 lineage clone; confocal microscopy; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[adult VPNv1 lineage clone; confocal microscopy; is part of; JRC2018Unisex; VPNv1 clone of Ito 2013; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; adult VPNv2 lineage clone; adult brain; adult brain template JFRC2; VPNv2 clone of Ito 2013]
[adult VPNv3 lineage clone; confocal microscopy; VPNv3 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BAlv lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; WEDa1 clone of Ito 2013]
[confocal microscopy; adult BAlv lineage clone; is part of; WEDa1 clone of Yu 2013; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BAlp3 lineage clone; WEDa2 clone of Ito 2013; is part of; JRC2018Unisex; adult brain; adult brain template JFRC2]
[confocal microscopy; adult BAlp3 lineage clone; JRC2018Unisex; is part of; adult brain; adult brain template JFRC2; WEDa2 clone of Yu 2013]
[confocal microscopy; WEDd1 clone of Ito 2013; is part of; JRC2018Unisex; adult DALd lineage clone; adult brain; adult brain template JFRC2]
[confocal microscopy; is part of; JRC2018Unisex; adult DALd lineage clone; adult brain; adult brain template JFRC2; WEDd1 clone of Yu 2013]
[WEDd2 clone of Ito 2013; confocal microscopy; is part of; adult WEDd2 lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]
[WEDd2 clone of Yu 2013; confocal microscopy; is part of; adult WEDd2 lineage clone; JRC2018Unisex; adult brain; adult brain template JFRC2]