Tag: Gustatory_system

adult ascending superior lateral protocerebrum gustatory projection neuron [FBbt_00052187]

Adult gustatory projection neuron that ascends to the superior lateral protocerebrum of one hemisphere via the medial subesophageal zone (Taisz et al., 2022). Cell type identified in FAFB and Hemibrain (not typed in v1.2.1) by Taisz et al. (2022).

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adult bract subesophageal neuron [FBbt_00051861]

Adult descending neuron with its soma in the ventral gnathal ganglion (Sterne et al., 2021). It has axonal arborization in the T1 leg neuropil and both dendritic and axonal arborization in the gnathal ganglion (Sterne et al., 2021). In the brain it is ipsilateral, and it descends on the ipsilateral side (Sterne et al., 2021). It responds to sugar stimuli and its activity stimulates proboscis extension (Shiu et al., 2022). It is predicted to be cholinergic (Shiu et al., 2022).

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adult clavicle subesophageal neuron [FBbt_00051867]

Adult local neuron with its soma in the subesophageal zone (Sterne et al., 2021). It has both dendritic and axonal arborization in the gnathal ganglion, with biased synapse distribution within this region (Sterne et al., 2021). It is mainly ipsilateral, but arborizes close to the midline (Sterne et al., 2021). It receives a large amount of input from sugar- and water-sensing gustatory neurons and its activation results in proboscis extension (Shiu et al., 2022). It is predicted to be cholinergic (Shiu et al., 2022).

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adult foregut-innervating sugar-sensing neuron of hypocerebral ganglion [FBbt_00053573]

Sugar-sensing neuron of the hypocerebral ganglion that sends processes into the lumen of the foregut at the junction of the crop duct and proventriculus (Cui et al., 2024). It responds rapidly to ingestion of sucrose (Cui et al., 2024). There are 3-4 of these neurons per organism (Cui et al., 2024).

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adult fruitless aSP-g1 (female) neuron [FBbt_00049330]

Adult fruitless neuron of the female aSP-g cluster belonging to a morphological subtype with relatively anterior dendritic arborization (Taisz et al., 2023). It is a lateral horn output neuron that fasciculates with the AD1 primary neurite tract (Frechter et al., 2019; Dolan et al., 2019; Bates et al., 2020). There are around three of these cells per hemisphere (Taisz et al., 2023) and they are cholinergic (Dolan et al., 2019; Bates et al., 2020).

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adult fruitless aSP-g2 (female) neuron [FBbt_00051555]

Adult fruitless neuron of the female aSP-g cluster belonging to a morphological subtype with dendritic arborization between the aSP-g1 and aSP-g3 groups on the anterior-posterior axis (Taisz et al., 2023). It is a lateral horn neuron that fasciculates with the AD1 primary neurite tract (Schlegel et al., 2021). It has a greater proportion of its dendritic arbor in the lateral horn than other female aSP-g neurons (Taisz et al., 2023). These cells receive input from projection neurons that receive input in antennal lobe glomerulus DA1 and they respond to the male sex pheromone cVA (Kohl et al., 2013; Taisz et al., 2023). There are around 3-5 of these cells per hemisphere (Taisz et al., 2023).

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adult fuchs subesophageal neuron [FBbt_00052227]

Adult local neuron of the subesophageal zone with its soma in the ventral gnathal ganglion (Shiu et al., 2022). It is mainly ipsilateral, but has some arborization near the midline (Shiu et al., 2022). It receives substantial input from sugar-sensing gustatory neurons (Shiu et al., 2022).

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adult Ir56d neuron of labellar taste bristle [FBbt_00048015]

Adult Ir56d-expressing neuron that innervates labellar taste bristles. It responds to sugars in solution and medium-chain fatty acids and projects to posterior maxillary sensory zone 4 (PMS4) of the subesophageal zone (Tauber et al., 2017; Sanchez-Alcaniz et al., 2018).

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adult Ir56d neuron of labellar taste peg [FBbt_00048014]

Adult Ir56d-expressing neuron that innervates labellar taste pegs. It responds to carbonated solutions and short- and medium-chain fatty acids and projects to anterior maxillary sensory zone 1 (AMS1) of the subesophageal zone (Tauber et al., 2017; Sanchez-Alcaniz et al., 2018).

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adult mediodorsal antennal lobe neuron 3 [FBbt_00052189]

Guststory projection neuron with its soma mediodorsal to the adult antennal lobe, dendritic arborization in the subesophageal zone and a dorsolateral axonal projection to the superior lateral protocerebrum that forms a loop (Taisz et al., 2022). It receives gustatory input in the subesophageal zone (Taisz et al., 2022). Cell type identified in FAFB and Hemibrain (Scheffer et al., 2020; Taisz et al., 2022).

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adult mediodorsal antennal lobe neuron 3 [FBbt_00052189]

Gustatory projection neuron with its soma mediodorsal to the adult antennal lobe, dendritic arborization in the subesophageal zone and a dorsolateral axonal projection to the superior lateral protocerebrum that forms a loop (Taisz et al., 2023). It receives gustatory input in the subesophageal zone (Taisz et al., 2023).

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adult midgut surface sugar-sensing neuron of hypocerebral ganglion [FBbt_00053574]

Sugar-sensing neuron of the hypocerebral ganglion that sends processes onto the muscles of the midgut (Cui et al., 2024). It does not enter the gut lumen (Cui et al., 2024). There are 2-3 of these neurons per organism (Cui et al., 2024).

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adult pheromone-sensing fru neuron of prothoracic leg (male) [FBbt_00052290]

Male-specific gustatory receptor neuron of the prothoracic leg that expresses ppk23 and fruitless (Thistle et al., 2012; Toda et al., 2012). It detects pheromones and is involved in stimulating male courtship of females and inhibiting courtship of males (Thistle et al., 2012; Toda et al., 2012). There are approximately 32 of these cells on each side (Toda et al., 2012). No fru/ppk23 cells in T2 or T3 legs (Toda et al., 2012) or proboscis (Thistle et al., 2012) or female T1 legs (Toda et al., 2012). Includes some cells that detect female pheromones (Toda et al., 2012) and some that detect male pheromones (Zhang et al., 2022 - FBrf0252940).

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adult pheromone-sensing fru neuron of prothoracic leg (male) [FBbt_00052290]

Male-specific gustatory receptor neuron of the prothoracic leg that expresses ppk23 and fruitless (Thistle et al., 2012; Toda et al., 2012). It detects pheromones and is involved in stimulating male courtship of females and inhibiting courtship of males (Thistle et al., 2012; Toda et al., 2012). There are approximately 32 of these cells on each side (Toda et al., 2012).

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adult pheromone-sensing fru neuron of prothoracic leg tarsal taste bristle 4a (male) [FBbt_00052291]

Any adult pheromone-sensing fru neuron of prothoracic leg (male) (FBbt:00052290) that has sensory dendrite in some prothoracic leg tarsal taste bristle 4a (male) (FBbt:00048178).

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adult pheromone-sensing fru neuron of prothoracic leg tarsal taste bristle 4a (male) [FBbt_00052291]

Any adult pheromone-sensing fru neuron of prothoracic leg (male) (FBbt:00052290) that has sensory dendrite in some prothoracic leg tarsal taste bristle 4a (male) (FBbt:00048178).

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adult pheromone-sensing fru neuron of prothoracic leg tarsal taste bristle 4b (male) [FBbt_00052292]

Any adult pheromone-sensing fru neuron of prothoracic leg (male) (FBbt:00052290) that has sensory dendrite in some prothoracic leg tarsal taste bristle 4b (FBbt:00048179).

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adult pheromone-sensing fru neuron of prothoracic leg tarsal taste bristle 4c (male) [FBbt_00052293]

Any adult pheromone-sensing fru neuron of prothoracic leg (male) (FBbt:00052290) that has sensory dendrite in some prothoracic leg tarsal taste bristle 4c (FBbt:00048180).

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adult quasimodo subesophageal neuron [FBbt_00052229]

Adult local neuron of the subesophageal zone with its soma in the lateral gnathal ganglion (Shiu et al., 2022). It is bilateral, but more of its innervation is in the ipsilateral hemisphere (Shiu et al., 2022). It receives substantial input from sugar-sensing gustatory neurons (Shiu et al., 2022).

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adult quasimodo subesophageal neuron [FBbt_00052229]

Adult local neuron of the subesophageal zone with its soma in the lateral gnathal ganglion (Shiu et al., 2022). It is bilateral, but more of its innervation is in the ipsilateral hemisphere (Shiu et al., 2022). It receives substantial input from sugar-sensing gustatory neurons (Shiu et al., 2022).

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adult scapula subesophageal neuron [FBbt_00052224]

Adult interneuron that receives a large amount of input from bitter-sensing gustatory neurons in the subesophageal zone and sends inhibitory (predicted glutamatergic) input to feeding premotor neurons (Shiu et al., 2022). Neurotransmitter prediction based on machine learning classification (Shiu et al., 2022). Named based on resemblance to an inverted scapula bone and proximity to clavicle neuron (Shiu et al., 2022).

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adult serotonergic sugar-SEL neuron [FBbt_00052256]

Adult serotonergic neuron that has its soma in the lateral subesophageal zone ad responds to sugar stimuli from the proboscis (Yao and Scott, 2022). It has mixed presynaptic and postsynaptic terminals in both hemispheres of the subesophageal zone, spanning the midline (Yao and Scott, 2022). There is a heterogeneous population of three of these cells per hemisphere, and they all contribute to the regulation of sugar intake (Yao and Scott, 2022).

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adult serotonergic sugar-SEL neuron [FBbt_00052256]

Adult serotonergic neuron that has its soma in the lateral subesophageal zone ad responds to sugar stimuli from the proboscis (Yao and Scott, 2022). It has mixed presynaptic and postsynaptic terminals in both hemispheres of the subesophageal zone, spanning the midline (Yao and Scott, 2022). There is a heterogeneous population of three of these cells per hemisphere, and they all contribute to the regulation of sugar intake (Yao and Scott, 2022).

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adult serotonergic sugar-SEL projection neuron [FBbt_00052255]

Adult serotonergic sugar-SEL neuron that has an ascending projection to the pars intercerebralis via the median bundle (Yao and Scott, 2022). It also has mixed arborization in the dorsal subesophageal zone, close to the esophageal foramen, spanning the midline (Yao and Scott, 2022). There are two of these cells per hemisphere, with projections on different sides of the midline (Yao and Scott, 2022).

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adult serotonergic sugar-SEL projection neuron [FBbt_00052255]

Adult serotonergic sugar-SEL neuron that has an ascending projection to the pars intercerebralis via the median bundle (Yao and Scott, 2022). It also has mixed arborization in the dorsal subesophageal zone, close to the esophageal foramen, spanning the midline (Yao and Scott, 2022). There are two of these cells per hemisphere, with projections on different sides of the midline (Yao and Scott, 2022).

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adult superior lateral protocerebrum gustatory projection neuron 2 [FBbt_00052188]

Neuron with its soma in the lateral adult subesophageal zone that receives gustatory information in the subesophageal zone and projects close to the midline to reach the superior lateral protocerebrum (Taisz et al., 2022). It receives input from Ir94e labellar neurons and pharyngeal gustatory neurons (Taisz et al., 2022). Cell type identified in FAFB and Hemibrain (not typed in v1.2.1) by Taisz et al. (2022).

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adult superior lateral protocerebrum gustatory projection neuron 2 [FBbt_00052188]

Neuron with its soma in the lateral adult subesophageal zone that receives gustatory information in the subesophageal zone and projects close to the midline to reach the superior lateral protocerebrum (Taisz et al., 2023). It receives input from Ir94e labellar neurons and pharyngeal gustatory neurons (Taisz et al., 2023).

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adult superior lateral protocerebrum gustatory projection neuron 3 [FBbt_00052190]

Adult gustatory projection neuron with dendritic arborization in the subesophageal zone and an axonal projection close to the midline that extends laterally from the dorsal brain to reach the superior lateral protocerebrum (Taisz et al., 2022). Cell type identified in FAFB and Hemibrain (not typed in v1.2.1) by Taisz et al. (2022).

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adult superior lateral protocerebrum gustatory projection neuron 3 [FBbt_00052190]

Adult gustatory projection neuron with dendritic arborization in the subesophageal zone and an axonal projection close to the midline that extends laterally from the dorsal brain to reach the superior lateral protocerebrum (Taisz et al., 2023).

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adult taste projection neuron 3 [FBbt_00049531]

Adult taste projection neuron with its cell body in the cervical connective, but no parts in the ventral nerve cord (Kim et al., 2017). It has bilateral dendrites in the subesophageal zone, where it receives input from (leg and labellum) bitter neurons (Kim et al., 2017). It fasciculates with the lateral antennal lobe tract and axons reach the superior lateral protocerebrum, bilaterally, with terminals in and around the lateral horn (Kim et al., 2017). It is activated in response to bitter stimulation of the legs or proboscis and it inhibits proboscis extension (Kim et al., 2017). There is one of these cells per hemisphere (Kim et al., 2017).

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adult zorro subesophageal neuron [FBbt_00052223]

Adult subesophageal local neuron with its soma in the ventral gnathal ganglion (Shiu et al., 2022). It receives gustatory input, mainly from sugar-sensing neurons and its activation results in proboscis extension (Shiu et al., 2022). It is bilateral, but most of its innervation is in the ipsilateral hemisphere (Shiu et al., 2022). It is predicted to be cholinergic (Shiu et al., 2022). Neurotransmitter prediction based on machine learning classification (Shiu et al., 2022). Named based on ‘Z’ morphology of proximal neurite (Shiu et al., 2022).

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antenno-mechanosensory center projection neuron of the lateral supraesophageal gustatory tract [FBbt_00059255]

A gustatory projection neuron with a cell body in the antennal mechano-sensory and motor center and that projects through the lateral supraesophageal tract. It has dense arborizations into the ipsilateral supraesophageal zone and more sparse arborizations into the medial aspect of the contralateral supraesophageal zone. It projects largely to the ipsilateral superior lateral protocerebrum, with minor collaterals in the lateral protocerebrum (Talay et al., 2017).

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anterodorsal projection neuron of the medial supraesophageal gustatory tract [FBbt_00059253]

A gustatory projection neuron with a cell body located anterodorsally to the supraesophageal zone and that projects through the medial supraesophageal tract. It receives input from both sides of the supraesophageal zone and its axon branches bilaterally in the superior medial protocerebrum (Talay et al., 2017).

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aSP-g1_L#1 (FAFB:1064888) [VFB_00102dvc]

aSP-g1_L#1, FBbt:00049330 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; adult fruitless aSP-g1 (female) neuron; JRC2018Unisex; is part of; aSP-g1_L#1 (FAFB:1064888); female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g1_L#2 (FAFB:1100594) [VFB_00102dvi]

aSP-g1_L#2, FBbt:00049330 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; aSP-g1_L#2 (FAFB:1100594); adult fruitless aSP-g1 (female) neuron; JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g1_L#3 (FAFB:1101176) [VFB_00102dvj]

aSP-g1_L#3, FBbt:00049330 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; adult fruitless aSP-g1 (female) neuron; CC-BY-SA_4.0; JRC2018Unisex; is part of; female organism; aSP-g1_L#3 (FAFB:1101176); transmission electron microscopy (TEM)]

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aSP-g1_R#1 (FAFB:1070581) [VFB_00102dvd]

aSP-g1_R#1, FBbt:00049330 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; aSP-g1_R#1 (FAFB:1070581); adult fruitless aSP-g1 (female) neuron; JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g1_R#2 (FAFB:1074687) [VFB_00102dve]

aSP-g1_R#2, FBbt:00049330 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; adult fruitless aSP-g1 (female) neuron; aSP-g1_R#2 (FAFB:1074687); JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g1_R#3 (FAFB:1079881) [VFB_00102dvf]

aSP-g1_R#3, FBbt:00049330 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; adult fruitless aSP-g1 (female) neuron; aSP-g1_R#3 (FAFB:1079881); JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g1_R#4 (FAFB:1083904) [VFB_00102dvg]

aSP-g1_R#4, FBbt:00049330 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; adult fruitless aSP-g1 (female) neuron; JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; aSP-g1_R#4 (FAFB:1083904); transmission electron microscopy (TEM)]

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aSP-g2_L#1 (FAFB:1055936) [VFB_00102dv8]

aSP-g2_L#1, FBbt:00051555 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult fruitless aSP-g2 (female) neuron; is part of; aSP-g2_L#1 (FAFB:1055936); female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g2_L#2 (FAFB:1064687) [VFB_00102dva]

aSP-g2_L#2, FBbt:00051555 [VFB CATMAID Adult Brain (FAFB); adult brain; aSP-g2_L#2 (FAFB:1064687); EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult fruitless aSP-g2 (female) neuron; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g2_L#3 (FAFB:7899781) [VFB_00102dwa]

aSP-g2_L#3, FBbt:00051555 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult fruitless aSP-g2 (female) neuron; is part of; aSP-g2_L#3 (FAFB:7899781); female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g2_L#4 (FAFB:7918690) [VFB_00102dwb]

aSP-g2_L#4, FBbt:00051555 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult fruitless aSP-g2 (female) neuron; is part of; female organism; aSP-g2_L#4 (FAFB:7918690); CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g2_L#5 (FAFB:534333) [VFB_00102dv7]

aSP-g2_L#5, FBbt:00051555 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult fruitless aSP-g2 (female) neuron; is part of; aSP-g2_L#5 (FAFB:534333); female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g2_R#1 (FAFB:1064853) [VFB_00102dvb]

aSP-g2_R#1, FBbt:00051555 [aSP-g2_R#1 (FAFB:1064853); VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult fruitless aSP-g2 (female) neuron; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g2_R#2 (FAFB:1086385) [VFB_00102dvh]

aSP-g2_R#2, FBbt:00051555 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult fruitless aSP-g2 (female) neuron; is part of; female organism; aSP-g2_R#2 (FAFB:1086385); CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g3_L#1 (FAFB:7856299) [VFB_00102dw9]

aSP-g3_L#1 [VFB CATMAID Adult Brain (FAFB); adult brain; aSP-g3_L#1 (FAFB:7856299); EM FAFB Taisz and Galili et al., 2022; adult fruitless aSP-g3 (female) neuron; JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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aSP-g3_R#2 (FAFB:1168923) [VFB_00102dvl]

aSP-g3_R#2 [VFB CATMAID Adult Brain (FAFB); aSP-g3_R#2 (FAFB:1168923); adult brain; EM FAFB Taisz and Galili et al., 2022; adult fruitless aSP-g3 (female) neuron; JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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bitter projection neuron of the mediolateral supraesophageal gustatory tract [FBbt_00059257]

A gustatory projection neuron of the mediolateral supraesophageal tract that is responsive to bitter taste. It responds to bitter stimulation in the leg and the labellum and regulates aversive behaviours to bitter taste. It belongs to the CRE1a lineage and is GABAergic (Deere et al., 2023).

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bitter-sensing neuron of labellar taste bristle [FBbt_00048152]

Gustatory receptor neuron of the labellum that responds to bitter stimuli and innervates a bitter-sensitive (short or intermediate) taste bristle. All of these cells express Gr66a, usually in combination with Gr32a, Gr33a and Gr89a (Weiss et al., 2011). Some of them also respond to high, aversive concentrations of salts (Liman et al., 2014; Freeman and Dahanukar, 2015; Jaeger et al., 2018). A subset also express TRPA1 and respond to hydrogen peroxide (Guntur et al., 2017).

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bitter-sensing neuron of mesothoracic leg tarsal taste bristle 4s [FBbt_00048222]

Sensory neuron that has a dendrite in the mesothoracic leg tarsal taste bristle 4s and is capable of detecting bitter stimuli (Ling et al., 2014). It expresses Gr32a in addition to the core receptors expressed by bitter-sensing neurons of the leg and the sensillum it innervates can detect the bitter compounds denatonium, lobeline, quinine, sparteine and strychnine (Ling et al., 2014).

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bitter-sensing neuron of mesothoracic leg tarsal taste bristle 5b [FBbt_00048223]

Sensory neuron that has a dendrite in the mesothoracic leg tarsal taste bristle 5b and is capable of detecting bitter stimuli (Ling et al., 2014). It expresses Gr32a in addition to the core receptors expressed by bitter-sensing neurons of the leg and the sensillum it innervates can detect the bitter compounds denatonium, lobeline, quinine and sparteine (Ling et al., 2014).

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bitter-sensing neuron of metathoracic leg tarsal taste bristle 4s [FBbt_00048224]

Sensory neuron that has a dendrite in the metathoracic leg tarsal taste bristle 4s and is capable of detecting bitter stimuli (Ling et al., 2014). It expresses Gr32a in addition to the core receptors expressed by bitter-sensing neurons of the leg (Ling et al., 2014).

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bitter-sensing neuron of metathoracic leg tarsal taste bristle 5b [FBbt_00048225]

Sensory neuron that has a dendrite in the metathoracic leg tarsal taste bristle 5b and is capable of detecting bitter stimuli (Ling et al., 2014). It expresses Gr32a in addition to the core receptors expressed by bitter-sensing neurons of the leg (Ling et al., 2014).

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bitter-sensing neuron of prothoracic leg tarsal taste bristle 4c [FBbt_00048211]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 4c and is capable of detecting bitter stimuli (Ling et al., 2014). It expresses Gr32a in addition to the core receptors expressed by bitter-sensing neurons of the leg and the sensillum it innervates can detect the bitter compounds denatonium, lobeline, quinine, sparteine and strychnine (Ling et al., 2014).

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bitter-sensing neuron of prothoracic leg tarsal taste bristle 4s [FBbt_00048212]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 4s and is capable of detecting bitter stimuli (Ling et al., 2014). It expresses Gr32a in addition to the core receptors expressed by bitter-sensing neurons of the leg and the sensillum it innervates can detect the bitter compounds denatonium, lobeline, quinine, sparteine and strychnine (Ling et al., 2014).

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bitter-sensing neuron of prothoracic leg tarsal taste bristle 5b [FBbt_00048213]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 5b and is capable of detecting bitter stimuli (Ling et al., 2014). It expresses Gr32a in addition to the core receptors expressed by bitter-sensing neurons of the leg and the sensillum it innervates can detect the bitter compounds denatonium, lobeline, quinine and sparteine (Ling et al., 2014).

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bitter-sensing neuron of prothoracic leg tarsal taste bristle 5s [FBbt_00048214]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 5s and is capable of detecting bitter stimuli (Ling et al., 2014). It expresses many other gustatory receptors (including Gr66a, but not Gr32a) in addition to the core receptors expressed by bitter-sensing neurons of the leg and the sensillum it innervates can detect a wide range of bitter tastants (Ling et al., 2014). It passes through the prothoracic ganglion, then projects towards the head (Kwon et al., 2014).

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broad bitter-sensing neuron of the labellum S-a [FBbt_00048154]

Bitter-sensing gustatory receptor neuron of the labellum that innervates a broadly-tuned bitter sensillum of the labellum belonging to group S-a. They express the widest range of Gustatory receptors, including Gr22b, Gr36b and Gr58b, which are generally not expressed in other classes of bitter-sensing neurons of the labellum (Weiss et al., 2011).

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broad bitter-sensing neuron of the labellum S-b [FBbt_00048153]

Bitter-sensing gustatory receptor neuron of the labellum that innervates a broadly-tuned bitter sensillum of the labellum belonging to group S-b. They express Gr22f and Gr36a, which are not expressed in other classes of bitter-sensing neurons of the labellum (Weiss et al., 2011).

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calcium-sensing neuron of labellar S-type taste bristle [FBbt_00047485]

Neuron of the labellum that is sensitive to increases in calcium concentration and is necessary for high calcium avoidance behavior (Lee et al., 2018). It also responds to other cations (Montell, 2021). These have dendrites in S-type sensilla (short labellar taste bristles), including S3, S5, S6, S7, S8 and S10 (Lee et al., 2018). The response to calcium requires the Ir25a and Ir76b co-receptors (Lee et al., 2018).

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CB0008 [FBbt_00051956]

Adult local neuron with its soma in the lateral gnathal ganglion (Sterne et al., 2021). It has both dendritic and axonal arborization in the gnathal ganglion, with biased synapse distribution within this region (Sterne et al., 2021). It is bilateral, but most of its innervation is in the ipsilateral hemisphere (Sterne et al., 2021). It receives a large amount of input from gustatory neurons, mainly water- and sugar-sensing neurons, and responds to water stimulus (Shiu et al., 2022). Its activation results in proboscis extension (Shiu et al., 2022). It is predicted to be a GABAergic (Shiu et al., 2022) primary neuron (Dorkenwald et al., 2024; Schlegel et al., 2024). There are 2 of these cells per organism (Dorkenwald et al., 2024; Schlegel et al., 2024).

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CB0062 [FBbt_00051927]

Adult interneuron with its soma in the lateral gnathal ganglion (Sterne et al., 2021). It has both dendritic and axonal arborization in the gnathal ganglion, with polarized synapse distribution within this region (Sterne et al., 2021). It is bilateral, but most of its innervation is in the ipsilateral hemisphere (Sterne et al., 2021). It receives input from water- and sugar-sensing gustatory neurons and responds to both sugar and water stimuli (Shiu et al., 2022). Its activation results in proboscis extension (Shiu et al., 2022). It is predicted to be a GABAergic (Shiu et al., 2022) primary neuron (Dorkenwald et al., 2024; Schlegel et al., 2024). There is one of these cells on each side (Dorkenwald et al., 2024; Schlegel et al., 2024).

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CB0192 [FBbt_00052223]

Adult subesophageal local neuron with its soma in the ventral gnathal ganglion (Shiu et al., 2022). It receives gustatory input, mainly from sugar-sensing neurons and its activation results in proboscis extension (Shiu et al., 2022). It is bilateral, but most of its innervation is in the ipsilateral hemisphere (Shiu et al., 2022). It is predicted to be cholinergic (Shiu et al., 2022). There are 2 of these cells per organism (Dorkenwald et al., 2024; Schlegel et al., 2024).

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CB0366 [FBbt_00051880]

Adult local neuron with its soma in the ventral gnathal ganglion (Sterne et al., 2021). It has both dendritic and axonal arborization in the gnathal ganglion, with biased synapse distribution within this region (Sterne et al., 2021). It is mainly ipsilateral, but arborizes close to the midline (Sterne et al., 2021). It receives a large amount of gustatory neuron input, mainly from high salt-sensing neurons and its activation results in proboscis extension (Shiu et al., 2022). It is predicted to be cholinergic (Shiu et al., 2022). It is predicted to be a primary neuron (Dorkenwald et al., 2024; Schlegel et al., 2024). There are 2 of these cells per organism (Dorkenwald et al., 2024; Schlegel et al., 2024).

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CB0499 [FBbt_00051932]

Adult local neuron with its soma in the ventral gnathal ganglion (Sterne et al., 2021). It has both dendritic and axonal arborization in the gnathal ganglion, with biased synapse distribution within this region (Sterne et al., 2021). It is mainly ipsilateral, but arborizes close to the midline (Sterne et al., 2021). It receives a large amount of input from sugar-sensing gustatory neurons and its activation results in proboscis extension (Shiu et al., 2022). It is predicted to be a cholinergic (Shiu et al., 2022) primary neuron (Dorkenwald et al., 2024; Schlegel et al., 2024). There are 2 of these cells per organism (Dorkenwald et al., 2024; Schlegel et al., 2024).

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DNg28 [FBbt_00047620]

Serotonergic descending neuron belonging to the DNg group, having a large cell body in the SE1 cluster, in the lateral part of the cell body rind around the gnathal ganglion (Alekseyenko et al., 2010; Namiki et al., 2018; Yao and Scott, 2022). It has dendrites in the flange, prow and gnathal ganglion (Namiki et al., 2018; Yao and Scott, 2022) and it responds to bitter taste stimuli from the proboscis and legs (Yao and Scott, 2022). This neuron does not cross the midline and it sends an axonal projection via the ipsilateral side of the cervical connective to the ventral nerve cord (Namiki et al., 2018; Yao and Scott, 2022). It also sends projections into the labial nerve and to the hypocerebral ganglion, via the recurrent nerve (Yao and Scott, 2022). It activates enteric neurons that express serotonin receptors and can stimulate crop contraction (Yao and Scott, 2022). There are two of these cells per hemisphere (Alekseyenko et al., 2010; Namiki et al., 2018; Yao and Scott, 2022).

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DNg67 [FBbt_00051883]

Adult descending neuron with its soma in the lateral subesophageal zone (Sterne et al., 2021; Shiu et al., 2024). It has both dendritic and axonal arborization in the gnathal ganglion, with mainly postsynapses ipsilaterally and mainly presynapses contralaterally (Sterne et al., 2021; Dorkenwald et al., 2024; Schlegel et al., 2024). In the VNC, it follows the curved ventrolateral tract (Sturner et al., 2025). It receives substantial input from sugar-sensing gustatory neurons (Shiu et al., 2022). It is predicted to a be cholinergic primary neuron (Shiu et al., 2022; Dorkenwald et al., 2024; Schlegel et al., 2024). There are 2 of these cells per organism (Dorkenwald et al., 2024; Schlegel et al., 2024; Sturner et al., 2025).

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dorsal organ [FBbt_00002655]

An external compound sense organ of the antenno-maxillary complex of the larval head consisting of two sensilla, a dome shaped cuticular process, and a region surrounding the base of the dome (Campos-Ortega and Hartenstein, 1997; Komarov and Sprecher, 2022). Each dome sensillum is innervated by seven circularly arranged triplets of olfactory receptor neuron dendrites (Komarov and Sprecher, 2022). Eleven sensory neurons of other modalities innervate six sensilla of each base region (Komarov and Sprecher, 2022; Richter et al., 2024).

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G2N-1 [FBbt_00051850]

Intrinsic neuron of the adult gnathal ganglion that has its soma in a lateral region and receives input from sweet taste neurons in the PMS4 region (Miyazaki et al., 2015; Shiu et al., 2022). It also receives input from high salt gustatory neurons (Shiu et al., 2022). It has both input and output terminals in PMS4, including some in the contralateral hemisphere (Miyazaki et al., 2015). It is predicted to be cholinergic and its activation results in proboscis extension (Shiu et al., 2022). It is predicted to be a primary neuron (Dorkenwald et al., 2024; Schlegel et al., 2024). There are 2 of these cells per organism (Dorkenwald et al., 2024; Schlegel et al., 2024).

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G2N-aSLP_L#1 (FAFB:11463951) [VFB_00102dwf]

G2N-aSLP_L#1 [VFB CATMAID Adult Brain (FAFB); G2N-aSLP_L#1 (FAFB:11463951); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult ascending superior lateral protocerebrum gustatory projection neuron; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-aSLP_L#10 (FAFB:11968950) [VFB_00102dwp]

G2N-aSLP_L#10 [VFB CATMAID Adult Brain (FAFB); adult brain; G2N-aSLP_L#10 (FAFB:11968950); EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult ascending superior lateral protocerebrum gustatory projection neuron; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-aSLP_L#2 (FAFB:11483002) [VFB_00102dwh]

G2N-aSLP_L#2 [VFB CATMAID Adult Brain (FAFB); G2N-aSLP_L#2 (FAFB:11483002); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult ascending superior lateral protocerebrum gustatory projection neuron; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-aSLP_L#3 (FAFB:11490387) [VFB_00102dwi]

G2N-aSLP_L#3 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; G2N-aSLP_L#3 (FAFB:11490387); JRC2018Unisex; adult ascending superior lateral protocerebrum gustatory projection neuron; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-aSLP_L#4 (FAFB:11491648) [VFB_00102dwj]

G2N-aSLP_L#4 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult ascending superior lateral protocerebrum gustatory projection neuron; G2N-aSLP_L#4 (FAFB:11491648); is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-aSLP_L#5 (FAFB:11491723) [VFB_00102dwk]

G2N-aSLP_L#5 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; G2N-aSLP_L#5 (FAFB:11491723); adult ascending superior lateral protocerebrum gustatory projection neuron; JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-aSLP_L#6 (FAFB:11491809) [VFB_00102dwl]

G2N-aSLP_L#6 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult ascending superior lateral protocerebrum gustatory projection neuron; G2N-aSLP_L#6 (FAFB:11491809); is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-aSLP_L#7 (FAFB:11491851) [VFB_00102dwm]

G2N-aSLP_L#7 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult ascending superior lateral protocerebrum gustatory projection neuron; is part of; female organism; CC-BY-SA_4.0; G2N-aSLP_L#7 (FAFB:11491851); transmission electron microscopy (TEM)]

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G2N-aSLP_L#8 (FAFB:11495175) [VFB_00102dwn]

G2N-aSLP_L#8 [VFB CATMAID Adult Brain (FAFB); G2N-aSLP_L#8 (FAFB:11495175); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult ascending superior lateral protocerebrum gustatory projection neuron; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-aSLP_L#9 (FAFB:11968494) [VFB_00102dwo]

G2N-aSLP_L#9 [VFB CATMAID Adult Brain (FAFB); G2N-aSLP_L#9 (FAFB:11968494); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; adult ascending superior lateral protocerebrum gustatory projection neuron; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-aSLP_R#1 (FAFB:3917175) [VFB_00102dvv]

G2N-aSLP_R#1 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; G2N-aSLP_R#1 (FAFB:3917175); JRC2018Unisex; adult ascending superior lateral protocerebrum gustatory projection neuron; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-SLP1_L (FAFB:7552826) [VFB_00102dw7]

G2N-SLP1_L [VFB CATMAID Adult Brain (FAFB); G2N-SLP1_L (FAFB:7552826); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; adult superior lateral protocerebrum gustatory projection neuron 1; transmission electron microscopy (TEM)]

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G2N-SLP2_R (FAFB:1064624) [VFB_00102dv9]

G2N-SLP2_R [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; transmission electron microscopy (TEM); JRC2018Unisex; adult superior lateral protocerebrum gustatory projection neuron 2; is part of; female organism; CC-BY-SA_4.0; G2N-SLP2_R (FAFB:1064624)]

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G2N-SLP3_L#1 (FAFB:9484087) [VFB_00102dwe]

G2N-SLP3_L#1 [VFB CATMAID Adult Brain (FAFB); adult brain; adult superior lateral protocerebrum gustatory projection neuron 3; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; is part of; female organism; G2N-SLP3_L#1 (FAFB:9484087); CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-SLP3_L#2 (FAFB:11464526) [VFB_00102dwg]

G2N-SLP3_L#2 [G2N-SLP3_L#2 (FAFB:11464526); VFB CATMAID Adult Brain (FAFB); adult brain; adult superior lateral protocerebrum gustatory projection neuron 3; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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G2N-SLP3_R#1 (FAFB:2686821) [VFB_00102dvt]

G2N-SLP3_R#1 [VFB CATMAID Adult Brain (FAFB); adult brain; adult superior lateral protocerebrum gustatory projection neuron 3; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM); G2N-SLP3_R#1 (FAFB:2686821)]

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G2N-SLP3_R#2 (FAFB:3781311) [VFB_00102dvu]

G2N-SLP3_R#2 [VFB CATMAID Adult Brain (FAFB); adult brain; adult superior lateral protocerebrum gustatory projection neuron 3; EM FAFB Taisz and Galili et al., 2022; G2N-SLP3_R#2 (FAFB:3781311); JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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Gr2a neuron of adult labral sensillum 7 [FBbt_00048143]

Chemosensory neuron that has a dendrite in sensillum 7 of the adult labral sense organ and expresses Gustatory receptor 2a, as well as other taste receptors (Chen and Dahanukar, 2017). Its axon terminals are in the subesophageal zone (Kim et al., 2017). It is involved in the aversive response to high salt concentrations (Kim et al., 2017). There is one (bilateral) pair of these neurons (Chen and Dahanukar, 2017).

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GRN L2#10 (FAFB:16149184) [VFB_001029lz]

GRN L2#10, FBbt:00048152 [transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; GRN L2#10 (FAFB:16149184); VFB CATMAID Adult Brain (FAFB); adult brain; bitter-sensing neuron of labellar taste bristle]

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GRN L6#1 (FAFB:10780443) [VFB_001029jp]

GRN L6#1, FBbt:00100043 [transmission electron microscopy (TEM); is part of; GRN L6#1 (FAFB:10780443); female organism; JRC2018Unisex; low salt-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN L6#2 (FAFB:10795558) [VFB_001029jq]

GRN L6#2, FBbt:00100043 [transmission electron microscopy (TEM); is part of; female organism; GRN L6#2 (FAFB:10795558); JRC2018Unisex; low salt-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN L6#3 (FAFB:11243248) [VFB_001029jv]

GRN L6#3, FBbt:00100043 [transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; GRN L6#3 (FAFB:11243248); low salt-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN L6#4 (FAFB:11984676) [VFB_001029ks]

GRN L6#4, FBbt:00100043 [transmission electron microscopy (TEM); is part of; GRN L6#4 (FAFB:11984676); female organism; JRC2018Unisex; low salt-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN L6#5 (FAFB:12226830) [VFB_001029ky]

GRN L6#5, FBbt:00100043 [transmission electron microscopy (TEM); is part of; GRN L6#5 (FAFB:12226830); female organism; JRC2018Unisex; low salt-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R1#10 (FAFB:11647363) [VFB_001029km]

GRN R1#10, FBbt:00048152 [transmission electron microscopy (TEM); GRN R1#10 (FAFB:11647363); is part of; female organism; JRC2018Unisex; VFB CATMAID Adult Brain (FAFB); adult brain; bitter-sensing neuron of labellar taste bristle]

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GRN R1#11 (FAFB:11674090) [VFB_001029kn]

GRN R1#11, FBbt:00048152 [transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; VFB CATMAID Adult Brain (FAFB); adult brain; bitter-sensing neuron of labellar taste bristle; GRN R1#11 (FAFB:11674090)]

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GRN R1#12 (FAFB:12001108) [VFB_001029kv]

GRN R1#12, FBbt:00048152 [transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; GRN R1#12 (FAFB:12001108); VFB CATMAID Adult Brain (FAFB); adult brain; bitter-sensing neuron of labellar taste bristle]

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GRN R3#10 (FAFB:11559858) [VFB_001029kh]

GRN R3#10, FBbt:00100043 [transmission electron microscopy (TEM); is part of; female organism; GRN R3#10 (FAFB:11559858); JRC2018Unisex; low salt-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R3#11 (FAFB:11966486) [VFB_001029kq]

GRN R3#11, FBbt:00100043 [transmission electron microscopy (TEM); is part of; female organism; GRN R3#11 (FAFB:11966486); JRC2018Unisex; low salt-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R3#12 (FAFB:11987931) [VFB_001029kt]

GRN R3#12, FBbt:00100043 [transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; low salt-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain; GRN R3#12 (FAFB:11987931)]

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GRN R3#9 (FAFB:11559749) [VFB_001029k7]

GRN R3#9, FBbt:00100043 [transmission electron microscopy (TEM); is part of; female organism; GRN R3#9 (FAFB:11559749); JRC2018Unisex; low salt-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R4#13 (FAFB:10742200) [VFB_001029jl]

GRN R4#13, FBbt:00058156 [transmission electron microscopy (TEM); is part of; sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; GRN R4#13 (FAFB:10742200); VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R4#14 (FAFB:11206721) [VFB_001029js]

GRN R4#14, FBbt:00058156 [transmission electron microscopy (TEM); is part of; sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; VFB CATMAID Adult Brain (FAFB); adult brain; GRN R4#14 (FAFB:11206721)]

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GRN R4#15 (FAFB:12871829) [VFB_001029l0]

GRN R4#15, FBbt:00058156 [transmission electron microscopy (TEM); is part of; sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; VFB CATMAID Adult Brain (FAFB); adult brain; GRN R4#15 (FAFB:12871829)]

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GRN R4#16 (FAFB:14928124) [VFB_001029l4]

GRN R4#16, FBbt:00058156 [transmission electron microscopy (TEM); is part of; sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; GRN R4#16 (FAFB:14928124); VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R4#17 (FAFB:14947934) [VFB_001029l6]

GRN R4#17, FBbt:00058156 [transmission electron microscopy (TEM); is part of; sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; VFB CATMAID Adult Brain (FAFB); adult brain; GRN R4#17 (FAFB:14947934)]

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GRN R5#10 (FAFB:11356628) [VFB_001029jw]

GRN R5#10, FBbt:00058156 [transmission electron microscopy (TEM); is part of; GRN R5#10 (FAFB:11356628); sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R5#11 (FAFB:11488252) [VFB_001029k0]

GRN R5#11, FBbt:00058156 [transmission electron microscopy (TEM); is part of; GRN R5#11 (FAFB:11488252); sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R5#12 (FAFB:11559734) [VFB_001029k6]

GRN R5#12, FBbt:00058156 [transmission electron microscopy (TEM); is part of; sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; GRN R5#12 (FAFB:11559734); VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R5#13 (FAFB:11559792) [VFB_001029k8]

GRN R5#13, FBbt:00058156 [transmission electron microscopy (TEM); is part of; GRN R5#13 (FAFB:11559792); sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R5#14 (FAFB:11559800) [VFB_001029ka]

GRN R5#14, FBbt:00058156 [transmission electron microscopy (TEM); is part of; sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; VFB CATMAID Adult Brain (FAFB); adult brain; GRN R5#14 (FAFB:11559800)]

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GRN R5#15 (FAFB:11635037) [VFB_001029kl]

GRN R5#15, FBbt:00058156 [transmission electron microscopy (TEM); GRN R5#15 (FAFB:11635037); is part of; sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R5#16 (FAFB:11967149) [VFB_001029kr]

GRN R5#16, FBbt:00058156 [GRN R5#16 (FAFB:11967149); transmission electron microscopy (TEM); is part of; sugar-sensing neuron of labellar taste bristle; female organism; JRC2018Unisex; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R6#10 (FAFB:11559804) [VFB_001029kb]

GRN R6#10, FBbt:00100042 [GRN R6#10 (FAFB:11559804); transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R6#11 (FAFB:11559813) [VFB_001029kc]

GRN R6#11, FBbt:00100042 [transmission electron microscopy (TEM); is part of; GRN R6#11 (FAFB:11559813); female organism; JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R6#12 (FAFB:11559821) [VFB_001029kd]

GRN R6#12, FBbt:00100042 [transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; GRN R6#12 (FAFB:11559821); water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R6#13 (FAFB:11559827) [VFB_001029ke]

GRN R6#13, FBbt:00100042 [transmission electron microscopy (TEM); is part of; female organism; GRN R6#13 (FAFB:11559827); JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R6#14 (FAFB:11559838) [VFB_001029kf]

GRN R6#14, FBbt:00100042 [GRN R6#14 (FAFB:11559838); transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R6#15 (FAFB:11559846) [VFB_001029kg]

GRN R6#15, FBbt:00100042 [transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain; GRN R6#15 (FAFB:11559846)]

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GRN R6#16 (FAFB:11559865) [VFB_001029ki]

GRN R6#16, FBbt:00100042 [transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain; GRN R6#16 (FAFB:11559865)]

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GRN R6#17 (FAFB:11559900) [VFB_001029kj]

GRN R6#17, FBbt:00100042 [transmission electron microscopy (TEM); is part of; GRN R6#17 (FAFB:11559900); female organism; JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R6#18 (FAFB:12173900) [VFB_001029kw]

GRN R6#18, FBbt:00100042 [transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain; GRN R6#18 (FAFB:12173900)]

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GRN R6#19 (FAFB:12880552) [VFB_001029l1]

GRN R6#19, FBbt:00100042 [transmission electron microscopy (TEM); GRN R6#19 (FAFB:12880552); is part of; female organism; JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R6#20 (FAFB:14947928) [VFB_001029l5]

GRN R6#20, FBbt:00100042 [transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; GRN R6#20 (FAFB:14947928); water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R6#21 (FAFB:14947940) [VFB_001029l7]

GRN R6#21, FBbt:00100042 [transmission electron microscopy (TEM); is part of; GRN R6#21 (FAFB:14947940); female organism; JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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GRN R6#22 (FAFB:14947952) [VFB_001029l8]

GRN R6#22, FBbt:00100042 [transmission electron microscopy (TEM); is part of; female organism; JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain; GRN R6#22 (FAFB:14947952)]

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GRN R6#23 (FAFB:14947958) [VFB_001029l9]

GRN R6#23, FBbt:00100042 [transmission electron microscopy (TEM); GRN R6#23 (FAFB:14947958); is part of; female organism; JRC2018Unisex; water-sensing neuron of labellar taste bristle; VFB CATMAID Adult Brain (FAFB); adult brain]

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gustatory receptor neuron B1 of the terminal organ dorsolateral group [FBbt_00047453]

Larval gustatory receptor neuron of the terminal organ dorsolateral group. This neuron has a cell body in the dorsal organ ganglion and innervates the dorsomedial papilla of the terminal organ (Rist and Thum, 2017). There is one of these cells per hemisphere and it expresses Gr33a and Gr66a (Kwon et al., 2011).

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gustatory receptor neuron B2 of the terminal organ dorsolateral group [FBbt_00047454]

Larval gustatory receptor neuron of the terminal organ dorsolateral group. This neuron has a cell body in the dorsal organ ganglion and innervates the dorsomedial papilla of the terminal organ (Rist and Thum, 2017). There is one of these cells per hemisphere and it expresses Gr33a, Gr66a, Gr32a and Gr10a (Kwon et al., 2011). The B2 neuron responds to bitter stimuli, including quinine and denatonium (van Giesen et al., 2016).

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gustatory receptor neuron B3 of the terminal organ dorsolateral group [FBbt_00048358]

Larval gustatory receptor neuron of the terminal organ dorsolateral group. This neuron has a cell body in the dorsal organ ganglion and innervates the dorsomedial papilla of the terminal organ (Rist and Thum, 2017). There is one of these cells per hemisphere and it expresses Ppk23 (Rist and Thum, 2017).

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gustatory receptor neuron C1 of the terminal organ distal group [FBbt_00047455]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates campaniform sensillum P2 of the terminal organ distal group (Rist and Thum, 2017). There is one of these cells per hemisphere and it expresses a wide range of gustatory receptors (at least 17) (Kwon et al., 2011). The C1 neuron has a weak response to caffeine (Choi et al., 2016).

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gustatory receptor neuron C10 of the terminal organ distal group [FBbt_00048362]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates pit sensillum T1 of the terminal organ distal group (Rist and Thum, 2017). There is one bilateral pair of C10 neurons and they express Ppk11 (Rist and Thum, 2017).

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gustatory receptor neuron C11 of the terminal organ distal group [FBbt_00048363]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates pit sensillum T1 of the terminal organ distal group (Rist and Thum, 2017). There is one bilateral pair of C11 neurons and they express Ir25a (Rist and Thum, 2017).

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gustatory receptor neuron C12 of the terminal organ distal group [FBbt_00048364]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates pit sensillum T2 of the terminal organ distal group (Rist and Thum, 2017). There is one bilateral pair of C12 neurons and they express Gr28a (Rist and Thum, 2017).

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gustatory receptor neuron C13 of the terminal organ distal group [FBbt_00048365]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates pit sensillum T3 of the terminal organ distal group (Rist and Thum, 2017). There is one bilateral pair of C13 neurons and they express Gr2a (Rist and Thum, 2017).

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gustatory receptor neuron C14 of the terminal organ distal group [FBbt_00048366]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates pit sensillum T4 of the terminal organ distal group (Rist and Thum, 2017). There is one bilateral pair of C14 neurons and they express Ir25a (Rist and Thum, 2017).

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gustatory receptor neuron C15 of the terminal organ distal group [FBbt_00048367]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates knob sensillum K1 of the terminal organ distal group (Rist and Thum, 2017). There is one bilateral pair of C15 neurons and they express Gr28a (Rist and Thum, 2017).

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gustatory receptor neuron C16 of the terminal organ distal group [FBbt_00048368]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates campaniform sensillum P3 of the terminal organ distal group (Rist and Thum, 2017). There is one bilateral pair of C16 neurons and they express Ppk23 (Rist and Thum, 2017).

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gustatory receptor neuron C2 of the terminal organ distal group [FBbt_00047456]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates campaniform sensillum P1 of the terminal organ distal group (Rist and Thum, 2017). There is one of these cells per hemisphere and it expresses at least 7 different gustatory receptors (Kwon et al., 2011). The C2 neuron responds to changes in salt concentration, some amino acids and sucrose (van Giesen et al., 2016).

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gustatory receptor neuron C3 of the terminal organ distal group [FBbt_00047457]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates campaniform sensillum P3 of the terminal organ distal group (Rist and Thum, 2017). There is one of these cells per hemisphere and it expresses Gr33a, Gr66a, Gr57a and Gr97a (Kwon et al., 2011).

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gustatory receptor neuron C4 of the terminal organ distal group [FBbt_00047458]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates pit sensillum T5 of the terminal organ distal group (Rist and Thum, 2017). There is one of these cells per hemisphere and it expresses Gr33a, Gr66a, Gr39a.b and Gr59d (Kwon et al., 2011).

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gustatory receptor neuron C5 of the terminal organ distal group [FBbt_00047459]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates pit sensillum T2 of the terminal organ distal group (Rist and Thum, 2017). There is one of these cells per hemisphere and it expresses Gr59e and Gr59f (Kwon et al., 2011).

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gustatory receptor neuron C6 of the terminal organ distal group [FBbt_00047460]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates knob sensillum K2 of the terminal organ distal group with a dendrite that is folded and densely packed at the distal end (Rist and Thum, 2017). There is one of these cells per hemisphere and it expresses Gr21a and Gr63a (Kwon et al., 2011). The C6 neuron responds to high salt concentrations, hydrochloric, some sugars (van Giesen et al., 2016), carbon dioxide and mechanical stimuli (Komarov et al., 2025).

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gustatory receptor neuron C7 of the terminal organ distal group [FBbt_00047461]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates pit sensillum T2 of the terminal organ distal group (Rist and Thum, 2017). There is one bilateral pair of C7 cells that respond to diverse taste stimuli, with some of their functionality requiring Ir25a (van Giesen et al., 2016).

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gustatory receptor neuron C8 of the terminal organ distal group [FBbt_00048360]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates campaniform sensillum P1 of the terminal organ distal group (Rist and Thum, 2017). There is one bilateral pair of C8 neurons and they express Ppk23 (Rist and Thum, 2017).

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gustatory receptor neuron C9 of the terminal organ distal group [FBbt_00048361]

Larval gustatory receptor neuron of the terminal organ distal group. It has a cell body in the terminal organ ganglion and innervates campaniform sensillum P2 of the terminal organ distal group (Rist and Thum, 2017). There is one bilateral pair of C9 neurons and they express Ir25a (Rist and Thum, 2017).

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high salt-sensing neuron of labellar taste bristle [FBbt_00052561]

Gustatory receptor neuron that innervates a taste bristle of the labellum and responds to high concentrations of cations, including sodium and potassium (Montell, 2021). These neurons can be found innervating short and large sensilla and they express ppk23 (Montell, 2021).

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high salt-sensing neuron of labellar taste bristle [FBbt_00052561]

Gustatory receptor neuron that innervates a taste bristle of the labellum and responds to high concentrations of cations, including sodium and potassium (Montell, 2021). These neurons can be found innervating short and large sensilla and they express ppk23 (Montell, 2021).

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IN1 [FBbt_00047446]

Cholinergic interneuron of the subesophageal ganglion that receives input from Gr43a/Gr46a-expressing sweet taste neurons of the pharynx, but not the Gr5a-expressing neurons of the labellum (Yapici et al., 2016). Sugar must therefore be ingested for these neurons to be activated (Yapici et al., 2016). Activation increases feeding in hungry flies (Yapici et al., 2016). There are 12 of these cells per organism, and their processes cross the midline to arborize in both the ipsilateral and contralateral sides of the subesophageal zone (Yapici et al., 2016).

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intermediate labellar taste bristle [FBbt_00007412]

Labellar bristle that is approximately 25 micrometers long (Shanbhag et al., 2001). These taste bristles house the sensory dendrites of 2 gustatory receptor neurons (Shanbhag et al., 2001), one sensitive to sugars and low concentrations of salt and the other to bitter and high salt concentrations (Hiroi et al., 2004; Jaeger et al., 2018), and one mechanosensory neuron (Shanbhag et al., 2001).

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intermediate labellar taste bristle I-a [FBbt_00048164]

Intermediate (bitter-sensitive) labellar taste bristle that detects a narrow range of bitter stimuli, with greater responses to denatonium benzoate, berberine chloride, lobeline hydrochloride, sparteine sulfate salt and escin (Weiss et al., 2011). These are found on the anterior half of the labellum (Weiss et al., 2011).

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intermediate labellar taste bristle I-b [FBbt_00048163]

Intermediate (bitter-sensitive) labellar taste bristle that detects a narrow range of bitter stimuli, with greater responses to caffeine, umbelliferone and theophylline (Weiss et al., 2011). These are found on the posterior half of the labellum (Weiss et al., 2011).

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Ir94e neuron of large labellar taste bristle [FBbt_00052186]

Labellar gustatory receptor neuron that expresses Ir94e (Jaeger et al., 2018). There is one of these in each large taste bristle of the labellum and it is responsive to low concentrations of salt (Jaeger et al., 2018) and compounds found on male genitals (Taisz et al., 2022).

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Ir94e neuron of large labellar taste bristle [FBbt_00052186]

Labellar gustatory receptor neuron that expresses Ir94e (Jaeger et al., 2018). There is one of these in each large taste bristle of the labellum and it is responsive to low concentrations of salt (Jaeger et al., 2018) and compounds found on male genitals (Taisz et al., 2023).

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knob in pit sensillum [FBbt_00002715]

Paired external sensillum situated dorso-laterally on the larval head and consisting of a knob shaped cuticular structure located in a pit and innervated by 3 dendrites - one terminating at its base and the other two extending into the knob. Putative combined mechanoreceptor (Singh and Singh, 1984) and taste sensillum (Singh, 1997).

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labellar taste bristle [FBbt_00004162]

Gustatory bristle on the outer surface of the labellum (Shanbhag et al., 2002). It is innervated by either 2 or 4 chemosensory neurons and one mechanosensory neuron (Shanbhag et al., 2002). There are 31 of these on each side, which can be divided into three subtypes based on length and number of chemosensory neurons, but there is some variability in the number of each subtype (Shanbhag et al., 2002).

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labellar taste peg chemosensory neuron [FBbt_00048028]

Chemosensory neuron that innervates a labial taste peg. There is one of these per taste peg, paired with one mechanosensory neuron (Shanbhag et al., 2001). It projects to the AMS1 sensory region of the subesophageal zone (Steck et al., 2018). It is involved in sustaining yeast feeding (Steck et al., 2018).

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large labellar taste bristle [FBbt_00007411]

Largest of the three main labellar taste bristle types, it is approximately 35 micrometres long (Shanbhag et al., 2001). These taste bristles contain the sensory dendrites of four gustatory receptor neurons (Shanbhag et al., 2001), with mostly invariant receptor expression (Weiss et al., 2011; Jaeger et al., 2018), and one mechanosensory neuron (Shanbhag et al., 2001). The gustatory neurons can respond to sugars, salt and water (Meunier et al., 2003; Fujishiro et al., 1984). Large taste bristles do not respond to bitter stimuli and their gustatory receptor neurons do not express the bitter receptor Gr66a (Weiss et al., 2011).

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larval abdominal ventral multidendritic neuron v'td1 [FBbt_00002573]

Tracheal associated multidendritic neuron of the ventral’ cluster of segments A1-6 found ventral to v’td2 (Qian et al., 2018). Like other neurons of this cluster, it follows the SNa branch of the segmental nerve (Williams and Shepherd, 1999). After entering the ventral nerve cord, it projects anteriorly, reaching the subesophageal zone (Qian et al., 2018). It expresses chemosensory receptors (Qian et al., 2018).

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larval abdominal ventral multidendritic neuron v'td2 [FBbt_00002581]

Tracheal associated multidendritic neuron of the ventral’ cluster of segments A1-7 (Qian et al., 2018). In A1-6 it is located dorsal to v’td1, in A7 it is the only type of ventral tracheal dendrite neuron (Qian et al., 2018). Like other neurons of this cluster, it follows the SNa branch of the segmental nerve (Williams and Shepherd, 1999). After entering the ventral nerve cord, it projects anteriorly, with neurons of more anterior segments (A1-A3) reaching the subesophageal zone and more posterior neurons terminating in the vicinity of the metathoracic neuromere (Qian et al., 2018). It expresses gustatory receptors, indicating that it may be chemosensory (Qian et al., 2018).

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larval dorsal pharyngeal gustatory receptor neuron DP1 [FBbt_00047430]

Gustatory receptor neuron of the larval dorsal pharyngeal sense organ (Choi et al., 2016). There is one of these cells per hemisphere and it expresses a wide range of gustatory receptor genes (at least 14) (Choi et al., 2016). This neuron responds to caffeine and projects to the subesophageal ganglion (Choi et al., 2016; Apostolopoulou et al., 2016). It suppresses feeding (Choi et al,. 2020).

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larval dorsal pharyngeal gustatory receptor neuron DP2 [FBbt_00047431]

Gustatory receptor neuron of the larval dorsal pharyngeal sense organ (Choi et al., 2016). There is one of these cells per hemisphere and it expresses Gr33a, Gr66a, Gr32a, Gr77a and Gr93b (Choi et al., 2016). This neuron projects to the subesophageal ganglion (Choi et al., 2016).

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larval dorsal pharyngeal gustatory receptor neuron DP3 [FBbt_00047432]

Gustatory receptor neuron of the larval dorsal pharyngeal sense organ (Choi et al., 2016). There is one of these cells per hemisphere and it expresses Gr2a, Gr23a, Gr57a and Gr93d (Choi et al., 2016). This neuron projects to the subesophageal ganglion (Choi et al., 2016).

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larval dorsal pharyngeal gustatory receptor neuron DP4 [FBbt_00047433]

Gustatory receptor neuron of the larval dorsal pharyngeal sense organ (Choi et al., 2016). There is one of these cells per hemisphere and it expresses Gr43a (Choi et al., 2016). This neuron projects to the subesophageal ganglion (Choi et al., 2016).

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lateral antennal lobe tract projection neuron 4 (male) [FBbt_00052112]

Lateral antennal lobe tract projection neuron (lPN4) of the male. It has a greater number of branches in the protocerebrum than the lPN4 cell in the female and additionally innervates the DA1 glomerulus (Tanaka et al., 2021). It is activated following cis-vaccenyl acetate (cVA) exposure and inhibited following application of female cuticular pheromones to the forelegs (Tanaka et al., 2021). It suppresses wing extension during courtship until after tapping behavior has occurred (Tanaka et al., 2021).

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leg taste bristle ascending tarsal chemosensory neuron [FBbt_00047768]

Gustatory neuron that innervates a tarsal taste bristle and ascends via the cervical connective to the brain. This includes all gustatory receptor-expressing leg taste bristle chemosensory neurons that do not express Gr5a (Kwon et al., 2014, Thoma et al., 2016, Tsubouchi et al., 2017).

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leg taste bristle segmental tarsal chemosensory neuron [FBbt_00047769]

Gustatory neuron of the adult that innervates a tarsal taste bristle, projects to the ventral part of a single leg neuropil, and does not ascend to the brain (Thoma et al., 2016, Tsubouchi et al., 2017). This includes all leg taste bristle chemosensory neurons that express Gr5a (Kwon et al., 2014, Thoma et al., 2016).

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mAL3_L#1 (FAFB:1180353) [VFB_00102dvm]

mAL3_L#1 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; mAL3_L#1 (FAFB:1180353); is part of; adult mediodorsal antennal lobe neuron 3; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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mAL3_L#2 (FAFB:1181286) [VFB_00102dvn]

mAL3_L#2 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; transmission electron microscopy (TEM); JRC2018Unisex; is part of; adult mediodorsal antennal lobe neuron 3; female organism; CC-BY-SA_4.0; mAL3_L#2 (FAFB:1181286)]

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mAL3_L#3 (FAFB:1334561) [VFB_00102dvp]

mAL3_L#3 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; mAL3_L#3 (FAFB:1334561); JRC2018Unisex; is part of; adult mediodorsal antennal lobe neuron 3; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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mAL3_L#4 (FAFB:2390280) [VFB_00102dvs]

mAL3_L#4 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; mAL3_L#4 (FAFB:2390280); JRC2018Unisex; is part of; adult mediodorsal antennal lobe neuron 3; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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mAL3_L#5 (FAFB:3927073) [VFB_00102dvw]

mAL3_L#5 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; JRC2018Unisex; is part of; mAL3_L#5 (FAFB:3927073); adult mediodorsal antennal lobe neuron 3; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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mAL3_L#6 (FAFB:4311394) [VFB_00102dvx]

mAL3_L#6 [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; mAL3_L#6 (FAFB:4311394); JRC2018Unisex; is part of; adult mediodorsal antennal lobe neuron 3; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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narrow bitter-sensing neuron of the labellum I-b [FBbt_00048159]

Bitter-sensing gustatory receptor neuron of the labellum that innervates a narrowly-tuned bitter sensillum of the labellum belonging to group I-b. These cells are unique among the bitter-sensitive neurons of the labellum in expressing Gr47a, they additionally express Gr28a and Gr22b (Wang et al., 2004).

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pGRN_L (FAFB:7108314) [VFB_00102dw2]

pGRN_L [VFB CATMAID Adult Brain (FAFB); pGRN_L (FAFB:7108314); adult brain; EM FAFB Taisz and Galili et al., 2022; gustatory receptor neuron of the adult pharynx; JRC2018Unisex; is part of; female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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pGRN_R (FAFB:5864214) [VFB_00102dw0]

pGRN_R [VFB CATMAID Adult Brain (FAFB); adult brain; EM FAFB Taisz and Galili et al., 2022; gustatory receptor neuron of the adult pharynx; JRC2018Unisex; is part of; pGRN_R (FAFB:5864214); female organism; CC-BY-SA_4.0; transmission electron microscopy (TEM)]

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posteroventral projection neuron of the medial supraesophageal gustatory tract [FBbt_00059252]

A gustatory projection neuron with a cell body located posteroventrally to the supraesophageal zone and that projects through the medial supraesophageal tract to the superior medial protocerebrum. It receives input from the ipsilateral supraesophageal zone (Talay et al., 2017).

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projection neuron of the mediolateral supraesophageal gustatory tract [FBbt_00059254]

A gustatory projection neuron that projects through the mediolateral supraesophageal tract. Its cell body is located anterodorsally to the antennal lobe. It receives input mostly from the contralateral supraesophageal zone, with a faint connection to the ipsilateral supraesophageal zone. It projects contralaterally, forming crescent-shaped terminals in the superior intermediate protocerebrum and the superior lateral protocerebrum (Talay et al., 2017).

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prothoracic leg tarsal taste bristle 5s [FBbt_00048186]

Short taste bristle of tarsal segment 5 of the prothoracic leg. It is located proximal to bristle 5v on the ventral tarsal segment 5. One is found on the medial side of the leg and one on the lateral side. It responds to the widest array of tastants of any prothoracic leg taste bristle present in the female, including sugars, bitter compounds and amino acids.

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short labellar taste bristle [FBbt_00007413]

Shortest of the three main labellar taste bristle types, it is around 15 micrometres long and is curved in a medial direction (Shanbhag et al., 2001). These taste bristles contain the sensory dendrites of 4 gustatory receptor neurons (Shanbhag et al., 2001), which can be sensitive to sugars, bitter stimuli, salt, or water (Meunier et al., 2003; Fujishiro et al., 1984), and one mechanosensory neuron (Shanbhag et al., 2001).

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sour-sensing neuron of mesothoracic leg tarsal taste bristle 5b [FBbt_00051971]

Sensory neuron that has a dendrite in the mesothoracic leg tarsal taste bristle 5b and is capable of detecting sour stimuli (Chen and Amrein, 2017). It responds to a range of carboxylic and mineral acids (Chen and Amrein, 2017). There is one of these per 5b bristle (Chen and Amrein, 2017).

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sour-sensing neuron of mesothoracic leg tarsal taste bristle 5v [FBbt_00051972]

Sensory neuron that has a dendrite in the mesothoracic leg tarsal taste bristle 5v and is capable of detecting sour stimuli (Chen and Amrein, 2017). It responds specifically to glycolic and malic acids and also responds to high concentrations of salt (Chen and Amrein, 2017). There are two of these per 5v bristle (Chen and Amrein, 2017).

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sour-sensing neuron of metathoracic leg tarsal taste bristle 5b [FBbt_00051973]

Sensory neuron that has a dendrite in the metathoracic leg tarsal taste bristle 5b and is capable of detecting sour stimuli (Chen and Amrein, 2017). It responds to a range of carboxylic and mineral acids (Chen and Amrein, 2017). There is one of these per 5b bristle (Chen and Amrein, 2017).

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sour-sensing neuron of metathoracic leg tarsal taste bristle 5v [FBbt_00051974]

Sensory neuron that has a dendrite in the metathoracic leg tarsal taste bristle 5v and is capable of detecting sour stimuli (Chen and Amrein, 2017). It responds specifically to glycolic and malic acids and also responds to high concentrations of salt (Chen and Amrein, 2017). There are two of these per 5v bristle (Chen and Amrein, 2017).

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sour-sensing neuron of prothoracic leg tarsal taste bristle 5b [FBbt_00051975]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 5b and is capable of detecting sour stimuli (Chen and Amrein, 2017). It responds to a range of carboxylic and mineral acids (Chen and Amrein, 2017). There is one of these per 5b bristle (Chen and Amrein, 2017).

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sour-sensing neuron of prothoracic leg tarsal taste bristle 5s [FBbt_00051976]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 5s and is capable of detecting sour stimuli (Chen and Amrein, 2017). It responds to a range of carboxylic and mineral acids (Chen and Amrein, 2017). There is one of these per 5s bristle (Chen and Amrein, 2017).

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sour-sensing neuron of prothoracic leg tarsal taste bristle 5v [FBbt_00051977]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 5v and is capable of detecting sour stimuli (Chen and Amrein, 2017). It responds specifically to glycolic and malic acids and also responds to high concentrations of salt (Chen and Amrein, 2017). There are two of these per 5v bristle (Chen and Amrein, 2017).

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sour-sensing neuron of the leg [FBbt_00051970]

Sensory neuron that responds to sour (acidic) stimuli and innervates a taste bristle in the leg. These are characterized by expression of ionotropic receptors Ir76b and Ir25a, which are required for their response to acids, and the absence of sweet (Gr64f) and bitter (Gr33a) gustatory receptors (Chen and Amrein, 2017).

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sugar-sensing neuron of bitter-sensitive labellar taste bristle [FBbt_00048233]

Sugar-sensing gustatory receptor neuron of the labellum that innervates a bitter-sensitive sensillum of the labellum. They express Gr64e, as well as the core gustatory receptors (Gr5a and Gr64f) expressed in all sugar-sensing neurons of the labellum (Weiss et al., 2011).

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sugar-sensing neuron of large labellar taste bristle [FBbt_00048232]

Sugar-sensing gustatory receptor neuron of the labellum that innervates a large sensillum of the labellum. They express Gr61a and Gr64e, as well as the core gustatory receptors (Gr5a and Gr64f) expressed in all sugar-sensing neurons of the labellum (Weiss et al., 2011).

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sugar-sensing neuron of mesothoracic leg tarsal taste bristle 4s [FBbt_00048226]

Sensory neuron that has a dendrite in the mesothoracic leg tarsal taste bristle 4s and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr5a, Gr64c and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg and the sensillum it innervates can detect the sugars glucose, maltose and sucrose (Ling et al., 2014). It does not ascend to the brain (Kwon et al., 2014).

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sugar-sensing neuron of mesothoracic leg tarsal taste bristle 5b [FBbt_00048227]

Sensory neuron that has a dendrite in the mesothoracic leg tarsal taste bristle 5b and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr5a, Gr64c and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg and the sensillum it innervates can detect the sugars glucose, maltose and sucrose (Ling et al., 2014). It does not ascend to the brain (Kwon et al., 2014).

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sugar-sensing neuron of mesothoracic leg tarsal taste bristle 5v [FBbt_00048228]

Sensory neuron that has a dendrite in the mesothoracic leg tarsal taste bristle 5v and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr43a, Gr64c and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg and the sensillum it innervates can detect the sugars fructose, glucose, maltose and sucrose (Ling et al., 2014).

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sugar-sensing neuron of metathoracic leg tarsal taste bristle 4s [FBbt_00048229]

Sensory neuron that has a dendrite in the metathoracic leg tarsal taste bristle 4s and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr5a, Gr64c and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg (Ling et al., 2014). It does not ascend to the brain (Kwon et al., 2014).

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sugar-sensing neuron of metathoracic leg tarsal taste bristle 5b [FBbt_00048230]

Sensory neuron that has a dendrite in the metathoracic leg tarsal taste bristle 5b and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr5a, Gr64c and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg (Ling et al., 2014). It does not ascend to the brain (Kwon et al., 2014).

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sugar-sensing neuron of metathoracic leg tarsal taste bristle 5v [FBbt_00048231]

Sensory neuron that has a dendrite in the metathoracic leg tarsal taste bristle 5v and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr43a, Gr64c and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg (Ling et al., 2014).

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sugar-sensing neuron of prothoracic leg tarsal taste bristle 2b [FBbt_00048215]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 2b and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr5a, Gr64c and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg and the sensillum it innervates can detect the sugars glucose, maltose, palatinose and sucrose (Ling et al., 2014). It does not ascend to the brain (Kwon et al., 2014).

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sugar-sensing neuron of prothoracic leg tarsal taste bristle 3b [FBbt_00048216]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 3b and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr5a, Gr64c and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg and the sensillum it innervates can detect the sugars glucose, maltose, palatinose and sucrose (Ling et al., 2014). It does not ascend to the brain (Kwon et al., 2014).

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sugar-sensing neuron of prothoracic leg tarsal taste bristle 4b [FBbt_00048217]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 4b and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr64c in addition to the core receptors expressed by sugar-sensing neurons of the leg and the sensillum it innervates can detect the sugars glucose, maltose and sucrose (Ling et al., 2014).

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sugar-sensing neuron of prothoracic leg tarsal taste bristle 4s [FBbt_00048218]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 4s and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr5a, Gr64c and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg and the sensillum it innervates can detect the sugars fructose, glucose, maltose, maltotriose, palatinose, sucrose and trehalose (Ling et al., 2014). It does not ascend to the brain (Kwon et al., 2014).

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sugar-sensing neuron of prothoracic leg tarsal taste bristle 5b [FBbt_00048219]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 5b and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr5a, Gr64c and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg and the sensillum it innervates can detect the sugars fructose, glucose, maltose, maltotriose, palatinose, sucrose and trehalose (Ling et al., 2014). It does not ascend to the brain (Kwon et al., 2014).

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sugar-sensing neuron of prothoracic leg tarsal taste bristle 5s [FBbt_00048221]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 5s and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr5a and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg and the sensillum it innervates can detect the sugars fructose, glucose, maltose, maltotriose, palatinose, sucrose and trehalose (Ling et al., 2014). It does not ascend to the brain (Kwon et al., 2014).

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sugar-sensing neuron of prothoracic leg tarsal taste bristle 5v [FBbt_00048220]

Sensory neuron that has a dendrite in the prothoracic leg tarsal taste bristle 5v and is capable of detecting sweet stimuli (Ling et al., 2014). It expresses Gr43a, Gr64c and Gr64e in addition to the core receptors expressed by sugar-sensing neurons of the leg and the sensillum it innervates can detect the sugars fructose, glucose, maltose and sucrose (Ling et al., 2014).

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sugar-sensing neuron of the adult brain [FBbt_00058222]

Chemosensory neuron in the posterior superior lateral protocerebrum that expresses the fructose receptor Gr43a and the sugar receptor Gr64a (Miyamoto et al., 2012; Miyamoto and Amrein, 2014; Fujii et al., 2015). It senses sugars in the hemolymph to regulate feeding (Miyamoto et al., 2012; Miyamoto and Amrein, 2014; Fujii et al., 2015). There are 2-4 of these cells per brain hemisphere (Miyamoto et al., 2012; Miyamoto and Amrein, 2014; Fujii et al., 2015). They also secrete corazonin (Miyamoto and Amrein, 2014). Unlike other brain corazonin neurons, they do not project via the nervus corporis cardiaci (McKim et al., 2024).

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TPN1 [FBbt_00049529]

Adult taste projection neuron with its cell body in the metathoracic neuromere, dendrites in all three contralateral leg neuropil regions, and axons that project to the subesophageal zone (Kim et al., 2017). It receives input from sugar-sensing (Gr5a-expressing) neurons in the leg neuropil, it is activated in response to sweet stimulation of the legs and it promotes proboscis extension (Kim et al., 2017). There is one of these cells per hemisphere (Kim et al., 2017).

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TPN2 [FBbt_00049530]

Adult taste projection neuron with axonal projections in the subesophageal zone and lateral protocerebrum (Kim et al., 2017). There are two of these cells per hemisphere, one has its cell body on the dorsal surface of the metathoracic neuromere with contralateral ventral nerve cord dendrites and the other has its cell body in the abdominal ganglion with bilateral ventral nerve cord dendrites (Kim et al., 2017). It receives input from sugar-sensing (Gr5a-expressing) neurons in the leg neuropil, it is activated in response to sweet stimulation of the legs and it promotes proboscis extension (Kim et al., 2017). It fasciculates with the lateral antennal lobe tract and terminates in the superior lateral protocerebrum, with terminals in and around the lateral horn (Kim et al., 2017).

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ventral cibarial sense organ neuron V5 [FBbt_00048148]

Gustatory receptor neuron that innervates the ventral cibarial sense organ of the adult pharynx. There is one of these cells, which is unique among pharyngeal sense organ neurons in expressing Gr22d; it also expresses a range of other Gustatory receptors and a few Ionotropic receptors (Chen and Dahanukar, 2017).

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ventral cibarial sense organ neuron V6 [FBbt_00048149]

Gustatory receptor neuron that innervates the ventral cibarial sense organ of the adult pharynx. There is one of these cells, which is unique among pharyngeal sense organ neurons in expressing Gr9a; it also expresses a range of other Gustatory receptors, as well as Ir11a and Ir25a (Chen and Dahanukar, 2017). It is involved in the detection of L-canavanine (Chen and Dahanukar, 2017).

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ventral nerve cord projection neuron of the lateral supraesophageal gustatory tract [FBbt_00059256]

A gustatory projection neuron with a cell body near the abdominal ganglion in the ventral nerve cord and that projects through the lateral supraesophageal tract. It receives input from each contralateral leg neuromere, crosses the midline and ascends toward the central brain. It extend dense arborizations into the contralateral supraesophageal zone and projects to the contralateral superior lateral protocerebrum, with minor collaterals in the lateral protocerebrum (Talay et al., 2017).

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wing sleep gustatory projection neuron [FBbt_00052356]

Ascending neuron that receives gustatory input from wing chemosensory (Ir52a) neurons in the wing neuropil and projects to the subesophageal zone and ventrolateral protocerebrum via a medial tract (Melnattur et al., 2020). It is involved in the regulation of sleep (Melnattur et al., 2020).

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wing sleep gustatory projection neuron [FBbt_00052356]

Ascending neuron that receives gustatory input from wing chemosensory (Ir52a) neurons in the wing neuropil and projects to the subesophageal zone and ventrolateral protocerebrum via a medial tract (Melnattur et al., 2020). It is involved in the regulation of sleep (Melnattur et al., 2020).

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