Homeobox protein abdominal-B; Abdominal B (Abd-B) is one of the three hox genes of the bithorax complex. The product of Abd-B specifies the identity of the posterior abdominal segments, the external genitalia and the gonads. It is also involved in regulating the post-mating-response.

Fork head (fkh) encodes a winged-helix nuclear transcription factor most studied for its role in salivary gland formation, where it is required for salivary gland viability, invagination, and maintaining expression of other early-expressed salivary gland transcription factors. It works with the product of sage to activate expression of salivary gland specific gene products, such as secreted proteins and their modifying enzymes.

Autophagy-related 16 (Atg16) encodes a protein that forms an E3-like protein complex. This complex contributes to the the covalent binding of the lipid phosphatidylethanolamine to the product of Atg8a, a key autophagy protein involved in autophagosome biogenesis. The product of Atg16 is involved in autophagosome biogenesis, maintenance of proper neuromuscular function, lifespan, ethanol sedation, and enteroendocrine cell function in the intestine.

Rab-related protein 3; GTP binding; GTPase activity; GTPase activator activity; protein binding. It is involved in the biological process described with: enteroendocrine cell differentiation; intracellular protein transport; Rab protein signal transduction; vesicle-mediated transport; regulation of cell differentiation involved in tissue homeostasis.

Autophagy-related 16 (Atg16) encodes a protein that forms an E3-like protein complex. This complex contributes to the the covalent binding of the lipid phosphatidylethanolamine to the product of Atg8a, a key autophagy protein involved in autophagosome biogenesis. The product of Atg16 is involved in autophagosome biogenesis, maintenance of proper neuromuscular function, lifespan, ethanol sedation, and enteroendocrine cell function in the intestine.

UV-resistance associated gene (Uvrag) encodes a protein that regulates autophagy and vesicle trafficking with the product of Atg6 and class C vacuolar protein sorting complexes. With the products of Atg6 and Pi3K59F, It forms a PI3K(III) complex and plays roles in receptor downregulation and the establishment of proper cell polarity. It is also critical for proper organ rotation during development by controlling receptor endocytosis and subsequent degradation.

Transcription factor dGATAe; GATAe (GATAe) encodes a endoderm-specific GATA factor. It regulates endoderm differentiation and intestinal stem cell maintenance.

Sox21a, isoform B; Sox21a (Sox21a) encodes a Sox family transcription factor involved in the differentiation of stem cells in the midgut.

Transcription factor dGATAe; GATAe (GATAe) encodes a endoderm-specific GATA factor. It regulates endoderm differentiation and intestinal stem cell maintenance.

Daughterless (da) encodes a class I bHLH protein important for sex determination and dosage compensation by controlling the feminizing switch gene Sxl. It participates in transcriptional regulation of a wide variety processes, including oogenesis, neurogenesis, myogenesis and cell proliferation.

Transcription factor dGATAe; GATAe (GATAe) encodes a endoderm-specific GATA factor. It regulates endoderm differentiation and intestinal stem cell maintenance.

Fork head (fkh) encodes a winged-helix nuclear transcription factor most studied for its role in salivary gland formation, where it is required for salivary gland viability, invagination, and maintaining expression of other early-expressed salivary gland transcription factors. It works with the product of sage to activate expression of salivary gland specific gene products, such as secreted proteins and their modifying enzymes.

Transcription factor dGATAe; GATAe (GATAe) encodes a endoderm-specific GATA factor. It regulates endoderm differentiation and intestinal stem cell maintenance.

Muscle-specific homeobox protein tinman; Required for the development of heart and visceral muscle; for the formation of somatic muscles. Has a crucial function in the early mesodermal subdivisions.

Rab-related protein 3; GTP binding; GTPase activity; GTPase activator activity; protein binding. It is involved in the biological process described with: enteroendocrine cell differentiation; intracellular protein transport; Rab protein signal transduction; vesicle-mediated transport; regulation of cell differentiation involved in tissue homeostasis.

Autophagy-related 16 (Atg16) encodes a protein that forms an E3-like protein complex. This complex contributes to the the covalent binding of the lipid phosphatidylethanolamine to the product of Atg8a, a key autophagy protein involved in autophagosome biogenesis. The product of Atg16 is involved in autophagosome biogenesis, maintenance of proper neuromuscular function, lifespan, ethanol sedation, and enteroendocrine cell function in the intestine.

Sox21a, isoform B; Sox21a (Sox21a) encodes a Sox family transcription factor involved in the differentiation of stem cells in the midgut.

Transcription factor dGATAe; GATAe (GATAe) encodes a endoderm-specific GATA factor. It regulates endoderm differentiation and intestinal stem cell maintenance.

Sox21a, isoform B; Sox21a (Sox21a) encodes a Sox family transcription factor involved in the differentiation of stem cells in the midgut.

Achaete-scute complex protein T4; AS-C proteins are involved in the determination of the neuronal precursors in the peripheral nervous system and the central nervous system. Also involved in sex determination and dosage compensation.

UV-resistance associated gene (Uvrag) encodes a protein that regulates autophagy and vesicle trafficking with the product of Atg6 and class C vacuolar protein sorting complexes. With the products of Atg6 and Pi3K59F, It forms a PI3K(III) complex and plays roles in receptor downregulation and the establishment of proper cell polarity. It is also critical for proper organ rotation during development by controlling receptor endocytosis and subsequent degradation.

Autophagy-related 16 (Atg16) encodes a protein that forms an E3-like protein complex. This complex contributes to the the covalent binding of the lipid phosphatidylethanolamine to the product of Atg8a, a key autophagy protein involved in autophagosome biogenesis. The product of Atg16 is involved in autophagosome biogenesis, maintenance of proper neuromuscular function, lifespan, ethanol sedation, and enteroendocrine cell function in the intestine.

Daughterless (da) encodes a class I bHLH protein important for sex determination and dosage compensation by controlling the feminizing switch gene Sxl. It participates in transcriptional regulation of a wide variety processes, including oogenesis, neurogenesis, myogenesis and cell proliferation.

Transcription factor dGATAe; GATAe (GATAe) encodes a endoderm-specific GATA factor. It regulates endoderm differentiation and intestinal stem cell maintenance.

Daughterless (da) encodes a class I bHLH protein important for sex determination and dosage compensation by controlling the feminizing switch gene Sxl. It participates in transcriptional regulation of a wide variety processes, including oogenesis, neurogenesis, myogenesis and cell proliferation.

Protein dimmed; Transcription factor that regulates neurosecretory (NS) cell function and neuroendocrine cell fate. Acts as a master regulator of common NS functions such as Phm expression and neuropeptide production. Plays a role as a regulator of peptide-containing large dense-core vesicle (LDCV) production and peptidergic cell differentiation. Controls transcription of FMRFamide in Tv neuronal cells and Fur1 in Ap-let cells (Tvb and dorsal apterous cells). Also required for up- regulation of Phm in Tv and Ap-let cells, and expression of three neuropeptide genes, Ms, FMRFamide and Lk [...]

Daughterless (da) encodes a class I bHLH protein important for sex determination and dosage compensation by controlling the feminizing switch gene Sxl. It participates in transcriptional regulation of a wide variety processes, including oogenesis, neurogenesis, myogenesis and cell proliferation.

Achaete-scute complex protein T4; AS-C proteins are involved in the determination of the neuronal precursors in the peripheral nervous system and the central nervous system. Also involved in sex determination and dosage compensation.

Protein dimmed; Transcription factor that regulates neurosecretory (NS) cell function and neuroendocrine cell fate. Acts as a master regulator of common NS functions such as Phm expression and neuropeptide production. Plays a role as a regulator of peptide-containing large dense-core vesicle (LDCV) production and peptidergic cell differentiation. Controls transcription of FMRFamide in Tv neuronal cells and Fur1 in Ap-let cells (Tvb and dorsal apterous cells). Also required for up- regulation of Phm in Tv and Ap-let cells, and expression of three neuropeptide genes, Ms, FMRFamide and Lk [...]

Daughterless (da) encodes a class I bHLH protein important for sex determination and dosage compensation by controlling the feminizing switch gene Sxl. It participates in transcriptional regulation of a wide variety processes, including oogenesis, neurogenesis, myogenesis and cell proliferation.

Extra-extra (exex) encodes a homeodomain transcription factor that is expressed in and regulates the differentiation of motor neurons that project axons to ventral body wall muscles. Within the central nervous system, the product of exex negatively interacts with the products of Lim3 and eve to govern neuronal specification and differentiation. The roles of the product of exex include neuronal specification and differentiation.

Fork head (fkh) encodes a winged-helix nuclear transcription factor most studied for its role in salivary gland formation, where it is required for salivary gland viability, invagination, and maintaining expression of other early-expressed salivary gland transcription factors. It works with the product of sage to activate expression of salivary gland specific gene products, such as secreted proteins and their modifying enzymes.

Fork head (fkh) encodes a winged-helix nuclear transcription factor most studied for its role in salivary gland formation, where it is required for salivary gland viability, invagination, and maintaining expression of other early-expressed salivary gland transcription factors. It works with the product of sage to activate expression of salivary gland specific gene products, such as secreted proteins and their modifying enzymes.

Homeobox protein abdominal-B; Abdominal B (Abd-B) is one of the three hox genes of the bithorax complex. The product of Abd-B specifies the identity of the posterior abdominal segments, the external genitalia and the gonads. It is also involved in regulating the post-mating-response.

Fork head (fkh) encodes a winged-helix nuclear transcription factor most studied for its role in salivary gland formation, where it is required for salivary gland viability, invagination, and maintaining expression of other early-expressed salivary gland transcription factors. It works with the product of sage to activate expression of salivary gland specific gene products, such as secreted proteins and their modifying enzymes.

Transcription factor dGATAe; GATAe (GATAe) encodes a endoderm-specific GATA factor. It regulates endoderm differentiation and intestinal stem cell maintenance.

Fork head (fkh) encodes a winged-helix nuclear transcription factor most studied for its role in salivary gland formation, where it is required for salivary gland viability, invagination, and maintaining expression of other early-expressed salivary gland transcription factors. It works with the product of sage to activate expression of salivary gland specific gene products, such as secreted proteins and their modifying enzymes.

Extra-extra (exex) encodes a homeodomain transcription factor that is expressed in and regulates the differentiation of motor neurons that project axons to ventral body wall muscles. Within the central nervous system, the product of exex negatively interacts with the products of Lim3 and eve to govern neuronal specification and differentiation. The roles of the product of exex include neuronal specification and differentiation.

Fork head (fkh) encodes a winged-helix nuclear transcription factor most studied for its role in salivary gland formation, where it is required for salivary gland viability, invagination, and maintaining expression of other early-expressed salivary gland transcription factors. It works with the product of sage to activate expression of salivary gland specific gene products, such as secreted proteins and their modifying enzymes.

Muscle-specific homeobox protein tinman; Required for the development of heart and visceral muscle; for the formation of somatic muscles. Has a crucial function in the early mesodermal subdivisions.