node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
GATAe | fkh | FBpp0082672 | FBpp0303365 | 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. | 0.776 |
GATAe | grn | FBpp0082672 | FBpp0303221 | Transcription factor dGATAe; GATAe (GATAe) encodes a endoderm-specific GATA factor. It regulates endoderm differentiation and intestinal stem cell maintenance. | Grain, isoform C; Grain (grn) encodes a transcription factor from the GATA family. It regulates the expression of receptors and adhesion molecules such as those encoded by unc-5 and Fas2 involved in axon guidance. It contributes to multiple other developmental processes including leg and larval spiracle morphogenesis. | 0.700 |
GATAe | hkb | FBpp0082672 | FBpp0078591 | Transcription factor dGATAe; GATAe (GATAe) encodes a endoderm-specific GATA factor. It regulates endoderm differentiation and intestinal stem cell maintenance. | Huckebein (hkb) is expressed in patches within the embryonic neuroectoderm and a subset of neuroblasts and their progeny, where it is required for proper neuronal specification and axon targeting. It is a terminal gap gene mediating the maternal terminal information at the posterior end of the blastoderm embryo. | 0.478 |
GATAe | pnr | FBpp0082672 | FBpp0082675 | Transcription factor dGATAe; GATAe (GATAe) encodes a endoderm-specific GATA factor. It regulates endoderm differentiation and intestinal stem cell maintenance. | GATA-binding factor A; Transcriptional regulator involved in several developmental processes during embryonic and imaginal disks development. Involved in determining dorsal cell fate. Acts as an essential transcriptional regulator of proneural achaete-scute complex (AS-C) and is required for its spatial regulation during development of the adult peripheral nervous system, and hence for the positioning of neural precursors. It is the only factor to directly activate AS-C genes. | 0.535 |
GATAe | srp | FBpp0082672 | FBpp0082669 | Transcription factor dGATAe; GATAe (GATAe) encodes a endoderm-specific GATA factor. It regulates endoderm differentiation and intestinal stem cell maintenance. | Box A-binding factor; May function as a transcriptional activator protein and may play a key role in the organogenesis of the fat body. Binds a sequence element (5'-[TA]GATAA-3') found in the larval promoters of all known alcohol dehydrogenase (ADH) genes. Acts as a homeotic gene downstream of the terminal gap gene HKB to promote morphogenesis and differentiation of anterior and posterior midgut. | 0.563 |
S6k | fkh | FBpp0305462 | FBpp0303365 | Ribosomal protein S6 kinase (S6k) encodes an important component of the target of rapamycin pathway. It is involved in the control of synapse development, autophagy and cell size. | 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. | 0.920 |
byn | fkh | FBpp0304380 | FBpp0303365 | T-related protein; Brachyenteron (byn) encodes a T-domain transcriptional activator that acts in developmental specification, in particular it specifies posterior gut structures and a subset of posteriorly derived visceral muscles. | 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. | 0.678 |
byn | grn | FBpp0304380 | FBpp0303221 | T-related protein; Brachyenteron (byn) encodes a T-domain transcriptional activator that acts in developmental specification, in particular it specifies posterior gut structures and a subset of posteriorly derived visceral muscles. | Grain, isoform C; Grain (grn) encodes a transcription factor from the GATA family. It regulates the expression of receptors and adhesion molecules such as those encoded by unc-5 and Fas2 involved in axon guidance. It contributes to multiple other developmental processes including leg and larval spiracle morphogenesis. | 0.421 |
byn | tll | FBpp0304380 | FBpp0085071 | T-related protein; Brachyenteron (byn) encodes a T-domain transcriptional activator that acts in developmental specification, in particular it specifies posterior gut structures and a subset of posteriorly derived visceral muscles. | Protein tailless; Orphan receptor that binds DNA as a monomer to hormone response elements (HRE) containing an extended core motif half-site sequence 5'-AAGTCA-3' in which the 5' flanking nucleotides participate in determining receptor specificity. This receptor binds to the consensus sequence [AG][AG]AAGTCAA. Plays a key role in the establishment of non-metameric domains at the anterior and posterior poles of the embryo. It may also play a role in the nervous system. The maternal terminal pathway activates the tll gene in the termini; TLL activity then represses segmentation and activ [...] | 0.427 |
exd | fkh | FBpp0305514 | FBpp0303365 | Homeobox protein extradenticle; Transcription factor which acts with the selector homeodomain proteins altering the regulation of downstream target genes such as wingless (wg), teashirt (tsh) and decapentaplegic (dpp), thus affecting segmental identity. Delimits the eye field and prevent inappropriate eye development. Required for proper localization of chordotonal organs within the peripheral nervous system. | 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. | 0.713 |
exd | hkb | FBpp0305514 | FBpp0078591 | Homeobox protein extradenticle; Transcription factor which acts with the selector homeodomain proteins altering the regulation of downstream target genes such as wingless (wg), teashirt (tsh) and decapentaplegic (dpp), thus affecting segmental identity. Delimits the eye field and prevent inappropriate eye development. Required for proper localization of chordotonal organs within the peripheral nervous system. | Huckebein (hkb) is expressed in patches within the embryonic neuroectoderm and a subset of neuroblasts and their progeny, where it is required for proper neuronal specification and axon targeting. It is a terminal gap gene mediating the maternal terminal information at the posterior end of the blastoderm embryo. | 0.429 |
fkh | GATAe | FBpp0303365 | FBpp0082672 | 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. | 0.776 |
fkh | S6k | FBpp0303365 | FBpp0305462 | 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. | Ribosomal protein S6 kinase (S6k) encodes an important component of the target of rapamycin pathway. It is involved in the control of synapse development, autophagy and cell size. | 0.920 |
fkh | byn | FBpp0303365 | FBpp0304380 | 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. | T-related protein; Brachyenteron (byn) encodes a T-domain transcriptional activator that acts in developmental specification, in particular it specifies posterior gut structures and a subset of posteriorly derived visceral muscles. | 0.678 |
fkh | exd | FBpp0303365 | FBpp0305514 | 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 extradenticle; Transcription factor which acts with the selector homeodomain proteins altering the regulation of downstream target genes such as wingless (wg), teashirt (tsh) and decapentaplegic (dpp), thus affecting segmental identity. Delimits the eye field and prevent inappropriate eye development. Required for proper localization of chordotonal organs within the peripheral nervous system. | 0.713 |
fkh | grn | FBpp0303365 | FBpp0303221 | 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. | Grain, isoform C; Grain (grn) encodes a transcription factor from the GATA family. It regulates the expression of receptors and adhesion molecules such as those encoded by unc-5 and Fas2 involved in axon guidance. It contributes to multiple other developmental processes including leg and larval spiracle morphogenesis. | 0.804 |
fkh | hkb | FBpp0303365 | FBpp0078591 | 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. | Huckebein (hkb) is expressed in patches within the embryonic neuroectoderm and a subset of neuroblasts and their progeny, where it is required for proper neuronal specification and axon targeting. It is a terminal gap gene mediating the maternal terminal information at the posterior end of the blastoderm embryo. | 0.692 |
fkh | oc | FBpp0303365 | FBpp0423136 | 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. | Homeotic protein ocelliless; Transcriptional regulator involved in pattern formation and cell determination in the embryonic CNS and larval imaginal disks. Also later in development to coordinate the expression of regulatory and structural genes required for photoreceptor cell fate in the ocelli. Has a dual role in the terminal differentiation of subtypes of photoreceptors by regulating rhodopsin (rh) expression: essential for establishing the expression of rh genes in the pale subset of ommatidia as well as repressing Rh6 in outer photoreceptors. Belongs to the paired homeobox family. | 0.694 |
fkh | pnr | FBpp0303365 | FBpp0082675 | 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. | GATA-binding factor A; Transcriptional regulator involved in several developmental processes during embryonic and imaginal disks development. Involved in determining dorsal cell fate. Acts as an essential transcriptional regulator of proneural achaete-scute complex (AS-C) and is required for its spatial regulation during development of the adult peripheral nervous system, and hence for the positioning of neural precursors. It is the only factor to directly activate AS-C genes. | 0.746 |
fkh | srp | FBpp0303365 | FBpp0082669 | 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. | Box A-binding factor; May function as a transcriptional activator protein and may play a key role in the organogenesis of the fat body. Binds a sequence element (5'-[TA]GATAA-3') found in the larval promoters of all known alcohol dehydrogenase (ADH) genes. Acts as a homeotic gene downstream of the terminal gap gene HKB to promote morphogenesis and differentiation of anterior and posterior midgut. | 0.687 |