New model in OGS2.0 | DPOGS212956  |
---|---|
Genomic Position | scaffold4792:+ 1030-7067 |
See gene structure | |
CDS Length | 1713 |
Paired RNAseq reads   | 2494 |
Single RNAseq reads   | 6579 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001739 (0.0) |
Best Drosophila hit   | Signal-transducer and activator of transcription protein at 92E, isoform C (1e-86) |
Best Human hit | signal transducer and activator of transcription 5B (4e-113) |
Best NR hit (blastp)   | signal transducer and activator of transcription short form [Spodoptera frugiperda] (0.0) |
Best NR hit (blastx)   | signal transducer and activator of transcription short form [Spodoptera frugiperda] (0.0) |
GeneOntology terms    | GO:0006105 succinate metabolic process GO:0060397 JAK-STAT cascade involved in growth hormone signaling pathway GO:0070670 response to interleukin-4 GO:0003677 DNA binding GO:0007565 female pregnancy GO:0001553 luteinization GO:0019218 regulation of steroid metabolic process GO:0030155 regulation of cell adhesion GO:0032819 positive regulation of natural killer cell proliferation GO:0035259 glucocorticoid receptor binding GO:0045954 positive regulation of natural killer cell mediated cytotoxicity GO:0001779 natural killer cell differentiation GO:0005634 nucleus GO:0007595 lactation GO:0043066 negative regulation of apoptosis GO:0019915 lipid storage GO:0006600 creatine metabolic process GO:0019530 taurine metabolic process GO:0032825 positive regulation of natural killer cell differentiation GO:0043029 T cell homeostasis GO:0045086 positive regulation of interleukin-2 biosynthetic process GO:0050729 positive regulation of inflammatory response GO:0006107 oxaloacetate metabolic process GO:0006549 isoleucine metabolic process GO:0070672 response to interleukin-15 GO:0030856 regulation of epithelial cell differentiation GO:0008284 positive regulation of cell proliferation GO:0045885 positive regulation of survival gene product expression GO:0045931 positive regulation of mitotic cell cycle GO:0046543 development of secondary female sexual characteristics GO:0045647 negative regulation of erythrocyte differentiation GO:0046544 development of secondary male sexual characteristics GO:0005515 protein binding GO:0006101 citrate metabolic process GO:0032355 response to estradiol stimulus GO:0033077 T cell differentiation in the thymus GO:0007259 JAK-STAT cascade GO:0019221 cytokine-mediated signaling pathway GO:0042448 progesterone metabolic process GO:0005509 calcium ion binding GO:0045579 positive regulation of B cell differentiation GO:0003700 sequence-specific DNA binding transcription factor activity GO:0032870 cellular response to hormone stimulus GO:0046449 creatinine metabolic process GO:0004871 signal transducer activity GO:0006631 fatty acid metabolic process GO:0007548 sex differentiation GO:0045588 positive regulation of gamma-delta T cell differentiation GO:0005737 cytoplasm GO:0040018 positive regulation of multicellular organism growth GO:0042104 positive regulation of activated T cell proliferation GO:0045944 positive regulation of transcription from RNA polymerase II promoter GO:0000255 allantoin metabolic process GO:0006103 2-oxoglutarate metabolic process GO:0006573 valine metabolic process GO:0048541 Peyer's patch development GO:0070669 response to interleukin-2 |
InterPro families    | IPR008967 p53-like transcription factor, DNA-binding IPR015988 STAT transcription factor, coiled coil IPR013800 STAT transcription factor, all-alpha IPR012345 STAT transcription factor, DNA-binding, subdomain IPR011992 EF-hand-like domain IPR000980 SH2 motif IPR001217 STAT transcription factor, core IPR013801 STAT transcription factor, DNA-binding |
Orthology group | MCL11252 |
Nucleotide sequence:
ATGGCTTCCGAGGAGATCAGAAGCCTCCAGGCTAATATAGAGTCCTTCTCGCTGCAGTAC
CACGAGTGCCTCAAGAATAAGGGTCACATAAACTATTTGCAACAGAGCGGTCCCATGACC
AACGACCGGCGCGAGCTGGAGGCGTGCCTCCGCGTGCAGATCGAGGATATGGAGAGGAAA
CTCAACGCGCTGGTGGCCCAAATTAACCAGTCCCAAATGGAGTTGGTGGATCACATGAAA
GAAAACATCACCAACCTGAGACAGCTGCAGAGCCAGGTGCTGGACGAGGAGCTGATCAAG
TGGAAGCGTGAACAGCAGCTGTCAGGAAACGGTGTGCCGATGCAGTCCAACCTGAACAGT
ATACAGGAGTGGTGTGAGCTGCTGGCCGAGCTGATATGGAGTACGAGACAGCAGGTCTGC
AATGTGGGAAGGATTAACAGCAAGACCATAGTGGAGCTGCGGCAACCCCACCTCGCCGAG
ATGCTGGACGACATGAGCAAGCAGGTGACAAGTCTTCTGTCTACTTTGGTGACTTCAACG
TTCGTCATTGAGAAACAACCTCCGCAGGTCATGAAGACAAACACACGCTTCACAGCCACC
GTCCGCCTGTTAGTCGGTGGTCAACTGAACGTGCACATGACACCGCCGCGCGTCACGGTG
GTGATAATATCGGAGCAACAGGCCCAGCTGCTGCTGAAGAGCGACGTGTCCGGGGGCCGG
GGCAAACAGCCCCAGGAGTGTGGGGACATCTTGAACAACAGCGGCTGTATGGAGTACCAG
CCGACTTGCAGGCAGCTCAGTGTGAGCTTCCGTAACATGCAGCTGCGTAAGATCAAACGA
GCCGAGAAGAAGGGAACAGAGAGTGTGATGGACGAGAAGCTGACGCTGTTGTTCCAGTCG
GAGTTCAACGTTGGCGGAGGGGAGCTGGTCTTCCAGGTGTGGACTCTATCTCTGCCGGTG
GTTGTGATCGTCCACGGTAACCAGGAGCCCCACGGCTGGGCCACCGTTACTTGGGACAAC
GCTTTCAGCCCCCCGGGGAGAGTACCATTCGCTGTTCCTGATAAGGTGACCTGGGGTCAG
CTAGCTGAGACGCTCCGCATCAAGTTCTGCTCAGCCACAGGTGGTGACCTGTCCGAAGAC
AACTTGAGGTTCCTCGCTGAAAAAATATTCAGTTCGCACGTCGACAGAACGAGCCTGCCG
CTGACAGCGCTCGAGCTGAACAATATGAGCGTTAGCTGGACACAGTTCTGTAAGGACGCT
CTGCCTGATAGGAACTTCACCTTCTGGGAGTGGTTCTACATGGTGGTTAAGGTCACCAGG
GACTATCTGAGGACGTTGTGGTGTGACCGTGACTCGGAGCTGGGAGGTATCACCATAGCT
TGGACTGGCGAGGGTAACGAGGTGTTCAGCCTCCAGCCGTTCACGTCCCGCGACCTGATG
CTGCGCTCCCTGGCCGACCGTATCCTGGATCTCGCGCAGTTGCAATTCCTTTACCCAAAC
GTCGCCAAAGATGACGTCTTCTCCAAATACTACACTAAGCCCGAGAACGAGATGCTGAAG
AACGGGTATGTGAAGCCCGTCCTGGTGACGACCCTACCTCCCTACATGTCCGCCTCCCCG
GCCTACGCACACTCCCCGGACTCGCACAGGAACACGCCCTCTGTGCACAGCAGGTACGGT
TTACACACACACAGAGACACACACACAACTTGA
Protein sequence:
MASEEIRSLQANIESFSLQYHECLKNKGHINYLQQSGPMTNDRRELEACLRVQIEDMERK
LNALVAQINQSQMELVDHMKENITNLRQLQSQVLDEELIKWKREQQLSGNGVPMQSNLNS
IQEWCELLAELIWSTRQQVCNVGRINSKTIVELRQPHLAEMLDDMSKQVTSLLSTLVTST
FVIEKQPPQVMKTNTRFTATVRLLVGGQLNVHMTPPRVTVVIISEQQAQLLLKSDVSGGR
GKQPQECGDILNNSGCMEYQPTCRQLSVSFRNMQLRKIKRAEKKGTESVMDEKLTLLFQS
EFNVGGGELVFQVWTLSLPVVVIVHGNQEPHGWATVTWDNAFSPPGRVPFAVPDKVTWGQ
LAETLRIKFCSATGGDLSEDNLRFLAEKIFSSHVDRTSLPLTALELNNMSVSWTQFCKDA
LPDRNFTFWEWFYMVVKVTRDYLRTLWCDRDSELGGITIAWTGEGNEVFSLQPFTSRDLM
LRSLADRILDLAQLQFLYPNVAKDDVFSKYYTKPENEMLKNGYVKPVLVTTLPPYMSASP
AYAHSPDSHRNTPSVHSRYGLHTHRDTHTT