| New model in OGS2.0 | DPOGS203479 |
|---|---|
| Genomic Position | scaffold110:- 116747-127812 |
| See gene structure | |
| CDS Length | 4593 |
| Paired RNAseq reads | 911 |
| Single RNAseq reads | 2092 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA008290 (5e-88) |
| Best Drosophila hit | CG15618 (4e-62) |
| Best Human hit | thyroid adenoma-associated protein (2e-81) |
| Best NR hit (blastp) | hypothetical protein AaeL_AAEL014444 [Aedes aegypti] (1e-128) |
| Best NR hit (blastx) | hypothetical protein AaeL_AAEL014444 [Aedes aegypti] (1e-112) |
| GeneOntology terms | GO:0005488 binding |
| InterPro families | IPR016024 Armadillo-type fold IPR019442 Domain of unknown function DUF2428, death-receptor-like |
| Orthology group | MCL11309 |
Nucleotide sequence:
ATGGATAGTATTGATGTGAACCTTATGTTCACGGAAATAAGGTCTTGTTTGAAACAGCTT
CTTTTTAATGATTCTCCGATGGACACCAAATCTGTGTGTGGCATTTTGTTAGTGTCCATG
CATATTGTGGAGAACGGTGACAATTCCTGGGTTGATATACTGACTTCTAATAACCAACAC
ATGTACCTCCAAGAGGTTCTATTGAATGATTCCTGCAAGCTCAGTCTGTTGTCCGCTATA
GCCACTGTGATCTCAATGGACGAGCTACACACTGTCCACATCGATGGTGTGCCGGCGATC
ATCACATTGACTAACGATATATTGGATCTGGGAGACAGATATTCTTCTGAATCAACATTT
ACCCTGGGCATCTCTCGTACGATAGTCCAAATCAGCAAGGGGCTGGAGGTGTTCGGTGAG
AGCGGACTCCATCTGCTGGACAAACTGTGCGTGTTTGTTTGGTCCCATCTCGAACACAGC
ACGGACAGCGTACAACATCTCAGCGCCCAAATACTCACCAATATTATCAAATATTGCTCT
CATCTGAAGAAGCAGGGTAATGATTCAGCGATGACCAAGCTGTTTTCAACTCTGTCGTCC
CTGGAGAGGACTCGCAAGAGTTTCTACCTCAGCCTGACGGCCATCACCAGCGAGGTCGGG
TTCGACTGTGTCCGGGGGGTGTGGCCGGACATCATAGAAGACACGCTGAACGTGCTTCAC
CTGCAAGCCGTCCAAGCCAGCGCAACGACTTCGCTGGAGACACTCCTCCGGCACACACAC
ACGGACACTCGCGGTATACACACGCAGTGGGTGGAGCCTGTGCTGCGGTGCGTGCGCGGG
GGGGCGGGGGCTGTCAACATACTTACCAGCCTACTGATACTCATCGTCAAGAAGGACGGA
GGGGTCGTCGACTATATGCTTCCATACATAAGAAAAGCATCCGAAAGTCCAGATAGCCAC
GAGTTGGTGTGTGCGTTGATGCTACTGAGTGTTGTGAGACAGACGGGTCACCTGCCGGGG
GGCGACGGCGGGGGTCTGTGGAGGGAGGTCATCAGTTATGAAGCGCTGAGAACTACGGCC
GTGCACACTAACGATGAGATCCGGTTCCTGACCCTGTCTCTCATGGTGGAGTCGCCGAAG
TCGTCGGAGGTGTTCACGGCCGGGGAGTTGGATATCATCCTGTGGTTCCTCTCATACAAC
ATCAACGACCAGTCGCCGCACTTCAAACAACTGGTCCTGTCTCTCATGAAGAAGTTTTTC
AAGCGTTTAGAACAAAGTCACAAGACCCTTTTAAAGGAAGCGCTGTCAGGAGGTGACGGG
CGCCAGGGTGATTACTACTCGGAGTTCCTGGACAGACTGACGAATCAATGTTTCGAGAGC
TTGATCCCGGGCGGGAACCACAACCGACGACACGCAGCGTTGCAGATACTGCTCTGGATC
GAGAAACTACAGCTCGAGGGAACACTCAGACATCTCGTGACATCCAATGAGGCCAACGCC
GGAACGCCGCCTGACCGCGTGTCGCTTCTGCTGGATGCCCTCGCTGACAGCTACGAGAGC
AACAAAGATATGGCGCTCCGCCTGCTGTATGGATATCCTTCCGAAGTGATTTACCGCGCC
GAGCACGCGGCGACCCTTAATCTGGAGTCGGTCATGAGACAAGCCTCGTCTGTGAAGCCT
ACTGAATGCGTGACGGCGGCCTACAAGCTGAGACTGCTGGCCACCAAACCGACCAAGCAA
ATCGGCGAGGACTGTGAAACAGCAGGCGAGGTGTCGTTCAGGCTCCTGCGGGTGTTGCTG
GCGCAGGTGGAGCAGCAGCTCGCGGTGTGTGAGGCAGACCTCGCGCTGGGCGCCAGACAC
GCTCCGCTCTACGGCCTCCTGCACTGTGTGGGGACCGCCTTACACCTCCTTGATGAAGGC
TCGTGGTCTCCGGCTTTCACGTGTATGTGTGAGTCGTTGGTGTCTGTGTGTGCGTCCGTG
TGTGCGTGCACCGCCCCCGTGCTGAACAGCGCCGCCCCCGAGGGTCATATGCCGCACGCA
GATGGGGGTAAGATTCGCCTGGAGGACGGCAGCGAGGTGACCGCTCAGATGGTGCTGCTG
TGTGCTTGGAGGTCTGTTAAAGAGGTGTCCTGGATCCTCAGCCTGATAGTGGCCAAGATG
ACGGCGTGTCCCGAGGTCGGCCGCAAGGTGGCGCTGGTGCAGAACATCGGAGACACCTTC
CTCCAGCTGCTCACCGACATCAAGCATCGAGGGGCCTTCGAGCAGGTCTACGTCGGGTTC
AGCAGGGTGTTGTCCTGTTTGTGGCGCGACCAGGAGCCGGCCCTGAACCAGCTGCCGCGG
CGCTGGCTGACTTCGCTCATGACGGACATCGAGAGCGGACACGGCACCAGTAGGGTCTGT
GAAACTCGGCGGAGCGCCGGCCTGCCCTTCATGATACAGGCGCTAGTGGTGTCGGAGCTG
CAGGTGTGTCCGGGCTCGTTCCCGGGCTGCATCTGGTCGCTGCTGCGGGCGGCTCGCTCA
TCTTCGCTGGCCACTCGCTGTCACGCCATGAACATCCTCCGCGCGCTGTATCGCAGCTCC
GCCCTCGGAGGAGCCACGGAGGCGGCGGGCGGCGGCGCCGGGACCGCCCTGCAACTCGCC
ATACAGGCCTGTGAGAGTGACGCGTGGATTGAGCGTAACTCCGCGACCCTGCTGTTCTCG
GCGCTGATGGTGCGCGTGTTCGGGGTGCAGCGCTCCAGAGACAGCGAGCACCTGTGTCTG
CGGAACAGAATGACCGGACGAATATTCTTCCTCAGATATCCGCTGCTGTATGACTTCATG
TTGAACAAGTTACAAGAGGCGAGCGCTGTGGACACGCTGCACCCGGCCTTGTACCCCGTG
TTACTGCTGCTAGCGCGACTCTACCCGTCCGCGCTGGAGGGATCCGTCTCCATATTAAAG
CTGGTGTCGTTCGTGCCGGGCGTGCTCGTGTGCGGGCGGGGGCCGGCGCTGCACGTGCGG
CAACTGGCGGCGCGCGCCCTCACCCCGCTCATACCGCACACACAGTACTTAGCACAACTA
GAAGCTCTGTTCACGTCACTGAGTGACCCGAGGGCGAAGAGGAATTTCATTCACGGCACC
TTACTGCAGATCATTAAGCTCCTCGACAGCTTCCCGGACTCCGTCTCCATTGACGCCGAG
GCAGGCGCCAGGTTTATGGTTCTCATACAAAGAGGTTCTTGGATTTTAGAGCAGAGCGAG
TCACAAACGCCCTGCTACGTTATAATTGATGAATTCATTAAACTGGTTCACATTGTTCTA
TGGAAATTCCCCTCACTGATGGAAAAGAATCATCTGAGTTACATCCAGAGCCGCCTGACC
AAACTGTTATTTGATGAAATCCAATGCACCAGCACTCCGGGGCGCGAGCTGTGCCTCGCG
GACGCGGTGCACTTGCTGCTCATAATGAACGGTCACGGCGACTGTGGCGACGTCTCGCGC
TCGCTGTACGCCTGCCTCACTCACCAGACTTACGAAGTCATCTTGGCCGCCTTGAACTAC
ATCCTCATCGTACACGAGATGCTGGAACCGGAGAATACTCTACACGAGCATATACAACGA
ACCCGGAACACGAGGGTTCTGGACGCGCTGAGAACAGATCCGGAGTACATACGAGTGTTG
TGTAAAGTGTTAAAGAACAGCAGATACTTGGAATGTATACAGAAGTGTCTGACAGCCCTC
ACCCTGGAGCCCGACACGCAGAGACACATAGTGCGGACCAAGAGCGGCGAGGGAGACGTC
AGCGATGACGTCATCCTGACGAGCTACTTCGATTACATCGAGAACGAACACGAAAACTTC
ATACATATATATCTGAAGGGACTCGCCAAGTTCCTGGAGGAGAAGCTGCAGACCACGGAA
CACACCAAGATACTCGAGGCGGTCAGGATTATGTTCAGGTGCAGTCTATCAGACAACAGC
GAGGACACCCGGGCTGTCGTCGTTGAGTTCATACAGAAGAATCTGGAGCCCCTGATAACT
AAACATTATGACGAGCTGGACGAGGCGGACCAGTTCGAGCTCAGGGCCACCGTGTGGAGC
ACGTGCGTCGCTCTCCTGGAGGACGACGACTCCCGCACACGCACGCTCACCGCGCACACG
CTCACACGCTACTGTGACGTCACGCGGACACACGGACACGTGCTGCCGGCCAGGGCCAGG
GACTTCCTGCTGCACCACATACAGACCCGTGAGACGCACGGCCTCGCCCTGCTGGCCGTG
CTGGCGCTCCTCAGCTTCCACTGCGAAGTCTCCTACACGGACGAACTCGCCGATGAGAGT
CGCGTTTTCGACCACAACGAGAAATACAACACGCACCTGGAGGAGACCGTGTGGGCGGTC
GCCTGCGGTGACGTCATCAACGACATGCACCCACACGCGGACGTACGACGACGACTGTGT
GACGTCATCGAGGAACGCTCCTACAGACAGACGTTCCGCGCGCTGTGCCGCGACAACGTC
GAGACATATAGGAGGATGGTGGAGGCGGACGAGTACACCTGTGACGGGAATCAGAAAGTA
GAGGCTTTCGTGAAACGATTGACAAGAAGATAG
Protein sequence:
MDSIDVNLMFTEIRSCLKQLLFNDSPMDTKSVCGILLVSMHIVENGDNSWVDILTSNNQH
MYLQEVLLNDSCKLSLLSAIATVISMDELHTVHIDGVPAIITLTNDILDLGDRYSSESTF
TLGISRTIVQISKGLEVFGESGLHLLDKLCVFVWSHLEHSTDSVQHLSAQILTNIIKYCS
HLKKQGNDSAMTKLFSTLSSLERTRKSFYLSLTAITSEVGFDCVRGVWPDIIEDTLNVLH
LQAVQASATTSLETLLRHTHTDTRGIHTQWVEPVLRCVRGGAGAVNILTSLLILIVKKDG
GVVDYMLPYIRKASESPDSHELVCALMLLSVVRQTGHLPGGDGGGLWREVISYEALRTTA
VHTNDEIRFLTLSLMVESPKSSEVFTAGELDIILWFLSYNINDQSPHFKQLVLSLMKKFF
KRLEQSHKTLLKEALSGGDGRQGDYYSEFLDRLTNQCFESLIPGGNHNRRHAALQILLWI
EKLQLEGTLRHLVTSNEANAGTPPDRVSLLLDALADSYESNKDMALRLLYGYPSEVIYRA
EHAATLNLESVMRQASSVKPTECVTAAYKLRLLATKPTKQIGEDCETAGEVSFRLLRVLL
AQVEQQLAVCEADLALGARHAPLYGLLHCVGTALHLLDEGSWSPAFTCMCESLVSVCASV
CACTAPVLNSAAPEGHMPHADGGKIRLEDGSEVTAQMVLLCAWRSVKEVSWILSLIVAKM
TACPEVGRKVALVQNIGDTFLQLLTDIKHRGAFEQVYVGFSRVLSCLWRDQEPALNQLPR
RWLTSLMTDIESGHGTSRVCETRRSAGLPFMIQALVVSELQVCPGSFPGCIWSLLRAARS
SSLATRCHAMNILRALYRSSALGGATEAAGGGAGTALQLAIQACESDAWIERNSATLLFS
ALMVRVFGVQRSRDSEHLCLRNRMTGRIFFLRYPLLYDFMLNKLQEASAVDTLHPALYPV
LLLLARLYPSALEGSVSILKLVSFVPGVLVCGRGPALHVRQLAARALTPLIPHTQYLAQL
EALFTSLSDPRAKRNFIHGTLLQIIKLLDSFPDSVSIDAEAGARFMVLIQRGSWILEQSE
SQTPCYVIIDEFIKLVHIVLWKFPSLMEKNHLSYIQSRLTKLLFDEIQCTSTPGRELCLA
DAVHLLLIMNGHGDCGDVSRSLYACLTHQTYEVILAALNYILIVHEMLEPENTLHEHIQR
TRNTRVLDALRTDPEYIRVLCKVLKNSRYLECIQKCLTALTLEPDTQRHIVRTKSGEGDV
SDDVILTSYFDYIENEHENFIHIYLKGLAKFLEEKLQTTEHTKILEAVRIMFRCSLSDNS
EDTRAVVVEFIQKNLEPLITKHYDELDEADQFELRATVWSTCVALLEDDDSRTRTLTAHT
LTRYCDVTRTHGHVLPARARDFLLHHIQTRETHGLALLAVLALLSFHCEVSYTDELADES
RVFDHNEKYNTHLEETVWAVACGDVINDMHPHADVRRRLCDVIEERSYRQTFRALCRDNV
ETYRRMVEADEYTCDGNQKVEAFVKRLTRR