New model in OGS2.0 | DPOGS204287  |
---|---|
Genomic Position | scaffold771:+ 63790-90146 |
See gene structure | |
CDS Length | 2994 |
Paired RNAseq reads   | 2218 |
Single RNAseq reads   | 12363 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007564 (0.0) |
Best Drosophila hit   | l(3)82Fd, isoform P (4e-144) |
Best Human hit | nuclear receptor coactivator 7 isoform 1 (1e-30) |
Best NR hit (blastp)   | oxygen resistance gene 1 [Bombyx mori] (0.0) |
Best NR hit (blastx)   | oxygen resistance gene 1 [Bombyx mori] (0.0) |
GeneOntology terms   | GO:0016998 cell wall macromolecule catabolic process |
InterPro families    | IPR002482 Peptidoglycan-binding Lysin subgroup IPR018392 Peptidoglycan-binding lysin domain |
Orthology group | MCL10548 |
Nucleotide sequence:
ATGAGTGGAAGTGAGCCGACTCTAACAGAGTCGCCAGTGCCCTTAGCTCTGGCCCGTCTC
CAAGCTAGACCTGGAAGAATGCCGAGAGGCTTACGCACCCACCGGCCCAGCCTGCCGCTA
GCTAGCCTTCAGGAAGCTATCGACGAAAGCCCTCGACGTTTCAGCGAAGAAAACTATACA
CAAGATACGGATGATGACGACGTATACGTTGACGCCGTAGTAGTTAACACACCGTCACCG
TCATCATCCAATGGTAGGAGAGCTTCGGATGCCACATTCGCTGAACGGTACAGGAAGTTG
ACAGAATTCGACGGTCCCCCGCCGGATCTGCCTCGTCGGGCCTCACTGGCCGTTCCCGTC
GACGTTGACGGGTACGGGCCCAGTGATAAAGGCCGCAGGAGGTCCTGGGCTGCGCGACTA
CAACTGGAGCGAAAGAAGAGGAGGAAATCTGGTGGCAACGATACCGACGAGGAGGGAGAC
GCCCCGACTTATGTACGACAGAAACGACCCTCGTGGTGGAACGTCTTCGTACCGGATAAC
ATGCTTAAGAACAGGTCTAGGAGGGCTTCCCAGCAGCTATCCAGAAGTGCCGAGAGCATC
GACCAGTCCTACAAGAGGTCAAAGAGCCGTTCTGTAGATCATGGGTTCGCAGCCCCCTTC
GACCTGGAATCGCTGCGCTCCAAGGTGGAGGGCAGGTTCGACGCTGTTAATAAAGATGAA
GACGAAAACAAGAGGCTGCCTCCGCCGCCTCCGATCAAAACAATGACCTATACGGTGAGA
GATCGCGATACATTGACGTCCCTGGCAGCCCGCTTCGACACCACGCCCTCGGAGTTGACG
AAGCTGAACCGTCTCGCCACGCAGTTCATCTTCCCTGGACAGAGGCTGCTCGTACCCGAT
AAGAGAAAAGATGGCGATAATGATGCCGATGTTCGATCTGACAGCGATAACACCTCGGAA
TCAACCCAAGCCGCCAGCGAACCGGCCCAGGAGAAAGAGATCTTGGACAGTCTCCGGCCT
GTGTCCCCTGAGGCCCCCGCCAGCAGCGCCCCCCAGCGGTTCCTAAAGATCAACGTGAGA
CACATCACCGATGGACAGGGCGTGGTGTCCGGCGTGCTGCTGGTCACACCGAACGCGGTC
ATGTTCGACCCCAACGTGTCTGACACTCTGGTGATGGAGCACGGGCCTGAGTCGTACGGT
GTGATAGCGCCCATGGAGTACGTCGTGAACGCTGCCATCTTCTACGACATAGCACACATG
AGGACCCACGGACCGGACCACAATGCGCACAGAGCCGAGCAAGCCGAGATATACTATATG
AATAAACCGGAACACGCCCCTGAAAAAGATCTAGTCAAAGAGGAGACATTCCCTGAGCTG
CAGGCAGTTGGGGAGGCTGCGGAACCCCAGCAAACTACAGGGGAGGGAGCAGGGGAAGCC
GTTGGGGGTGAGGAAGATACCCCTAGACGACCTTCCGACGCTGAGGAAAGAGGAGGAGCA
GCCTTCCCAAAGGCCTTCGACAGGGACCTGGTTACCCCGACCCCAATACATCAACAGACA
ACTGAGGAGAGACGAAAGTCGCTACTGGATCATCACTGGGCTATACCGAGCAAGGACAGA
ATGTCCATCGATCAAGGGAGTGAGGTGTCCTCCAGCGTTGATCACGGCAAGGAGGAAAGT
CTGGAGGTGTCAGTGGCAGAATGCTCTGAAGCGGAGCGCGCTGAGGCCGGGGAGCACGGA
GAGGGTGAGGGGGAAGGGGAGGGAGATGGCAGCCAGCCTGAGGACGCCGCACACCTCGTC
AAGCTTTCCTACCACGACTCTGGAATCGATATACGAGATCCGCTGTTACATGTCAACACG
GCTAATTCCAAGAAGGAGTTGTGTTACATTTGTCACAATACCGACACCATTTACGAGTTG
CCGGAGACCGTGATGTCGAGCGACTGGCACTGTGACACCACATATGAGAACCGGTTCTTG
AACTGGTTCGCCGTTTGTCATGACAGTGACGCTGTGTCGTGTTCCACCGACGAGGTATAC
AGCGACGCGGATATAGTTCTGTCAGCGGACTGGGTGCCTCCGGTCTGTCTGCCTCGCGCT
GAGCCGCCATTGTCTGCTCCCCCTCTTGGAGAGAATGAGAGAGCTCGGAAACCAGCAGCG
GTCTCTTTCTCACTCGATGGCAATCAGAAGGAGGATCCGTCGAAACCGGAAAAGAAGAAC
AAGATGTTAAAACGCCTGTCCTACCCTCTATCGTGGGTGGAGGGCTTGACTGGTGAGGGC
CAGGCTGGGTCGCAGGCGGACTCGCTGCCGACCTCCGCCGACAGTCACAACACCAGCGTC
TTCTCTAAAGTCTTCAACAGCTCACCAATGAACCTGGTGGAGTTCGGTACTGGTTTGTTC
CTGAGTAAGACGCCCTCGGAGGAGGGTCCCGCCGACGGGCGAAGCTCGCTGGGAGGGTTC
GGTCGTTCCCACGCCAAGCCAGCCAGCGCTCAACAACCGAGACTCGACTACCGCAGCATG
GTGTCGGTGGACGACATGCCGGATCTGTTCGCGTCGTTTGATAAGCTCATCCCTCGTCCC
GCTCGTCCCAGCGATGATCCTCCCCTCTACCTCCGTCTCCGTATGGGCAAGCCGGCCGGT
CGACCTCTGCCGCGTTCCACTCCGCTGATGTCCTACGGAAGGAAGAGGATGAAGCCAGAA
TACTGGTTCGGTATTCCCAGGAACAGGGTCGACGATCTCTTCAAGTTCCTGACCCACTGG
GTCCCTGAGAGGTACGGACCTCTCCGTGACGTCACCGCTCACGGCTACGAGCTTATAGAC
AGCGACACGGAGTGGGACGACGATGACGCCAAGCCGGGACAGAAGGAGCGTATCGGCAGT
ACTGGAGATGTTTCGGATATAACGAGAGAATCCTGGGAGGTGAGTTGTGTGTTGAATAAC
GTATTATATAAGTTTCTAACACTCGACATTGAAAAATATTGCAGAACACATTGA
Protein sequence:
MSGSEPTLTESPVPLALARLQARPGRMPRGLRTHRPSLPLASLQEAIDESPRRFSEENYT
QDTDDDDVYVDAVVVNTPSPSSSNGRRASDATFAERYRKLTEFDGPPPDLPRRASLAVPV
DVDGYGPSDKGRRRSWAARLQLERKKRRKSGGNDTDEEGDAPTYVRQKRPSWWNVFVPDN
MLKNRSRRASQQLSRSAESIDQSYKRSKSRSVDHGFAAPFDLESLRSKVEGRFDAVNKDE
DENKRLPPPPPIKTMTYTVRDRDTLTSLAARFDTTPSELTKLNRLATQFIFPGQRLLVPD
KRKDGDNDADVRSDSDNTSESTQAASEPAQEKEILDSLRPVSPEAPASSAPQRFLKINVR
HITDGQGVVSGVLLVTPNAVMFDPNVSDTLVMEHGPESYGVIAPMEYVVNAAIFYDIAHM
RTHGPDHNAHRAEQAEIYYMNKPEHAPEKDLVKEETFPELQAVGEAAEPQQTTGEGAGEA
VGGEEDTPRRPSDAEERGGAAFPKAFDRDLVTPTPIHQQTTEERRKSLLDHHWAIPSKDR
MSIDQGSEVSSSVDHGKEESLEVSVAECSEAERAEAGEHGEGEGEGEGDGSQPEDAAHLV
KLSYHDSGIDIRDPLLHVNTANSKKELCYICHNTDTIYELPETVMSSDWHCDTTYENRFL
NWFAVCHDSDAVSCSTDEVYSDADIVLSADWVPPVCLPRAEPPLSAPPLGENERARKPAA
VSFSLDGNQKEDPSKPEKKNKMLKRLSYPLSWVEGLTGEGQAGSQADSLPTSADSHNTSV
FSKVFNSSPMNLVEFGTGLFLSKTPSEEGPADGRSSLGGFGRSHAKPASAQQPRLDYRSM
VSVDDMPDLFASFDKLIPRPARPSDDPPLYLRLRMGKPAGRPLPRSTPLMSYGRKRMKPE
YWFGIPRNRVDDLFKFLTHWVPERYGPLRDVTAHGYELIDSDTEWDDDDAKPGQKERIGS
TGDVSDITRESWEVSCVLNNVLYKFLTLDIEKYCRTH