| New model in OGS2.0 | DPOGS203934 |
|---|---|
| Genomic Position | scaffold2:- 212704-224026 |
| See gene structure | |
| CDS Length | 4908 |
| Paired RNAseq reads | 3402 |
| Single RNAseq reads | 8067 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA002114 (0.0) |
| Best Drosophila hit | laminin B2 (0.0) |
| Best Human hit | laminin subunit gamma-1 precursor (0.0) |
| Best NR hit (blastp) | laminin A chain, putative [Pediculus humanus corporis] (0.0) |
| Best NR hit (blastx) | laminin A chain, putative [Pediculus humanus corporis] (0.0) |
| GeneOntology terms | GO:0005605 basal lamina GO:0005604 basement membrane GO:0009887 organ morphogenesis GO:0009888 tissue development GO:0048598 embryonic morphogenesis GO:0007155 cell adhesion |
| InterPro families | IPR008211 Laminin, N-terminal IPR002049 EGF-like, laminin IPR018031 Laminin B, subgroup IPR000034 Laminin B type IV |
| Orthology group | MCL10976 |
Nucleotide sequence:
ATGGCGCGCCCATTCATTTACACATACTTTCTAACGTTTATGGCGATATCGTCAGCACAG
GATAACTTCCATACACATAGGACATCACAAAAACTAGCTTCCTGTTATAGAAATGATGGA
CAACCCCAAAGATGTATACCGGAATTTGAGAATGCCGCTTTCATGGTACAAATGGAGACG
ACGAACACATGTGGAGACAACGGAGGAAAGATGTATTGCATACAAACCTCGGCAGGAACA
TCTATGCGTTCCTGTGACTTCTGTCAGCCGGGACAATTTTCAAGTTATTATTTAACTGAT
CTCCATTACGAACAAGACAATCAGACGTGGTGGCAGTCAGAAACAATGAAGGAAGGAATA
CAGTATCCAAATCAAGTCAATTTAACGTTACATTTAGGGAAGGCATATGATATCACCTAT
GTACGTATCGTTTTCTACTCTCCAAGGCCCCAAAGTTTTGCAATTTATAAAAAGGCCAGC
GAAGATTCAGAATGGGAACCCTATCAGTATTTTAGTGCTTCATGTCGTGATACATATGGT
GTATTGGAACAGCGCGCTGCGGAAATAGGAGCCGAGACGAAAGCACTTTGCACTAGCGAG
TATTCAGATATTTCGCCATTGTCTGGAGGAAACGTTTTATTTTCTACTCTCGAAGGCAGA
CCTTCGGCTTATACTTTTGATAGCAGTCCTGAGTTACAAGAATGGGTTACTGCTACTGAC
TTGCGTATTTCCCTTGATCGCCTTAACACCTTCGGTGACGAGATATTCGGCGACGTACAA
GTATTGCAATCTTATTGGTACGCCATTGCTGATGTAGCTGTCGGCGCTCGATGCAAGTGT
AATGGCCATGCTTCTGTTTGTGAAAACCAGGAAATGCCTGATGGTTCTCGAGTTAGATAT
TGCAGATGCGAGCACAATACTGCAGGCAAGGAATGTGAAAGATGTTTAGATTTTTACAAC
GATGCTCCATGGGGTCGCGCTTCACCAACTAATGTACATGAATGCAAGGCATGTAATTGC
AACGGGTTCTCCAATAAGTGTTACTTTGATAAGGATCTTTATGAGAATACGGGGCATGGA
GGACATTGTATGGACTGTTCTGAAAATCGAGACGGTCCTAACTGCGAACGCTGTAAGGAG
AATTATTTCCAGAGTATGCAGGACATATGCATGCCTTGTAATTGCAACCCTACAGGTTCG
AGAAGTCTACAGTGTAATGCCGAAGGAAAATGTCAATGTAAACCAGGTGTGACAGGTGAT
AAGTGCGACATTTGTGCACCTAATCATTATGAATTTACAAACCAGGGATGCAAGCCCTGT
GGCTGTAATGAATCCGGATCTTTTGATAACACTCCACAGTGCGATCCTATTACTGGACGC
TGTTTCTGCAAACAAAATGTCGAAGGAAAGCAATGTAGAGAGTGCAAGCCCGGTTTCTTT
AATTTAGACTTGGAAAATGAATTTGGATGTACGCCATGCTTCTGTTTTGGTCATTCTTCT
CAATGTACTTCAGCGCCCAAGTACCAAGCCCACGAGCTGAGTGCACATTTCATAAGAGAT
GCGGAAAAATGGAATGCTGAAGACAGCAATCACAAACCAGCTACTCTTCAATTTAATGCG
AATACCCAAAATATTGCTGTTTCTTCAAAGGATACCGAAGTTGTGTACTTCCTCGCTTCA
AACCAATTCCTTGGAGATCAAAGGCAGTCTTATAATCACGACTTGAAATTTAACCTACGT
CTGGGTGAAAAACGGGGCTATCCTTCCTCTCAAGATATTATTCTTGAAGGCTCTCGCACT
TCAATATCGATGAATATATACGGTCAAAATAATCCCGAGCCTACTGATCAGGGTCAAGAA
TACGCATTTAGACTTCACGAGGATCCTCGGTATGGGTGGACCCCCACACTTTCAAACTTT
GAGTTTATATCTATTCTTCAAAACTTAACGGCTATTAAAATAAGAGGAACTTACAACAAA
GGTGGACAGGGATACTTAATGAATTTCAAATTGGATACGGCTAAGATCGGTAGAGAAAAA
GGATCTGCACCGGCAAACTGGGTTGAAAAGTGTTCTTGTCCAAAAGCGTACGTTGGTGAT
TATTGCGAAGAATGTGCACCAGGTTTTAAGCATGAACCAGCAAATGGAGGTCCTTACTCG
ACTTGTATTCCTTGCGATTGTAATGGTCATGCACACATATGTGATACAGCTACTGGCTTT
TGTATTTGTAAGCATAACACCACTGGCAGCAATTGTGAGTTGTGTGCAAAAGGCTTCTAT
GGAAATGCTATAGCTGGAACACCTGACGACTGCAAGCCGTGTCCCTGTCCTAAAGACAGC
GGTTGTATACAACTCATGGATCAAAGTATTGTTTGTACAGACTGTCCTTCTGGATATGCC
GGCCCAAGATGTGAGGTATGCGCAGACGGCCATTTTGGTGATCCTACTGGTCAGTTTGGA
AATTCACAAGAGTGTGTAGAGTGCCAATGTAATGGAAACGTCGATCCTAACGCAGTTGGA
AATTGTAATAGAACTACTGGAGAATGTCTTAAATGTATTTACAATACAGCAGGAGAACAT
TGCGATAAATGTTTAAGCGGCTATTTTGGCGATGCCTTGGATCAAAAAAAGAAGGGCGAT
TGCAAGCCTTGTCAGTGCCATGAGGCTGGTACTTTAGTGAGTGCAGAGGGACCTCCTCAA
TGTGACGGTCTTACAGGGTTTTGTTCATGTATGCCTCATGTTATCGGAAAGAATTGCGAC
CAATGTGAGGATGGATACTTTGACATCAGTTCTGGCGAGGGATGCCGAGCTTGCGATTGT
AATTTAGAAGGCTCCTACAATGGTACCTGTAATTCCGTCACCGGACAATGTTACTGTAAA
CCTGGAATAGACGGGATTCACTGCGACCGTTGCCTCGCTTATCACTATGGGTTTTCGAGT
GATGGCTGTAATAATTGTGATTGCGATGAGTGGGGTTCCACTAACTATCAGTGTGACATG
CTCGGACAGTGTTCTTGCCAACAAAACGTCGAAGGGCGGCGATGTGATCGGTGTATGGAA
AATAAGAGACCACGCACTGATGGACAGGGCTGTGAAGATTGTCCGCCATGTTACAACCTC
GTTCAAGATGCAGTTAATCAGCACAGAAAGGAGCTTAAGGAGTTAGATAATATACTTGGA
AAAATATCGAAAGCACCGACAGTTATTGAAAATGCGGACTTTGATAATGAGTTACAACGT
GTGAGAGCTGATATAGATAGACTCGTTCAAGAAGCAGAAGCAGAACTTGGTAATGGGCCT
AGTTCAAGTTTAACTAACAATTTGGCTGACCTTTCTGATCGACTCGCTGATGTCAGAAAC
ATGTTGTTCAAGATCGAGGATGAGAGCTATGAAGGTAATGAATCTATAGAAAGAAGTAAA
GGCAACGTGTCTAAAGCTGAAGAAACTATTGAAGCCGCACAAAAAGAAATTAATAGTGCA
TTAGAATATCTTGACGGTGAAGGAGCTGCTGCCTTAGCTAAAGCTCGCAATAGATCTGAT
CAATTTGGAAAACAATCAGTAGATATGTCTGCTTTGGCTAAAGAGTCGCGACTTTTGGCA
GAAAAATTAGAAAAGGATGCCAGAAATATTAGAGACATAGCTGAAAAAGCATTAAACACA
TCTGTGGCAGCTCATATAATTGCTAAGGATGGTATAAAGAAACAAGCAAATATAAGCAAT
GAAGTGCAAATTTTAGCCACTGAACTAAATGCAGCATCTGGTAAACTAAGTAGTATGTCT
GAGCTTGCTGGACAGGCTTTAAAAAGAGCAAAGACTGTCTACGATGAGGCATTGGGTCTC
TATGCTGAAGTCAATACCACATTATTGCCAGACATTAAACTCAGCAAATTACGTCAAGAC
TCTATGGAAATGAATAGAACAATCGATGAAAAATCTGCAGAGTTAGAACAGTTAATATCA
GTAACTGAAGATACTCTTCAGGCTTTGGATGATGAAATTCGACGAGGCAAGGACCTCTTA
GAACAGGGTCACGACAGACAAGATGAACTTTATGATTTACTGGCAAAACTGGACCAGTTG
CGTGCTCAGGCACAAAATGATGTCGAACTTACTAAAGCTACATTAAAAGATGCCAATGAA
ATATATAAGACCTTAAAGGAATTTAGTGATCAAGTGACGGAATCGCGACAGCAGGCAGAA
CAAGCGGCACTAGATGTTCCCGGAGTTCAGGAGAAAGTAGCTCTGGCTGAAGAAAGCATC
ACTAGTATTAGTGAAGAGCTCACTACTGCAAGTGATAAGGCCAAAGAAGCTCGGGATTTA
GCTCAGAAGGCACAAAAAGAATATGCTGATAAGGCTTCTGAGGCAGCACACGAAATACGA
AAAAAAGCCTCATCATATCGAGTGGAAGCTGGAAAGCTTCGGGATGAAGCTGATAAATTA
TCAACTCGTGTAAAGGGGACGGCTAAGCAGATACAAGTACTTGAAAAACAAGCTGATGAA
AATATGCAGCTTACTAGGGATGCTAAAATGAAGGTGGGCCAAGCCAACACTGACGCTCGG
GAGGCTGAAAAACAAGTCTCAAAAGGTTTGGAAGACTTGAAAGTCATTATGGACGAGTTG
CAGAATCTACCAACTCTAGACGATGCTGCGCTCGACAGATTACAGGAAAGTCTCGACAAA
TCTGAAGCTGCCTTATTGGAAGTTGATTTGGACGGCAAAATCAAATCCTTAACCGAGGCT
AAGAATAACCACCAAAGGTGGATGAAGCAATATCAGGAGGAACATGATGAGCTTCGCAGT
GAAGTGGACAATATCAAGGATATCTTGGATCAGCTACCGGACGGTTGCTACAAACGGATC
GTACTCGAGCCGACTGAAGGTCCAAGTAGACCCGCAAGCTTTAGATAG
Protein sequence:
MARPFIYTYFLTFMAISSAQDNFHTHRTSQKLASCYRNDGQPQRCIPEFENAAFMVQMET
TNTCGDNGGKMYCIQTSAGTSMRSCDFCQPGQFSSYYLTDLHYEQDNQTWWQSETMKEGI
QYPNQVNLTLHLGKAYDITYVRIVFYSPRPQSFAIYKKASEDSEWEPYQYFSASCRDTYG
VLEQRAAEIGAETKALCTSEYSDISPLSGGNVLFSTLEGRPSAYTFDSSPELQEWVTATD
LRISLDRLNTFGDEIFGDVQVLQSYWYAIADVAVGARCKCNGHASVCENQEMPDGSRVRY
CRCEHNTAGKECERCLDFYNDAPWGRASPTNVHECKACNCNGFSNKCYFDKDLYENTGHG
GHCMDCSENRDGPNCERCKENYFQSMQDICMPCNCNPTGSRSLQCNAEGKCQCKPGVTGD
KCDICAPNHYEFTNQGCKPCGCNESGSFDNTPQCDPITGRCFCKQNVEGKQCRECKPGFF
NLDLENEFGCTPCFCFGHSSQCTSAPKYQAHELSAHFIRDAEKWNAEDSNHKPATLQFNA
NTQNIAVSSKDTEVVYFLASNQFLGDQRQSYNHDLKFNLRLGEKRGYPSSQDIILEGSRT
SISMNIYGQNNPEPTDQGQEYAFRLHEDPRYGWTPTLSNFEFISILQNLTAIKIRGTYNK
GGQGYLMNFKLDTAKIGREKGSAPANWVEKCSCPKAYVGDYCEECAPGFKHEPANGGPYS
TCIPCDCNGHAHICDTATGFCICKHNTTGSNCELCAKGFYGNAIAGTPDDCKPCPCPKDS
GCIQLMDQSIVCTDCPSGYAGPRCEVCADGHFGDPTGQFGNSQECVECQCNGNVDPNAVG
NCNRTTGECLKCIYNTAGEHCDKCLSGYFGDALDQKKKGDCKPCQCHEAGTLVSAEGPPQ
CDGLTGFCSCMPHVIGKNCDQCEDGYFDISSGEGCRACDCNLEGSYNGTCNSVTGQCYCK
PGIDGIHCDRCLAYHYGFSSDGCNNCDCDEWGSTNYQCDMLGQCSCQQNVEGRRCDRCME
NKRPRTDGQGCEDCPPCYNLVQDAVNQHRKELKELDNILGKISKAPTVIENADFDNELQR
VRADIDRLVQEAEAELGNGPSSSLTNNLADLSDRLADVRNMLFKIEDESYEGNESIERSK
GNVSKAEETIEAAQKEINSALEYLDGEGAAALAKARNRSDQFGKQSVDMSALAKESRLLA
EKLEKDARNIRDIAEKALNTSVAAHIIAKDGIKKQANISNEVQILATELNAASGKLSSMS
ELAGQALKRAKTVYDEALGLYAEVNTTLLPDIKLSKLRQDSMEMNRTIDEKSAELEQLIS
VTEDTLQALDDEIRRGKDLLEQGHDRQDELYDLLAKLDQLRAQAQNDVELTKATLKDANE
IYKTLKEFSDQVTESRQQAEQAALDVPGVQEKVALAEESITSISEELTTASDKAKEARDL
AQKAQKEYADKASEAAHEIRKKASSYRVEAGKLRDEADKLSTRVKGTAKQIQVLEKQADE
NMQLTRDAKMKVGQANTDAREAEKQVSKGLEDLKVIMDELQNLPTLDDAALDRLQESLDK
SEAALLEVDLDGKIKSLTEAKNNHQRWMKQYQEEHDELRSEVDNIKDILDQLPDGCYKRI
VLEPTEGPSRPASFR