New model in OGS2.0 | DPOGS204463  |
---|---|
Genomic Position | scaffold2620:+ 1259-6572 |
See gene structure | |
CDS Length | 1458 |
Paired RNAseq reads   | 722 |
Single RNAseq reads   | 2099 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007804 (0.0) |
Best Drosophila hit   | matrix metalloproteinase 1, isoform C (5e-179) |
Best Human hit | matrix metalloproteinase-14 preproprotein (3e-79) |
Best NR hit (blastp)   | matrix metalloproteinase 1 isoform 1 [Bombyx mori] (0.0) |
Best NR hit (blastx)   | matrix metalloproteinase 1 isoform 1 [Bombyx mori] (0.0) |
GeneOntology terms    | GO:0004222 metalloendopeptidase activity GO:0007424 open tracheal system development GO:0035001 dorsal trunk growth, open tracheal system GO:0002168 instar larval development GO:0048102 autophagic cell death GO:0035071 salivary gland cell autophagic cell death GO:0008270 zinc ion binding GO:0005509 calcium ion binding GO:0031012 extracellular matrix GO:0006508 proteolysis GO:0030425 dendrite GO:0007561 imaginal disc eversion GO:0034769 basement membrane disassembly GO:0007155 cell adhesion GO:0035159 regulation of tube length, open tracheal system |
InterPro families    | IPR021190 Peptidase M10A, matrix metallopeptidase IPR006026 Peptidase, metallopeptidase IPR018487 Hemopexin/matrixin, repeat IPR016293 Peptidase M10A, matrix metallopeptidase, stromelysin type IPR000585 Hemopexin/matrixin IPR002477 Peptidoglycan binding-like IPR001818 Peptidase M10, metallopeptidase |
Orthology group | MCL10626 |
Nucleotide sequence:
ATGGATGAAAGCTCCTGGAAGAAAGCTATAGCAGAGTTTCAAAGCTTCGCCGGATTGAAC
ACTACAGGTGAACTTGACGAAGAGACAAAAAATTTAATGTCACTGCCAAGGTGTGGAGTT
AAAGATAAAGTAGGTTTCGGCGAAAGCAGGTCCAAGAGGTACGCCCTGCAAGGTTCAAGA
TGGCGTGTAAAAAATCTGACGTACAAAATATCGAAGTACCCCTCTCGACTAAACCGCGAT
GAAGTTGATACAGAGCTGGCGAAAGCTTTTTCAGTGTGGTCCGATTATACCGACCTGACA
TTTACGCAAAAGAGATCCGGACAAGTTCATATCGAAATTAGGTTTGAAAAAGGCGAGCAT
GGTGACGGCGATCCGTTTGACGGTCCCGGTGGCACCCTCGCACACGCTTACTTCCCTGTT
TACGGTGGTGATGCCCATTTCGATGACGCTGAGATGTGGTCTATAAATTCTCTGCGTGGG
ACCAATCTCTTCCAGGTCGCGGCTCATGAATTCGGTCACTCATTAGGGTTGTCGCACAGC
GATGTGCGAACTGCACTCATGGCCCCATTCTATCGCGGCTACAACAAAGCCTTCCAGTTA
GACCAAGATGATATACAAGGAATCCAGGCTCTGTATGGACACAAAACTCAACTGGATGTC
GGTGGATCCTTCCCAAGTCCATCTGCACCTCGTATAACCACCCCTCAGCCTTCTGCTGAA
GATCCAGCGTTGTGTGCCGATCCTAATATCGATACCATTTTCAATTCCGCTGATGGCGCT
ACCTTCGTATTCAAAGGTGAACACTACTGGCGTCTAACGGAGAACGGTGTAGCAGCTGGA
TATCCTCGTCTGATCTCCCGATCATGGCCTGGTTTAACCGGTAACATCGATGCTGCATTC
ACATACAAGAACGGGAAAACGTATTTCTTCAAGGGTTCTAAATACTGGAGGTATAATGGA
CAGAAGATGGACGGACAGTATCCGAAAGAAATTAGTGAAGGATTCACTGGTATCCCTGAT
AACTTAGACGCTGCACTTGTTTGGTCTGGCAATGGTAAAATATATTTCTATAAGGGCTCC
AAATTCTGGAGGTTCGACCCTGCTCAGCGTCCTCCCGTGAAATCAACCTATCCCAAACCT
CTCTCGAATTGGGAAGGAATTCCCGATAATATAGATGCGGCTCTGCAATACACGAACGGT
TACACGTACTTCTTCAAAGGCGGATCCTATTGGCGATTTAATGACAGAACGTTCAGCGTG
GACACAGATAACCCAGCATTCCCAAGGTCAACAGGTTATTGGTGGCTCGGCTGCAGTAGC
GCACCGAAAGGCACGGTCGGAGGTAACGCCAAATACATCCACCACGATCACGATGACGAT
GATGAAGTGGGGGACATCACTTTCGATGCAGGTGTAAAATCATCCGCTCCCAGATCGTTC
TTCTGGTTCAGGAAATAG
Protein sequence:
MDESSWKKAIAEFQSFAGLNTTGELDEETKNLMSLPRCGVKDKVGFGESRSKRYALQGSR
WRVKNLTYKISKYPSRLNRDEVDTELAKAFSVWSDYTDLTFTQKRSGQVHIEIRFEKGEH
GDGDPFDGPGGTLAHAYFPVYGGDAHFDDAEMWSINSLRGTNLFQVAAHEFGHSLGLSHS
DVRTALMAPFYRGYNKAFQLDQDDIQGIQALYGHKTQLDVGGSFPSPSAPRITTPQPSAE
DPALCADPNIDTIFNSADGATFVFKGEHYWRLTENGVAAGYPRLISRSWPGLTGNIDAAF
TYKNGKTYFFKGSKYWRYNGQKMDGQYPKEISEGFTGIPDNLDAALVWSGNGKIYFYKGS
KFWRFDPAQRPPVKSTYPKPLSNWEGIPDNIDAALQYTNGYTYFFKGGSYWRFNDRTFSV
DTDNPAFPRSTGYWWLGCSSAPKGTVGGNAKYIHHDHDDDDEVGDITFDAGVKSSAPRSF
FWFRK