New model in OGS2.0 | DPOGS203887  |
---|---|
Genomic Position | scaffold4135:- 5953-19347 |
See gene structure | |
CDS Length | 1608 |
Paired RNAseq reads   | 610 |
Single RNAseq reads   | 1763 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001650 (0.0) |
Best Drosophila hit   | invadolysin (1e-167) |
Best Human hit | leishmanolysin-like peptidase isoform 1 (7e-112) |
Best NR hit (blastp)   | PREDICTED: similar to lethal (3) IX-14 CG3953-PA [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to lethal (3) IX-14 CG3953-PA [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0004222 metalloendopeptidase activity GO:0007155 cell adhesion GO:0008270 zinc ion binding GO:0016020 membrane GO:0006508 proteolysis GO:0007444 imaginal disc development GO:0007420 brain development GO:0045842 positive regulation of mitotic metaphase/anaphase transition GO:0031252 cell leading edge GO:0008233 peptidase activity GO:0008354 germ cell migration GO:0007052 mitotic spindle organization GO:0006338 chromatin remodeling GO:0007100 mitotic centrosome separation GO:0007076 mitotic chromosome condensation GO:0005737 cytoplasm GO:0008406 gonad development GO:0051298 centrosome duplication GO:0051225 spindle assembly |
InterPro families   | IPR001577 Peptidase M8, leishmanolysin |
Orthology group | MCL14674 |
Nucleotide sequence:
ATGGCACTACACTATCAACGACATTCCATTACAGCACAGCGAGCAGATATCGCATGTATA
AAATGTCCAACTCGTCAAGTATTTTTACACGAAGGCAGAGCGTACTGCATAGACTTCTGC
AGCGTGGACACGATGTGTGGGGAAGTCAAGGTTCCTGAGCATCACCTCAATCCTTGCTAC
GTGTGCAACAGCACTGGCCATAACTGTAGAGCGCTGCCGAGGGAGGTCGATTTGGACGAC
GAGATCACAGCCACTGAGATCTCGGGGAACGCTCTCAATGACGGAGCTGATTATGTTTTT
CCAGCAGTCCCGGAAGTCAGCAGCGCTGAGAGTTCAAGAATCGGCCCGATCGGTATAGAG
AATACCGATTTCGTTTTATACGTCAGTGCGTTGGAGACAAATCGGTGCAAGCGCGGACTC
ACCGTGGCTTACGCGTCCCACTGTCAACAGGAGTCGACTTTGGATCGACCCGTGGCTGGT
CACGCGAACTTCTGCCCGGCCGAACTCTCCACTAAGGCGCGCGATCTGCCATCTCTGCTG
TCCACAGTGAAACACGAGATGCTACACGCGCTAGGCTTCAGTGTCTCACTGTTTGGCTTC
TACAGAGACGACAACGGCGAGCCGCTGACGCCACGACGCAAGGACACCGGGAATCCGCCG
CTTGACGAACAGTTGCAAATCCACAAATGGTCGGCCAAAGTCGTCAGGAACGTTACGAGG
AGGAAGTGGATGGTGCGCGGTGGCTACATGGAGAGGACACTGCAGATGGTGGTGACCCCA
CGCGTGGTCAAGGAGGTCCGCGCACACTTCAACTGTTCTCAGCTGGAGGGGGCCGAGTTG
GAAGACCAGGGCGGTGATGGAACGGCTCTCACACATTGGGAGAAAAGGGTCTTTGAGAAC
GAAGCGATGACAGGCACACACACACAGAACAGCGTCTTCAGTAGGATAACCTTCGCTCTG
ATGGAGGACACTGGCTGGTACCGCGCCAACTACGAGCACGCTACCAGCCTGGACTGGGGA
AGGGACCTGGGATGCAATTTTGCCATGACCTCGTGCAAGCAGTGGCTGAACTCGCAAAGG
TTCAGACGTAAAAACCCAGCACCGTTCTGTGAGAGGGTCAAGGGTGATCCGCTGAGGACC
GAATGCTCTCCTCGGAGGAACGCCGTGGTGCTCTGCAACCTGGTCAAGCACGAGAACATC
CTGCCCAGACAATACCAACATTTCGACACATTACCCAACATCAAACCCGGAGACGAGGCG
AAGTATGGCGGGTCCGTGTCGCTGGCGGACTACTGTCCATACCTTCAGGAATTCTCCTGG
AAACATAAGAGCGTTCTCGTCAGAGGCAGCAGGTGTTCCTATGAGGAGAATACGCCCAAT
ATGGAGGTAAATTTTGCTCTCGAGAACTACGGGCCGCACTCGAAGTGCTTCGATCACAGC
GACAAGGTCTGGGAGCAGAAGTCGTGTAGGCAGATAAGAGAATGGCAACACTGGGGTTCC
GGATGTTACAAGTACAAATGTGAAAACGGAAGGATTCACGTAGTGGTAACGTGTCATGTA
TACACCCGTCTACTCCCTTCTCTAACTGATCGTCTCATTGACAGCTAA
Protein sequence:
MALHYQRHSITAQRADIACIKCPTRQVFLHEGRAYCIDFCSVDTMCGEVKVPEHHLNPCY
VCNSTGHNCRALPREVDLDDEITATEISGNALNDGADYVFPAVPEVSSAESSRIGPIGIE
NTDFVLYVSALETNRCKRGLTVAYASHCQQESTLDRPVAGHANFCPAELSTKARDLPSLL
STVKHEMLHALGFSVSLFGFYRDDNGEPLTPRRKDTGNPPLDEQLQIHKWSAKVVRNVTR
RKWMVRGGYMERTLQMVVTPRVVKEVRAHFNCSQLEGAELEDQGGDGTALTHWEKRVFEN
EAMTGTHTQNSVFSRITFALMEDTGWYRANYEHATSLDWGRDLGCNFAMTSCKQWLNSQR
FRRKNPAPFCERVKGDPLRTECSPRRNAVVLCNLVKHENILPRQYQHFDTLPNIKPGDEA
KYGGSVSLADYCPYLQEFSWKHKSVLVRGSRCSYEENTPNMEVNFALENYGPHSKCFDHS
DKVWEQKSCRQIREWQHWGSGCYKYKCENGRIHVVVTCHVYTRLLPSLTDRLIDS