New model in OGS2.0 | DPOGS200928  |
---|---|
Genomic Position | scaffold2438:+ 10212-14975 |
See gene structure | |
CDS Length | 1743 |
Paired RNAseq reads   | 157 |
Single RNAseq reads   | 476 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000301 (0.0) |
Best Drosophila hit   | CG5966 (2e-60) |
Best Human hit | pancreatic triacylglycerol lipase precursor (4e-77) |
Best NR hit (blastp)   | PREDICTED: similar to triacylglycerol lipase, pancreatic [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to triacylglycerol lipase, pancreatic [Nasonia vitripennis] (0.0) |
GeneOntology terms    | GO:0004806 triglyceride lipase activity GO:0005576 extracellular region GO:0005615 extracellular space GO:0006629 lipid metabolic process GO:0009791 post-embryonic development GO:0016042 lipid catabolic process GO:0016298 lipase activity GO:0016787 hydrolase activity GO:0030299 intestinal cholesterol absorption GO:0033993 response to lipid GO:0043434 response to peptide hormone stimulus |
InterPro families    | IPR000734 Lipase IPR002331 Pancreatic lipase IPR013818 Lipase, N-terminal |
Orthology group | MCL11544 |
Nucleotide sequence:
ATGACATACAAATGTCGACACCCTGAACAAGTGGAACTAAAAGTACGAAAGAAATTTGAA
ATCACGTGTCGTGGACGTATTATGCGAAGGCTGTACTTGACAGATAGGCATCTTCGTGTA
ATGCTTTGGTGCATTCTGCTCGGACTCCAACCAGCTTTCGCTGGTATCCTTGACCCCTTC
AACTGGGCGCGCTCCGATCGTATTGAGGTCAACATACCGTGGCTGCCATTTGAAAATGAA
ACGAGGTGCTATGATGAATTGGGATGTCTGAACATAACCCGCAGCTGGTACCACTTGATA
CATCGACCGTTCAACGTGTTCCCACTTCCTAGAGTCGTTATTAACACCAGATTCATCCTA
TACACAAAGAAAAATCCAACAGACGGACAGTTGTTGAACGTAAATCTAAATAAGACAATA
ATAAAATCAAACTTCGATCCTAATCGACTAACTAAAATGATTATTCATGGATTCATAGAC
ACGCCTCTCTCTAACTGGGTTAGTGAGATGAAAGATGAATTGGTAAAAGCGGATGATTTC
AATGTGGTGGTAGTGGACTGGGCTGGTGGAAGCTTGCCGCTCTATACACAGGCCACCGCT
AATACTAGATTAGTAGGTCTCGAAGTCGCCCATTTTGTGAACACACTCCAAAAGGATCAC
GGATTGAATCCTTTGGATGTTCACATAATAGGACACTCTCTCGGCGCTCACACAGCCGGT
TACGCCGGAGAGAGAATAAAGAACTTGGGAAGAATAACCGGTTTAGATCCCGCAGAGCCC
TACTTTCAAGGAATGCCAACACATATAAGGCTTGATCCTACAGACGCGCAGCTCGTCGAT
GTCATACATACGGACGGAAAGAGCATTTTCCTTTTAGGATATGGAATGTCTCAACCGGTT
GGTCATTTGGACTTTTATCCGAACAACGGAAAAGAACAACCGGGTTGCGATTTGACAGAG
GGACCTTTGATACCACTGACATTGGTGAAGCAAGGTTTAGAGGAAGCTTCAAGAGTACTG
GTAGCTTGCAATCATGTGCGAGCTATTAAACTCTTCACAGAATCAATCAATAGCAAATGT
CCGTACATAGGTCATCAATGTCCCTCATATCAACACTTTATTAGCGGGAAGTGTTTCCAC
TGCGGCCATGGTTGTGCAATCATGGGATTCCACGCTGATAGTTCTCCTGGTTTGATAACT
AATAAAAACAATCAGACAGAAAACGAGGTATATCCTTCAGAAGAACAAGACACGATCGGT
GCAAAATACTTCCTGAGCACTGGCAAGGAACAGCCCTTCTGTCAACGTCATTACAAAATA
GTTATACATTTGGCGAATCCTAAAGGAGCTGAATCATGGGTGCAGGGGTTCCTAAAAGTT
ACTTTACAATCTGACAAAGGAGTTATTAGGGGAATGGACCTCACTCCATCTAATTATGTA
AAGTTAGAACATGGCACATCTTACACAATTGTTGTTACAAATCCTATGGATTTAGGTGGT
AAAGTGAGAAAAGTAGAGTTGTCATGGGAGTACGATATGAATGTACTGGAACCACGATCT
CTTTGTATTTTATGGTGTAACGATCGACTCTACGTCAAGTCTGTTCTCGTAGACCAAATG
GAACTACCAAGCAGAGGGAAAAGAAACGTAGACTTCAGCAGCAAATTATGTACACCAAAG
CGAGAATTTGCTGAAATACCCAACCGAGGATCCGCAAGTTTCTACGATAGTTGTGGAAGA
TAG
Protein sequence:
MTYKCRHPEQVELKVRKKFEITCRGRIMRRLYLTDRHLRVMLWCILLGLQPAFAGILDPF
NWARSDRIEVNIPWLPFENETRCYDELGCLNITRSWYHLIHRPFNVFPLPRVVINTRFIL
YTKKNPTDGQLLNVNLNKTIIKSNFDPNRLTKMIIHGFIDTPLSNWVSEMKDELVKADDF
NVVVVDWAGGSLPLYTQATANTRLVGLEVAHFVNTLQKDHGLNPLDVHIIGHSLGAHTAG
YAGERIKNLGRITGLDPAEPYFQGMPTHIRLDPTDAQLVDVIHTDGKSIFLLGYGMSQPV
GHLDFYPNNGKEQPGCDLTEGPLIPLTLVKQGLEEASRVLVACNHVRAIKLFTESINSKC
PYIGHQCPSYQHFISGKCFHCGHGCAIMGFHADSSPGLITNKNNQTENEVYPSEEQDTIG
AKYFLSTGKEQPFCQRHYKIVIHLANPKGAESWVQGFLKVTLQSDKGVIRGMDLTPSNYV
KLEHGTSYTIVVTNPMDLGGKVRKVELSWEYDMNVLEPRSLCILWCNDRLYVKSVLVDQM
ELPSRGKRNVDFSSKLCTPKREFAEIPNRGSASFYDSCGR