| New model in OGS2.0 | DPOGS203207 |
|---|---|
| Genomic Position | scaffold1464:+ 11073-17613 |
| See gene structure | |
| CDS Length | 2058 |
| Paired RNAseq reads | 733 |
| Single RNAseq reads | 1689 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011091 (4e-79) |
| Best Drosophila hit | CG8654 (3e-51) |
| Best Human hit | lysocardiolipin acyltransferase 1 isoform 1 (5e-52) |
| Best NR hit (blastp) | PREDICTED: hypothetical protein [Nasonia vitripennis] (2e-71) |
| Best NR hit (blastx) | PREDICTED: similar to lysocardiolipin acyltransferase isoform 1, partial [Apis mellifera] (2e-72) |
| GeneOntology terms | GO:0005783 endoplasmic reticulum GO:0008152 metabolic process GO:0008415 acyltransferase activity GO:0016740 transferase activity |
| InterPro families | IPR016196 Major facilitator superfamily, general substrate transporter IPR005829 Sugar transporter, conserved site IPR002123 Phospholipid/glycerol acyltransferase IPR005828 General substrate transporter |
| Orthology group | MCL18067 |
Nucleotide sequence:
ATGGATCCAATTGACTCGCTTCTAGGCAATTTTGGAAGATATCAGCTCTGGATCTGTTTT
ATTATATTCCTTAGCAAATTTGGAGTTGGATTGCATCAAATGGCCATAATATTCCTTGCA
CCTCCTGTTCGTTACACGTGTACGCCTTCATGCTCCATTAGCTGTGATAACCCTGTTTAT
GATAAATCTGAATTTGATCGCACTATCATTACTGAATGGAATCTTATATGTAAGAAAGCG
TGGCTTAAGGATTTGACCCAAACTTTTTTTCAATTTGGAGTTCTAGTGGGAAGTTTTGTT
TTTGGAGTTGCTTCAGATAGATACGGACGAAGGAAGACCTTGCTTATATCTGTTATTTTA
GAAATATTTACTGGAATAGTGGTGGCATTTTTACCAGATTATTGGAGTTTTACTTTAATA
AGAATGATTTTAGGAATATCAGTTGGTGGTATTATGGTAGTAGCCTTTGTCCTTGTAATG
GAATTCGTTGGTACTAAAAACAGAGATGTTATTTGTTCCCTTTTCCACCTTCCATTTACT
CTTGGACACATGGCATTGGCACTATTTGGTTATTACTTACGGGATTACGTACATTTTCAA
ATGGGACTATCGCTTACAAGTTTGATACTTTTGATATATATTTGTATCCTACCTGAATCA
CCTCAGTGGCTTATTGCTACGAATCAACCTTTCAAGGCTATTGAATTAATGGAAAAAGTT
GCCAAAATCAACGGTCGACCAATCGACGTAGTTCGTAGAAGAATTGAAGCTTATCAGTTG
GACTCAATAAAATTTACACATAAAAAAGGAAATGTAGTAGATCTGTTTCGTACTCCTAAT
TTGAGGAAAAATATAATAGTTATGTCATTCACGTGTACAGTTGTCATCATGGTGGCAGGC
CCGATAGTGTGTATCGCTTGGTATTACACCATACTAGCTGGCTTTTATATCCTTTATTGC
CCTGTAATGTATTTTGTGTTCATTAATCACAAATTGTATCGGAAAGTAGCAGATTTTCTT
TTTGCTCTATGGGAGTTATATCCAGTGGCATTATTTCAATGGTGCTGTAAAACAGAATTA
CATCATTATGGAGATTATGTCAATCCAGATGAAACTACCATTATTATCATGAATCATCGT
ACAAGAGTGGATTGGAATTACATATGGATAGCTCTATATCACGCAACCCAAAGAAAAAAA
TATAGCACATATGTGAAGGAGTCAAATAGTATGGACTTTTTTAGTAAATGCAAACATATT
TTCGATACAATTTCGGGAGGGACAGCAAAAATAAAATTTGTGTTAAAGGATGAGATTAAA
AGTGTCCCAGGTCTGGGATGGATTATGCAACTTAATTATTTCTTATACGTGAAAAGGAAT
TGGCAAGAGGATCAGTTAAGTTTATCGCAGTACGTTGATTATTATAAAAAGTTGAATTAT
CGTCAGCGGGTGATTTTGTTCCCCGAAGGGACGGACTTGAGCGAGGAAAACAGGCGACGC
AGCCTGAAGTTTGCTTTGTCTAAAAATCTACCGAATTACGAATATGTTTTGCATCCACGA
ACTACCGGATGGGCGGTTCTTTGCTCCCGTTTGAGAGATGCTGGACTTACTTCTATTTAC
GATGTCACAGTGGCCTATGATTCTCCTCCCCAAACTGAAATGGATTTACTTAAAGGAAAT
TTACCGAAACACGTGCATTTTTATTTCAAACGATATGCAATTGAAGATTTGCCCCTGCAA
GAGGATGATTTAAGACATTGGCTTCAAGATCGATGGAAAGAAAAAAACAGCTGCTTGGAA
AAATTTCATGTTGATGGATCTTATATCGACTTCAAAGCCAAAGCCACACCAAAAAAACAC
GAGCCAAGATCATTATTTGTCGCGAAGCTAGCCTTTATTATATGGACTTTTTTCGATGTT
TTGTTTATATATTCTTTATATTATAGCATCTTATTCAGATTTTGGGTTATCTATCATACT
TTATTATTCATCTTGGTAACTAAATACTTTGAAGGTTTTCATAATATTCAGTACAAAATT
TTTAATAAAGTGCCCTAA
Protein sequence:
MDPIDSLLGNFGRYQLWICFIIFLSKFGVGLHQMAIIFLAPPVRYTCTPSCSISCDNPVY
DKSEFDRTIITEWNLICKKAWLKDLTQTFFQFGVLVGSFVFGVASDRYGRRKTLLISVIL
EIFTGIVVAFLPDYWSFTLIRMILGISVGGIMVVAFVLVMEFVGTKNRDVICSLFHLPFT
LGHMALALFGYYLRDYVHFQMGLSLTSLILLIYICILPESPQWLIATNQPFKAIELMEKV
AKINGRPIDVVRRRIEAYQLDSIKFTHKKGNVVDLFRTPNLRKNIIVMSFTCTVVIMVAG
PIVCIAWYYTILAGFYILYCPVMYFVFINHKLYRKVADFLFALWELYPVALFQWCCKTEL
HHYGDYVNPDETTIIIMNHRTRVDWNYIWIALYHATQRKKYSTYVKESNSMDFFSKCKHI
FDTISGGTAKIKFVLKDEIKSVPGLGWIMQLNYFLYVKRNWQEDQLSLSQYVDYYKKLNY
RQRVILFPEGTDLSEENRRRSLKFALSKNLPNYEYVLHPRTTGWAVLCSRLRDAGLTSIY
DVTVAYDSPPQTEMDLLKGNLPKHVHFYFKRYAIEDLPLQEDDLRHWLQDRWKEKNSCLE
KFHVDGSYIDFKAKATPKKHEPRSLFVAKLAFIIWTFFDVLFIYSLYYSILFRFWVIYHT
LLFILVTKYFEGFHNIQYKIFNKVP