New model in OGS2.0 | DPOGS209131  |
---|---|
Genomic Position | scaffold331:- 31346-38529 |
See gene structure | |
CDS Length | 1992 |
Paired RNAseq reads   | 4422 |
Single RNAseq reads   | 10246 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001842 (0.0) |
Best Drosophila hit   | CG33129, isoform E (2e-48) |
Best Human hit | transmembrane protein 214 isoform 1 (5e-39) |
Best NR hit (blastp)   | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (9e-99) |
Best NR hit (blastx)   | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (7e-94) |
GeneOntology terms   | GO:0005811 lipid particle |
InterPro families   | IPR019308 Protein of unknown function DUF2359, TMEM214 |
Orthology group | MCL15647 |
Nucleotide sequence:
ATGTCTAGCGGTCAGTGGGAAGTTGTCGGTAAAAATAAGAAATCCCAAAACGGTAAAGTA
AAAAATGTTAAAGAAGAAGAGAAGAAACCAACTAAGAATGGACCGAAACTTGAAGATGTC
GTTCCCCATTCCCAATTAAAACAATATTACAGTGGAATGGAAATCGACGATACTCAAAAA
CCGCAAAATAACAAAAAGAATGCCGATAAAAAGAAAAAGCAAGATAAAAAATCCGAACCC
CCTAAACCTAAGCTTCCTAAAACGATCGAAGAAGCTTTAGAAATGATTGATCTATCGGAG
CTTGGAAGCATCATAACCACAAACAAACTTAGATTTTCCAATGCCCCTCTGGTCTGGTTG
AAGGAAGTAGCCAATTATCTTAATTCAAAAATTCCCATTGATGTTGAGGATCCAACATTT
TTGCATAACAATGCTGGCTACCCGCTATCTGCTGCTCCTTTAGAAGTCATCAAACTACTA
GAAAATGTTCTCCATGACGCCGGAAAGGCGAACACGCAGTTATTTTTCGATGTATCCTTA
ACAGCGCTTGCTAATGATATGAGTCGAGGTCAGTCTGTCAATGGTTACAGATTGTTGCTT
CAAATATTGGCTCAAAAGTATCCAGATTTTTGTCTTGTTTCTTTACCTAAAAGTATAAGT
TTAAGAAACTCCTATCAAAATCGACCGCCTATTGGTCTGTCCTTGCTTTGGACTTTAGGC
CAAGGCGGCTTTAACAACTTTGCTGTGGGTTTAAAAGTCTGGCAAGACTTGTTCTTCCCT
CTAATAGAATTGAAGAATTACTCGAAATATGTGATATTATACTTATGTGAGATTCTTAAC
AAGCCCGCTGTGATGGATAGTACAAAAGTGACCCAGGACCAACTCCTGGCCATGTTCGAT
ATGGTGAATGGCAAACGTAATTCACTATCAAAGGACCTGTCAAGTGACCTTATCAAGCAA
TTAAGTAAATATAAGGATATATATTTTAAACATAGCGGTAATAAGCTCCAGGTTACTTTT
AACCAGCTAATGAAGAAACTGCCAAACCAGTACTTGAGTGGTAACACACTTGATAGTTAC
AATAAGGTCATAGTTGAAAGTCTTATTGACTGTTTGCGGTTAGACGATTCCTGCAACGCG
ACATGGAGACAGTTGTTCAATAGATGCAGCAAGCAATCGGCAACTGTTATTGAGTATATA
GATACGAATTGGGACGAAGTTAGTCCGAGGTTGAAAAAGAAATCCTTGAAGGCGACCGTA
CTGCAGTTCAAGGAAGTCTGTGGTGAGACACTGAAGGGCAAGAAAAAAGATGAAACAGTC
GTCAAAGCTAACAAGATCTGCCAGGATATTCTAGACAGAATGACGAGCACTAGAAGATTC
CCGTGGGTTTGGGCCAGTTTGTTGGTGCTGATCAGTATTGGTGGGCTGATTGCATACGAT
GTATCCAGGGTCGGAGGAGATTTCCCCAAGAGTGCGACTGGTAAACTGATGAATGACTTG
GGTATTCTTGAACAAAGTCAGAGAGCATGGCAAAAGGGTCTGTCTGTGTCGGCCCGGGGT
TATCTGTGGATGGAAAGCAATGCACCAGTGTATTATGCCCAAACCGTGGAAGCCTGCAAG
CCATATGCGCAGCTCTCCAAAGATGCAGTCACCATTGCCGTTAAGAAGCTTGGAATCCTA
TATGTCAATATGAAGGAATACGTTGTTGACAAGACACCTATAGTTGTGGCAACTATAGAA
CAGTATGCACCCGGCGTTGTTGAGACTGTTCAAAGTTACGCTGTCAATGGTTTCGCCGCT
GTTAAGAAATATTCAAATGACTACTATCAAATGACAGTTGATTATTTATCGACTAAGGTC
TTTGTAGGTGATTGGGCTCCGGAGATCCTTCACAACAAGACTCAGTTGGCCTTAAACGCT
ACAAAGCTGCACATGTGTACATATTTCCACTGGTTCAGAGAGCAGGTGAATGTGTACTCC
AAGATACCGTGA
Protein sequence:
MSSGQWEVVGKNKKSQNGKVKNVKEEEKKPTKNGPKLEDVVPHSQLKQYYSGMEIDDTQK
PQNNKKNADKKKKQDKKSEPPKPKLPKTIEEALEMIDLSELGSIITTNKLRFSNAPLVWL
KEVANYLNSKIPIDVEDPTFLHNNAGYPLSAAPLEVIKLLENVLHDAGKANTQLFFDVSL
TALANDMSRGQSVNGYRLLLQILAQKYPDFCLVSLPKSISLRNSYQNRPPIGLSLLWTLG
QGGFNNFAVGLKVWQDLFFPLIELKNYSKYVILYLCEILNKPAVMDSTKVTQDQLLAMFD
MVNGKRNSLSKDLSSDLIKQLSKYKDIYFKHSGNKLQVTFNQLMKKLPNQYLSGNTLDSY
NKVIVESLIDCLRLDDSCNATWRQLFNRCSKQSATVIEYIDTNWDEVSPRLKKKSLKATV
LQFKEVCGETLKGKKKDETVVKANKICQDILDRMTSTRRFPWVWASLLVLISIGGLIAYD
VSRVGGDFPKSATGKLMNDLGILEQSQRAWQKGLSVSARGYLWMESNAPVYYAQTVEACK
PYAQLSKDAVTIAVKKLGILYVNMKEYVVDKTPIVVATIEQYAPGVVETVQSYAVNGFAA
VKKYSNDYYQMTVDYLSTKVFVGDWAPEILHNKTQLALNATKLHMCTYFHWFREQVNVYS
KIP