New model in OGS2.0 | DPOGS208627  |
---|---|
Genomic Position | scaffold1183:- 5357-9964 |
See gene structure | |
CDS Length | 1458 |
Paired RNAseq reads   | 49 |
Single RNAseq reads   | 161 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005735 (0.0) |
Best Drosophila hit   | ND |
Best Human hit | 24-dehydrocholesterol reductase precursor (2e-138) |
Best NR hit (blastp)   | 24-dehydrocholesterol reductase [Aedes aegypti] (6e-169) |
Best NR hit (blastx)   | 24-dehydrocholesterol reductase [Aedes aegypti] (4e-159) |
GeneOntology terms    | GO:0006979 response to oxidative stress GO:0019899 enzyme binding GO:0043588 skin development GO:0031639 plasminogen activation GO:0005783 endoplasmic reticulum GO:0016491 oxidoreductase activity GO:0006695 cholesterol biosynthetic process GO:0042987 amyloid precursor protein catabolic process GO:0043154 negative regulation of caspase activity GO:0030539 male genitalia development GO:0042605 peptide antigen binding GO:0050660 FAD binding GO:0016628 oxidoreductase activity, acting on the CH-CH group of donors, NAD or NADP as acceptor GO:0009888 tissue development GO:0016044 cellular membrane organization GO:0006916 anti-apoptosis GO:0005634 nucleus GO:0008104 protein localization |
InterPro families    | IPR016166 FAD-binding, type 2 IPR006094 FAD linked oxidase, N-terminal IPR016168 FAD-linked oxidase, FAD-binding, subdomain 2 |
Orthology group | MCL13598 |
Nucleotide sequence:
ATGCCGCTGTCGTTCATCTGGAAGATCTGGTCAGCCTTAAGGAACTACGTTGTCTTCTCC
ATGAACAGCGCTCCAAAAGCCCATGCGACGAAAGTCAGAGATATCCAAAGACAGATAAAA
ACTTGGTTAGACGGTGATCGTAAGACAAAATTATGTACAGCCCGACCCACTTGGCAAACA
ATGTCCTTTCGTCAGGGCACCTACAAGAAAACTTTTACCAATATTAACATCAACCTCGTG
GACGTGCTAGAAGTCGATAGCAAAAACATGACTGTCCGCTGTGAGCCTTTAGTTACCATG
GGCCAAATATCCAGAACTTTGGAACCATTGGGTCTAGCGTTAGCAGTAGTTCCAGAGTTA
GACCAACTCACTGTAGGAGGTCTCGTCATGGGAACGGGTGTCGAGACATCATCACATATT
TATGGCTTGTTCCAGCACATATGCCTCGAATATGAACTCGTTATGGCTGACGGTTCAGTT
GTAACCTGCAGCAAGGACGAGAATCCTGATTTATTCTATGCAATACCCTGGTCGTATGGA
ACTTTGGGATTTCTTACTTCGGCAGTCATAAAAATCGTCCCGGCTAAAAAATTCGTCCGG
TTAGAGTATCATCCGTACACGAATCTTAAAGATCTAGCAATGAAATTTCAGGAAGAATCT
TTAAAGAAGAACCCACATCAATTTATTGAAGGTTTACTTTACACAAAGGATAGCGGTGTT
GTGATGACTGGAGACATGGTTGATACAGTGGGAGAAGATGGAAAGTTTAATCCAATCGGC
AAGTGGTACTCCGAATGGTTTTTCAAGCAAGTCGAAAAATATTTAACCAAGTATCGAAAA
GGGGATAGAGACTCACATATAGAATACATACCATTAAGGGACTATTACCATCGACACACT
CGCAGTTTCTTTTGGGAACTTCAGGACATAGTCCCATTTGGTAACAACATTATTTTCCGT
TATCTATTCGGCTGGTTAATGCCTCCTGAAGTGTCGCTGTTGAAGCTTACGCAACCTGAA
GCGGTCACCAAGTTGTACAATAAGGGACACGTCATACAAGACATGTTGGTGCCCATCGAA
ACCATGGAAGAGGCTATTGATGTATTTCATAAGGAATTCAAGGTTTATCCCATATGGTTG
TGTCCGTTCAAAATATTCAACAATCCCGGGCAGTTAAAGATACATTCTGGGGAGTGGCAG
ATGTTTGTTGACATCGGTGTTTACGGTGTACCAAAAGCAAACGAATTTGAAACGGTACCA
TCAACAAGAAAAATAGAACAATTCGTGGCCAAAAAACGCGGTTTCCAAATGCTGTACGCA
GACACGTACACAACCCTCGATGAGTTCAGACAAATGTTCGATCACACGCTCTATGATAAA
CAGAGAAATAGTTTGACGTACTGCAAGGAAGCCTTCCCAGAGATTTACGGGAAGGTTAAC
AGAAGTGTTCGGAAGTGA
Protein sequence:
MPLSFIWKIWSALRNYVVFSMNSAPKAHATKVRDIQRQIKTWLDGDRKTKLCTARPTWQT
MSFRQGTYKKTFTNININLVDVLEVDSKNMTVRCEPLVTMGQISRTLEPLGLALAVVPEL
DQLTVGGLVMGTGVETSSHIYGLFQHICLEYELVMADGSVVTCSKDENPDLFYAIPWSYG
TLGFLTSAVIKIVPAKKFVRLEYHPYTNLKDLAMKFQEESLKKNPHQFIEGLLYTKDSGV
VMTGDMVDTVGEDGKFNPIGKWYSEWFFKQVEKYLTKYRKGDRDSHIEYIPLRDYYHRHT
RSFFWELQDIVPFGNNIIFRYLFGWLMPPEVSLLKLTQPEAVTKLYNKGHVIQDMLVPIE
TMEEAIDVFHKEFKVYPIWLCPFKIFNNPGQLKIHSGEWQMFVDIGVYGVPKANEFETVP
STRKIEQFVAKKRGFQMLYADTYTTLDEFRQMFDHTLYDKQRNSLTYCKEAFPEIYGKVN
RSVRK