| New model in OGS2.0 | DPOGS202587 |
|---|---|
| Genomic Position | scaffold509:- 66647-70761 |
| See gene structure | |
| CDS Length | 1683 |
| Paired RNAseq reads | 9 |
| Single RNAseq reads | 30 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011431 (6e-151) |
| Best Drosophila hit | CG9314 (4e-86) |
| Best Human hit | catalase (7e-89) |
| Best NR hit (blastp) | catalase [Chlamys farreri] (6e-107) |
| Best NR hit (blastx) | catalase [Chlamys farreri] (2e-103) |
| GeneOntology terms | GO:0004096 catalase activity GO:0046688 response to copper ion GO:0055114 oxidation reduction GO:0006979 response to oxidative stress GO:0020037 heme binding GO:0005506 iron ion binding GO:0042744 hydrogen peroxide catabolic process GO:0004601 peroxidase activity GO:0046872 metal ion binding GO:0005777 peroxisome GO:0016491 oxidoreductase activity |
| InterPro families | IPR011614 Catalase, N-terminal IPR020835 Catalase-like domain, haem-dependent IPR018028 Catalase-related subgroup IPR010582 Catalase-related immune responsive |
| Orthology group | MCL23568 |
Nucleotide sequence:
ATGAAGACTGCCGGTGCGTGTGGCTGTTTGCTTTTTCTAATCATACAAGCACTGGGCGTA
TTCAGCAGTGATATCGATTATATTGAATATTTAAACAGAACCGATCCAACGAAAATTCAA
CTGTACGAATTCAGAAGAGAACACCCGAATCCTATTGGTATTCTAACTACAAGCGCAGGG
AAAATTGTGGAAATCAGAGAGACGAAAACGCTCAATTCAGAACCATACGATAATAGTTAT
TTTGTAGATCTTTTAACTCATTGGCACGCCGAGAGAGTACCTGAAAGAATTATTTACGCT
AAAGCCGCCGGTGCCTTTGGTTACTTTGAGGTAACTAACGATGTATCTAAGTACACTAAA
GCTGAAGTTTTCAATGGCGTGGGCAAGAAGACCCCTGTTATGGTTCGAGTATCTACAATG
CTGCAAAACAGAGGAGGAACTGATCTAGCTAGAGAATCAAAAGGCTTTTCAGTTAAGTTT
TACACAAAGGAAGGAAATTTAGACTTACTATGCCTCAATATGCCAGTTTTTTTCCTTAAT
GATCCTATTGATTTCCCAAGTTTAATTCATGCACTGAAAAGGAATCCAAAACCTCATCTC
TATGATTTTAATATGGTTTATGATTTATTAACAAAGAGACCGTTCTCACTCTACGGTTAT
TTATGGACTATGTCGGATTTTGGTATTCCAAATACATATAGACGTATGGACGCGTTCGCA
ATTCACACTTACGAGATTAATAACAAATTTGGCGATCGTTACTTTGTCAAATTCAATTTT
AGAACTGAGCAAGGTATAGAAAATTTACCTTCGGATGTCGCAGAAAAAATAACTGTACGT
GATCCAGATTATTACAAAAGAGACTTGTATAATGTTATAGAGAAAAAGCAATTCCCCTCA
TGGATTTTGGAGATGGATGTAATGAGCCTTGATGATATAAAAAATATTGATTATAATCCG
TTCGACGTTGGTAGAATATGGAAAAATGGTACTTATTGTACAGTACCCATCGGGAGACTT
GTTTTGAATAGAAACCCAGAAAACGCCTATAGAGTTGCTGAAAGAGTCGCTTTTAATCCT
GCAAATTTGGTACCAGGAATCCCTGGACCACAAGATTTATTGTTCAAAGCTAGACGACAA
TCTTATCGGGAAGCTCAAATATATCGTTTAGGTGTAAATTACAATAAAATTATGGTTAAT
GCTCCTCTGTATTCTAAAGTATATAACCGGGATGGCGTGGCGCCAGTGAGAGACAATATG
AAAGATGCTCCTATCTATTATCCCAATTCGTTTAGTGGACCAGTACCTTATGTAGATCCC
GGGCAATCAAATGAGAAATTAATCATTTACGAGTCTAATGCAGTTGATTTGGAACAACCT
GCTCTCTTCTATAATAAAATTCTTCGAACTGATGAAGAGAGGACAAGACTTGCAAAGAAT
ATCGCACCAACGTTAGTTGGAGTTTATCCTGAAATTCAGAAACGTTTGATGCGCTTGCTC
ACTCTAATAGATCACAGGTTAGGAAAAGATGTTGAAGTCTTGCTTGCAAAGGAATTGAAA
AAGCCACACCCTAAACCCCCAAAAGTTTTAAGCTACTCTCGAAATTTAAAGAGCCAGCAA
GAATTTTGTCCAATGAAACCTGATGGACATAATAATGAAGATAAAGCCATAGATAGAGAG
TAG
Protein sequence:
MKTAGACGCLLFLIIQALGVFSSDIDYIEYLNRTDPTKIQLYEFRREHPNPIGILTTSAG
KIVEIRETKTLNSEPYDNSYFVDLLTHWHAERVPERIIYAKAAGAFGYFEVTNDVSKYTK
AEVFNGVGKKTPVMVRVSTMLQNRGGTDLARESKGFSVKFYTKEGNLDLLCLNMPVFFLN
DPIDFPSLIHALKRNPKPHLYDFNMVYDLLTKRPFSLYGYLWTMSDFGIPNTYRRMDAFA
IHTYEINNKFGDRYFVKFNFRTEQGIENLPSDVAEKITVRDPDYYKRDLYNVIEKKQFPS
WILEMDVMSLDDIKNIDYNPFDVGRIWKNGTYCTVPIGRLVLNRNPENAYRVAERVAFNP
ANLVPGIPGPQDLLFKARRQSYREAQIYRLGVNYNKIMVNAPLYSKVYNRDGVAPVRDNM
KDAPIYYPNSFSGPVPYVDPGQSNEKLIIYESNAVDLEQPALFYNKILRTDEERTRLAKN
IAPTLVGVYPEIQKRLMRLLTLIDHRLGKDVEVLLAKELKKPHPKPPKVLSYSRNLKSQQ
EFCPMKPDGHNNEDKAIDRE