New model in OGS2.0 | DPOGS204223  |
---|---|
Genomic Position | scaffold644:- 55167-66617 |
See gene structure | |
CDS Length | 3138 |
Paired RNAseq reads   | 3913 |
Single RNAseq reads   | 9420 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007502 (2e-131) |
Best Drosophila hit   | ND |
Best Human hit | NAD(P) transhydrogenase, mitochondrial precursor (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to nadp transhydrogenase [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | nadp transhydrogenase [Aedes aegypti] (0.0) |
GeneOntology terms    | GO:0016491 oxidoreductase activity GO:0055114 oxidation reduction GO:0008152 metabolic process GO:0015992 proton transport GO:0008746 NAD(P) transhydrogenase activity GO:0003824 catalytic activity GO:0005488 binding GO:0008750 NAD(P)+ transhydrogenase (AB-specific) activity |
InterPro families    | IPR004571 NAD(P) transhydrogenase, alpha subunit IPR004003 NAD(P) transhydrogenase, beta subunit IPR007698 Alanine dehydrogenase/PNT, C-terminal IPR007886 Alanine dehydrogenase/PNT, N-terminal |
Orthology group | MCL18445 |
Nucleotide sequence:
ATGTGCGGATGTGTGAGGGTACTCCGCCTTGGCAGTCCACTAAAAAAATCATGGCAACGC
AGATTGTTTTCTTCATCTTCTTCGCCGCCAACGCAAGGAGTGCCATACACCAAACTTAGT
GTCGGAATTCCCAAAGAGATATGGCAAGATGAAAGGAGAGTTGCCATAGTACCAGCTGTA
GTAAGTAAATTAGTTAAAAAAGGTTTTACAGTTAATGTAGAAGAAAATGCTGGTACATTA
GCAAATTTTCCAAATAAGACTTATGAAGAAGTTGGAGCTAAAATAACTAGTGTAAAGGAC
GCCTACGGCTCAAATATAATTCTTAAAGTACGTCCGTTGGCTGAAAGCGAACTTCAAAAT
GTTAACGAGGAATCAACGCTTATATCATTTTTCTACCCAGCACAAAACCAAGCACTTATA
CAAAAATTGGCTGCTAAAAAGGTGAATGCATTTGCAATGGACTGCATTCCTCGGATAAGC
CGTGCGCAGGTGTTCGACGCGTTGAGCTCTATGGCGAACGTTGCTGGCTATCGAGCTGTC
ATTGAAGCCGCAGCACATTTCCCACGTTTCTTCTCCGGCCAGATGACGGCAGCGGGTCGC
GTGCCGCCATGCCGCGTGTTGGTGGTTGGCGGAGGGGTAGCGGGGTTGGCGGCCGCGGCC
CAGGCGAGATGTATGGGGGCCGCAGTCCGGGCCTTCGACACACGACCGGCTGTGAGGGAA
CAGATCGAGAGTCTCGGTGCACAGTTCATTACTATGGAAGTTAAGGAGGAGGGGGCTGGT
GCTGGTGGGTACGCAAAGGAAATGAGTGAGGAGTTCCTTCAGGCGGAGCGTGCTTTGTTG
GGACGGGAGGCTCGGAATTCAGACGTCGTGATCAGCACAGCACTCATACCAGGGAAACCG
GCGCCGCTGCTCATATTAGAGGATGCTGTCAAAGATATGGCTCCTGGCAGCGTGATAGTT
GATCTAGCCGCTGAGATGGGTGGAAACATTGAGACGACCACTAAGGGCAAGGTGACCAGG
GTTCATGACGTCACACACATCGGCCTCACAGACCTACCAAGTCGAATGCCCGCACACGCC
TCCACACTCTACGCCAACAATATTTCTGCATTCTTATTAAGTTTAGGTACTAACGATCAC
TTCCACATCAATCTGGAGGATGAAGTGACTCGTGGGGCGATAGTCCTTAAAGCTGGTGAA
TTACTATGGCCACCGCCGCCCGCACCCTTGGTTGCACCCGACGCGGCCCCCAAAACTGTA
ACCCCTGTCAAGGTCGAGCCTCCCAACCCCTTCAATGAAACCTTGAAGGATACCTTCTTA
TATTCTACCGGTCTGGCAAGTCTTATCGGTCTCGGTATGGCATCGCCGAATCCGGCCTTC
ACCACTATGACCACCACCTTGGCTTTATCTGGTGTCGTGGGTTACCACACGGTGTGGGGC
GTGGTGCCGGCGCTGCACTCTCCTTTGATGTCCGTCACTAACGCCGTGTCGGGCATTACG
GCTGTGGGTGGACTACTGTTGATGGGAGGAGGATATCTGCCAGAAACACCTGTACAGTGG
CTAGCGAGTACAGCGGCTTTGATCTCCTTTGTCAACGTATTCGGCGGGTTCATGGTCACA
CAGCGTATGTTGGATATGTTCAAAAGGCCAGGTGATCCGCCAGAGTATGGATATCTGTAC
GCTATACCTGCTGCCGCGCTTTTGGGAGGATACATCACAACAGCGATGCAGGGTTACCCT
GAAGTCCACCAGATGGCGTACCTAGCTTCGTCGTTATGCTGCGTCGGAGCACTCGCCGGC
CTGAGCTCACAGACGACAGCCAGGAAGGGAAACTATTTGGGAATGATTGGTGTATCCGGC
GGTATAGCGGCCACACTGGGAGCATTGACTCCAACATCCGAAGTATTGGCGCAAATGGTT
GGCGTGGCGGGCATTGGCGGTCTACTTGGTGGTGTCATCGCTAAGAAAATTGAAATCACT
GATTTGCCACAACTTGTGGCTGGATTCCACAGCTTGGTGGGCATGGCCGCTGTATTAACA
TGTCTAGCGACGTACATGCACGACTTCCCCGCCATGGCGCTGGACCCCACCGCCGCCACG
CTCAAGACGTCTCTCTTCCTCGGCACATACATCGGTGGAATAACATTCACTGGGTCGTTA
GTGGCTTACGGTAAACTTCAAGGCGTGTTGTCCTCGGCCCCACTATTACTGCCGGGTCGT
CATGCTCTGAACGCGGCGCTGGCCACGGGAGCCCTGGGCTGTGGCGGAGCCCTGCTCGCC
TTCCCCGAAGCCCCCGGCCTGCCGCTACTGTCCGCCGCCGCCGTCCTCAGCGGCATCCAG
GGCCTCACACTCACATCTGCTATTGGTGGTGCTGACATGCCGGTGGTGATCACAGTCCTG
AACAGCTACTCCGGCTGGGCGCTGTGTGCTGAAGGGTTCATGTTGAACAACTCCCTCATG
ACCATCGTCGGCGCACTCATCGGCAGCTCCGGAGCCATTCTATCTTATATAATGTGCAAG
GCTATGAATCGTTCGTTGCCGAATGTAATCCTAGGTGGGTACGGTGTAACGGGGTCCGGA
TCAGCTCGCCCGGAAGGCGCCACCCACACCGAGATGAACGTCGACAGCGTAGCAGACCTC
GTTCACCGCGCCTCCTCCATCATTATAACTCCCGGTTATGGTCTGTGTGTGGCCAAAGCT
CAGTATCCCATCGCCGAATTGGTGGACATTCTTAAAGGCATCGGAAAAAAAGTGCGCTTT
GCTATACATCCAGTTGCTGGACGTATGCCCGGTCAACTGAACGTGCTGCTCGCTGAAGCC
GGTGTGCCCTATGACGACGTGTTCGAGATGGAGGAAATCAACGATGAATTCCCGGAAACT
GACTTGGTCTTAGTTATAGGCGCCAACGACACCGTGAACAGTGCTGCTGAGGACGACCCG
GAGTCTCCCATAGCCGGCATGCCGGTGCTCAAAGTGTGGAAGGCGAACCAAGTGGTAGTG
ATGAAGAGGTCTATGGGTGTCGGCTACGCGGCAGTTGATAACCCCATATTCTACAACCCC
AACACCGCCATGTTGTTGGGAGACGCCAAGAAGACTTGCGACGCACTTCTCGACAGAATC
AAACATCTCGCTGCATAA
Protein sequence:
MCGCVRVLRLGSPLKKSWQRRLFSSSSSPPTQGVPYTKLSVGIPKEIWQDERRVAIVPAV
VSKLVKKGFTVNVEENAGTLANFPNKTYEEVGAKITSVKDAYGSNIILKVRPLAESELQN
VNEESTLISFFYPAQNQALIQKLAAKKVNAFAMDCIPRISRAQVFDALSSMANVAGYRAV
IEAAAHFPRFFSGQMTAAGRVPPCRVLVVGGGVAGLAAAAQARCMGAAVRAFDTRPAVRE
QIESLGAQFITMEVKEEGAGAGGYAKEMSEEFLQAERALLGREARNSDVVISTALIPGKP
APLLILEDAVKDMAPGSVIVDLAAEMGGNIETTTKGKVTRVHDVTHIGLTDLPSRMPAHA
STLYANNISAFLLSLGTNDHFHINLEDEVTRGAIVLKAGELLWPPPPAPLVAPDAAPKTV
TPVKVEPPNPFNETLKDTFLYSTGLASLIGLGMASPNPAFTTMTTTLALSGVVGYHTVWG
VVPALHSPLMSVTNAVSGITAVGGLLLMGGGYLPETPVQWLASTAALISFVNVFGGFMVT
QRMLDMFKRPGDPPEYGYLYAIPAAALLGGYITTAMQGYPEVHQMAYLASSLCCVGALAG
LSSQTTARKGNYLGMIGVSGGIAATLGALTPTSEVLAQMVGVAGIGGLLGGVIAKKIEIT
DLPQLVAGFHSLVGMAAVLTCLATYMHDFPAMALDPTAATLKTSLFLGTYIGGITFTGSL
VAYGKLQGVLSSAPLLLPGRHALNAALATGALGCGGALLAFPEAPGLPLLSAAAVLSGIQ
GLTLTSAIGGADMPVVITVLNSYSGWALCAEGFMLNNSLMTIVGALIGSSGAILSYIMCK
AMNRSLPNVILGGYGVTGSGSARPEGATHTEMNVDSVADLVHRASSIIITPGYGLCVAKA
QYPIAELVDILKGIGKKVRFAIHPVAGRMPGQLNVLLAEAGVPYDDVFEMEEINDEFPET
DLVLVIGANDTVNSAAEDDPESPIAGMPVLKVWKANQVVVMKRSMGVGYAAVDNPIFYNP
NTAMLLGDAKKTCDALLDRIKHLAA