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Detail for ZS11_A10G06070.t1
Genome:
ZS11: ZS11_A10G06070.t1
ZS11_v0: BnaA10T0051700ZS
WE: WE_A10G06250.t1
WE_v0: BnaA10T0053200WE
Darmor: A10p05750.1_BnaDAR
BH: BnaA10T059000BH
Quinta: BnaA10T0050800QU
ZS2: BnaA10T054700ZS2
SW: BnaA10T061100SW
Express61: A10p004930.1_BnaEXP
Xiaoyun: BnaA10G0051300XY
P202: BnaA10G003910P202.1
BL: BnaA10T059000BH
TA: BnaA10T054200TA
Da-Ae: Not available
RB: BnaA10T057900RB
No2127: BnaC05T0046700NO
P130: BnaA10G005030P130.1
Length: 509
KOG ID: KOG2495
KOG E-value: Not available
KOG Score: 920.0
KOG Annotation: Energy production and conversion
Biological Process: GO:0006116(NADH oxidation)
Cellular Component: -
Molecular Function: GO:0016491(oxidoreductase activity),GO:0003954(NADH dehydrogenase activity)
KEGG Ortholog: K17871 ndh1; NADH:ubiquinone reductase (non-electrogenic) [EC:1.6.5.9]
NR Protein: XP_013687154.1
NR E-value: 4.600000e-299
NR Score: 1031.6
NR Annotation: XP_013687154.1 internal alternative NAD(P)H-ubiquinone oxidoreductase A1, mitochondrial [Brassica napus]
SwissProt Protein: Q8GWA1|NDA1_ARATH
SwissProt E-value: Not available
SwissProt Score: 920.0
SwissProt Annotation: Internal alternative NAD(P)H-ubiquinone oxidoreductase A1, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=NDA1 PE=2 SV=1
CDS Sequence (1551 bp) 
ATGCTTTGGATCAAAAAGTTCGCCAGGATCTCTCCGACAACTTCCTATGTCGGAAACCTCTTCAGAAACT
CCGAGTCCTACACTCTCTCCTCTCGCTTCTGCACGGCTCTTCAACATAGCGAGACGGTTCAAGCGACCGA
TCAGGCAGTTAATGGGCTGGAGCAGCAACAACAACGTTACCACGGTTTGGCTCCGACAAAAGAAGGAGAG
AAGCCGAGAGTGTTGGTTCTCGGGTCGGGTTGGGCGGGTTGTCGTCTTATGAAAGGGATCGACACGAGCA
TATACGACGTCGTTTGCATATCTCCGAGGAACCACATGGTCTTCACTCCTCTCTTGGCTTCTACCTGCGT
CGGTACGCTTGAGTTCCGGTCTGTCGCAGAACCGATCTCTCGTATCCAACCGGCGATTTCGCGAGAACCC
GGTTCTTACTACTTCCTCGCTAATTGCTCGCGTCTTGATTCCGAAAACCATGAGGTGCATTGTGAGACTG
TAACAGATGGGTTAAGCACCACACTGGAGCCATGGAAGTTCAAGATCGCTTATGACAAACTAGTACTAGC
CTGCGGTGCAGAAGCATCCACGTTTGGGATTAACGGGGTGCTAGAAAACGCCATCTTTCTCCGTGAGGTT
CATCACGCTCAGGAGATCCGCAGGAAGCTTCTTCTCAACCTCATGCTCTCTGAGGTTCCAGGGATAGGTG
AGGATGAGAAGAGGAGGCTGTTGCATTGCGTTGTGGTTGGAGGTGGTCCAACCGGTGTGGAGTTTAGCGG
TGAACTGAGTGATTTCATCATGAAAGATGTTCGTGAGAGATATGCTCATGTCAAGGACGACATTCGTGTT
ACTTTGATCGAGGCAAGGGATATACTTTCTTCTTTCGACGATGGGCTCAGACAGTATGCGATCAAGCAGT
TAAACAAGTCTGGAGTGAAGCTTGTGCGTGGGATTGTGAAAGAAGTGAAGCCTCAGAAGCTGGTCCTTGA
TGATGGAACCGATGTTCCTTACGGTCTGTTAGTCTGGTCAACTGGTGTGGGTCCATCTTCGTTTGTTAAG
TCTCTTGGTCTTCCTAAAGATCCAGGTGGCAGGATTGGAATCGATGAGTGGATGCGTGTACCTTCAGTAC
AAGACGTGTTTGCAATTGGTGACTGTAGTGGATATCTAGAGAGCACAGGGAAGTCAACACTTCCTGCCCT
TGCACAGGTGGCTGAGAGAGAAGGCAAGTACTTGGCGAATCTACTGAACGTGATGGGAAAAGCTGGAGGA
GGAAGAGCCTGGAGCGCAAAGGGGACTGAACTTGGAGAACCATTTGTGTACAAGCATTTGGGAAGTATGG
CCACTATTGGGAGATACAAAGCTCTCGTTGATCTTCGTGAGAGCAAGGAAGGAAAAGGGATATCAATGGC
AGGGTTTGTGAGCTGGTTCATATGGAGGTCTGCATATCTGACTCGAGTCCTCAGCTGGAGAAACCGCTTC
TACGTTGCTATTAACTGGCTCACCACTTTCGTTTTCGGCCGTGACATTAGCCGTATCTGA
Upstream Sequence 
ATGCTTTGGATCAAAAAGTTCGCCAGGATCTCTCCGACAACTTCCTATGTCGGAAACCTCTTCAGAAACT
CCGAGTCCTACACTCTCTCCTCTCGCTTCTGCACGGCTCTTCAACATAGCGAGACGGTTCAAGCGACCGA
TCAGGCAGTTAATGGGCTGGAGCAGCAACAACAACGTTACCACGGTTTGGCTCCGACAAAAGAAGGAGAG
AAGCCGAGAGTGTTGGTTCTCGGGTCGGGTTGGGCGGGTTGTCGTCTTATGAAAGGGATCGACACGAGCA
TATACGACGTCGTTTGCATATCTCCGAGGAACCACATGGTCTTCACTCCTCTCTTGGCTTCTACCTGCGT
CGGTACGCTTGAGTTCCGGTCTGTCGCAGAACCGATCTCTCGTATCCAACCGGCGATTTCGCGAGAACCC
GGTTCTTACTACTTCCTCGCTAATTGCTCGCGTCTTGATTCCGAAAACCATGAGGTGCATTGTGAGACTG
TAACAGATGGGTTAAGCACCACACTGGAGCCATGGAAGTTCAAGATCGCTTATGACAAACTAGTACTAGC
CTGCGGTGCAGAAGCATCCACGTTTGGGATTAACGGGGTGCTAGAAAACGCCATCTTTCTCCGTGAGGTT
CATCACGCTCAGGAGATCCGCAGGAAGCTTCTTCTCAACCTCATGCTCTCTGAGGTTCCAGGGATAGGTG
AGGATGAGAAGAGGAGGCTGTTGCATTGCGTTGTGGTTGGAGGTGGTCCAACCGGTGTGGAGTTTAGCGG
TGAACTGAGTGATTTCATCATGAAAGATGTTCGTGAGAGATATGCTCATGTCAAGGACGACATTCGTGTT
ACTTTGATCGAGGCAAGGGATATACTTTCTTCTTTCGACGATGGGCTCAGACAGTATGCGATCAAGCAGT
TAAACAAGTCTGGAGTGAAGCTTGTGCGTGGGATTGTGAAAGAAGTGAAGCCTCAGAAGCTGGTCCTTGA
TGATGGAACCGATGTTCCTTACGGTCTGTTAGTCTGGTCAACTGGTGTGGGTCCATCTTCGTTTGTTAAG
TCTCTTGGTCTTCCTAAAGATCCAGGTGGCAGGATTGGAATCGATGAGTGGATGCGTGTACCTTCAGTAC
AAGACGTGTTTGCAATTGGTGACTGTAGTGGATATCTAGAGAGCACAGGGAAGTCAACACTTCCTGCCCT
TGCACAGGTGGCTGAGAGAGAAGGCAAGTACTTGGCGAATCTACTGAACGTGATGGGAAAAGCTGGAGGA
GGAAGAGCCTGGAGCGCAAAGGGGACTGAACTTGGAGAACCATTTGTGTACAAGCATTTGGGAAGTATGG
CCACTATTGGGAGATACAAAGCTCTCGTTGATCTTCGTGAGAGCAAGGAAGGAAAAGGGATATCAATGGC
AGGGTTTGTGAGCTGGTTCATATGGAGGTCTGCATATCTGACTCGAGTCCTCAGCTGGAGAAACCGCTTC
TACGTTGCTATTAACTGGCTCACCACTTTCGTTTTCGGCCGTGACATTAGCCGTATCTGA
Downstream Sequence 
GTAATTGCTAAACCGGTATAAACCGGTTTCTTAGTTGATCGCTAATTGCTCTGAAATTCG
GGAACAAGTTTTGTCGCTAATTGCTCGGTATAAACCGGTTAATACACTCAAAGCAATATA
TGTGGTTTTGATGTTAATGTGTAAAGCGGTTTTTGTGTTTAACGCAAATTGCTCTGAAAT
TTGAGAACAAGTTTTATCCCTAATTGCTCGGTATAAACCGGTTTACACACTCAAAGCAAT
GTATGTGGTTTTGATGTTAATGTGTAAACCGATTTTGATGTTAATGTGTAAACCGGTTTT
TGTGTTAGCGTGTAAACCGGTTTTTGTGTTTACCGCAAATTGCTCTGAATTTAAGAACAA
GTTTTATCCCTAATTGCTCGGCATAAACCGGTTTACATACTCAAAGCAATATATGTGGTT
TTGATGTTAATGTGTAAACTGATTTTGATGTTTGTGTAAACCGGTTTTTGTGTTAGCGTG
TAAACCGGTTTTTGTGTTATATTCATGTGTGGACTCTGCTCTTGATTATAAACAGGTGCA
TTGTGAGACTGTAACAGATGGGTTAAGCACCACACTGGAGCCATGGAAGTTCAAGATCGC
TTATGACAAACTAGTACTAGCCTGCGGTGCAGAAGCATCCACGTTTGGGATTAACGGGGT
GCTAGAAAACGCCATCTTTCTCCGTGAGGTTCATCACGCTCAGGAGATCCGCAGGAAGCT
TCTTCTCAACCTCATGCTCTCTGAGGTTCCAGGGATAGGTGAGGATGAGAAGAGGAGGCT
GTTGCATTGCGTTGTGGTTGGAGGTGGTCCAACCGGTGTGGAGTTTAGCGGTGAACTGAG
TGATTTCATCATGAAAGATGTTCGTGAGAGATATGCTCATGTCAAGGACGACATTCGTGT
TACTTTGATCGAGGCAAGGGATATACTTTCTTCTTTCGACGATGGGCTCAGACAGTATGC
GATCAAGCAGTTAAACAAGGTTATTGTTATATATTTACTTTGCTTTTATTTTTTGAGAGA
ATGTGGACGTTGAGAATCTGTTAGTTTTTGACTTTAGTCTGGAGTGAAGCTTGTGCGTGG
GATTGTGAAAGAAGTGAAGCCTCAGAAGCTGGTCCTTGATGATGGAACCGATGTTCCTTA
CGGTCTGTTAGTCTGGTCAACTGGTGTGGGTCCATCTTCGTTTGTTAAGTCTCTTGGTCT
TCCTAAAGATCCAGGTGGCAGGTTAGTACAATTCCAATATATCACAACCAATGCAGGTCC
TGAGATTTTGGGAACTGTATGAGATTTAGTAAAGATTTAAATAAACAATATTTTTACAAA
TCTGGAAGCCTACGTCTATGTAATTTTCTTCAAAAAATGTAAGGGTCATAGAGGAATGAT
TCATTGTCCAGGACCGGTCCTGATTACAACAAGCTTGTTCTGTTTTCTTTTGTTTCTGAT
CTTGGATGATTCTGTTTTAATAGGATTGGAATCGATGAGTGGATGCGTGTACCTTCAGTA
CAAGACGTGTTTGCAATTGGTGACTGTAGTGGATATCTAGAGAGCACAGGGAAGTCAACA
CTTCCTGCCCTTGCACAGGTCTGGTTAATGTTGATGTAAGAGTATTCCATTTTTTTTTTA
ACTTGTGTGCCTTAGCTTAAACCAAGTCTGTGATCAATGAAGGTGGCTGAGAGAGAAGGC
AAGTACTTGGCGAATCTACTGAACGTGATGGGAAAAGCTGGAGGAGGAAGAGCCTGGAGC
GCAAAGGGGACTGAACTTGGAGAACCATTTGTGTACAAGCATTTGGGAAGTATGGCCACT
ATTGGGAGATACAAAGCTCTCGTTGATCTTCGTGAGAGCAAGGTATATAACAAAGATCAT
TCACTTTCACTAAAAACCCCTAATTCACATAGATAGCTAAGTTTAGGAGAGCTTGCGTGT
GCAGGAAGGAAAAGGGATATCAATGGCAGGGTTTGTGAGCTGGTTCATATGGAGGTCTGC
ATATCTGACTCGAGTCCTCA
Pro Sequence 
MLWIKKFARISPTTSYVGNLFRNSESYTLSSRFCTALQHSETVQATDQAV
NGLEQQQQRYHGLAPTKEGEKPRVLVLGSGWAGCRLMKGIDTSIYDVVCI
SPRNHMVFTPLLASTCVGTLEFRSVAEPISRIQPAISREPGSYYFLANCS
RLDSENHEVHCETVTDGLSTTLEPWKFKIAYDKLVLACGAEASTFGINGV
LENAIFLREVHHAQEIRRKLLLNLMLSEVPGIGEDEKRRLLHCVVVGGGP
TGVEFSGELSDFIMKDVRERYAHVKDDIRVTLIEARDILSSFDDGLRQYA
IKQLNKSGVKLVRGIVKEVKPQKLVLDDGTDVPYGLLVWSTGVGPSSFVK
SLGLPKDPGGRIGIDEWMRVPSVQDVFAIGDCSGYLESTGKSTLPALAQV
AEREGKYLANLLNVMGKAGGGRAWSAKGTELGEPFVYKHLGSMATIGRYK
ALVDLRESKEGKGISMAGFVSWFIWRSAYLTRVLSWRNRFYVAINWLTTF
VFGRDISRI
mRNA Sequence 
ATGCTTTGGATCAAAAAGTTCGCCAGGATCTCTCCGACAACTTCCTATGTCGGAAACCTCTTCAGAAACT
CCGAGTCCTACACTCTCTCCTCTCGCTTCTGCACGGCTCTTCAACATAGCGAGACGGTTCAAGCGACCGA
TCAGGCAGTTAATGGGCTGGAGCAGCAACAACAACGTTACCACGGTTTGGCTCCGACAAAAGAAGGAGAG
AAGCCGAGAGTGTTGGTTCTCGGGTCGGGTTGGGCGGGTTGTCGTCTTATGAAAGGGATCGACACGAGCA
TATACGACGTCGTTTGCATATCTCCGAGGAACCACATGGTCTTCACTCCTCTCTTGGCTTCTACCTGCGT
CGGTACGCTTGAGTTCCGGTCTGTCGCAGAACCGATCTCTCGTATCCAACCGGCGATTTCGCGAGAACCC
GGTTCTTACTACTTCCTCGCTAATTGCTCGCGTCTTGATTCCGAAAACCATGAGGTGCATTGTGAGACTG
TAACAGATGGGTTAAGCACCACACTGGAGCCATGGAAGTTCAAGATCGCTTATGACAAACTAGTACTAGC
CTGCGGTGCAGAAGCATCCACGTTTGGGATTAACGGGGTGCTAGAAAACGCCATCTTTCTCCGTGAGGTT
CATCACGCTCAGGAGATCCGCAGGAAGCTTCTTCTCAACCTCATGCTCTCTGAGGTTCCAGGGATAGGTG
AGGATGAGAAGAGGAGGCTGTTGCATTGCGTTGTGGTTGGAGGTGGTCCAACCGGTGTGGAGTTTAGCGG
TGAACTGAGTGATTTCATCATGAAAGATGTTCGTGAGAGATATGCTCATGTCAAGGACGACATTCGTGTT
ACTTTGATCGAGGCAAGGGATATACTTTCTTCTTTCGACGATGGGCTCAGACAGTATGCGATCAAGCAGT
TAAACAAGTCTGGAGTGAAGCTTGTGCGTGGGATTGTGAAAGAAGTGAAGCCTCAGAAGCTGGTCCTTGA
TGATGGAACCGATGTTCCTTACGGTCTGTTAGTCTGGTCAACTGGTGTGGGTCCATCTTCGTTTGTTAAG
TCTCTTGGTCTTCCTAAAGATCCAGGTGGCAGGATTGGAATCGATGAGTGGATGCGTGTACCTTCAGTAC
AAGACGTGTTTGCAATTGGTGACTGTAGTGGATATCTAGAGAGCACAGGGAAGTCAACACTTCCTGCCCT
TGCACAGGTGGCTGAGAGAGAAGGCAAGTACTTGGCGAATCTACTGAACGTGATGGGAAAAGCTGGAGGA
GGAAGAGCCTGGAGCGCAAAGGGGACTGAACTTGGAGAACCATTTGTGTACAAGCATTTGGGAAGTATGG
CCACTATTGGGAGATACAAAGCTCTCGTTGATCTTCGTGAGAGCAAGGAAGGAAAAGGGATATCAATGGC
AGGGTTTGTGAGCTGGTTCATATGGAGGTCTGCATATCTGACTCGAGTCCTCAGCTGGAGAAACCGCTTC
TACGTTGCTATTAACTGGCTCACCACTTTCGTTTTCGGCCGTGACATTAGCCGTATCTGA

About BrassicaPanDB

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