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Detail for ZS11_C03G47400.t1
Genome:
ZS11: ZS11_C03G47400.t1
ZS11_v0: BnaC03T0428500ZS
WE: WE_C03G44900.t1
WE_v0: BnaC03T0359300WE
Darmor: C03p49450.1_BnaDAR
BH: BnaC03T460100BH
Quinta: BnaC03T0411300QU
ZS2: BnaC03T433400ZS2
SW: BnaC03T447500SW
Express61: C03p042210.1_BnaEXP
Xiaoyun: BnaC03G0431200XY
P202: BnaC03G055640P202.1
BL: BnaC03T460100BH
TA: BnaC03T430700TA
Da-Ae: rna-gnl|WGS:JAGKQM|BnaA01g30770D
RB: BnaC03T459600RB
No2127: BnaC01T0287800NO
P130: BnaC01G047140P130.1
Length: 99
KOG ID: KOG4009
KOG E-value: 1.150000e-24
KOG Score: 90.5
KOG Annotation: Energy production and conversion
Biological Process: -
Cellular Component: -
Molecular Function: -
KEGG Ortholog: K03966 NDUFB10; NADH dehydrogenase (ubiquinone) 1 beta subcomplex subunit 10
NR Protein: XP_013736486.1
NR E-value: 5.900000e-17
NR Score: 92.0
NR Annotation: XP_013736486.1 NADH dehydrogenase [ubiquinone] 1 beta subcomplex subunit 10-B [Brassica napus]
SwissProt Protein: Q94C12|NDBAB_ARATH
SwissProt E-value: 4.880000e-24
SwissProt Score: 90.5
SwissProt Annotation: NADH dehydrogenase [ubiquinone] 1 beta subcomplex subunit 10-B OS=Arabidopsis thaliana OX=3702 GN=At3g18410 PE=3 SV=1
CDS Sequence (304 bp) 
ATGGGGAGAAAGAAGGGGTTGCCGGAGTTCGAAGAGACGGCGCCGGATGGATTCGATCCGGCGAATCCTT
ACAAGGATCCAGTGGCGATGGTGGAGATGAGAGAGCACATAGTTCGGGAGAAAACTATCTCGACTCCACT
CGCGGCGTCGGTTGGGGAAAAGACCACCGTCCTGTCTCCCTCCACGGTCCCAAGCCTGAGGCCGTTGAAG
CTGAATAATCTGAGTGAGGCAGGTGACCCAGCTTTTATTATAAGACATGGAATCGTCTTTGGACTGTGCA
GATTTGCTTTCTTTTTTTGA
Upstream Sequence 
ATGGGGAGAAAGAAGGGGTTGCCGGAGTTCGAAGAGACGGCGCCGGATGGATTCGATCCGGCGAATCCTT
ACAAGGATCCAGTGGCGATGGTGGAGATGAGAGAGCACATAGTTCGGGAGAAAACTATCTCGACTCCACT
CGCGGCGTCGGTTGGGGAAAAGACCACCGTCCTGTCTCCCTCCACGGTCCCAAGCCTGAGGCCGTTGAAG
CTGAATAATCTGAGTGAGGCAGGTGACCCAGCTTTTATTATAAGACATGGAATCGTCTTTGGACTGTGCA
GATTTGCTTTCTTTTTTTGA
Downstream Sequence 
GTGGATCCAGATCGAGAAGGCGAAGATCTTGCGTGAGAAGGTCAAATGGTGTTACCGCGT
CGAAGGCGTTAACCATTACCAGAAATGCCGTCATCTCGTCCAGAACTATCTCGACTCCAC
TCGCGGCGTCGGTTGGGGAAAAGACCACCGTCCTGTCTCCCTCCACGGTGAGTTTATAAT
TGATGTTGGTTGGTCTGAGCATAAACTGTGTTATGTTTAAGTTTTTTGGTTTATGTTTAT
GAACAGGTCCCAAGCCTGAGGCCGTTGAAGCTGAATAATCTGAGGTTAGTGACTGTTTCT
TGTTTATGGTTTGTGTTTCACAAAGCTAATCCTAGCAATGGGTGTATTGTGTTGATATTC
TGAAACATGCGTGGAAAGTTCTTACCAAGTAGTTATATAGTCTATGTGAAACCTTCACTT
GAGCCGTTGTTTTTAAACGATGGCAAATGTTACAGCATTAGAAGTTGTTATCCAAATGTT
TTTTTTTTTTTTTTGCTTCAGTGAGGCAGGTGACCCAGCTTTTATTATAAGACATGGAAT
CGTCTTTGGACTGTGCAGATTTGCTTTCTTTTTTTGAAACATGTTAGTCTTTGGATTCAT
GCAAAGGGTTTTACAGGCTTGAGTAATGTATTTTACTACACTAAACATCAGTCTCTCGTT
ATGATACCAAATAAGTACCTTATTCCTCTGCCTCCCTTCGTTGTTATGTATGATCCCACG
TATCAAATCATAGGATAAACAAAATAAACCACAAATAGGTAAGTTTCAAATCAACATAGA
ACACTTGCTTTATAAATAACTCGAGCGTTAAGTTTGAAAAAAAACTCCAACCGTTATTAT
CTTTATATGATTTTCTAGGCAATTTTAAAAAGAACGGTGGGATTATGAAATCTTTTGTAC
AGAAATGGATCCAGATCACTACATACATATATAAAAGCCACAGAGAAGTTTACAAGAACA
TGCGGAACTTATATTAAGGTGTACAGACTGAATGATATATAAAAGAAACCAATAAGAAAG
TTTTTTTTTTTTTGGAACTCTACCAATAAGAAAGTTAATTCGGTGAAAACTCACACGAAA
CATTGAAAAGAGTCAATACAAACACACAACTTAACGGCTTGACTTGCTCGCTAAAGCCCA
TCTACCCTCTCCTGTCGACATGCCCACTGGGCCTTTTTAGTTTTTTATTAATGAAATTAG
CAGTTGCACAAAAAAAAAACTTAACGGCTTGACTCTTTACCGAGTCTTCTCCACTGTCGT
CAACCCTGGTCAACCGCCCAACAAGTGTGGTCAGGTCACTTGTGTTCTGTTTGTATAACC
TGTAAGTTTCATTACATTGTCCTTCCTCTCATTTTCTTTTTTTTTTGAACTTAATCCTTC
CTCTCATTTTCACTCCCCCCATGTTCTAGTTTCAAAATTTAAAAGCCAATCCTCTTTTTC
AAAACTTCGACAGATAAGGTCCTCACAATGCAAAAAATTCCTCATAATGACTTGTCATCA
CCGTTTTAAACAAGTCCATATCCATTCCCCTCGAGCTTAGACGTGAATGGTATAATAGTA
GCTTTGGCCCTACacaagtgtgtttgtgtgtttattcctatatatatttatttttatctt
cattCGTTCTTATAAGCTCTATTTTTCCAACTCAAAACATAATTTATGAAACGATATTCA
GCTAATTAGAGGAATCAATGTGAATAGAATAAGCACGAGGAGTATCCAATTGAATGTTCT
TAGAACTTATAAGTATAATTTAATGACAACCAACTAAGTGCTACTAACCATATCGAGAAA
AAATATTCTAGAGTAGCATAACCAGGAACGGACCCACTTGAAGAGGAGTAGAGTCACTTG
ACACCACACAAAACATGTTAAAATATGTTTTACAAAGAAAAACAGCAAAAAATTGGTAGC
AGGGTTTGGTTAAGTACGGTGCTTGACACCGCATAACCCGGGCTTCGAAGCCAGCAGAGA
CGCTTCGAACCATACTCTTC
Pro Sequence 
MGRKKGLPEFEETAPDGFDPANPYKDPVAMVEMREHIVREKTISTPLAAS
VGEKTTVLSPSTVPSLRPLKLNNLSEAGDPAFIIRHGIVFGLCRFAFFF
mRNA Sequence 
ATGGGGAGAAAGAAGGGGTTGCCGGAGTTCGAAGAGACGGCGCCGGATGGATTCGATCCGGCGAATCCTT
ACAAGGATCCAGTGGCGATGGTGGAGATGAGAGAGCACATAGTTCGGGAGAAAACTATCTCGACTCCACT
CGCGGCGTCGGTTGGGGAAAAGACCACCGTCCTGTCTCCCTCCACGGTCCCAAGCCTGAGGCCGTTGAAG
CTGAATAATCTGAGTGAGGCAGGTGACCCAGCTTTTATTATAAGACATGGAATCGTCTTTGGACTGTGCA
GATTTGCTTTCTTTTTTTGA

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