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Detail for ZS11_C07G64510.t1

Genome:
ZS11: ZS11_C07G64510.t1
ZS11_v0: BnaC07T0533700ZS
WE: WE_C07G65390.t1
WE_v0: BnaC07T0475300WE
Darmor: C07p61950.1_BnaDAR
BH: BnaC07T566000BH
Quinta: BnaC07T0508400QU
ZS2: BnaC07T509300ZS2
SW: BnaC07T562500SW
Express61: C07p038360.1_BnaEXP
Xiaoyun: BnaC07G0553300XY
P202: BnaC07G093960P202.1
BL: BnaC07T566000BH
TA: BnaA03T563400TA
Da-Ae: rna-gnl|WGS:JAGKQM|BnaA01g02000D
RB: BnaC07T568500RB
No2127: BnaC07T0509000NO
P130: BnaC07G062620P130.1
Length: 265
KOG ID: KOG3135
KOG E-value: 7.280000e-158
KOG Score: 441.0
KOG Annotation: General function prediction only
Biological Process: -
Cellular Component: -
Molecular Function: GO:0016491(oxidoreductase activity),GO:0003955(NAD(P)H dehydrogenase (quinone) activity),GO:0010181(FMN binding)
KEGG Ortholog: K03809 wrbA; NAD(P)H dehydrogenase (quinone) [EC:1.6.5.2]
NR Protein: VDD41056.1
NR E-value: 6.400000e-127
NR Score: 458.8
NR Annotation: VDD41056.1 unnamed protein product [Brassica oleracea]
SwissProt Protein: O23207|FQRL2_ARATH
SwissProt E-value: 3.090000e-157
SwissProt Score: 441.0
SwissProt Annotation: Probable NAD(P)H dehydrogenase (quinone) FQR1-like 2 OS=Arabidopsis thaliana OX=3702 GN=At4g36750 PE=1 SV=1
CDS Sequence (809 bp)
ATGGGGAAAGGAGGCGGATGCGTTCCCAGCAAGAAGAAGAAGCCGTCCTCTCTCGCCACCACCACCACCG
CCGGCGATGGAATCGACGACGACGGCGCCGCCAATGCTCCGATCCCAATCGAGGACGATCAGACGACGAA
CACCGCCGGAACAACGACCCCATCGATCACGGCGAGGACGATCGGTCCGCCGCTCAAGATCTTCGTCGTG
TTCTACTCGATGTACGGACACGTGGAGAGCCTGGCGAGGAGGATGAAGAAGGGAGCGGACGGCGTGGAGG
GAGTGGAGGCGAGGCTGTACAGAGTACCGGAGACGCTTTCCGCGGAGGTCGTCGAGCAGATGAAGGCGCC
GTCGAAGGATACGGAGATCCCGGAGATCACGGCGGCGGAGTTGGCGGAGGCTGATGGGTTTCTGTTCGGG
TTTCCGACGAGGTACGGGTGTATGGCGGCGCAGATGAAGGCGTTCTTTGACTCGACGGGGCAGCTGTGGA
AGGAGCAGACGCTCGCCGGGAAGCCGGCTGGGTTCTTCGTGAGTACGGGGACTCAGGGAGGTGGACAAGA
GACTACTGCATGGACAGCAATAACACAGCTGGTGCATCACGGGATGCTATTCGTCCCCATAGGCTACACT
TTTGGAGCAGGAATGTTCAAGATGGACTCCATCCGTGGAGGGTCACCTTATGGAGCTGGTGTGTTCGCTG
GTGATGGCTCAAGAGAAGCTACGGAGACAGAGTTGGCTCTTGCTGAACATCAAGGAAACTACATGGCTGC
AATTGTCAAGAGACTTGCACAACCTTGA
Upstream Sequence
CGATCACTATTTAGAGTGTTTGATTAGTTTTGTTTTTATTTTTATTTTAAAAATTAAATAGATTTTATCG
TTGACGGAAGCTTGGGGGAGATTTTCACGATGGGGAAAGGAGGCGGATGCGTTCCCAGCAAGAAGAAGAA
GCCGTCCTCTCTCGCCACCACCACCACCGCCGGCGATGGAATCGACGACGACGGCGCCGCCAATGCTCCG
ATCCCAATCGAGGACGATCAGACGACGAACACCGCCGGAACAACGACCCCATCGATCACGGCGAGGACGA
TCGGTCCGCCGCTCAAGATCTTCGTCGTGTTCTACTCGATGTACGGACACGTGGAGAGCCTGGCGAGGAG
GATGAAGAAGGGAGCGGACGGCGTGGAGGGAGTGGAGGCGAGGCTGTACAGAGTACCGGAGACGCTTTCC
GCGGAGGTCGTCGAGCAGATGAAGGCGCCGTCGAAGGATACGGAGATCCCGGAGATCACGGCGGCGGAGT
TGGCGGAGGCTGATGGGTTTCTGTTCGGGTTTCCGACGAGGTACGGGTGTATGGCGGCGCAGATGAAGGC
GTTCTTTGACTCGACGGGGCAGCTGTGGAAGGAGCAGACGCTCGCCGGGAAGCCGGCTGGGTTCTTCGTG
AGTACGGGGACTCAGGGAGGTGGACAAGAGACTACTGCATGGACAGCAATAACACAGCTGGTGCATCACG
GGATGCTATTCGTCCCCATAGGCTACACTTTTGGAGCAGGAATGTTCAAGATGGACTCCATCCGTGGAGG
GTCACCTTATGGAGCTGGTGTGTTCGCTGGTGATGGCTCAAGAGAAGCTACGGAGACAGAGTTGGCTCTT
GCTGAACATCAAGGAAACTACATGGCTGCAATTGTCAAGAGACTTGCACAACCTTGAGAAGAAATACAAA
AAAAAAACTTTGGTGGCTTCTTTATTTTCTTGTTTTATTTAATTCTATCCATTTTTTTCTGAGTGTTTTT
GAGTTTTGCCATTCTCGGAAGAACATTGAACCTATCATAAGGTTCTTACGTCAATGGCCGTGTGTACATG
CTTCTTATTTTTATTACAATTCTCTCTTTGATTGTTCTCCTCCACAAATGTGAATTCCTGTCAAAAATAA
AAAAA
Downstream Sequence
GTAAGCAAAGCTAACTCTGTTGTTTCCTTTTATGTCTGAAAGTAAAGTAGTTGACTTTGG
AGTACAAGTGTTTAGTTCTTGTCATCAAAGTTTTGTCTTTTGATTGAGGCATTGTCTGAA
ATAAATGAGTTAAGTACTTAAAGACATGAACTTTATGTTTTACCTGAAAAGTTTGTTGTG
TTCAGGACAATTGAATTTATATATAGTCTATGTTGGTAGGATAGGACTGTAAAAATGAAA
ACTTTTATTAGATTTGATTCTGTAAAATAAACTTTATAAGAATTGATCCAAATTTGTCAG
CACCATAGTTGCTAAATTTCTAGGCATTTGCCTCCTGTAAATTGCATATCTTGCAATAGA
TTCTTCAATGTTTTTTTTCATTATTTTTACTCATAGTGTGGAATCTCTTCTCTTCATCTG
ATTTAGTTTCAGATTCTATGGAATCTATTCCCTTCTTCTTCTTCTTTTTGTAACTAGGCT
TCTGTGATAGTTTGGTTCCTTTACACAAAATATCTTTGCAATTTCGTCTTGTACTGATAA
GCTAACAAGGTAATATAGAGAAGCATAACAATGTGGGATCTTAAGAGCTAAAGAAAAACA
ATGTGAGGTCTTAACATCACATGGCTTTTGTCAGATCTTAACAAGTGTACAATTAGATGG
TCCTTTATTCTGCTATTTTTAGTGTCAATCTCTGAAACATATGATGTGTTTGTTTTGCAG
ATGGACAGCAATAACACAGCTGGTGCATCACGGGATGCTATTCGTCCCCATAGGCTACAC
TTTTGGAGCAGGAATGTTCAAGATGGACTCCATCCGTGGAGGGTCACCTTATGGAGCTGG
TGTGTTCGCTGGTGATGGCTCAAGAGAAGCTACGGAGACAGAGTTGGCTCTTGCTGAACA
TCAAGGAAACTACATGGCTGCAATTGTCAAGAGACTTGCACAACCTTGAGAAGAAATACA
AAAAAAAAACTTTGGTGGCTTCTTTATTTTCTTGTTTTATTTAATTCTATCCATTTTTTT
CTGAGTGTTTTTGAGTTTTGCCATTCTCGGAAGAACATTGAACCTATCATAAGGTTCTTA
CGTCAATGGCCGTGTGTACATGCTTCTTATTTTTATTACAATTCTCTCTTTGATTGTTCT
CCTCCACAAATGTGAATTCCTGTCAAAAATAAAAAAAGGTTTATTGTGTGTTCTTTTATT
TGAGCTTTTGAATCCGAATCATTCCCAGCATTAGTTTCTTCACTTCTCTCACTGTTAAAC
GAAAATTATTGCAAGACACTACACAGATTCTTTTCCTTAATTAGTTTCCGATTAGAAATC
CACAAAATAAAAGGCTCATGTTTCTGATTATCAGTTCTTGAACCTTGTCTATATCTTCCT
GACCACCAAAATTGGTTTAAATAAAAATGACTGGTCATTAACGTGTCACATGACGATGAA
CAATGTTTCGATCGTAACTCACCACCAAAGCAACAAGAAAAAAAAAGAAGGAAAAAAAAA
TAAGAAGCAACTCAGTCTCACGTGGACCCGAAGTAGGTCGTGTTACAGTTGCCTCATCAA
ATGGGCAATGAAAATATTGTCCTGTATCGTGAGAGTTACGACATATGGTATTTAATTTAC
AACACGCGATAACTTATTATAAAAGAAAGAAAACAAGTGCAAATTGGTGAAGAGAAGTAG
TTGCTTTAGGTCCCAGCAAAGAGAAAAAGATATAAAGCACATGGTAGTAGGGGTCCATTA
TCCTCTCCTGTCCGTTCGTGGAGGTTTCCTTTCATTCAATATACTTCTTTGCACCGAACT
TAACACACACCACAAGGTCCACAATAAACTCTAAACTAATAACAATAGCTAAATAAAAGA
AAAAAAAAATCTGAATATTATCATATCCTCAAACAGCTTATATTATCAAAAACCCATTCA
TTATCCTGTGACGACCAAACATACATTACATCTCCAATAACATTATCATCACAAAAGAAA
ACATTTAAAGTATAAATGTA
Pro Sequence
MGKGGGCVPSKKKKPSSLATTTTAGDGIDDDGAANAPIPIEDDQTTNTAG
TTTPSITARTIGPPLKIFVVFYSMYGHVESLARRMKKGADGVEGVEARLY
RVPETLSAEVVEQMKAPSKDTEIPEITAAELAEADGFLFGFPTRYGCMAA
QMKAFFDSTGQLWKEQTLAGKPAGFFVSTGTQGGGQETTAWTAITQLVHH
GMLFVPIGYTFGAGMFKMDSIRGGSPYGAGVFAGDGSREATETELALAEH
QGNYMAAIVKRLAQP
mRNA Sequence
CGATCACTATTTAGAGTGTTTGATTAGTTTTGTTTTTATTTTTATTTTAAAAATTAAATAGATTTTATCG
TTGACGGAAGCTTGGGGGAGATTTTCACGATGGGGAAAGGAGGCGGATGCGTTCCCAGCAAGAAGAAGAA
GCCGTCCTCTCTCGCCACCACCACCACCGCCGGCGATGGAATCGACGACGACGGCGCCGCCAATGCTCCG
ATCCCAATCGAGGACGATCAGACGACGAACACCGCCGGAACAACGACCCCATCGATCACGGCGAGGACGA
TCGGTCCGCCGCTCAAGATCTTCGTCGTGTTCTACTCGATGTACGGACACGTGGAGAGCCTGGCGAGGAG
GATGAAGAAGGGAGCGGACGGCGTGGAGGGAGTGGAGGCGAGGCTGTACAGAGTACCGGAGACGCTTTCC
GCGGAGGTCGTCGAGCAGATGAAGGCGCCGTCGAAGGATACGGAGATCCCGGAGATCACGGCGGCGGAGT
TGGCGGAGGCTGATGGGTTTCTGTTCGGGTTTCCGACGAGGTACGGGTGTATGGCGGCGCAGATGAAGGC
GTTCTTTGACTCGACGGGGCAGCTGTGGAAGGAGCAGACGCTCGCCGGGAAGCCGGCTGGGTTCTTCGTG
AGTACGGGGACTCAGGGAGGTGGACAAGAGACTACTGCATGGACAGCAATAACACAGCTGGTGCATCACG
GGATGCTATTCGTCCCCATAGGCTACACTTTTGGAGCAGGAATGTTCAAGATGGACTCCATCCGTGGAGG
GTCACCTTATGGAGCTGGTGTGTTCGCTGGTGATGGCTCAAGAGAAGCTACGGAGACAGAGTTGGCTCTT
GCTGAACATCAAGGAAACTACATGGCTGCAATTGTCAAGAGACTTGCACAACCTTGAGAAGAAATACAAA
AAAAAAACTTTGGTGGCTTCTTTATTTTCTTGTTTTATTTAATTCTATCCATTTTTTTCTGAGTGTTTTT
GAGTTTTGCCATTCTCGGAAGAACATTGAACCTATCATAAGGTTCTTACGTCAATGGCCGTGTGTACATG
CTTCTTATTTTTATTACAATTCTCTCTTTGATTGTTCTCCTCCACAAATGTGAATTCCTGTCAAAAATAA
AAAAA