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Detail for ZS11_C04G20550.t1
Genome:
ZS11: ZS11_C04G20550.t1
ZS11_v0: BnaC04T0186300ZS
WE: WE_A05G15660.t1
WE_v0: BnaC04T0181000WE
Darmor: A05p16010.1_BnaDAR
BH: BnaC04T188700BH
Quinta: BnaA05T0136000QU
ZS2: BnaC04T180800ZS2
SW: BnaC04T186300SW
Express61: A05p014030.1_BnaEXP
Xiaoyun: BnaA05G0139200XY
P202: BnaA05G012770P202.1
BL: BnaC04T188700BH
TA: BnaC04T185000TA
Da-Ae: rna-gnl|WGS:JAGKQM|BnaA01g27480D
RB: BnaA05T149700RB
No2127: BnaC04T0178400NO
P130: BnaA05G013270P130.1
Length: 180
KOG ID: KOG0725
KOG E-value: 7.490000e-108
KOG Score: 310.0
KOG Annotation: General function prediction only
Biological Process: -
Cellular Component: -
Molecular Function: GO:0016491(oxidoreductase activity)
KEGG Ortholog: K08081 TR1; tropinone reductase I [EC:1.1.1.206]
NR Protein: XP_022557991.1
NR E-value: 2.700000e-97
NR Score: 359.8
NR Annotation: XP_022557991.1 tropinone reductase homolog At2g30670-like isoform X1 [Brassica napus]
SwissProt Protein: O49332|TRNHE_ARATH
SwissProt E-value: 3.180000e-107
SwissProt Score: 310.0
SwissProt Annotation: Tropinone reductase homolog At2g30670 OS=Arabidopsis thaliana OX=3702 GN=At2g30670 PE=3 SV=1
CDS Sequence (550 bp) 
ATGTTCGATGGCAAGCTGACCATTCTTGTGAATAACGTTGGCGTAGTTCGCCTTAAACCAACAACAGAAT
ATGTGGCAGACGATTTCTCGTTCCATATTTCAACAAACTTGGAATCAGCTTATCATCTTAGCCAGCTTTC
ACATCCTCTTTTAAAGGCTTCTGGATTCGGAAGCATTGTTATGAATTCTTCTGTTGGAGGGGTTGTATCA
ATGGAATGTGGATCCCTCTATAGTTTAACGAAAGGAGCTATGAATCAACTAGCAAGAAGTTTGGCGTGTG
AGTGGGCAACTGATGGCATAAGAATTAACTCTGTTGCTCCTAATTTTATCCTCACTGATATGACTGCACC
TCATCTTGAAGACGCGGGTTACAAGAAGAGTTTGTTCAGTAGAACTCCGCTTGGTCGTGCTGGAGAGCCA
AAAGAGGTTGCATCACTTGTGGCCTTTTTGTGTCTACCTGCAGCTTCATATATTACTGGGCAGACCATTT
GTGTTGATGGAGGTCTCACTGTCAATGGTTTCTCATATAAGCGACAGGCTTGA
Upstream Sequence 
ATGTTCGATGGCAAGCTGACCATTCTTGTGAATAACGTTGGCGTAGTTCGCCTTAAACCAACAACAGAAT
ATGTGGCAGACGATTTCTCGTTCCATATTTCAACAAACTTGGAATCAGCTTATCATCTTAGCCAGCTTTC
ACATCCTCTTTTAAAGGCTTCTGGATTCGGAAGCATTGTTATGAATTCTTCTGTTGGAGGGGTTGTATCA
ATGGAATGTGGATCCCTCTATAGTTTAACGAAAGGAGCTATGAATCAACTAGCAAGAAGTTTGGCGTGTG
AGTGGGCAACTGATGGCATAAGAATTAACTCTGTTGCTCCTAATTTTATCCTCACTGATATGACTGCACC
TCATCTTGAAGACGCGGGTTACAAGAAGAGTTTGTTCAGTAGAACTCCGCTTGGTCGTGCTGGAGAGCCA
AAAGAGGTTGCATCACTTGTGGCCTTTTTGTGTCTACCTGCAGCTTCATATATTACTGGGCAGACCATTT
GTGTTGATGGAGGTCTCACTGTCAATGGTTTCTCATATAAGCGACAGGCTTGA
Downstream Sequence 
GTAAGCTAATCTTAACTTTAAAAACTAATTATGTTCTTATAGGAACAATACCTATTAGTA
GTGAAAGATTCTTTTGGGGGTAAAATATAGTAAGACTTTTGTTACTCTTTTTTGTTCAAC
ATAGGTGAATAACGTTGGCGTAGTTCGCCTTAAACCAACAACAGAATATGTGGCAGACGA
TTTCTCGTTCCATATTTCAACAAACTTGGAATCAGCTTATCATCTTAGCCAGCTTTCACA
TCCTCTTTTAAAGGCTTCTGGATTCGGAAGCATTGTTATGAATTCTTCTGTTGGAGGGGT
TGTATCAATGGAATGTGGATCCCTCTATAGTTTAACGAAAGGTACATCGATAGAAATGTT
GGGTCCCTCCTAGATGGAGAGGACCAATTGGGGTGAACTTAAGAAATAATAATGTTCTTT
TTTGGCACTAGACACAATAATAGAGTTTTGACAAAAAGAAACAAGAGAGAGAAAGGAGAA
AAAGAGAGAGAAGGAGAAAACTCGTAAGGTGATTTCAAGACTGGATTTGGAGGGTCAAAC
GGATCCTGATCGAGCTGATATTTTGTGGGAAGCTTCTAAAGTCAGTGGGTTAGAGGTTCA
CCGAAGGGATTTGGATTTCAACGGTTGGATCTTCTGTTGTCTGGGTTTTCTTGAAGCTGG
TCGCCATAGTTCTTCAGCAGAGCAGTCTTGGGTGTTTGGTAAATCCAACGGTGAGATCTT
CTCTTCTTGAGCTGAAATTTGGCAGAGGTATTATCGACTTGTTTATCTTGGATTTGTACG
GTTGGATTAGTTTTTGGAAGCCGGAATCTTTGTGAGCTGAGGTCGTTTGGTTGCTGCTGG
TTTTGAAGCTTTGTGTTGCTCTCTTGTTGTTGTTGTTTGTGTTGGAGATAGCTATTTGTA
GCTAGACTCTCTGTTCTGTTCAGGCTGTTGAACAGGGAGGAAGTGGTTGTACTCATACCA
TTTATATAGTGGATTTTTGAGTGGACTACGGTCCCGTGGTTTTTCCTTCTCACATCGAGG
AGGTTTTCCACGTAAAAATTGTGTGTCTCATTTAGTTATCGCAACTTTGATATCTTGCCA
TCGTCGAAGTATTTTCCTCACAGGTTCGCACAAGGTCAGGGGAACACGACCGTGACATTC
CGCTGCGCCGTGTGTCTTTCCCCAACAGAGTGGTATCAGAGCTTCTGGTTTTAGAGCTTT
GGTTTTGATAACTTTGGGTTATTATTTGCTTGTGTGAAAGATGGAAAATATGAGCAGGAT
GATAAGCTTGAATGGTGCTAACTATCATCTATGGAAGGGCAAGATGGAGGATTTGCTCTT
TGTTAAAGAATTCCACGTTCCAGTCTTCGAGGAGCAGAAACCTGAGAAGAAGACGAATGA
AGAGTGGAAGCTGCAGCATCGCCAAGTGTGTGGGTTGATAAGGCAGTGGGTAGATGATAA
TGTGTTGCATCACATTGAGACTGAGACGGATGCTCGTTCTTTGTGGAAGAAGCTAGAGCA
GTTATATGCTAGGAAGACCGGAAATAACAAGATGTACATGATCAAAAAGTTGATTGAGCT
GAGGTATCAGGAGGGGACTCCGATGACGGATCACTTGAATGCGTTTCAGGGATTACTCAA
CAAGTTGTCTGATATGGGCATCAAGTTTGATGATGAGATTCACGGTCTGTGGCTTCTCGG
TACTTTACCGGACTCTTGGGAGGTTTTCAGGATGTCTCTTTGTAACTCCGCGTCGGAAGG
TGTTATTTCGATGGATTCAGTGAAGAACAGTGTTCTTAATGAGGAAGCAAGAAGGCAGTC
GAATGATAGCAGTTCGCGTTCAGCTGTCTTTGTTACTGAGTCAAGGGGGAGAAGTACAAG
TAGAGATCCCAAGAGAGACAAGAACAGGAGCAGGAGCAAGTCTAATAGATTTGCTAATAT
GGAGTGCTACTTCTGTCATAAGAAAGGGCACATGAAGAAGGATTGCTGGAAGTTGAAAAA
CAAGCagcagcaaggaaatc
Pro Sequence 
MFDGKLTILVNNVGVVRLKPTTEYVADDFSFHISTNLESAYHLSQLSHPL
LKASGFGSIVMNSSVGGVVSMECGSLYSLTKGAMNQLARSLACEWATDGI
RINSVAPNFILTDMTAPHLEDAGYKKSLFSRTPLGRAGEPKEVASLVAFL
CLPAASYITGQTICVDGGLTVNGFSYKRQA
mRNA Sequence 
ATGTTCGATGGCAAGCTGACCATTCTTGTGAATAACGTTGGCGTAGTTCGCCTTAAACCAACAACAGAAT
ATGTGGCAGACGATTTCTCGTTCCATATTTCAACAAACTTGGAATCAGCTTATCATCTTAGCCAGCTTTC
ACATCCTCTTTTAAAGGCTTCTGGATTCGGAAGCATTGTTATGAATTCTTCTGTTGGAGGGGTTGTATCA
ATGGAATGTGGATCCCTCTATAGTTTAACGAAAGGAGCTATGAATCAACTAGCAAGAAGTTTGGCGTGTG
AGTGGGCAACTGATGGCATAAGAATTAACTCTGTTGCTCCTAATTTTATCCTCACTGATATGACTGCACC
TCATCTTGAAGACGCGGGTTACAAGAAGAGTTTGTTCAGTAGAACTCCGCTTGGTCGTGCTGGAGAGCCA
AAAGAGGTTGCATCACTTGTGGCCTTTTTGTGTCTACCTGCAGCTTCATATATTACTGGGCAGACCATTT
GTGTTGATGGAGGTCTCACTGTCAATGGTTTCTCATATAAGCGACAGGCTTGA

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