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Detail for ZS11_C09G69630.t1
Genome:
ZS11: ZS11_C09G69630.t1
ZS11_v0: BnaC09T0573700ZS
WE: WE_C09G72410.t1
WE_v0: BnaC09T0546400WE
Darmor: C09p69260.1_BnaDAR
BH: BnaC09T463400BH
Quinta: BnaC09T0537200QU
ZS2: BnaC09T562500ZS2
SW: BnaA10T306900SW
Express61: C09p053050.1_BnaEXP
Xiaoyun: BnaA10G0264800XY
P202: BnaC09G111360P202.1
BL: BnaC09T463400BH
TA: BnaA10T263200TA
Da-Ae: rna-gnl|WGS:JAGKQM|BnaA01g31580D
RB: BnaC09T456800RB
No2127: BnaA10T0202000NO
P130: BnaC09G069800P130.2
Length: 561
KOG ID: KOG1263
KOG E-value: Not available
KOG Score: 1006.0
KOG Annotation: Secondary metabolites biosynthesis, transport and catabolism
Biological Process: GO:0046274(lignin catabolic process)
Cellular Component: GO:0048046(apoplast)
Molecular Function: GO:0052716(hydroquinone:oxygen oxidoreductase activity),GO:0005507(copper ion binding),GO:0016491(oxidoreductase activity)
KEGG Ortholog: K05909 E1.10.3.2; laccase [EC:1.10.3.2]
NR Protein: VDD34347.1
NR E-value: Not available
NR Score: 1101.3
NR Annotation: VDD34347.1 unnamed protein product [Brassica oleracea]
SwissProt Protein: Q9LYQ2|LAC13_ARATH
SwissProt E-value: Not available
SwissProt Score: 1006.0
SwissProt Annotation: Laccase-13 OS=Arabidopsis thaliana OX=3702 GN=LAC13 PE=2 SV=1
CDS Sequence (1710 bp) 
ATGAACTCAGGGCTCCGAAACTGGATTGCCGGTGGTTACACCAAAATCAGTCTATACAGGTTAGACTATC
CCTCTGCATTCAACTCAACTCCATATAAAAAGATCCAAGAGACGCCAGTGAAGAGGCTGTGCAGAGTTCA
TAACTCCATCACGGTGAATGGACAGTTTCCAGGTCCACCCTTGGAGGTTAGAAACGGTGATTCTCTTGTC
ATAACAGCCATTAACAAAGCGCGGTACAACATCAGCCTCCACTGGCATGGGATAAGGCAGATGCGGAACC
CATGGGCGGATGGACCAGAATACATAACACAATGCCCAATCAAACCAGGAGGGAGTTACAGCTACAGATT
CAACATCGAAGAACAAGAAGGTACCTTGTGGTGGCACGCCCACAGCAGATGGCTGAGAGCCACCGTGTAC
GGAGCTCTCATCATCCGCCCTCCGCTCTCTTCTCCTCATTACCCTTTTCCAGTTCTCCCCAAGAGAGAAA
ACCCCATGGATGTCCTGAACTTGGCTCAGTTCACGGGAGCTGCACCAAACGTCTCAGACGCCTTCACCAT
CAACGGTCAGCCTGGTGATTTCTACAGATGCTCCAGCCAAGAAACTTTGAGGTTTCTGGTGGGTTCAGGA
GAGACCGTCCTCCTTAGGGTCATCAACTCTGCCTTAAACCAAGAGCTCTTCTTCGGTGTGGCGAATCACA
AACTCACAGTGGTTGCTGCGGATGCCTCCTACACCAAACCTTTCACGACCAATGTCATAATGTTAGGTCC
AGGTCAGACAACCGATGTGCTTCTAACCGCAGACCAACCGCCAGCACACTACTACATGGCGGCACACGCT
TACAACAGCGCCAACGCTCCCTTCGACAACACCACCACCACAGCAATCCTACAGTACAAAGACGCCCCCT
GTGTTACTAGCAAATCACAGGCAGGTGCAATCCCCGCGCAGCTGCCAGGATTCAACGACACAGCAACAGC
AGCAGCCTTCACAGCTCAGATGAAGAGTCCTTCAAAAGTTGAAGTACCCCTCGAGATCGAAGAGGACTTG
TTCTTCACGGTGGGGTTGGGACTATTCAACTGCCCAACCCCCAACACGCAAAGATGTCAAGGCCCAAACG
GAACACGCTTCACCGCCAGCATCAACAACGTCTCATTCGTCTTCCCTAAAAGAAACTCCATAATGCAAGC
CTATTACCAAGGCACTCCCGCGGGCGTTTTCACCACAGACTTCCCTCCTGTTCCTCCAACCACATTTGAC
TACACAGGAAACGTGAGCAGGGGGCTATGGCAGCCTACACGCGGAACAAAGGCCTACAAGCTAAAGTACA
AGTCCAAAGTACAAGTCATACTGCAAGACACGAGCATCGTCACCACTGAGAATCACCCAATGCATCTCCA
CGGGTACGAGTTCTATGTAGTTGGGACAGGTATTGGTAACTTCAACGCGAACAAAGACACACCCAGCTTC
AACCTCATTGATCCACCACGGAGAAACACAATTGGAACACCTCCTGGTGGATGGATAGCTATCAGATTCG
TGGCGGATAACCCTGGAGTGTGGCTGATGCACTGCCATTTAGACTCTCATATACTCTGGGGTCTGGCTAT
GGTCTTTTTGGTTGAGAACGGTGAAGGGCACTTGCAGTCTGTACAGTCTCCACCATTGGACTTACCTCAG
TGTTAA
Upstream Sequence 
ATGAACTCAGGGCTCCGAAACTGGATTGCCGGTGGTTACACCAAAATCAGTCTATACAGGTTAGACTATC
CCTCTGCATTCAACTCAACTCCATATAAAAAGATCCAAGAGACGCCAGTGAAGAGGCTGTGCAGAGTTCA
TAACTCCATCACGGTGAATGGACAGTTTCCAGGTCCACCCTTGGAGGTTAGAAACGGTGATTCTCTTGTC
ATAACAGCCATTAACAAAGCGCGGTACAACATCAGCCTCCACTGGCATGGGATAAGGCAGATGCGGAACC
CATGGGCGGATGGACCAGAATACATAACACAATGCCCAATCAAACCAGGAGGGAGTTACAGCTACAGATT
CAACATCGAAGAACAAGAAGGTACCTTGTGGTGGCACGCCCACAGCAGATGGCTGAGAGCCACCGTGTAC
GGAGCTCTCATCATCCGCCCTCCGCTCTCTTCTCCTCATTACCCTTTTCCAGTTCTCCCCAAGAGAGAAA
ACCCCATGGATGTCCTGAACTTGGCTCAGTTCACGGGAGCTGCACCAAACGTCTCAGACGCCTTCACCAT
CAACGGTCAGCCTGGTGATTTCTACAGATGCTCCAGCCAAGAAACTTTGAGGTTTCTGGTGGGTTCAGGA
GAGACCGTCCTCCTTAGGGTCATCAACTCTGCCTTAAACCAAGAGCTCTTCTTCGGTGTGGCGAATCACA
AACTCACAGTGGTTGCTGCGGATGCCTCCTACACCAAACCTTTCACGACCAATGTCATAATGTTAGGTCC
AGGTCAGACAACCGATGTGCTTCTAACCGCAGACCAACCGCCAGCACACTACTACATGGCGGCACACGCT
TACAACAGCGCCAACGCTCCCTTCGACAACACCACCACCACAGCAATCCTACAGTACAAAGACGCCCCCT
GTGTTACTAGCAAATCACAGGCAGGTGCAATCCCCGCGCAGCTGCCAGGATTCAACGACACAGCAACAGC
AGCAGCCTTCACAGCTCAGATGAAGAGTCCTTCAAAAGTTGAAGTACCCCTCGAGATCGAAGAGGACTTG
TTCTTCACGGTGGGGTTGGGACTATTCAACTGCCCAACCCCCAACACGCAAAGATGTCAAGGCCCAAACG
GAACACGCTTCACCGCCAGCATCAACAACGTCTCATTCGTCTTCCCTAAAAGAAACTCCATAATGCAAGC
CTATTACCAAGGCACTCCCGCGGGCGTTTTCACCACAGACTTCCCTCCTGTTCCTCCAACCACATTTGAC
TACACAGGAAACGTGAGCAGGGGGCTATGGCAGCCTACACGCGGAACAAAGGCCTACAAGCTAAAGTACA
AGTCCAAAGTACAAGTCATACTGCAAGACACGAGCATCGTCACCACTGAGAATCACCCAATGCATCTCCA
CGGGTACGAGTTCTATGTAGTTGGGACAGGTATTGGTAACTTCAACGCGAACAAAGACACACCCAGCTTC
AACCTCATTGATCCACCACGGAGAAACACAATTGGAACACCTCCTGGTGGATGGATAGCTATCAGATTCG
TGGCGGATAACCCTGGAGTGTGGCTGATGCACTGCCATTTAGACTCTCATATACTCTGGGGTCTGGCTAT
GGTCTTTTTGGTTGAGAACGGTGAAGGGCACTTGCAGTCTGTACAGTCTCCACCATTGGACTTACCTCAG
TGTTAA
Downstream Sequence 
GTCAGACCAGTTTTGGTTTTGAGTTGATAAATTTTCCAACCGCTTTAGGAATATTTTAGA
ATTTAGTACATGCTATTTGATCCGATAATAGTAAAGAAAGATTCTGAGAATGCAATAGCT
TAAAGAGGTTTGGTGTACGAGGATGAGAAAAAAAGATGACAAAGAAAGTGGGCGGGTAGG
GGTTTACCTACATCTTGTGGAACAAGAATCAAAGTTAACTGTTTGTTGTTTAGTGGTTAC
ACCAAAATCAGTCTATACAGGTTAGACTATCCCTCTGCATTCAACTCAACTCCATATAAA
AAGGTAACTCTGCTTACTCTTTCTTCTCACAAGTAAGAATCGAAATGGAGCAAATATGGC
TCTTCTGTGTGTTGTTGGCTTTTGTAGCTTCACTTGTTAATGCTGAAGTTCACTTCCATG
AGTTCATTGTGTGTTTATTACTTCCCTCCTTTTTGATTGTTACTCGCATTGAGATGTTCA
AGTTACTTTGTTTTCATTTGTGTGTTTCCTTTTAGATCCAAGAGACGCCAGTGAAGAGGC
TGTGCAGAGTTCATAACTCCATCACGGTGAATGGACAGTTTCCAGGTCCACCCTTGGAGG
TTAGAAACGGTGATTCTCTTGTCATAACAGCCATTAACAAAGCGCGGTACAACATCAGCC
TCCACTGGTAACTCACTAACTCACTCACTCTCCCTTGTATCAATCAAAATACTAGCTATA
ATAATTAAGTAATGTCTGCCACAGGCATGGGATAAGGCAGATGCGGAACCCATGGGCGGA
TGGACCAGAATACATAACACAATGCCCAATCAAACCAGGAGGGAGTTACAGCTACAGATT
CAACATCGAAGAACAAGAAGGTACCTTGTGGTGGCACGCCCACAGCAGATGGCTGAGAGC
CACCGTGTACGGAGCTCTCATCATCCGCCCTCCGCTCTCTTCTCCTCATTACCCTTTTCC
AGTTCTCCCCAAGAGAGAGTTCACTCTACTCTTAGGGGAATGGTGGGACAGAAACCCCAT
GGATGTCCTGAACTTGGCTCAGTTCACGGGAGCTGCACCAAACGTCTCAGACGCCTTCAC
CATCAACGGTCAGCCTGGTGATTTCTACAGATGCTCCAGCCAAGGTGCATTTTAGTTTAT
GCTTCTCATGCCTCAAAACAGTGTCAGATACCATTGTTAAGTTTGATATTGTTTTTTTTT
TGTCTTAATGTAGAAACTTTGAGGTTTCTGGTGGGTTCAGGAGAGACCGTCCTCCTTAGG
GTCATCAACTCTGCCTTAAACCAAGAGCTCTTCTTCGGTGTGGCGAATCACAAACTCACA
GTGGTTGCTGCGGATGCCTCCTACACCAAACCTTTCACGACCAATGTCATAATGTTAGGT
CCAGGTCAGACAACCGATGTGCTTCTAACCGCAGACCAACCGCCAGCACACTACTACATG
GCGGCACACGCTTACAACAGCGCCAACGCTCCCTTCGACAACACCACCACCACAGCAATC
CTACAGTACAAAGACGCCCCCTGTGTTACTAGCAAATCACAGGCAGGTGCAATCCCCGCG
CAGCTGCCAGGATTCAACGACACAGCAACAGCAGCAGCCTTCACAGCTCAGATGAAGAGT
CCTTCAAAAGTTGAAGTACCCCTCGAGATCGAAGAGGACTTGTTCTTCACGGTGGGGTTG
GGACTATTCAACTGCCCAACCCCCAACACGCAAAGATGTCAAGGCCCAAACGGAACACGC
TTCACCGCCAGCATCAACAACGTCTCATTCGTCTTCCCTAAAAGAAACTCCATAATGCAA
GCCTATTACCAAGGCACTCCCGCGGGCGTTTTCACCACAGACTTCCCTCCTGTTCCTCCA
ACCACATTTGACTACACAGGAAACGTGAGCAGGGGGCTATGGCAGCCTACACGCGGAACA
AAGGCCTACAAGCTAAAGTACAAGTCCAAAGTACAAGTCATACTGCAAGACACGAGCATC
GTCACCACTGAGAATCACCC
Pro Sequence 
MNSGLRNWIAGGYTKISLYRLDYPSAFNSTPYKKIQETPVKRLCRVHNSI
TVNGQFPGPPLEVRNGDSLVITAINKARYNISLHWHGIRQMRNPWADGPE
YITQCPIKPGGSYSYRFNIEEQEGTLWWHAHSRWLRATVYGALIIRPPLS
SPHYPFPVLPKRENPMDVLNLAQFTGAAPNVSDAFTINGQPGDFYRCSSQ
ETLRFLVGSGETVLLRVINSALNQELFFGVANHKLTVVAADASYTKPFTT
NVIMLGPGQTTDVLLTADQPPAHYYMAAHAYNSANAPFDNTTTTAILQYK
DAPCVTSKSQAGAIPAQLPGFNDTATAAAFTAQMKSPSKVEVPLEIEEDL
FFTVGLGLFNCPTPNTQRCQGPNGTRFTASINNVSFVFPKRNSIMQAYYQ
GTPAGVFTTDFPPVPPTTFDYTGNVSRGLWQPTRGTKAYKLKYKSKVQVI
LQDTSIVTTENHPMHLHGYEFYVVGTGIGNFNANKDTPSFNLIDPPRRNT
IGTPPGGWIAIRFVADNPGVWLMHCHLDSHILWGLAMVFLVENGEGHLQS
VQSPPLDLPQC
mRNA Sequence 
ATGAACTCAGGGCTCCGAAACTGGATTGCCGGTGGTTACACCAAAATCAGTCTATACAGGTTAGACTATC
CCTCTGCATTCAACTCAACTCCATATAAAAAGATCCAAGAGACGCCAGTGAAGAGGCTGTGCAGAGTTCA
TAACTCCATCACGGTGAATGGACAGTTTCCAGGTCCACCCTTGGAGGTTAGAAACGGTGATTCTCTTGTC
ATAACAGCCATTAACAAAGCGCGGTACAACATCAGCCTCCACTGGCATGGGATAAGGCAGATGCGGAACC
CATGGGCGGATGGACCAGAATACATAACACAATGCCCAATCAAACCAGGAGGGAGTTACAGCTACAGATT
CAACATCGAAGAACAAGAAGGTACCTTGTGGTGGCACGCCCACAGCAGATGGCTGAGAGCCACCGTGTAC
GGAGCTCTCATCATCCGCCCTCCGCTCTCTTCTCCTCATTACCCTTTTCCAGTTCTCCCCAAGAGAGAAA
ACCCCATGGATGTCCTGAACTTGGCTCAGTTCACGGGAGCTGCACCAAACGTCTCAGACGCCTTCACCAT
CAACGGTCAGCCTGGTGATTTCTACAGATGCTCCAGCCAAGAAACTTTGAGGTTTCTGGTGGGTTCAGGA
GAGACCGTCCTCCTTAGGGTCATCAACTCTGCCTTAAACCAAGAGCTCTTCTTCGGTGTGGCGAATCACA
AACTCACAGTGGTTGCTGCGGATGCCTCCTACACCAAACCTTTCACGACCAATGTCATAATGTTAGGTCC
AGGTCAGACAACCGATGTGCTTCTAACCGCAGACCAACCGCCAGCACACTACTACATGGCGGCACACGCT
TACAACAGCGCCAACGCTCCCTTCGACAACACCACCACCACAGCAATCCTACAGTACAAAGACGCCCCCT
GTGTTACTAGCAAATCACAGGCAGGTGCAATCCCCGCGCAGCTGCCAGGATTCAACGACACAGCAACAGC
AGCAGCCTTCACAGCTCAGATGAAGAGTCCTTCAAAAGTTGAAGTACCCCTCGAGATCGAAGAGGACTTG
TTCTTCACGGTGGGGTTGGGACTATTCAACTGCCCAACCCCCAACACGCAAAGATGTCAAGGCCCAAACG
GAACACGCTTCACCGCCAGCATCAACAACGTCTCATTCGTCTTCCCTAAAAGAAACTCCATAATGCAAGC
CTATTACCAAGGCACTCCCGCGGGCGTTTTCACCACAGACTTCCCTCCTGTTCCTCCAACCACATTTGAC
TACACAGGAAACGTGAGCAGGGGGCTATGGCAGCCTACACGCGGAACAAAGGCCTACAAGCTAAAGTACA
AGTCCAAAGTACAAGTCATACTGCAAGACACGAGCATCGTCACCACTGAGAATCACCCAATGCATCTCCA
CGGGTACGAGTTCTATGTAGTTGGGACAGGTATTGGTAACTTCAACGCGAACAAAGACACACCCAGCTTC
AACCTCATTGATCCACCACGGAGAAACACAATTGGAACACCTCCTGGTGGATGGATAGCTATCAGATTCG
TGGCGGATAACCCTGGAGTGTGGCTGATGCACTGCCATTTAGACTCTCATATACTCTGGGGTCTGGCTAT
GGTCTTTTTGGTTGAGAACGGTGAAGGGCACTTGCAGTCTGTACAGTCTCCACCATTGGACTTACCTCAG
TGTTAA

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