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Entry information : BdiPrx95(Bradi3g04717 / Bradi3g04720 [3.0])
Entry ID 7872
Creation 2011-01-14 (Toky Ramarohetra)
Last sequence changes 2014-01-08 (Christophe Dunand)
Sequence status complete
Reviewer Not yet reviewed
Last annotation changes 2023-03-14 (Christophe Dunand)
Peroxidase information: BdiPrx95(Bradi3g04717 / Bradi3g04720 [3.0])
Name BdiPrx95(Bradi3g04717 / Bradi3g04720 [3.0])
Class Class III peroxidase    [Orthogroup: Prx147]
Taxonomy Eukaryota Viridiplantae Streptophyta Monocotyledons Poaceae Brachypodium
Organism Brachypodium distachyon    [TaxId: 15368 ]
Cellular localisation N/D
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value BdiPrx95
start..stop		 S start..stop
TaPrx129-1D 513 0 2..345 1..344
TaPrx129-1A 494 9.01e-178 41..345 23..327
TaPrx129-1B 484 2.22e-173 2..345 1..343
SbPrx70 461 4.4e-164 40..344 41..350
Literature and cross-references BdiPrx95(Bradi3g04717 / Bradi3g04720 [3.0])
DNA ref. Phytozome 12:   Bd3
Protein sequence: BdiPrx95(Bradi3g04717 / Bradi3g04720 [3.0])
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   349 (323)
PWM (Da):   %s   36563.64 (33932.2) Transmb domain:   %s   o5-27i
PI (pH):   %s   8.56 (8.56) Peptide Signal:   %s   cut: 27 range:27-349
Sequence
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*.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
MVAPTVPLPA MVVLLVAVSA MALVSGASMR GRHGQGQQQG QLRMGFYSSS CPAAEKIIGD YVRLHVRRAP TVAPALLRLH YHDCFVSGCD GSILLNSTGT GGQQAEKDAA PNLTLRGFDL  IDRVKTAVEE ACPGVVSCAD VLALAARDAV AAIGGPSWRV PTGRRDGTVS SVQDALRELP NPAMSFTELA ALFAGKGLGV RDLVWLSGAH TIGVAHCSSF ADRLYGYPGA GNGTDPSLDA 
TYAANLRQHK CRTPISNSLV EMNPGSFLTF DLGYYRAVLK HRGLLGSDAA LVTDAAARAD IASVVASPPE VFFQVFGRSM AKLGAVQVKT GSQGEIRKSC AVVNSSYQN* 

Retrieve as FASTA  
Remarks Complete sequence from genomic (chromo 3, 3 introns). Uncorect prediction from phytozome, extra exon in 5' (corrected in the V3.1). No EST.
DNA
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.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGGTGGCGC CCACCGTGCC ATTGCCGGCG ATGGTGGTGC TCCTCGTCGC GGTCTCGGCC ATGGCGCTCG TCTCCGGTGC CAGCATGCGC GGCAGGCATG GGCAGGGACA GCAGCAGGGG  CAGCTGAGGA TGGGGTTCTA CAGCTCGAGC TGCCCGGCAG CGGAGAAGAT CATCGGCGAC TACGTCCGGC TGCACGTCCG CCGCGCGCCC ACCGTCGCCC CAGCTCTCCT CCGGCTTCAC  TACCACGACT GCTTCGTCAG CGTACATATA ACTACACATT ATTTTGACTC TACACCTCTG CCGTGTGAAT TTGATCACTC AATATATGGC CATTGTTTGA GTGTCCTGTT GTGTTCGTGC  AGGGCTGCGA CGGGTCCATC CTGCTCAACT CCACCGGCAC CGGCGGCCAG CAGGCGGAGA AGGACGCGGC GCCGAACCTG ACGCTGCGCG GGTTCGACCT GATCGACCGC GTGAAGACGG  CCGTGGAGGA GGCGTGCCCC GGCGTCGTCT CCTGCGCCGA CGTGCTCGCG CTTGCCGCCC GGGACGCCGT CGCCGCCATC GTAAGCTTCC AGGCCGCCTC TGCCACGCTT AGTTCTGAAG  CTTAGCATGC ATTGACGTGC TTGCATATGC ACAGGGCGGG CCGTCGTGGC GGGTGCCGAC GGGGAGGAGG GACGGCACGG TGTCCAGCGT GCAGGACGCG CTCCGGGAGC TGCCCAACCC  GGCCATGAGC TTCACGGAGC TCGCCGCGCT CTTCGCCGGC AAGGGCCTCG GCGTGCGCGA CCTCGTCTGG CTCTCAGGTC CCTACACCAT AAGCAACATA CATATAATTA TCTCTACAAT  TATATAAACT TCCAGATCAA TCAATCACAT TATTCAACAT GCTAGTACTA AATATGTTTT AAACAAGGAA TATATAATGA CTCAAAAATT AATCTGTAAA TATTGCTGGA GAGATACATG  GTAGCCACCG ACACGATGAA AGGCGGTCTC TTATCGCCCA TTCTTTGTGT GTGGAGAGGG CATAGAGAAG GACCACGAAC AATCGTTGCT TTCTCTGCCC ATCTTAAACC AGATAGGCAG  ATTCCTTCAG GAAAACTGTA GCTTCTGGAC ACTGCGAATC GAATAAGACA CTTTCCAGAC TTCAGTAAAA TGTTACGAAT ATGTAGATTA GGTATAGAAA GGCTGCTTAC TTGCAATTGC  ATCATCTTTG GCCATAAAGT AGCTATTGCT ATGCCTGTCT CGATTTTTCT TTTCACTTCA TCTTATTTTG GGAGCCATTT CACAGTCCTT TTTGATACTT TCATGTCAGG TTCTGATAAA  CCTGATAACC TGAGTCGCTG TCTCACTGAT GCATTCATTG CATATGAATA GGCATCCATT TGCAACGATG ACAAGCTCAC ACTTGCATGT CTACTTCATT TCCATTGGCA GTCATGTCGA  AACCGATAGC CTTTTGCTTT ATATCCTGTC TCCTCATGTC CTCCATACAC GTTAGCATTT GGGCATTTGG CGCCAACTTT CTAGACTAAC AAACGCTATG TCTTTCAGTA CATCTGCCTT  GTGATTCCTA GCTGATAATC AATTATCACA TCAACAACTT TACTCAACTA AATCACTGAC TTGTTTTGTT TCAATTTGAG AATAACGTTA CATTAGCCAC AGAATTTCAA CTCCGTGAGT  ATAATACTTG AGTGAGTTTA CGGCAAACCT GACAAACAAA ATTTGAAATG TGTTTCTGAC TTGAGCCTGA GCTGCAGGTG CGCACACCAT TGGCGTCGCC CACTGCTCGT CCTTCGCCGA  CCGCCTCTAC GGCTACCCAG GTGCCGGCAA TGGCACCGAC CCGTCCCTCG ACGCCACCTA CGCCGCCAAC CTGCGGCAGC ACAAGTGCAG GACACCCATT AGCAACAGCT TGGTGGAGAT  GAACCCTGGC AGCTTCCTGA CATTTGACCT CGGCTACTAC CGGGCGGTGC TCAAGCACAG GGGCCTGCTG GGATCCGACG CCGCGCTGGT CACCGACGCG GCGGCGCGAG CTGACATCGC  CAGCGTCGTG GCCAGTCCAC CGGAGGTGTT CTTCCAGGTG TTTGGGCGGT CGATGGCGAA ACTCGGGGCG GTGCAGGTCA AGACCGGCTC CCAGGGGGAG ATTAGGAAGA GCTGTGCCGT 
TGTCAACAGC AGCTACCAGA ACTGA 

Retrieve as FASTA  
CDS
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.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGGTGGCGC CCACCGTGCC ATTGCCGGCG ATGGTGGTGC TCCTCGTCGC GGTCTCGGCC ATGGCGCTCG TCTCCGGTGC CAGCATGCGC GGCAGGCATG GGCAGGGACA GCAGCAGGGG  CAGCTGAGGA TGGGGTTCTA CAGCTCGAGC TGCCCGGCAG CGGAGAAGAT CATCGGCGAC TACGTCCGGC TGCACGTCCG CCGCGCGCCC ACCGTCGCCC CAGCTCTCCT CCGGCTTCAC  TACCACGACT GCTTCGTCAG CGGCTGCGAC GGGTCCATCC TGCTCAACTC CACCGGCACC GGCGGCCAGC AGGCGGAGAA GGACGCGGCG CCGAACCTGA CGCTGCGCGG GTTCGACCTG  ATCGACCGCG TGAAGACGGC CGTGGAGGAG GCGTGCCCCG GCGTCGTCTC CTGCGCCGAC GTGCTCGCGC TTGCCGCCCG GGACGCCGTC GCCGCCATCG GCGGGCCGTC GTGGCGGGTG  CCGACGGGGA GGAGGGACGG CACGGTGTCC AGCGTGCAGG ACGCGCTCCG GGAGCTGCCC AACCCGGCCA TGAGCTTCAC GGAGCTCGCC GCGCTCTTCG CCGGCAAGGG CCTCGGCGTG  CGCGACCTCG TCTGGCTCTC AGGTGCGCAC ACCATTGGCG TCGCCCACTG CTCGTCCTTC GCCGACCGCC TCTACGGCTA CCCAGGTGCC GGCAATGGCA CCGACCCGTC CCTCGACGCC  ACCTACGCCG CCAACCTGCG GCAGCACAAG TGCAGGACAC CCATTAGCAA CAGCTTGGTG GAGATGAACC CTGGCAGCTT CCTGACATTT GACCTCGGCT ACTACCGGGC GGTGCTCAAG  CACAGGGGCC TGCTGGGATC CGACGCCGCG CTGGTCACCG ACGCGGCGGC GCGAGCTGAC ATCGCCAGCG TCGTGGCCAG TCCACCGGAG GTGTTCTTCC AGGTGTTTGG GCGGTCGATG 
GCGAAACTCG GGGCGGTGCA GGTCAAGACC GGCTCCCAGG GGGAGATTAG GAAGAGCTGT GCCGTTGTCA ACAGCAGCTA CCAGAACTGA 

Retrieve as FASTA  
cDNA
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.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
AGAGAAATTG CCGATACTTG ACTGACCTCG GTCGTATTGA GTATTGACAG TATTAATCGT ACTCTGCTTA CATCTCTTGC CTGTCGCACA CCAGTAGCTC AAAGTTCAGA CTCCAGAGTA  GCTGCAGACG CAGGAGATCG ATCATGGTGG CGCCCACCGT GCCATTGCCG GCGATGGTGG TGCTCCTCGT CGCGGTCTCG GCCATGGCGC TCGTCTCCGG TGCCAGCATG CGCGGCAGGC  ATGGGCAGGG ACAGCAGCAG GGGCAGCTGA GGATGGGGTT CTACAGCTCG AGCTGCCCGG CAGCGGAGAA GATCATCGGC GACTACGTCC GGCTGCACGT CCGCCGCGCG CCCACCGTCG  CCCCAGCTCT CCTCCGGCTT CACTACCACG ACTGCTTCGT CAGCGGCTGC GACGGGTCCA TCCTGCTCAA CTCCACCGGC ACCGGCGGCC AGCAGGCGGA GAAGGACGCG GCGCCGAACC  TGACGCTGCG CGGGTTCGAC CTGATCGACC GCGTGAAGAC GGCCGTGGAG GAGGCGTGCC CCGGCGTCGT CTCCTGCGCC GACGTGCTCG CGCTTGCCGC CCGGGACGCC GTCGCCGCCA  TCGGCGGGCC GTCGTGGCGG GTGCCGACGG GGAGGAGGGA CGGCACGGTG TCCAGCGTGC AGGACGCGCT CCGGGAGCTG CCCAACCCGG CCATGAGCTT CACGGAGCTC GCCGCGCTCT  TCGCCGGCAA GGGCCTCGGC GTGCGCGACC TCGTCTGGCT CTCAGGTGCG CACACCATTG GCGTCGCCCA CTGCTCGTCC TTCGCCGACC GCCTCTACGG CTACCCAGGT GCCGGCAATG  GCACCGACCC GTCCCTCGAC GCCACCTACG CCGCCAACCT GCGGCAGCAC AAGTGCAGGA CACCCATTAG CAACAGCTTG GTGGAGATGA ACCCTGGCAG CTTCCTGACA TTTGACCTCG  GCTACTACCG GGCGGTGCTC AAGCACAGGG GCCTGCTGGG ATCCGACGCC GCGCTGGTCA CCGACGCGGC GGCGCGAGCT GACATCGCCA GCGTCGTGGC CAGTCCACCG GAGGTGTTCT  TCCAGGTGTT TGGGCGGTCG ATGGCGAAAC TCGGGGCGGT GCAGGTCAAG ACCGGCTCCC AGGGGGAGAT TAGGAAGAGC TGTGCCGTTG TCAACAGCAG CTACCAGAAC TGAGATGCAC  ATCTGGGTTC TTTTCCCTGG AAGATGTCAG TGGATTCTGT GGTTTTGCTC TTATTCTTTG TGGATTTGTA GCCATTATAC TTCTGATGAA ATTTTTGATG CGCATGCTTG CGAACAACTT 
AGTCTGCATG TGAACTGTGA ACAGAGAAGA GATG 

Retrieve as FASTA