Entry information : GbPrx31(Ginbil_Gb_35165/ Ginbil_Gb_28539)
Entry ID 12800
Creation 2013-12-19 (Qiang Li)
Last sequence changes 2015-03-05 (Christophe Dunand)
Sequence status complete
Reviewer Not yet reviewed
Last annotation changes 2020-11-24 (Christophe Dunand)
Peroxidase information: GbPrx31(Ginbil_Gb_35165/ Ginbil_Gb_28539)
Name GbPrx31(Ginbil_Gb_35165/ Ginbil_Gb_28539)
Class Class III peroxidase    [Orthogroup: Prx032]
Taxonomy Eukaryota Viridiplantae Streptophyta Ginkgoopsida Ginkgoaceae Ginkgo
Organism Ginkgo biloba    [TaxId: 3311 ]
Cellular localisation N/D
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value GbPrx31
start..stop
S start..stop
PtaPrx136 440 1e-156 23..322 21..324
PtaPrx78 439 3e-156 10..322 16..332
PtaPrx149 436 4e-155 1..322 11..334
PtaPrx79 436 9e-155 23..322 38..339
Literature and cross-references GbPrx31(Ginbil_Gb_35165/ Ginbil_Gb_28539)
Protein sequence: GbPrx31(Ginbil_Gb_35165/ Ginbil_Gb_28539)
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   322 (317)
PWM (Da):   %s   34921.71 (33723.0) Transmb domain:   %s   i5-27o
PI (pH):   %s   8.65 (8.75) Peptide Signal:   %s   cut: 18 range:18-334
Sequence
Send to BLAST
Send to Peroxiscan
.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
MALNVLAISV LLGLCIGIAG IGSAALSVNY YDKSCPRAEQ VVRDALLNAT QLDPKVPPRI LRMHFHDCFV RGCDGSVLLD STPHNKAEKK GQPNQSLGAF YVIDNAKTML ESICPKTVSC  ADILAIAARD VVALSGGPKW EVEKGRMDGR ISKANETNSL PTPNFNISQL IQSFALRGLS THDLVALSGG HTLGFSHCSS FQQRLHNFSV THEMDPSMER VFVEKLKKQC PVGNINSSAG 
AFMDSTTKQF DNQYFKHLVG GKGLFTSDHA LLLDNRTKSL VEVFAGDENS FFKAFAKSMV KMGAIQGAHG GEVRLNCRKV NS* 

Retrieve as FASTA  
Remarks Complete sequence from genomic ( Ginbil_Gb_28539, fragment) and RNA seq (gba_locus_23105_iso_1_len_1215_ver_2, gap in the PS). No EST found.
CDS
Send to BLAST
.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGGCCCTTA ATGTACTTGC AATTTCTGTG TTGCTCGGGC TATGCATTGG CATTGCAGGC ATTGGGAGTG CGGCACTGAG TGTGAATTAC TACGACAAGA GCTGCCCCAG GGCAGAGCAA  GTGGTGAGAG ATGCACTACT CAACGCAACG CAGTTGGATC CAAAAGTCCC ACCTCGCATT CTCCGAATGC ACTTTCACGA CTGCTTTGTT AGAGGGTGCG ATGGATCTGT TCTCTTGGAC  TCCACACCCC ATAACAAGGC AGAGAAGAAG GGACAACCAA ACCAATCCCT TGGAGCATTT TACGTGATCG ACAATGCTAA AACCATGCTC GAATCCATCT GTCCCAAAAC AGTCTCCTGC  GCAGACATCC TCGCCATTGC AGCCAGGGAT GTTGTGGCAC TTTCGGGAGG TCCCAAGTGG GAGGTTGAGA AAGGGCGCAT GGACGGAAGG ATATCCAAAG CCAACGAAAC CAACTCTTTA  CCCACTCCCA ATTTCAACAT TTCTCAGCTC ATCCAAAGCT TCGCTCTCAG AGGCCTCTCC ACCCACGACC TTGTGGCATT GTCTGGTGGA CACACATTGG GCTTCTCTCA TTGCTCATCG  TTCCAGCAGC GTCTGCATAA TTTCAGTGTG ACGCATGAGA TGGATCCGAG TATGGAGAGG GTGTTTGTAG AGAAGCTGAA GAAGCAGTGC CCTGTGGGGA ACATCAACAG CAGCGCAGGA  GCGTTTATGG ATTCGACAAC GAAGCAGTTC GACAATCAAT ATTTCAAGCA TTTGGTGGGA GGGAAGGGGT TGTTCACCTC CGACCACGCA TTGCTTTTGG ACAATCGAAC AAAGTCGTTG  GTGGAAGTGT TTGCAGGGGA CGAGAACAGC TTCTTCAAAG CATTTGCAAA ATCCATGGTT AAGATGGGGG CTATTCAGGG AGCACATGGA GGCGAAGTTA GGTTGAATTG CAGAAAGGTC 
AACTCCTGA 

Retrieve as FASTA