The peroxidase database
Entry information :
Entry ID 2674
Creation 2005-12-22 (Christophe Dunand)
Last sequence changes 2016-01-11 (Achraf Jemmat)
Sequence status partial
Reviewer Christophe Dunand
Last annotation changes 2016-01-12 (Christophe Dunand)
Peroxidase information
Name AaAPx03
Class Ascorbate peroxidase    [Orthogroup: APx002]*
Taxonomy Eukaryota Viridiplantae Streptophyta Monocotyledons Acoraceae Acorus External Link
Organism Acorus americanus    [TaxId: 263995]
Cellular localisation Thylakoid-bound
Tissue type Flower buds
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value AaAPx03
start..stop
S start..stop
LtAPx02 252 4e-86 76..210 60..194
MtAPx07-A 255 6e-85 45..210 63..226
MtAPx07-B 256 1e-84 45..210 63..226
StAPx07 250 2e-84 65..210 62..205
Literature and cross-references
Literature dePamphilis,C. et al., Generation of ESTs from early flower buds of Acorus americanus
Unpublished.
EST ref. GenBank: CK764877.1 [5' end]
Protein sequence
Sequence Properties
first value : protein
second value (mature protein)
Length (aa) %sProtein length in amino acid210
PWM (Da) %sMolecular Weight of protein
Protein Mw is calculated by the addition of average isotopic masses
of amino acids in the protein and the average isotopic mass of one water molecule.
Molecular weight values are given in Dalton (Da).
22167.37
PI (ph)%sIso electric point of protein
Calculation done with EMBOSS parameters.
Please see Dataset for pKi calculation for more information
9.54
Sequence
Send to BLAST
Send to Peroxiscan
.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
MASTLGAAIL PSSMAAAAAA RRSSLPGHSL RFSNNLSLRL HQVCCLRWRR RAGSAGLVTG AGGVGSFSSG SGGAVTCFAS DPDQLKSARE DIRSLLKTAF CHPILIRLGW HDAGTYDKNI  EEWPKRGGAN GSLRFEIELK HAANAGLVNA LKLLQPIKDK YSGITYADLF QLASATAVEE AGGPKIPMKY GTLDVSTPEQ WPDDGKLTDA 

Retrieve as FASTA  
Remarks partial sequence from 1 EST, 3' end is missing
CDS +
Send to BLAST
.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGGCGTCCA CACTGGGTGC CGCGATCCTC CCCTCTTCAA TGGCGGCCGC GGCCGCGGCC AGGCGATCGA GTCTTCCCGG GCACAGCCTC CGCTTCTCCA ACAACCTCTC CCTCCGCCTC  CACCAGGTTT GTTGTCTGAG GTGGAGGAGG AGGGCCGGGT CGGCGGGACT GGTGACCGGA GCGGGGGGTG TCGGTTCGTT CTCTTCCGGC AGTGGCGGCG CCGTCACTTG CTTTGCTTCG  GATCCCGATC AGTTGAAGAG TGCGAGGGAG GACATCAGGT CTCTCCTCAA GACCGCCTTC TGTCATCCCA TCTTGATTCG GTTGGGATGG CATGATGCTG GAACGTATGA TAAGAACATT  GAGGAATGGC CTAAACGGGG TGGCGCAAAT GGAAGCCTTA GATTTGAAAT TGAACTGAAA CATGCAGCCA ATGCTGGTCT TGTAAATGCT TTAAAGCTTC TTCAGCCCAT AAAGGACAAG  TACTCTGGAA TTACATATGC AGATTTATTC CAGTTGGCGA GTGCTACTGC TGTAGAGGAG GCTGGAGGCC CCAAAATCCC TATGAAGTAT GGGACGTTGG ACGTCTCAAC ACCTGAACAA  TGGCCAGATG ACGGAAAACT TACTGATGCT 
Retrieve as FASTA  
 

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