Entry information : KflPrxQ02 (kfl00014_0250)
Entry ID 13853
Creation 2016-08-23 (Christophe Dunand)
Last sequence changes 2016-08-23 (Christophe Dunand)
Sequence status complete
Reviewer Not yet reviewed
Last annotation changes 2016-08-23 (Christophe Dunand)
Peroxidase information: KflPrxQ02 (kfl00014_0250)
Name (synonym) KflPrxQ02 (kfl00014_0250)
Class Atypical 2-Cysteine peroxiredoxin (type Q)    [Orthogroup: PrxQ001]
Taxonomy Eukaryota Viridiplantae Streptophyta Klebsormidiophyceae Klebsormidiaceae Klebsormidium
Organism Klebsormidium flaccidum    [TaxId: 3175 ]
Cellular localisation N/D
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value KflPrxQ02
start..stop
S start..stop
GbPrxQ01 252 3e-85 87..239 70..222
PabPrxQ23 248 9e-84 87..239 67..219
SmPrxQ-2_31 244 6e-82 88..239 69..220
SmPrxQ-1_21 243 7e-82 88..239 69..220
Gene structure Fichier Exons
ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize
N° 1 166124..166396 273 N° 2 164703..164840 138 N° 3 163568..163657 90 N° 4 162285..162545 261
complement(join(162285..162545,163568..163657,164703..164840,166124..166396))


exon

Literature and cross-references KflPrxQ02 (kfl00014_0250)
Protein sequence: KflPrxQ02 (kfl00014_0250)
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   253
PWM (Da):   %s   26401.46  
PI (pH):   %s   8.96
Sequence 350
Send to BLAST
Send to Peroxiscan
.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2
MASSSILCATPLSASAALTANASRAQSGAAAGPSAVAALPLGRSRSTQKWGAAAGLRSSSFVANNVGARFEAVSRGLVARCAAGSAVTICKVSIGDEAPSFSLADQNGRTVSLSKFKGKPVVLYFYPKDDTPGCTKQACSFRDSYADFKKAGAEVVGISADSPESHKAFAEKYDLPFTLLSDEDNSVRQAFGIKGDFFGALPGRETYVLDKKGVVQLVFNNQFSPEKHVAETIKVIEEIKADQKGGLFANLFQ*

Retrieve as FASTA  
Remarks Complete sequece from genomic (3 introns).
DNA
Send to BLAST
.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2
ATGGCCTCCTCTAGTATTCTGTGCGCGACCCCCCTCTCTGCAAGCGCAGCTCTCACCGCCAATGCTTCCCGCGCCCAGAGCGGCGCAGCCGCCGGGCCTTCCGCAGTAGCGGCACTCCCT
TTGGGGAGGTCCCGCTCCACCCAAAAGTGGGGGGCCGCAGCTGGCCTCAGGAGCTCCAGCTTTGTTGCCAACAACGTGGGGGCGCGCTTCGAGGCTGTGAGCAGGGGGTTGGTTGCAAGG
TGTGCGGCAGGATCAGCCGTGACCATTTGCAAG
GTAGGGATATGGAATGATTGGGCAGAGTGTTGGATGCATGATCTGGGCGTTAGACTGCTTGATTACTGTGATCTCGGTTTCAATGCA
GTGAAAGGGCCTTAGTGATAGCTTTTGCAAGTTTCATTTTCATGCTTAATCTTGTTGGGTTGACCACAGAGCTTTGAGGATCTCGAATACTGACAGCTTTTTGAGGGTTTCGATATGCAG
CTAGAGGGATTGTGAGCTAATGGATGTATTGTGCTTTCTGATGGAGCCTCTTGCAAAGTACCAAGATCACGGAGGGCCATTGTGCTGGAGTAGGGCCATTGAATTTTCAGTTGCAACCAT
CAAGTCAGTTGCAATACTTGAAATATGGAAATTTGACCAGGTTTAAGAGTGGATCCTCGGCTTCACCGCTGCAATGAGACATCCTTTCCACCAAGCGCACATCCAGCTGAAAGTGAAAAG
CCGGTGTCTCTTCTGCAGAATGCAGATGTAATGAACAGCATGGTCTTGGCACACGCAGATGTAATGCACAAGAATGGCCGCATGGAATCTCTTCTAAGTTTCTTTAGCAGGACAAACTGA
TCAGCTGGGGAAGTCTCTTGAAAAGAGCATAGAAGTGCTTCAGAAGTGCTTTACACAGTCGCGCATCACGGCAGGTTTCAAGCTGCTGTCCTAATACCCTCTGCCACCGAGGCAGCCTTC
TAACGCTGATGTGATTCACTACACAGCGATTGCCTTTTGAATCGTGTTGGAATGGTGTCAAACATCTCACTTCTGCTCTCATTGTCTTATCCCCACTTTACCTTTGAGATCATCACTTCC
CTGCTACAAGCATAGATTTGATGCGGCCGCATCTTGACGCTGATGGGGCTTTGAGTATAAATGTAAACAAGCCTGTCACCTAGGAGTTTTCATGCTGCAGAAGTTTCTGTGCATGCTGCA
AATGGAGCTAGAAGGTCGGCTTCACTGAATACTTTTCGCGGAAACGGGCTTTGGTAAGAGACTACCGGGACAGGTCTACAGGAGTTCAATGCTTTTTCCCTTGAAGCTTGACGTCATTAC
TTTTTCTTTCTTCCATCATGAGTTGCTGGCTTTTGCCGCGTGGCGATTCAGCCCAATCTCCACCGCTCCTGGAAGCAAAATTCCTGCAAGCATAGAAGCACAAAACCTCCCCAGTCGTGG
AAGCAAAGACTATTACAAGCATAACAGCGCAAATTTTCCCCGCTCCTGGAAGCAAATCTTTTACAAGCATAGAAGCACAAATCGAGCCAGTTCAAGAACTGTCACTTCTTGTCCAGGTGT
CCATCGGTGATGAAGCGCCCAGCTTCTCCCTCGCCGACCAGAACGGCCGCACCGTGAGCTTGAGCAAGTTCAAGGGCAAGCCGGTTGTGCTCTACTTCTACCCCAAGGACGACACACCCG
GATGCACCAAGCAG
GTGAGAAAACGGTCCGCTGATATTGCACCCATTGAAATCTGCCCGGATCTTTCGATAGACGGGATTGAGTAACGGGCGGTGATCTGGGGTGTTTTGGGCGCCTCTT
TGTCTTGTCTGAAAGTTCTTGTCTGCGATATGCAGAAAATGCGGGTGTTTGACTCGTTGATTCTGGTGTGTTAAGCTTTTGGGACTTTAGGTTCAGGATGGAAGGCACTTATGCTCCTCA
TGAAAGTAAGTGGACCTGAAAGCGTGCATAGCTGGGCGACATGGGTTGTGACTTCGGAGAGTACATATACATCAGACACTGCAAAGACGATCGTTTTAAACGGGCAACTCACATTCAAGT
GAGGGTTGCCGAGATGGGGCTGTCGAAAGAACAGGAATTGGAAGGCTGTGTTGCAATGGATCGTTGCAGTAAGCTCCAAAGCAGATTCTCATCCACGTGGATTGGCAGCTCGAAGCTACA
TGGGACAGCTTAACCAAGTCGAACGTCAGCACCCATCTCCTTCGGCAGCGCTTAATGCCCTCTATAGGGCGAAGACTGACACCCGCCGATGTTTGCCGTGCCTGCAATCCCCTTCGACCC
GCCTACATCAAAACACTAAGAAGAGACAACAGTGCGGTCTGGCGAAATTAACAGTGCGGTCTTTACTCCGTAATCAGGCTCTCATTCACGTTTCACAGACGATGCCAACCGGCCAAGACG
CCAGCCGCTAAAGGGTAGCATATTCATAGTTCCACAGCCATGATTTGAAAGGCTTTTGACCGGACAACCACCCCTCGCACCTAGTTGCCGCCCCATGGGATCCGCAGCGTGTTCGAGGAT
TACGTGCCTCGTAAGCACGAATCGATTTTTTGGGCTAGTGCTCACGTCACTCGCGCGTTCCACACAAGCTGGATGTACGAACGGTTCGGGTTATGGCAAGCATTCAAAAGTTGGGACGCG
AGTCGACCAGCCAAAATACAGATTCGATCACCCGTCATTACACATCCAAATGTTTGCAGCGTCGTTCCTAGTTGTAGACCGTTTTATCTCCCACTGCAGGCCTGCTCGTTCCGTGACTCG
TACGCCGACTTCAAGAAGGCCGGTGCGGAGGTAGTCGGCATCAGCGCAGACTCACCTGAGTCCCACAAG
GTGAGCACGGGGCGGCTCCGTTGCTAATTACATCGTTGAATACCTCGTTTC
TCAAAGTCGCGTTTTCGAACTGAAATTCGTTTAGGTGGAGTTCGAAAGCTGCCACTCGTGTTCTCTGGCGGGATTTCCTCAGCAGCTTCATCAGCTCCCACCTTGTCAAGTCGCTGCTTC
TTTTATGAAGTTCCTTGCGATCAGGCTTAGCTCACAAAGAGACTACGAAGAGAATACGAAGAGAATAGAAAAGACTACGTCTGTCACAAGGACGTTGCGCAGCCGCGAGACTCTGATGTC
CAGCTTCCGCTCTTGCCGCCTGCCCGTCTCTCTTTCCGTGCTCCTTTTATGTTTGCGTCTGTGGTGGTCTTCTTAACTTTCTTCTTACCTACTCATTTCCTGATTGTCAGGCCTTTCTCT
GCACAACTATGCTCTGTGCTGCATGCTCCTGCCTGACGAGGACAAGTAGTAGCTCATCTCTTTGAAATAATGGATCCACCTTCTCTCTTGTGGAAATTCTCTCTTGTTGCCCTCGGCCTT
CGCCGAGGATTTCCTGTCCGGAGTTGCTCTCCCTCACTTAAATTGGCTCTCTTTTCCTTTTCAACCTGACATCCTTGGACAACTTTGCTCATTGTTCTTACGCTTTCGCTGAGAAGCACA
AGGTACCGTTAGCATCTTCAGACATTTATGCGTACGCAAATGTTTTACCTTCGTTTCTGCCTAACATCCCGAGAACGCCACCATTGTCCGTTGAGCCTTTGCCGACTGAAAAAGTGCCCT
CTACTCCTTTCTCTCTTGCTTCCATCGTCATTGTTCTTCAGGTTCTTTTTCATCACTGTTGCATTCCTATGTGTTGCTGCATTTCAAACCCATAGAACTCCCAAATCGTCCGCACGTCTT
TGCACAAGGTTAAATCTACCCGTGGTGCTTTGGCCCAACCAGGATCATCAGCAATCTCTCTTCGTCAGGTTGCTACTGCCGCCTTCCTTTATCTCTTTGTCAGCTCAAAAACTTCTTGCT
TTCTCCGTCAGGCCTTCGCCGAGAAGTACGACCTGCCCTTCACGCTCCTGTCCGACGAGGACAACTCCGTCCGTCAGGCGTTCGGCATCAAGGGCGACTTTTTCGGCGCGCTTCCCGGGC
GGGAGACGTACGTGCTGGACAAGAAGGGCGTCGTACAGCTGGTTTTCAACAACCAGTTTTCGCCGGAGAAGCACGTGGCGGAGACGATCAAGGTTATCGAGGAGATCAAGGCGGACCAAA
AGGGCGGGCTCTTTGCTAACCTGTTCCAATAG

Retrieve as FASTA  
CDS
Send to BLAST
.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2
ATGGCCTCCTCTAGTATTCTGTGCGCGACCCCCCTCTCTGCAAGCGCAGCTCTCACCGCCAATGCTTCCCGCGCCCAGAGCGGCGCAGCCGCCGGGCCTTCCGCAGTAGCGGCACTCCCT
TTGGGGAGGTCCCGCTCCACCCAAAAGTGGGGGGCCGCAGCTGGCCTCAGGAGCTCCAGCTTTGTTGCCAACAACGTGGGGGCGCGCTTCGAGGCTGTGAGCAGGGGGTTGGTTGCAAGG
TGTGCGGCAGGATCAGCCGTGACCATTTGCAAG
GTGTCCATCGGTGATGAAGCGCCCAGCTTCTCCCTCGCCGACCAGAACGGCCGCACCGTGAGCTTGAGCAAGTTCAAGGGCAAGCCG
GTTGTGCTCTACTTCTACCCCAAGGACGACACACCCGGATGCACCAAGCAG
GCCTGCTCGTTCCGTGACTCGTACGCCGACTTCAAGAAGGCCGGTGCGGAGGTAGTCGGCATCAGCGCA
GACTCACCTGAGTCCCACAAG
GCCTTCGCCGAGAAGTACGACCTGCCCTTCACGCTCCTGTCCGACGAGGACAACTCCGTCCGTCAGGCGTTCGGCATCAAGGGCGACTTTTTCGGCGCG
CTTCCCGGGCGGGAGACGTACGTGCTGGACAAGAAGGGCGTCGTACAGCTGGTTTTCAACAACCAGTTTTCGCCGGAGAAGCACGTGGCGGAGACGATCAAGGTTATCGAGGAGATCAAG
GCGGACCAAAAGGGCGGGCTCTTTGCTAACCTGTTCCAATAG

Retrieve as FASTA  
cDNA
Send to BLAST
.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2
CTTTGCTGAG TGTTGGCTCC CACTTGCCCA CGTCCTTGTC TTTTCACTCG CCCTTCGCGG CCTCCTTTGA AAAGCTGCAT TGCAATCTGC AATGCGAACT TTCTGATCTG ATTGCTTCAA  CAAACTTTGC GCTCTTGCAA TTCAGAGCTT GTCTTCCTAG AACATCTTTG ACTGAGTACA ACCTTTCAAC AAGTTCCAAG AAGCGTAACC TTTACACCTG TTACAGTATT CAGGAGGGTC  CATCAGCGTA AAAGACGAAA AGAACCATCT ATAAGCCCGC AGCCTGCGAT CCATAAGAGA TGGCCTCCTC TAGTATTCTG TGCGCGACCC CCCTCTCTGC AAGCGCAGCT CTCACCGCCA  ATGCTTCCCG CGCCCAGAGC GGCGCAGCCG CCGGGCCTTC CGCAGTAGCG GCACTCCCTT TGGGGAGGTC CCGCTCCACC CAAAAGTGGG GGGCCGCAGC TGGCCTCAGG AGCTCCAGCT  TTGTTGCCAA CAACGTGGGG GCGCGCTTCG AGGCTGTGAG CAGGGGGTTG GTTGCAAGGT GTGCGGCAGG ATCAGCCGTG ACCATTTGCA AGGTGTCCAT CGGTGATGAA GCGCCCAGCT  TCTCCCTCGC CGACCAGAAC GGCCGCACCG TGAGCTTGAG CAAGTTCAAG GGCAAGCCGG TTGTGCTCTA CTTCTACCCC AAGGACGACA CACCCGGATG CACCAAGCAG GCCTGCTCGT  TCCGTGACTC GTACGCCGAC TTCAAGAAGG CCGGTGCGGA GGTAGTCGGC ATCAGCGCAG ACTCACCTGA GTCCCACAAG GCCTTCGCCG AGAAGTACGA CCTGCCCTTC ACGCTCCTGT  CCGACGAGGA CAACTCCGTC CGTCAGGCGT TCGGCATCAA GGGCGACTTT TTCGGCGCGC TTCCCGGGCG GGAGACGTAC GTGCTGGACA AGAAGGGCGT CGTACAGCTG GTTTTCAACA  ACCAGTTTTC GCCGGAGAAG CACGTGGCGG AGACGATCAA GGTTATCGAG GAGATCAAGG CGGACCAAAA GGGCGGGCTC TTTGCTAACC TGTTCCAATA GAGATGGATT TGCTGGCTGG  GCGCTTGTAT GAGAGCCATA ATAGAGGTAC GAGGACATAG TCGTATTTTG AAGGAATGAG CAGGTACGGT AGAAAGTTGC ACCGCTTTGT TGGTGCGTCG GACAGCTGGT CGCAGAGTAG  GATAAGTCAC AGACGGTAAC AGTTTTGCGA TGTACCCTTC TCATCATAAG GATATTTCGA TGCAGAACGG ACTTTCGATC TAACCGTCAC TTTCGTGCGC TCCCTGCACA GATGCGTCTT 
TAAAGCTCGG CAGCAGTGCA CACTCGGACG CTTCTTGTTA ATTATAATAG AACCAACCAA TCTGATAGAC AGGGCCCGAT TCGCGGTCGC AACTCGTTCT 

Retrieve as FASTA