Entry information : EguPrx[P]111(g17720.t1)
Entry ID 11423
Creation 2012-12-05 (Qiang Li)
Last sequence changes 2013-01-22 (Christophe Dunand)
Sequence status theoretical translation / pseudogene
Reviewer Not yet reviewed
Last annotation changes 2023-04-22 (Christophe Dunand)
Peroxidase information: EguPrx[P]111(g17720.t1)
Name EguPrx[P]111(g17720.t1)
Class Class III peroxidase    [Orthogroup: N/D] N/D
Taxonomy Eukaryota Viridiplantae Streptophyta Myrtaceae Eucalyptus
Organism Eucalyptus gunnii    [TaxId: 3933 ]
Cellular localisation N/D
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value EguPrx[P]111
start..stop
S start..stop
EgrPrx[P]111 335 2.21e-120 1..165 1..165
EcamPrx[P]111 333 9.83e-120 1..165 1..165
EglPrx[P]111 332 3.59e-119 1..165 1..165
EguPrx[P]107 242 2.02e-83 19..163 21..168
Gene structure Fichierperl './assets/cgi-bin/draw_exon.pl' '11423' 'join(5838..6332)' Exons
ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize
N° 1 5838..6332 493  
join(5838..6332)


exon

Literature and cross-references EguPrx[P]111(g17720.t1)
Protein sequence: EguPrx[P]111(g17720.t1)
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   165
PWM (Da):   %s   18200.31 Transmb domain:   %s   o35-57i
PI (pH):   %s   9.77
Sequence
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Send to Peroxiscan
*.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
MFAGGCRGQP SPGRGRGSLA CRTSPKKTRV GRLEAIANSL NKWIVIFVLF ISFLVSLRNH KGSSANQHGR RFTLHFSLDS LSPVFLQRND DGVIDREDPA LGLQYDFYRH TCPAAEEIAR 
SSMSRVYSQH PEVAPALLRL LFHDCFIRGC DASVLLDxSH GNRRP 

Retrieve as FASTA  
Remarks Pseudogene sequence from genomic (exon 1 and start of exon 2).
scaffold_7_25371 (5838..6332).
Paternal (g17720.t1)
Promoter
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Send to cis Analysis
.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
AGCACCTGGT ATGTAGGATT ATTTCTCAAC TTATCACAAT ATTTTTACTA ACTATTTAAT TGCTTACTTA AGGAACATAC AAAGCTCAAT TACGTGTATG TACAAGTTTA AAGGTTTTGA  CTTGTAATGC GCGCTTCTTT TGCACCTTTG GAAGCATAAG CCTTTAGGAC ACACTACTCT CAAATTATAT AGTTCATTCT TAATTGACCC TTCTCATCTC CTATTTTTTA CAACGTAGTT  CTTAACAGAC TTTTTAAATT TCTTAGCATT CTTAAAAAAC ATCCCTAACT TGAAGACAAG ATTCCCGGTA TCTACTTCAG CATTGAACTT GGGATGCATG TACTTATTTT GGTTTCTCAT  ATCCAAGAAA TCTACATCAT CAGCTAAAAC GGCTACATAC TCACTACTGT CTCCAACATC TCAATTTCCC TCTATTGAGC CGTCACTATT GACACCCTCA TTTCTTGAAT TCCTCCTATA  TAAGTCATTT ATATTTATAA TGGCAAACTT ATCTTCTTTA GCACCCTCAA TATCCCTACT ATCAAATGTG GAACAGTTTA CTTCTTCATA TCACTTACCT GGTACAAAAT AAAAGAAAAA  AAATAACGTT CATGTATTTT CTTAATGCCT TATATGGTCA TACATAACAC CGAAAAAAAA AACAAAAAAA AAATAGTTAG AAAGTTCCAA TATCAAGGAC CATGACAGCA CCAATTGTAA  TTACAAAATG CACACGTGAG TACCACTTGA AGTTACAAAA TGAAATTTGC ATGCATCGAT TTGCACAAAA GGAGAGACAA ATGCAAAGAT AAATCTGACC AAGCAAGCCA TCACTGCCAT  TGATCTCACA TTTGATGACA TATGGCCCGT GTCGTCATGT TGATTCAACG AGCTACAATC ACCTTCTTGA CGAAAGAAGG AACAGTTACT CTCTCAATTG AGAAATTTGG GGACGAAGGT  TTATTTTAGG GACGCTGGGA AACCTGATTT AGGTTCCAGA AATTTCGAAC AAAAATGCCC CTGCCAAGGC GCGGAAAATG GCACGTAAAA CGCACACGGT CACCGTCCGG TATTCTGGGG  TTATTTGAGA TCAAGTCATC AACTATTTTG AAACAAACAT CACTCCGAGA GGGTTACTTT ATTAAAACTG CACCTGCAAT GACCGCTTTT CCTGCTGTCA TGCAATTTGT ACTTATTTAT  GTTCTCAATT TCTCGTCCCT CTCCCCCTGC TTGCAACTCA TTTATTTCTA AGATTGCCCT GCCTAACCTT CAAAAAATTA TCACAAATTG AGTTCTCAAT CCTTTTGCTG TACATTTTTT  CTCTATGCTC CCCAAGATAT AGTTTGTACT GGCACGTAAG TTATTATCTA GTGTTGATCG AGGATTCAAT TTGAAGATCA CCGATTCTCG CAGTTCTACT TGCAGAATAT GTGAACTTGA  GTTTTGTTTA CAATATCACT ATCACAGCCA ATTTATCCTC GACATATAAG GAGTAAAGAG AGAACTGTTA TATTCATGTG TTAAGCATTC AAATTTAGGG TTAATACTCT AGAAAAACCC  CAAACTGGTA CATATGTAAC AAATTTATCC AAAACTAATT TTTTTATTAA AAAAAATTTC AAACCAGTAC ACCTATGACA AATTTATCTT AAATGACTAC AAAAAACCGT AAACTAGTAT  ACTTATAACA AATGTACCCC AAACCATCGA ATCACTTTCC TATATCATTT TCCAATGTGC ATTGATTTAT TTTGGGATCC AAAAAATCCT AAATATATTG CACTTTGATC AGTTCAGTCA  TAAATCTTTC TAATTTTGCA ATTTGAGTCC TAAAAGTTTT TACTTTATGC TAATTGAATC CGTTCGGTTA ATTTTGGTCA AAAATTGCTA ATATGAATGC TGATTGTATC AAGTAAGACA 
GTTGGCGCTG ATGTTAACAA TTTTCAATTT TTTTTTTTTT ATTCTCTTTT CTTTTTTTGT TTCCCTTTTT CCCTCCGACA 

Retrieve as FASTA  
DNA
Send to BLAST
.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGTTCGCTG GGGGTTGCCG AGGACAGCCT TCACCCGGGC GAGGGCGAGG GTCCCTCGCT TGCAGAACAT CTCCAAAGAA AACCAGGGTC GGAAGGTTAG AAGCCATTGC CAACTCCCTG  AACAAGTGGA TCGTCATCTT CGTTCTCTTC ATCTCCTTCC TCGTCTCGCT CAGGAATCAC AAGGGCTCAA GCGCAAATCA GCACGGACGG CGCTTCACCC TCCATTTTTC TCTGGATTCC  CTCTCCCCCG TCTTCCTTCA GAGGAACGAT GATGGCGTCA TCGACCGAGA AGACCCCGCG CTCGGGCTCC AGTACGACTT CTACCGCCAC ACGTGCCCTG CTGCCGAAGA AATCGCGAGG  TCATCCATGT CCAGAGTCTA CTCCCAACAC CCCGAAGTTG CCCCTGCGCT TCTCCGTCTC CTCTTCCACG ATTGCTTCAT CAGGGGCTGC GATGCTTCAG TTCTCCTGGA CGnTAGCCAT 
GGAAACCGAA GGCCC 

Retrieve as FASTA  
CDS
Send to BLAST
.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGTTCGCTG GGGGTTGCCG AGGACAGCCT TCACCCGGGC GAGGGCGAGG GTCCCTCGCT TGCAGAACAT CTCCAAAGAA AACCAGGGTC GGAAGGTTAG AAGCCATTGC CAACTCCCTG  AACAAGTGGA TCGTCATCTT CGTTCTCTTC ATCTCCTTCC TCGTCTCGCT CAGGAATCAC AAGGGCTCAA GCGCAAATCA GCACGGACGG CGCTTCACCC TCCATTTTTC TCTGGATTCC  CTCTCCCCCG TCTTCCTTCA GAGGAACGAT GATGGCGTCA TCGACCGAGA AGACCCCGCG CTCGGGCTCC AGTACGACTT CTACCGCCAC ACGTGCCCTG CTGCCGAAGA AATCGCGAGG  TCATCCATGT CCAGAGTCTA CTCCCAACAC CCCGAAGTTG CCCCTGCGCT TCTCCGTCTC CTCTTCCACG ATTGCTTCAT CAGGGGCTGC GATGCTTCAG TTCTCCTGGA CGnTAGCCAT 
GGAAACCGAA GGCCC 

Retrieve as FASTA