RedOxiBase: View Perox 9927

Entry information : BnaCP

Entry ID	9927
Creation	0000-00-00 (Christophe Dunand)
Last sequence changes	2011-12-21 (Christophe Dunand)
Sequence status	complete
Reviewer	Not yet reviewed
Last annotation changes	2016-02-09 (Christophe Dunand)

Peroxidase information: BnaCP

Name

BnaCP

Class

Catalase peroxidase [Orthogroup: CP002]

Taxonomy

Eukaryota Bigelowiella

Organism

Bigelowiella natans [TaxId: 227086 ]

Cellular localisation

N/D

Tissue type

N/D

Inducer

N/D

Repressor

N/D

Best BLASTp hits

Perox	score	E-value	BnaCP start..stop	S start..stop
VcaCP01	640	0	62..765	57..708
PsojCP03	620	0	9..757	3..682
PsojCP	616	0	67..758	54..683
CreCP01	615	0	72..766	59..730

Gene structure Fichier

Exons►

Exon	Start..End	Size	Exon	Start..End	Size	Exon	Start..End	Size	Exon	Start..End	Size
N° 1	609643..609840	198	N° 2	609438..609491	54	N° 3	609242..609309	68	N° 4	609021..609075	55
N° 5	608852..608893	42	N° 6	608683..608758	76	N° 7	608538..608569	32	N° 8	608291..608351	61
N° 9	608036..608112	77	N° 10	607877..607945	69	N° 11	607749..607829	81	N° 12	607652..607696	45
N° 13	607342..607372	31	N° 14	606995..607081	87	N° 15	606777..606812	36	N° 16	606368..606448	81
N° 17	606203..606265	63	N° 18	606065..606136	72	N° 19	605837..605892	56	N° 20	605646..605719	74
N° 21	605309..605521	213	N° 22	604988..605082	95	N° 23	604730..604806	77	N° 24	604415..604632	218
N° 25	603852..604194	343
complement(join(603852..604194,604415..604632,604730..604806,604988..605082,6053 09..605521,605646..605719,605837..605892,606065..606136,606203..606265,606368..6 06448,606777..606812,606995..607081,607342..607372,607652..607696,607749..607829 ,607877..607945,608036..608112,608291..608351,608538..608569,608683..608758,6088 52..608893,609021..609075,609242..609309,609438..609491,609643..609840))

Literature and cross-references BnaCP

DNA ref.	JGI genome: scaffold_18 (609840..603852)
Cluster/Prediction ref.	JGI gene: 87257

Protein sequence: BnaCP

Sequence Properties
first value : protein
second value (mature protein)

Length (aa):	767 (747)
PWM (Da):	83809.93 (81639.8)
PI (pH):	6.83 (6.52)	Peptide Signal:	cut: 21 range:21-767

Sequence 809
Send to BLAST
Send to Peroxiscan

.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2

MRNGGRTLVCLATFASVAHGMCPYIGGNYDKLPKGHPPVFASQPTGEAASFVQQQPPEGFKEALMKIDFDGVRQDLKKLFKDSKDFWPADYGNYAPFFVRLAWHNSGSYRTSDGRGGADGGRQRFDPERSWDDNTNLDKARRLLWPIKSKYGVGLSWGDLIVLAGNTAIESMGGPILGFCAGRIDDPNGKASEPLGPSSIQEELFPCEVNGQCKSPLGSTTVGLIYLNPEGPMGKPDPALSSMDIVLLEGGLFLTPFDDDDDELFLKTKAQVRDSFGRMAMNDSETVALIGGGHAFGKTHGACPAGPGPSPKDDPFNPWPGKCDSGKGKDAFTSGFEGPWTPNPTAWDNGYFVNLLKYEWEVHKATIMIKITVIKKWPCLQIRGGGPGGKHQWRVANASQSPVAPGPQGDTQRIMALTSDISLIKDPTGKYPEIVRQFAASQADFDFAFAHAWYKLTTRDMGPVTRCIGKDVPPPQPFQYPLPDPLPPSKLANFKLVEKAVVELLGDAPSESPLTPLFLRLAWRCASTFRQTDYQGGCNGARIRFEPQSKWNTTKGIDAALRALVPVKDKFGNGLSWADLIVLAGNVAVEVGSRDRISLSFCGGRTDAKDGRGSQYLSPKVTGSFHDRLGELRDAIVLLGLTPREFTALSGAHSFGRMHANVSGFGEGMAWTREPSVLSNDYFQTLLQEEWRPYTVPKTGKVLYKAEGKQLFMLKTDLMLRADAELLQHVEEFAGDEGAFFETFAHAWTKLMNADRFEGPLGNVCNK*

Retrieve as FASTA

Remarks

Complete sequence from genomic (24 introns).

DNA ►
Send to BLAST

.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2

ATGCGTAATGGAGGGAGGACGCTAGTCTGCCTTGCTACGTTTGCTTCTGTGGCACATGGCATGTGCCCATACATCGGGGGTAACTATGATAAGCTGCCGAAAGGGCATCCTCCTGTGTTT
GCATCGCAGCCAACCGGAGAAGCTGCGTCTTTTGTACAGCAACAGCCGCCCGAGGGCTTCAAGGAGGCTCTTATGAAGGTGAAACGAGTGAAAATTCTGCCGATTTAGTTTTTACGCGGT
GTACAAGTATTATGAAATATTATTTATAAGACTCACCTTCGACTCTCTCCACCTCTGCCCCCTCCCTTCACCCTAACCATCGTTATGGCTAATTTACCTGCTATCATAGATTGACTTCGA
TGGGGTTCGCCAAGATCTTAAAAAACTGTTCAAGGACTCGAAGGTAACAACCTCAGACTCTACATCTATTTTCTGTTCAGAGGAGAGCGGATGGGTTTGCGGGGGGAGGAACTGTCATTA
AATCGCATCAGTCAGTACCCAACAATGAATTATCTGCGACACCACACGTAGGACTTTTGGCCAGCAGATTACGGAAATTATGCACCATTCTTCGTACGCCTGGCTTGGCACAATTCAGGG
TACATGCTCAAGCTCTGCTTTGATAGAAAATATGTTTAAGTCAATGATGTCTCACATGCATGCAGCTCATTGTTGTCATATTCTTCTTCTACTTCTACTGCTTCTACATGCCCTCTTCAT
CTTCATCCGTCCAAAACAATTATAATCTTTTGAAATTTTACATAGATCGTATCGTACATCGGATGGTCGTGGTGGCGCAGATGGCGGCAGGCAACGCTTTGTACGAGACAATTTTGACAT
TTTTGTGTTGAGAACTGATTTGCTGATTTGTATTTGCCGCTTTTCCTCGATTCCCTTCAAATAACCCCTCTTTCCATACTTGAAACCTTCCATACTTGAAACCTTAGGATCCCGAGCGTA
GCTGGGATGATAACACCAATCTTGACAAGGTTGTAGCGAAGTCACCCACCCCACGCCTGTCGTCGTACTCGTCTTTAAGGTCTTTTCGTCATAACTCACATCTCGTCGTGTGAATAATTA
AGGCACGACGGCTGCTCTGGCCTATAAAATCCAAATATGGCGTCGGGCTATCGTGGGGCGATCTCATCGTACTTGCAGGTATTTGCCTCCTCGTGCCGCGCATTTATGTCGCACCGGTGA
TCATCCATGGGCTGACCTCCTTTTCTCCCTGAATATCGTCTGTGTGCGTCTCTAAACATGATGGTTTTCAGGAAATACGGCAATCGAATCGATGGGGGGACCGGTACATGAAGATGATGA
TGACGAAGATTATGATGATACTACTTGCACCGCGACACGACACTTTATGAAAAACTGTTAGATGATAGTACATATCCAATGCAGAAGTGGCAGCTATAACATAACCATGGAATTATCAGC
TCATCTAATCCCCCACCCTTTATCTGCTTCTTCCTCATTGCTCCTCCAGATTCTAGGCTTTTGCGCAGGCCGTATCGATGACCCTAACGGCAAGGCAAGCGAGCCCCTCGGTAGATCTCC
TTTTGCTTCGATTCGAGCGAGAAACGATAGGAACCCAAAATTCGTCCGCAAATGATACCAATGTTGTGCTGTGACAGCAACAACCCAAACACACGCCATGATGGTTATAATACTGCGGCT
ATTGTTGGCTTTCCACATCACCACCATCATCATTTTCATCAACATCAGGCCCATCAAGCATCCAGGAGGAACTTTTCCCCTGCGAGGTGAATGGGCAATGCAAGTCGCCGCTAGGCTCTA
CTACGGTAAATCGCCTCTTCGATCTCAACTGTTACCACCACCACCATCGTCATCATCGTCATCATTCTCGTTGATAAATCTCTCTCTATCGTCAGGTGGGCCTGATCTACCTCAATCCTG
AGGGTCCAATGGGGAAACCTGATCCTGCACTGAGCTCCATGGATGTAATCACCACCCACCAAGCCGCACACACGCATGAAAATGATGATAGATAGTGTTACTTGAGGGCGGGTTGTTTCT
CACGCCATTCGACGACGACGACGACGAATTGTTTCTCAAAACAAAAGCGCAGGTAACTTATTCTACAATGCCTCGTCGTCCTATCCGCTCCTCCTTTCGCACAGGTCCGCGATAGCTTCG
GTCGCATGGCGATGAACGACTCGGAGACGGTGAGCTAGTACATCTACACACTCTCTATAAATACCTACGACCTAGCATGAGCCATGACCATGCGTCGTACCTACTAATCGTGCATCATTT
TACGCATATAATGTGTGAATGTGTGTTTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTGTGTAAACATATACTCTTGTTGATTATGCTGAGGCGTTGCATCACTCACGATGGTCCATCCTG
TCATCGCCCTTATCGTCGGCTTGTCCTAATGTTGTTCTTATTGTCTTTCATCAAATCCCCGTTTGAAGGTGGCATTGATTGGTGGCGGCCATGCTTTCGGTAGTTCTTGTGCTGTGTCCT
TCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCATCGACGTCGACTCCCCTTGCTTCTCCTCCTCTCATGCCCATCCTGCTTAGTTTTTCCATGTTTTCATGAGCGCATGCGT
TTTTAAAGAGAGTCGTCAACAAAGATTGTCGTCAACTATTTCCCATGTAAATTGCTTGTTTTTTTTTGAAAGACCATTATGCTCACCCGCCGCCCTACACAATTCGTGTTGTAAATTAGG
GAAGACACATGGCGCTTGCCCAGCAGGCCCCGGTCCATCCCCCAAGGACGATCCTTTCAACCCATGGCCAGGAAAATGTGACTCTGGTGAGTGCTCCTGCCTCTCTTCTCCAAATTGACA
TCATCAACTACAACGCCATTGCCAACACCACCCACAATTGATTATCTCCCCCATCGAACTTCGTTATGCATGTATGCGTGTATGCGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
CTCATCTCGGGCTGCTATCATTCCATAGGGAAGGGTAAGGATGCCTTCACTTCGGGTTTCGAGGGTAATAATAGTAATCACTGATGATGATGATGATGATGATGATGATGATACTCCTCC
TACTACTGCTGCTCTCTACCGCCGTAGTCATCGGCTAGACAAAATAACACATCGCCTTACTAAGATCCTTCATTATCATCATCATCATTATCATCATCATCATCATCAACACCGTTAATG
CTTATTGCTTAGCTTCACGATGGTCCTTCTATATCGTCAGCTTTGTTATAGAGTCCTCCTCCTCCTCCTCCTCCTCCTCCCTCTCCTCGTCGTCGTCGTCGTTGAGATCGCCTTTCGTGT
TCTAACTGCTACCGCAATTACCTAATATCAAGGTCCCTGGACGCCAAACCCTACTGCATGGGATAATGGCTACTTCGTCAACTTGCTCAAATACGAGTGGGAGGTGCACAAAGGTACATC
ATAGAGCAGCGAGCAGCAAACGCCTTCATTCGAAGCAGTCATGAGGAATCATCCTATAATAACAACAACAACAACAATAATAATAATAATAATAGCAACAATAATGATAAAAATAACGGT
GATAAAGAAGTGGCCATGTTTGCAGATTCGAGGAGGAGGTGTGAGGTGGGGGGGATGAAGAATTATTCAGTACATGCATTTGTGTCGTGTCCATTGTTCTCAAGGCCCGGGAGGAAAGCA
TCAATGGCGTGTGGCAAACGCATCGCAATCGCCCGTCGCTCCAGGACCGCAAGGAGGTCAATCGATATATAAAATCCAAGAGAGCTGAAAGATGATGATATGCGTATAATAAGTCGTATA
TTTCCATGGATTCATTACGGTGAGGTGAACCTATTTAATAGCCTGCTGTCCGCGCGCGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGATATGTGAAACAGACACGCAGCGCA
TTATGGCTCTTACATCGGACATATCTCTCATCAAGGACCCAACTGTAAGTAGCAACCCCCCCCCCCCCCATATTCCTGAAGCACGCTCGATATAATATTTTTGTTGTGGTGTCGCTGATG
TGGCCAGTAGCACTCACATAGATGGTACAACCTCCTCGCAGGGAAAGTACCCTGAAATCGTGCGCCAGTTCGCTGCCAGTCAAGCAGACTTCGACTTTGCCTTCGCACACGCTTGGTAAG
TGTCATTTACTGCTGCTACTACTACTACTACTACTACTACTACTACTTGGCCAACCAATATCTTCGTGCCCATTATCAGCAGGAAAAAGTGTGTTTTTAATAGCAATGATAACGTTTAGG
TACAAGTTGACGACGAGGGACATGGGACCCGTTACCCGCTGCATAGGGAAGGATGTGCCCCCCCCCCAGCCCTTTCAATACCCCTTACCAGACCCCCTCCCACCGTCGAAACTGGCCAAC
TTCAAGCTCGTGGAGAAGGCCGTTGTGGAGCTTCTTGGAGACGCTCCTAGCGAATCACCTCTCACACCGCTCTTCCTTCGCCTCGCCTGGAGGTAGTAGAATTGAAGTCTTAACAAGGGG
AAGCGAAAGGGGAGAGGGAGGAGATCGGGTTGTTCCGTACCTTTCTCGGTTTTCTTTATTGCTTTCTGCTGAAATTTCAAATAGCTTATGTTGTGATATACGTCGTTGTACCATGTTTTT
CCCGCTAATTCCTCCTCCTTTCCTCCTCCTCCTCCTCCTCATCTTCTTCTTCTTCTTCACCTTCTTCTTCTTCTGCAGATGTGCCTCAACGTTCAGGCAGACAGACTACCAGGGGGGGTG
CAACGGAGCGAGGATTCGATTCGAGCCGCAGAGCAAGTGGAACACGACCAAAGGTGTGTGGGCGGCTGCTGCTGCTGCTGCTACGATGACGATGGCATGGCGTGGCATGGCATGGCATGC
ATGCAGGGGGTTTGTTTCGAGCTCGAGTTTCAATCAACACGTGCCTTGCATACACGCACATCATTTATGACGATGATACTGCCGATGACGCTGATGATAATGATAACGGATAAGGTATCG
ACGCCGCCCTGCGAGCCCTCGTGCCTGTGAAGGACAAGTTTGGAAACGGCCTTTCGTGGGCAGATCTCATCGTAATTCATTCGTCAATAACCACCCCCCCCCCCCCCCCCACCCCCATCC
ACCCCCATCATCAATGACCATGCCCTCCGCGGCCTCCTTCCTGATCAGGTGCTCGCAGGGAATGTAGCTGTTGAGGTGGGGTCACGCGACCGCATCTCCCTGTCGTTTTGTGGCGGGAGA
ACCGATGCTAAAGACGGAAGAGGTTCCCAGTACCTCTCCCCCAAGGTCACAGGCTCTTTCCATGATCGGCTTGGCGAGCTTCGGGATGCAATCGTCCTCTTGGGGCTCACGCCAAGAGAG
TTCACTGCCCTGTCCGGCGCACACAGGTTTGCTAGCGGCTGAGATTCAAGAAGAAAAAGAAGAAGAAGAAGAAGAAGAATTAGAAGAAGAAGAAACGCAATGGTCATGTGTATTATTACT
TTCCGCTTTATCGGCGTCTCAAATAATTGTCTGCTTATGGTCTTTTCTCCTTCTTTCTCGTCGCATGCATGTCGTCAATGCGTGCCATCGCCAAATAACACCACGATTGTACATTGCCCC
CACCAGCTTCGGCCGCATGCACGCGAACGTGAGCGGTTTTGGAGAGGGAATGGCTTGGACCCGCGAACCCTCGGTGCTCTCAAACGACTACTTCCAAACGCTACTGCAAGAGGAATGGCG
CCCATACACCGTGCCAAAGACAGGGAAGGTGTTGTACAAGGCGGAGGGAAAGCAGCTCTTCATGCTTAAAACCGACCTCATGCTACGTGCTGATGCGGAACTCCTGCAGCACGTGGAAGA
GTTCGCCGGCGATGAGGGCGCGTTCTTCGAGACGTTTGCGCATGCGTGGACGAAGCTGATGAACGCTGATCGGTTCGAGGGCCCTCTTGGCAACGTGTGCAACAAGTAA

Retrieve as FASTA

CDS►
Send to BLAST

.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2

Retrieve as FASTA