CC1G_11932
Coprinopsis cinerea Okoyama 7

General data

Systematic name CC1G_11932 Strain Coprinopsis cinerea A43mutB43mut pab1-1 #326
Standard name - Synonyms
Uniprot id A8NFS2 Functional description Other/HAL protein kinase
Location Chr_2:1733575..1736435 Strand -
Gene length (nt) 2861 Transcript length (nt) 2718
CDS length (nt) 2718 Protein length (aa) 905

Reciprocal best hits in model fungi

Strain name Gene / Protein name
No records

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7271782 53.6 8.14E-277 868
Pleurotus ostreatus PC15 PleosPC15_2_1060875 55 2.599E-258 814
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_68677 52.3 3.171E-243 770
Pleurotus ostreatus PC9 PleosPC9_1_102642 52 7.611E-243 769
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_199602 53.4 1.364E-232 739
Lentinula edodes W1-26 v1.0 Lentinedodes1_19776 45.1 1.022E-229 731
Lentinula edodes NBRC 111202 Lenedo1_902075 46.7 1.104E-228 728
Schizophyllum commune H4-8 Schco3_2485669 51 5.451E-218 697
Grifola frondosa Grifr_OBZ75840 45.7 2.152E-192 622
Pleurotus eryngii ATCC 90797 Pleery1_1380915 66.5 9.331E-167 547
Lentinula edodes B17 Lened_B_1_1_247 43.6 1.245E-133 449
Ganoderma sp. 10597 SS1 v1.0 Gansp1_20085 88.6 1.944E-119 407
Auricularia subglabra Aurde3_1_33220 86.7 3.475E-118 404

Expression

Name Summary Attribution Assay type
Coprinopsis cinerea mycelia exposed to different biotic and abiotic stress conditions Identification of a Novel Nematotoxic Protein in Coprinopsis cinerea Plaza et al. 2016 RNA-seq
Sample Mean cpm SD cpm Se of mean
O7 + PBS 102.3943 11.5066 6.6434
O7 + A. avenae 104.2361 1.0486 0.6054
O7 + C. elegans 95.0714 7.4436 4.2976
O7 + mechanical damage 91.5622 8.0083 4.6236
O7 + E. coli 112.489 24.7357 14.2812
O7 + B. subtilis 118.3205 15.7759 9.1082

General data

Systematic name -
Protein id 10075
Description Other/HAL protein kinase

Annotation summary

0 200 400 600 800 905

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF00069 Protein kinase domain IPR000719 261 464

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR000719 Protein kinase domain
IPR011009 Protein kinase-like domain superfamily
IPR017441 Protein kinase, ATP binding site
IPR008271 Serine/threonine-protein kinase, active site

GO

Go id Term Ontology
GO:0004672 protein kinase activity MF
GO:0005524 ATP binding MF
GO:0006468 protein phosphorylation BP

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
D Protein tyrosine kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CC1G_11932 across fungi.

Arrow shows the origin of gene family containing CC1G_11932.

Protein

Sequence id 10075
Sequence >10075
MSSDVVQPTTVSDGAKASFPLTLAVPDDEQPGPVFRRSKSPSQAAIEQSSQQHKSTLEKPEKPERSSRFSFIRKQ
SFSLLMPEPSTPSTPKHGPLHDLKRFLNNHIPHSHHHHNQSRSSTQAASTPRRSSVGSSSGPLSPAGARESPTPL
DGRPEPKILADVRNSKKKTRSPSPIRQIKDRTPSLKSLRSLKGSSRSSQPPSPTSPQHKTEGSKSKHHHHHHHHR
HQSPNRRATSRSHHPITSLHDATQAHLSKKYGKWGRVLGSGAGGTVRLIKGNAKTGGAIYAVKEFRPKRSGETEK
EYQKKVTAEFCVGSTLKHPNIIETIDIVQDRGHYYEVMEYAPYDLFSVVMSGKMCRPEIYCVFRQICDGVEYLHE
MGLAHRDLKLDNCVMTADNVVKLIDFGTATVFHYPGKAHTPATGIVGSDPYLAPEVLQQDSYDPRKTDVWSVAII
FLCMVLRRFPWKIPDPKTDPSFKAFVNAHPDLSAKPVPKPKKLTAEKNVTDQEGASRNLAISTPGRQMTVPPSAH
SSGPMDRMPPRERASSTDISIGPESSSTSNSSETTSIRTHTSAGTESTEVTDPPSRFASGSAGHSLNTITDDAKA
AKDLSPADARRKSFLQSRGYPHPPTSRSAMTLPLTFTGSPAVRRDSDSSQEMDPSVLTFARPGNSTESLPLSPYL
LQDVPTPKGNSLPRAILPARAGSDTVLPAGGIAPGEPLSSEAPPIIVQEPEEETPTPSAAAPAAIKEESTPVVAG
PPPPPDSTVPKPRRRQRAESVTTFHGGGAETIFRLLPRETRPALRRMLYVEPASRCTLTDLLKGRGKTSDLLCGC
DLAKSKEERLAEMESYRHRHGTDSPTQVSCVDHDECDSEDDDDGDEWLTSIVPCSRPGVQPQHVHIKVQVDEKAG
KRRFF
Length 905

Coding

Sequence id CC1G_11932T0
Sequence >CC1G_11932T0
ATGTCCAGCGATGTTGTGCAGCCCACCACCGTTTCCGACGGCGCCAAGGCCAGTTTTCCGTTGACGCTCGCTGTC
CCGGACGATGAGCAGCCCGGACCAGTATTTCGTCGCAGCAAGTCTCCATCTCAGGCAGCTATTGAACAGTCATCA
CAACAACACAAGTCGACATTGGAAAAGCCTGAAAAGCCAGAGAGATCCTCAAGATTCAGCTTTATTCGCAAACAG
AGCTTTTCGCTACTGATGCCTGAACCGAGCACTCCCTCGACGCCAAAACATGGCCCTCTCCATGACCTCAAGCGC
TTCCTAAACAACCACATACCCCATTCTCATCACCACCACAACCAGTCTCGGTCTTCGACACAGGCTGCCTCTACC
CCCCGCAGGTCCTCCGTGGGCTCCAGCAGCGGCCCCTTGTCTCCAGCCGGCGCCCGCGAGTCTCCAACCCCTCTC
GACGGCAGGCCAGAACCAAAAATACTAGCGGACGTCAGGAACTCGAAGAAGAAGACACGGAGTCCGTCGCCCATC
CGCCAGATCAAGGATAGGACGCCATCGCTCAAGTCGCTAAGGTCGCTCAAGGGCAGCTCTCGCTCATCGCAGCCT
CCGTCTCCAACTTCCCCGCAACACAAGACCGAAGGGTCAAAGAGCAAGCACCATCATCATCATCACCACCATCGC
CACCAGTCGCCCAATCGTCGTGCAACCTCGCGCTCGCATCATCCCATAACATCGCTGCATGACGCGACCCAGGCG
CACCTTTCGAAAAAGTACGGCAAGTGGGGGCGGGTACTTGGCAGCGGCGCCGGTGGCACCGTACGACTTATCAAG
GGGAATGCAAAGACTGGAGGAGCGATATATGCTGTGAAGGAGTTTCGTCCAAAGCGCTCGGGAGAGACGGAGAAG
GAGTACCAGAAGAAGGTCACAGCCGAGTTTTGCGTGGGCTCCACGTTGAAACACCCCAACATCATCGAGACCATC
GACATCGTCCAAGACCGTGGTCACTACTATGAGGTCATGGAGTACGCTCCGTACGACCTCTTTTCGGTGGTCATG
TCGGGCAAGATGTGTCGCCCCGAGATCTACTGCGTCTTCCGACAAATCTGCGATGGCGTTGAATACCTTCACGAG
ATGGGCTTGGCGCACCGGGACCTCAAACTCGATAATTGCGTCATGACGGCCGACAATGTCGTGAAGCTCATCGAC
TTTGGGACAGCGACTGTCTTTCATTATCCTGGAAAGGCCCATACACCAGCCACTGGGATTGTCGGCAGTGATCCC
TATCTTGCTCCAGAGGTACTCCAACAGGACTCCTATGACCCGAGGAAGACGGATGTGTGGAGTGTAGCAATCATC
TTTCTCTGCATGGTCCTGCGTCGGTTCCCTTGGAAAATCCCCGATCCGAAGACGGACCCAAGCTTCAAGGCTTTC
GTCAACGCGCACCCCGACTTGTCCGCAAAGCCTGTGCCAAAGCCTAAGAAGCTTACCGCCGAGAAGAATGTAACT
GACCAGGAGGGCGCATCGAGAAACTTGGCCATTTCTACTCCTGGCCGGCAAATGACGGTTCCTCCTTCTGCCCAT
TCGAGCGGACCCATGGATAGGATGCCCCCACGGGAGCGCGCATCCAGCACCGACATTTCGATTGGCCCCGAGTCC
TCCAGCACCAGCAACTCCTCAGAGACGACCTCAATTCGGACGCATACCTCGGCCGGCACCGAAAGCACAGAAGTG
ACTGACCCACCTTCACGTTTCGCCAGTGGGTCCGCCGGGCACAGCTTGAACACAATCACCGATGACGCGAAGGCC
GCCAAGGATTTGTCACCAGCAGACGCTCGAAGGAAGAGTTTCCTCCAGTCGAGAGGATACCCGCATCCACCTACA
TCCCGGAGTGCGATGACTCTCCCGCTGACCTTCACTGGCTCACCAGCGGTTCGGCGAGATTCGGATTCGTCACAA
GAGATGGATCCCTCCGTCTTGACTTTTGCCCGGCCCGGGAATTCAACAGAGTCGCTACCTTTAAGCCCTTATCTC
CTCCAAGATGTTCCAACGCCGAAGGGCAACAGTCTGCCTCGGGCTATCCTTCCTGCCCGAGCAGGCTCGGATACG
GTCCTACCAGCTGGTGGCATCGCCCCAGGGGAGCCCTTGTCGTCCGAGGCACCTCCTATTATTGTCCAAGAGCCT
GAAGAAGAGACACCAACACCATCGGCGGCAGCGCCCGCTGCTATCAAAGAGGAGTCTACGCCGGTTGTTGCTGGA
CCACCACCGCCTCCTGACTCAACAGTACCCAAACCTCGTCGACGCCAACGAGCAGAGAGTGTTACGACGTTCCAC
GGTGGAGGAGCAGAGACCATCTTTCGGTTACTCCCCCGCGAAACTCGGCCCGCGCTCCGGCGGATGTTGTATGTG
GAACCTGCCTCTCGTTGCACCCTCACCGACCTGCTCAAGGGAAGGGGAAAGACCAGCGACCTCCTGTGCGGATGC
GACTTGGCCAAGTCAAAGGAAGAGCGGTTAGCGGAGATGGAATCTTACAGGCATCGCCATGGCACAGATTCCCCA
ACTCAAGTGTCTTGCGTGGACCACGATGAATGTGATTCAGAGGACGACGACGACGGTGACGAGTGGTTAACGAGC
ATCGTTCCATGTTCCAGACCTGGAGTCCAACCCCAGCACGTACACATCAAGGTTCAGGTGGACGAAAAGGCCGGC
AAGAGACGATTCTTC
Length 2718

Transcript

Sequence id CC1G_11932T0
Sequence >CC1G_11932T0
ATGTCCAGCGATGTTGTGCAGCCCACCACCGTTTCCGACGGCGCCAAGGCCAGTTTTCCGTTGACGCTCGCTGTC
CCGGACGATGAGCAGCCCGGACCAGTATTTCGTCGCAGCAAGTCTCCATCTCAGGCAGCTATTGAACAGTCATCA
CAACAACACAAGTCGACATTGGAAAAGCCTGAAAAGCCAGAGAGATCCTCAAGATTCAGCTTTATTCGCAAACAG
AGCTTTTCGCTACTGATGCCTGAACCGAGCACTCCCTCGACGCCAAAACATGGCCCTCTCCATGACCTCAAGCGC
TTCCTAAACAACCACATACCCCATTCTCATCACCACCACAACCAGTCTCGGTCTTCGACACAGGCTGCCTCTACC
CCCCGCAGGTCCTCCGTGGGCTCCAGCAGCGGCCCCTTGTCTCCAGCCGGCGCCCGCGAGTCTCCAACCCCTCTC
GACGGCAGGCCAGAACCAAAAATACTAGCGGACGTCAGGAACTCGAAGAAGAAGACACGGAGTCCGTCGCCCATC
CGCCAGATCAAGGATAGGACGCCATCGCTCAAGTCGCTAAGGTCGCTCAAGGGCAGCTCTCGCTCATCGCAGCCT
CCGTCTCCAACTTCCCCGCAACACAAGACCGAAGGGTCAAAGAGCAAGCACCATCATCATCATCACCACCATCGC
CACCAGTCGCCCAATCGTCGTGCAACCTCGCGCTCGCATCATCCCATAACATCGCTGCATGACGCGACCCAGGCG
CACCTTTCGAAAAAGTACGGCAAGTGGGGGCGGGTACTTGGCAGCGGCGCCGGTGGCACCGTACGACTTATCAAG
GGGAATGCAAAGACTGGAGGAGCGATATATGCTGTGAAGGAGTTTCGTCCAAAGCGCTCGGGAGAGACGGAGAAG
GAGTACCAGAAGAAGGTCACAGCCGAGTTTTGCGTGGGCTCCACGTTGAAACACCCCAACATCATCGAGACCATC
GACATCGTCCAAGACCGTGGTCACTACTATGAGGTCATGGAGTACGCTCCGTACGACCTCTTTTCGGTGGTCATG
TCGGGCAAGATGTGTCGCCCCGAGATCTACTGCGTCTTCCGACAAATCTGCGATGGCGTTGAATACCTTCACGAG
ATGGGCTTGGCGCACCGGGACCTCAAACTCGATAATTGCGTCATGACGGCCGACAATGTCGTGAAGCTCATCGAC
TTTGGGACAGCGACTGTCTTTCATTATCCTGGAAAGGCCCATACACCAGCCACTGGGATTGTCGGCAGTGATCCC
TATCTTGCTCCAGAGGTACTCCAACAGGACTCCTATGACCCGAGGAAGACGGATGTGTGGAGTGTAGCAATCATC
TTTCTCTGCATGGTCCTGCGTCGGTTCCCTTGGAAAATCCCCGATCCGAAGACGGACCCAAGCTTCAAGGCTTTC
GTCAACGCGCACCCCGACTTGTCCGCAAAGCCTGTGCCAAAGCCTAAGAAGCTTACCGCCGAGAAGAATGTAACT
GACCAGGAGGGCGCATCGAGAAACTTGGCCATTTCTACTCCTGGCCGGCAAATGACGGTTCCTCCTTCTGCCCAT
TCGAGCGGACCCATGGATAGGATGCCCCCACGGGAGCGCGCATCCAGCACCGACATTTCGATTGGCCCCGAGTCC
TCCAGCACCAGCAACTCCTCAGAGACGACCTCAATTCGGACGCATACCTCGGCCGGCACCGAAAGCACAGAAGTG
ACTGACCCACCTTCACGTTTCGCCAGTGGGTCCGCCGGGCACAGCTTGAACACAATCACCGATGACGCGAAGGCC
GCCAAGGATTTGTCACCAGCAGACGCTCGAAGGAAGAGTTTCCTCCAGTCGAGAGGATACCCGCATCCACCTACA
TCCCGGAGTGCGATGACTCTCCCGCTGACCTTCACTGGCTCACCAGCGGTTCGGCGAGATTCGGATTCGTCACAA
GAGATGGATCCCTCCGTCTTGACTTTTGCCCGGCCCGGGAATTCAACAGAGTCGCTACCTTTAAGCCCTTATCTC
CTCCAAGATGTTCCAACGCCGAAGGGCAACAGTCTGCCTCGGGCTATCCTTCCTGCCCGAGCAGGCTCGGATACG
GTCCTACCAGCTGGTGGCATCGCCCCAGGGGAGCCCTTGTCGTCCGAGGCACCTCCTATTATTGTCCAAGAGCCT
GAAGAAGAGACACCAACACCATCGGCGGCAGCGCCCGCTGCTATCAAAGAGGAGTCTACGCCGGTTGTTGCTGGA
CCACCACCGCCTCCTGACTCAACAGTACCCAAACCTCGTCGACGCCAACGAGCAGAGAGTGTTACGACGTTCCAC
GGTGGAGGAGCAGAGACCATCTTTCGGTTACTCCCCCGCGAAACTCGGCCCGCGCTCCGGCGGATGTTGTATGTG
GAACCTGCCTCTCGTTGCACCCTCACCGACCTGCTCAAGGGAAGGGGAAAGACCAGCGACCTCCTGTGCGGATGC
GACTTGGCCAAGTCAAAGGAAGAGCGGTTAGCGGAGATGGAATCTTACAGGCATCGCCATGGCACAGATTCCCCA
ACTCAAGTGTCTTGCGTGGACCACGATGAATGTGATTCAGAGGACGACGACGACGGTGACGAGTGGTTAACGAGC
ATCGTTCCATGTTCCAGACCTGGAGTCCAACCCCAGCACGTACACATCAAGGTTCAGGTGGACGAAAAGGCCGGC
AAGAGACGATTCTTCTAG
Length 2718

Gene

Sequence id CC1G_11932T0
Sequence >CC1G_11932T0
ATGTCCAGCGATGTTGTGCAGCCCACCACCGTTTCCGACGGCGCCAAGGCCAGTTTTCCGTTGACGCTCGCTGTC
CCGGACGATGAGCAGGTGGGTTACCCCAGGTCATGATTACACTGCCACCTTTATCTAATTATATCTCAAACAGCC
CGGACCAGTATTTCGTCGCAGCAAGTCTCCATCTCAGGCAGCTATTGAACAGTCATCACAACAACACAAGTCGAC
ATTGGAAAAGCCTGAAAAGCCAGAGAGATCCTCAAGATTCAGCTTTATTCGCAAACAGAGCTTTTCGCTACTGAT
GCCTGAACCGAGCACTCCCTCGACGCCAAAACATGGCCCTCTCCATGACCTCAAGCGCTTCCTAAACAACCACAT
ACCCCATTCTCATCACCACCACAACCAGTCTCGGTCTTCGACACAGGCTGCCTCTACCCCCCGCAGGTCCTCCGT
GGGCTCCAGCAGCGGCCCCTTGTCTCCAGCCGGCGCCCGCGAGTCTCCAACCCCTCTCGACGGCAGGCCAGAACC
AAAAATACTAGCGGACGTCAGGAACTCGAAGAAGAAGACACGGAGTCCGTCGCCCATCCGCCAGATCAAGGATAG
GACGCCATCGCTCAAGTCGCTAAGGTCGCTCAAGGGCAGCTCTCGCTCATCGCAGCCTCCGTCTCCAACTTCCCC
GCAACACAAGACCGAAGGGTCAAAGAGCAAGCACCATCATCATCATCACCACCATCGCCACCAGTCGCCCAATCG
TCGTGCAACCTCGCGCTCGCATCATCCCATAACATCGCTGCATGACGCGACCCAGGCGCACCTTTCGAAAAAGTA
CGGCAAGTGGGGGCGGGTACTTGGCAGCGGCGCCGGTGGCACCGTACGACTTATCAAGGGGAATGCAAAGACTGG
AGGAGCGATATATGCTGTGAAGGAGTTTCGTCCAAAGCGCTCGGGAGAGACGGAGAAGGAGTACCAGAAGAAGGT
CACAGCCGAGTTTTGCGTGGGCTCCACGTTGAAACACCCCAACATCATCGAGACCATCGACATCGTCCAAGACCG
TGGTCACTACTATGAGGTATGCCTATCGGTACATTCTATCACATAATTCCAAGCCCCTCAACTTCTGTTTTCCCA
AACTCTCTTTTGTTTTCTTTCTCCAGGTCATGGAGTACGCTCCGTACGACCTCTTTTCGGTGGTCATGTCGGGCA
AGATGTGTCGCCCCGAGATCTACTGCGTCTTCCGACAAATCTGCGATGGCGTTGAATACCTTCACGAGATGGGCT
TGGCGCACCGGGACCTCAAACTCGATAATTGCGTCATGACGGCCGACAATGTCGTGAAGCTCATCGACTTTGGGA
CAGCGACTGTCTTTCATTATCCTGGAAAGGCCCATACACCAGCCACTGGGATTGTCGGCAGTGATCCCTATCTTG
CTCCAGAGGTACTCCAACAGGACTCCTATGACCCGAGGAAGACGGATGTGTGGAGTGTAGCAATCATCTTTCTCT
GCATGGTCCTGCGTCGGTTCCCTTGGAAAATCCCCGATCCGAAGACGGACCCAAGCTTCAAGGCTTTCGTCAACG
CGCACCCCGACTTGTCCGCAAAGCCTGTGCCAAAGCCTAAGAAGCTTACCGCCGAGAAGAATGTAACTGACCAGG
AGGGCGCATCGAGAAACTTGGCCATTTCTACTCCTGGCCGGCAAATGACGGTTCCTCCTTCTGCCCATTCGAGCG
GACCCATGGATAGGATGCCCCCACGGGAGCGCGCATCCAGCACCGACATTTCGATTGGCCCCGAGTCCTCCAGCA
CCAGCAACTCCTCAGAGACGACCTCAATTCGGACGCATACCTCGGCCGGCACCGAAAGCACAGAAGTGACTGACC
CACCTTCACGTTTCGCCAGTGGGTCCGCCGGGCACAGCTTGAACACAATCACCGATGACGCGAAGGCCGCCAAGG
ATTTGTCACCAGCAGACGCTCGAAGGAAGAGTTTCCTCCAGTCGAGAGGATACCCGCATCCACCTACATCCCGGA
GTGCGATGACTCTCCCGCTGACCTTCACTGGCTCACCAGCGGTTCGGCGAGATTCGGATTCGTCACAAGAGATGG
ATCCCTCCGTCTTGACTTTTGCCCGGCCCGGGAATTCAACAGAGTCGCTACCTTTAAGCCCTTATCTCCTCCAAG
ATGTTCCAACGCCGAAGGGCAACAGTCTGCCTCGGGCTATCCTTCCTGCCCGAGCAGGCTCGGATACGGTCCTAC
CAGCTGGTGGCATCGCCCCAGGGGAGCCCTTGTCGTCCGAGGCACCTCCTATTATTGTCCAAGAGCCTGAAGAAG
AGACACCAACACCATCGGCGGCAGCGCCCGCTGCTATCAAAGAGGAGTCTACGCCGGTTGTTGCTGGACCACCAC
CGCCTCCTGACTCAACAGTACCCAAACCTCGTCGACGCCAACGAGCAGAGAGTGTTACGACGTTCCACGGTGGAG
GAGCAGAGACCATCTTTCGGTTACTCCCCCGCGAAACTCGGCCCGCGCTCCGGCGGATGTTGTATGTGGAACCTG
CCTCTCGTTGCACCCTCACCGACCTGCTCAAGGGAAGGGGAAAGACCAGCGACCTCCTGTGCGGATGCGACTTGG
CCAAGTCAAAGGAAGAGCGGTTAGCGGAGATGGAATCTTACAGGCATCGCCATGGCACAGATTCCCCAACTCAAG
TGTCTTGCGTGGACCACGATGAATGTGATTCAGAGGACGACGACGACGGTGACGAGTGGTTAACGAGCATCGTTC
CATGTTCCAGACCTGGAGTCCAACCCCAGCACGTACACATCAAGGTTCAGGTGGACGAAAAGGCCGGCAAGAGAC
GATTCTTCTAG
Length 2861