CC1G_15386
Coprinopsis cinerea Okoyama 7

General data

Systematic name CC1G_15386 Strain Coprinopsis cinerea A43mutB43mut pab1-1 #326
Standard name - Synonyms
Uniprot id D6RQR6 Functional description Glucose oxidase
Location Chr_12:342629..345141 Strand -
Gene length (nt) 2513 Transcript length (nt) 1830
CDS length (nt) 1830 Protein length (aa) 609

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_CAA7263638 72.3 3.833E-299 917
Hypsizygus marmoreus strain 51987-8 Hypma_RDB29937 69.5 7.995E-292 896
Grifola frondosa Grifr_OBZ79543 63.4 4.863E-249 772
Ganoderma sp. 10597 SS1 v1.0 Gansp1_112928 61.8 1.079E-248 771
Flammulina velutipes Flave_chr01AA00453 60.3 7.504E-244 757
Lentinula edodes B17 Lened_B_1_1_7642 59.2 6.432E-244 757
Lentinula edodes NBRC 111202 Lenedo1_1059754 59.2 1.802E-243 756
Auricularia subglabra Aurde3_1_1337256 60.4 7.042E-242 752
Schizophyllum commune H4-8 Schco3_2641528 59.5 4.387E-234 729
Lentinula edodes W1-26 v1.0 Lentinedodes1_18550 59.1 9.553E-184 583

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 5.8414 0.7719 0.4456
O7 + A. avenae 22.7154 10.852 6.2654
O7 + C. elegans 9.1193 3.75 2.1651
O7 + mechanical damage 5.8737 0.157 0.0907
O7 + E. coli 28.359 11.6739 6.74
O7 + B. subtilis 19.3966 4.7555 2.7456

General data

Systematic name -
Protein id 12937
Description Glucose oxidase

Annotation summary

0 200 400 600 609

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF00732 GMC oxidoreductase IPR000172 41 354
Pfam PF05199 GMC oxidoreductase IPR007867 457 600

SignalP

Prediction Start End Score
SP(Sec/SPI) 1 20 0.9764

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR036188 FAD/NAD(P)-binding domain superfamily
IPR007867 Glucose-methanol-choline oxidoreductase, C-terminal
IPR012132 Glucose-methanol-choline oxidoreductase
IPR000172 Glucose-methanol-choline oxidoreductase, N-terminal
IPR027424 Glucose Oxidase, domain 2

GO

Go id Term Ontology
GO:0016614 oxidoreductase activity, acting on CH-OH group of donors MF
GO:0050660 flavin adenine dinucleotide binding MF

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
E Belongs to the GMC oxidoreductase family

CAZy

Class Family Subfamily
AA AA3 AA3_2

Transcription factor

Group
No records

Conservation of CC1G_15386 across fungi.

Arrow shows the origin of gene family containing CC1G_15386.

Protein

Sequence id 12937
Sequence >12937
MPSFSAVTLLALSLVSVASGASPLQKRGVTTSPDAVNGQSYDYIVVGGGLAGITVAARLAENPSVTVLVIEAGGD
DRNDPRVYDIYRYGEAFGSELMWDWPTERNRGIVGGKTLGGGTSINGAAFTRGVDAQYDAWSALLEPWEANVGWN
WQGMFEYMKKSEAFSPPNSEQMSKGAQFVDWYHGYGGPVQVTNPNSMYGGPHQWFFIDSMVGLTGMNHIPDVNGG
NPNGVSITPLMINWRDADHRSSSVMAYLTPVEHQRTNWVTLTRHFVTKINWSNNSVPFRASGVEFGPANGGSTRY
TAFARREVILAAGAIQTPALLQLSGIGDSAILGPLGIQTHVDLKTVGKNLQEQTMSQFGAGGNGFNPEGRGPSNV
IAFPNLYQLFGTQASSIVNRIRSSISSWAASQAGSGFSAAALQQIFQVQADLIINNNAPVAELFFSYGWPDTLGI
QMWNLLPFSRGSVQITSNNPYTKPRVQVNFFDIDLDMDIQVAASRLCRRALTTPPLSWIATGETIPGNAVPDNAE
RGTDNDWKNWINNNFNTVSHPVGTAAMMRRSLGGVVDAQLRVYDTANVRVVDASVLALQVSAHLSSTLYGIAEKA
ADLIKATYP
Length 609

Coding

Sequence id CC1G_15386T0
Sequence >CC1G_15386T0
ATGCCCTCCTTCAGCGCTGTCACTCTTTTGGCGCTCTCCCTTGTTTCCGTCGCGTCTGGCGCGTCTCCCCTGCAA
AAGCGCGGCGTGACGACTTCACCCGACGCCGTGAATGGTCAGTCCTACGACTATATTGTCGTCGGTGGTGGCTTA
GCAGGGATTACCGTTGCTGCTCGATTGGCTGAGAACCCATCGGTCACCGTTCTGGTCATCGAAGCAGGGGGTGAT
GACAGGAATGATCCCCGGGTGTACGATATTTATCGTTACGGGGAAGCCTTTGGCTCGGAGCTGATGTGGGATTGG
CCAACCGAGCGAAATCGAGGCATCGTCGGTGGTAAAACGCTCGGAGGAGGGACTTCGATCAATGGTGCTGCCTTC
ACTCGAGGAGTAGACGCCCAATATGACGCGTGGTCGGCCCTTCTCGAACCTTGGGAAGCCAACGTTGGTTGGAAT
TGGCAAGGCATGTTTGAGTACATGAAGAAGTCCGAAGCCTTTTCGCCTCCCAACAGCGAGCAAATGTCGAAGGGC
GCTCAGTTTGTTGACTGGTACCATGGCTACGGGGGCCCCGTTCAAGTGACCAACCCTAATAGCATGTATGGCGGC
CCTCATCAATGGTTCTTTATTGACTCCATGGTCGGCTTGACTGGCATGAATCACATCCCAGATGTGAATGGAGGC
AACCCCAATGGCGTCTCGATTACTCCTCTGATGATTAATTGGCGCGATGCTGACCACCGATCTTCGTCCGTTATG
GCCTATCTGACGCCAGTTGAGCATCAGCGTACAAACTGGGTTACTTTGACGAGGCACTTTGTCACTAAAATCAAT
TGGTCAAATAACTCTGTGCCTTTCAGAGCCTCTGGTGTCGAATTTGGTCCTGCCAATGGTGGCTCGACGAGGTAT
ACTGCTTTTGCCAGACGCGAAGTCATCTTGGCTGCCGGCGCCATCCAGACCCCTGCCCTCCTTCAACTTTCAGGA
ATCGGCGACTCTGCCATCCTCGGGCCTCTCGGAATCCAAACCCACGTCGACCTCAAGACAGTTGGCAAGAACCTT
CAGGAACAGACCATGAGTCAATTTGGTGCAGGTGGCAATGGCTTCAATCCTGAAGGTCGTGGCCCTTCGAACGTC
ATCGCGTTCCCGAATCTGTACCAGCTGTTCGGTACCCAAGCAAGCTCAATCGTCAACCGTATTAGGTCGTCGATT
AGCTCTTGGGCTGCGTCACAGGCTGGCTCAGGGTTCTCAGCTGCTGCTCTCCAACAGATTTTCCAGGTGCAGGCA
GATTTGATCATCAACAATAACGCACCGGTTGCAGAGCTGTTCTTCAGCTATGGATGGCCCGATACTCTGGGTATT
CAGATGTGGAATCTCTTGCCATTCAGTCGAGGCAGCGTTCAGATCACCAGCAACAACCCCTACACCAAGCCACGC
GTTCAAGTCAATTTCTTCGATATCGACTTGGACATGGATATCCAAGTTGCGGCGTCACGTCTTTGCCGACGTGCT
CTGACCACCCCGCCCTTGAGTTGGATCGCCACTGGAGAAACCATCCCAGGCAACGCCGTCCCAGATAACGCAGAA
CGAGGAACAGACAACGACTGGAAGAACTGGATCAACAACAACTTCAACACTGTCTCCCATCCCGTCGGAACGGCG
GCTATGATGAGACGCAGCCTTGGAGGTGTCGTGGATGCCCAACTCAGGGTGTATGACACCGCCAACGTCCGCGTT
GTGGATGCTTCTGTGCTCGCCCTCCAGGTTAGCGCCCACCTGTCATCCACTCTCTACGGTATTGCGGAGAAGGCG
GCGGACCTCATCAAGGCTACGTACCCT
Length 1830

Transcript

Sequence id CC1G_15386T0
Sequence >CC1G_15386T0
ATGCCCTCCTTCAGCGCTGTCACTCTTTTGGCGCTCTCCCTTGTTTCCGTCGCGTCTGGCGCGTCTCCCCTGCAA
AAGCGCGGCGTGACGACTTCACCCGACGCCGTGAATGGTCAGTCCTACGACTATATTGTCGTCGGTGGTGGCTTA
GCAGGGATTACCGTTGCTGCTCGATTGGCTGAGAACCCATCGGTCACCGTTCTGGTCATCGAAGCAGGGGGTGAT
GACAGGAATGATCCCCGGGTGTACGATATTTATCGTTACGGGGAAGCCTTTGGCTCGGAGCTGATGTGGGATTGG
CCAACCGAGCGAAATCGAGGCATCGTCGGTGGTAAAACGCTCGGAGGAGGGACTTCGATCAATGGTGCTGCCTTC
ACTCGAGGAGTAGACGCCCAATATGACGCGTGGTCGGCCCTTCTCGAACCTTGGGAAGCCAACGTTGGTTGGAAT
TGGCAAGGCATGTTTGAGTACATGAAGAAGTCCGAAGCCTTTTCGCCTCCCAACAGCGAGCAAATGTCGAAGGGC
GCTCAGTTTGTTGACTGGTACCATGGCTACGGGGGCCCCGTTCAAGTGACCAACCCTAATAGCATGTATGGCGGC
CCTCATCAATGGTTCTTTATTGACTCCATGGTCGGCTTGACTGGCATGAATCACATCCCAGATGTGAATGGAGGC
AACCCCAATGGCGTCTCGATTACTCCTCTGATGATTAATTGGCGCGATGCTGACCACCGATCTTCGTCCGTTATG
GCCTATCTGACGCCAGTTGAGCATCAGCGTACAAACTGGGTTACTTTGACGAGGCACTTTGTCACTAAAATCAAT
TGGTCAAATAACTCTGTGCCTTTCAGAGCCTCTGGTGTCGAATTTGGTCCTGCCAATGGTGGCTCGACGAGGTAT
ACTGCTTTTGCCAGACGCGAAGTCATCTTGGCTGCCGGCGCCATCCAGACCCCTGCCCTCCTTCAACTTTCAGGA
ATCGGCGACTCTGCCATCCTCGGGCCTCTCGGAATCCAAACCCACGTCGACCTCAAGACAGTTGGCAAGAACCTT
CAGGAACAGACCATGAGTCAATTTGGTGCAGGTGGCAATGGCTTCAATCCTGAAGGTCGTGGCCCTTCGAACGTC
ATCGCGTTCCCGAATCTGTACCAGCTGTTCGGTACCCAAGCAAGCTCAATCGTCAACCGTATTAGGTCGTCGATT
AGCTCTTGGGCTGCGTCACAGGCTGGCTCAGGGTTCTCAGCTGCTGCTCTCCAACAGATTTTCCAGGTGCAGGCA
GATTTGATCATCAACAATAACGCACCGGTTGCAGAGCTGTTCTTCAGCTATGGATGGCCCGATACTCTGGGTATT
CAGATGTGGAATCTCTTGCCATTCAGTCGAGGCAGCGTTCAGATCACCAGCAACAACCCCTACACCAAGCCACGC
GTTCAAGTCAATTTCTTCGATATCGACTTGGACATGGATATCCAAGTTGCGGCGTCACGTCTTTGCCGACGTGCT
CTGACCACCCCGCCCTTGAGTTGGATCGCCACTGGAGAAACCATCCCAGGCAACGCCGTCCCAGATAACGCAGAA
CGAGGAACAGACAACGACTGGAAGAACTGGATCAACAACAACTTCAACACTGTCTCCCATCCCGTCGGAACGGCG
GCTATGATGAGACGCAGCCTTGGAGGTGTCGTGGATGCCCAACTCAGGGTGTATGACACCGCCAACGTCCGCGTT
GTGGATGCTTCTGTGCTCGCCCTCCAGGTTAGCGCCCACCTGTCATCCACTCTCTACGGTATTGCGGAGAAGGCG
GCGGACCTCATCAAGGCTACGTACCCTTGA
Length 1830

Gene

Sequence id CC1G_15386T0
Sequence >CC1G_15386T0
ATGCCCTCCTTCAGCGCTGTCACTCTTTTGGCGCTCTCCCTTGTTTCCGTCGCGTCTGGCGCGTCTCCCCTGCAA
AAGCGCGGCGTGACGACTTCACCCGACGCCGTGAATGGTCAGTCCTACGACTATATTGTCGTCGGTGGTGGCTTA
GCAGGGATTACCGTTGCTGCTCGATTGGCTGAGAACCCATCGGTCACCGTTCTGGTCATCGAAGCAGGGGGTGAT
GACAGGAATGATCCCCGGGTGTACGATATTTATCGTTACGGGGAAGCCTTTGGCTCGGAGCTGATGTGGGATTGG
CCAACCGAGCGAAATCGAGGCATCGTCGGTGGTAAAACGCTCGGAGGAGGGAGTACGTACCTCCCTTACCTTATT
ATTGAGGGAGAAGACTGAACCAGGGACAATAATAGCTTCGATCAATGGTGCTGCCTTCACTCGAGGAGTAGACGC
CCAATATGACGCGTGGTCGGCCCTTCTCGAACCTTGGGAAGCCAACGTTGGTTGGAATTGGCAAGGCATGTTTGA
GTACATGAAGAAGGTTCGCTCTTTCCCGTATAATTACAACACGGCGTTCCTGATTCAATTCACCTCTGCAGTCCG
AAGCCTTTTCGCCTCCCAACAGCGAGCAAATGTCGAAGGGCGCTCAGTTTGTTGACTGGTACCATGGCTACGGGG
GCCCCGTTCAAGTGACCAACCCTAATAGCATGTATGGCGGCCCTCATCAATGGTTCTTTATTGACTCCATGGTCG
GCTTGACTGGCATGAATCACATCCCAGATGTGAATGGAGGCAACCCCAATGGCGTCTCGATTACTCCTCTGGTAA
GCCTTCCGCAATCACCACAGACCTTGTTGCAAGTCTTACTGAACATGCCCTTCAGATGATTAATTGGCGCGATGC
TGACCACCGATCTTCGTCCGTTATGGCCTATCTGACGCCAGTTGAGCATCAGCGTACAAACTGGGTTACTTTGAC
GAGGCACTTTGTCAGTTTTACCTCACTCGGTCTCTTGGAGGTGGCTGACGCCCCTTTGCTATAGGTCACTAAAAT
CAATTGGTCAAATAACTCTGTGCCTTTCAGAGCCTCTGGTGTCGAATTTGGTCCTGCCAATGGTGGCTCGACGAG
GTATACTGCTTTTGCCAGACGCGAAGTCATCTTGGCTGCCGGCGCCATCCAGGTAAGACGTTCGAGAATCAAAAG
TCTATTCGCACACACTTAAATCGTCTACCTCTCAGACCCCTGCCCTCCTTCAACTTTCAGGAATCGGCGACTCTG
CCATCCTCGGGCCTCTCGGAATCCAAACCCACGTCGACCTCAAGACAGTTGGCAAGAACCTTCAGGAACAGGTAC
ACCAACTCCACCCTTCCCCTTCGATCACCTCTCTCTAACTGACTGCTGTTTTACCACTTTCTACTCTTTACGCAA
CCATCTATGTACTACTAAGACCATGAGTCAATTTGGTGCAGGTGGCAATGGCTTCAATCCTGAAGGTCGTGGCCC
TTCGAACGTCATCGCGTTCCCGAATCTGTACCAGCTGTTCGGTACCCAAGCAAGCTCAATCGTCAACCGTATTAG
GTCGTCGATTAGCTCTTGGGCTGCGTCACAGGCTGGCTCAGGGTTCTCAGCTGCTGCTCTCCAACAGATTTTCCA
GGTGCAGGCAGATTTGATCATCAACAATAACGGTACGTCTTCATCTTCACCGACGACGCGTGGCGAACATTGTGC
TGACTGTCCTTTGTAGCACCGGTTGCAGAGCTGTTCTTCAGCTATGGATGGCCCGAGTACGTATTCCTTCAACAC
TTGAAAGATTCTCATTTGTGCTGATTGTTGCCATAGTACTCTGGGTATTCAGATGTGGAATCTCTTGCCATTCAG
TCGAGGCAGCGTTCAGATCACCGTAAGCCTCCTCTCTGTATGTACGTCAGCGGAGTACCTAAAAGCAGTCCGCAC
CGATAGAGCAACAACCCCTACACCAAGCCACGCGTTCAAGTCAATTTCTTCGATATCGACTTGGACATGGATATC
CAAGTTGCGGCGTCACGTCTTTGCCGACGTGCTCTGACCACCCCGCCCTTGAGGTAACCAACTCTTTCCCCTTTT
ACCACTGGTTGTCCAGGTCGCTGATACCAGTGTTAAGTTGGATCGCCACTGGAGAAACCATCCCAGGCAACGCCG
TCCCAGATAACGCAGAACGAGGAACAGACAACGACTGGAAGAACTGGATCAACAACAACTTCAACACTGTCTCCC
ATCCCGTCGGAACGGCGGCTATGATGAGACGCAGCCTTGGAGGTACCACTCTCTCCTAGCTTCAAAGCGAAATAA
AGACGTAAACTAACCTAAAACCTAATCGCGCAGGTGTCGTGGATGCCCAACTCAGGGTGTATGACACCGCCAACG
TCCGCGTTGTGGATGCTTCTGTGCTCGCCCTCCAGGTTAGCGCCCACCTGTCATCCACTCTCTACGGTATTGCGG
AGAAGGCGGCGGACCTCATCAAGGCTACGTACCCTTGA
Length 2513