CopciAB_503401
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name	CopciAB_503401	Strain	Coprinopsis cinerea Okayama 7
Standard name	exgD	Synonyms	503401
Uniprot id		Functional description	Exo-beta-1,3-glucanase
Location	scaffold_6:2693370..2696385	Strand	+
Gene length (nt)	3016	Transcript length (nt)	2523
CDS length (nt)	2190	Protein length (aa)	729

Reciprocal best hits in model fungi

Strain name	Gene / Protein name

Orthologs in mushroom models

Strain name	Gene / Protein name	Pident	E-value	Bits
				0

Expression

Name

Summary

Attribution

Assay type

Carbon metabolism

Transcriptional changes along alternative morphogenetic paths of C. cinerea

Xie et al. 2020

RNA-Seq

Sample	Mean cpm	SD cpm	Se of mean
sclerotia	9.8885	0.7932	0.458
oidia	14.191	2.3084	1.3328
vegetative_mycelium	14.5219	1.8031	1.041
primordia	13.8376	0.8984	0.5187
hyphal_knot	25.1475	4.0629	2.3457
young_fruiting_body	843.2788	137.8166	79.5684

Complex carbon sources 1 (long incubation)

Expression profiling on diverse complex carbon sources.

Hegedus et al.

RNA-Seq

Sample	Mean cpm	SD cpm	Se of mean
Control - glucose	14.8891	3.2827	1.8953
Wheat bran	16.5811	3.811	2.2003
Horse manure	28.696	2.3185	1.3386
Oak leaves	49.8753	21.76	12.5631
Hay	29.852	8.6331	4.9843
Corn stalk	30.98	3.6826	2.1261
Pectine	29.4926	2.9634	1.7109
Microcrystalline cellulose	27.3317	4.7144	2.7219
Xylose	11.726	0.8634	0.4985
Cellobiose	11.0964	0.8651	0.4994
Lignin	45.944	12.952	7.4778
Apple peels	15.6964	2.2906	1.3225

Coprinopsis challenged with bacteria

Transcriptional response to Bacillus subtilis and Escherichia coli.

Kombrink et al. 2018

RNA-Seq

Sample	Mean cpm	SD cpm	Se of mean
Control	10.6436	1.2232	0.7062
Bsubtilis	8.8934	2.1169	1.2222
Ecoli	21.4277	1.6232	0.9371

Early development 1

Time series expression profiling of basidiospore and oidium germination

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
BS 0h	18.1377	5.1051	2.9474
BS 4h	1.7775	0.5674	0.3276
BS 8h	1.4768	0.3185	0.1839
BS 12h	1.1879	0.2793	0.1612
Oidia 0 h	10.1795	2.413	1.3931
Oidia 18 h	3.0194	0.3191	0.1842
Sclerotia	1.2934	1.0121	0.5843

Early development 2

Time series expression profiling of mycelial growth, light induction and fruiting body initiation.

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
DM 12h	2.0179	0.3478	0.2008
DM 36h	1.7293	0.1409	0.0814
DM 60h	1.5734	0.3658	0.2112
DM 84h	1.4428	0.4096	0.2365
DM 108h	1.4701	0.429	0.2477
DM 132h	1.2799	0.3381	0.1952
DM 156hAE	1.698	0.2839	0.1639
ELI1hAE	1.9725	1.357	0.7835
ELI2hAE	1.271	0.6819	0.3937
LI2hAE	1.6202	0.2989	0.1726
LI6hAE	1.296	0.319	0.1842
LI12hAE	2.207	0.7725	0.446
LI18hAE	2.0343	1.216	0.702
LI 24hAE	1.3964	0.5551	0.3205
DM 156hAM	1.7194	0.2237	0.1291
ELI1hAM	1.6464	0.0901	0.052
ELI2hAM	1.2072	0.3111	0.1796
LI2hAM	1.6774	0.2482	0.1433
LI6hAM	0.8823	0.501	0.2893
LI12hAM	2.6291	1.2689	0.7326
LI18hAM	2.7966	0.8815	0.5089
LI 24hAM	1.6362	0.4189	0.2418
LI 24hHK	1.4767	0.2913	0.1682
L/D 6h	2.6169	0.3999	0.2309
L/D 12h	3.5182	0.3286	0.1897
L/D 18h	1.842	0.4817	0.2781
L/D 24h	1.2682	0.6324	0.3651

Fruiting body development

RNA-Seq analysis of fruiting body development

Krizsan et al. 2019

RNA-Seq

Sample	Mean cpm	SD cpm	Se of mean
Vegetative mycelium	13.0409	3.4304	1.9805
Hyphal knots	9.813	4.4865	2.5903
Primordium 1	6.571	2.7167	1.5685
Primordium 2	8.3948	0.7797	0.4502
Young Fruiting body cap	9.126	5.2126	3.0095
Younf fruiting body gill	162.7214	256.4308	148.0504
Young fruiting body stipe	5.3948	1.5566	0.8987
Mature fruiting body cap_gill	18.7718	2.3197	1.3393
Mature fruiting body stipe	16.5699	1.2299	0.7101

Nitrogen sources (12h incubation)

Expression profiling on diverse nitrogen sources.

Hegedus et al.

RNA-Seq

Sample	Mean cpm	SD cpm	Se of mean
Complete medium - control	11.4829	2.2476	1.2977
NH4NO3	6.1237	1.7153	0.9903
Proline	7.3134	1.962	1.1328
Tryptophan	5.7415	2.3966	1.3837
Isoleucin	7.2341	0.2809	0.1622
Arginine	7.0305	0.2342	0.1352
Metionine	7.5934	1.5227	0.8791
NaNO3	6.0831	0.6755	0.39

Plant biomass (12h incubation)

Expression profiling on diverse plant biomasses as carbon sources.

Hegedus et al.

RNA-Seq

Sample	Mean cpm	SD cpm	Se of mean
Glucose - control	11.4829	2.2476	1.2977
Citrus peel	6.9178	2.1078	1.217
Poplar leaves	10.3742	2.9136	1.6822
Typha leaves	9.1717	1.0705	0.6181
Overwintered Salix leaves	8.2863	2.9508	1.7036
Reed flowering	8.4899	1.7319	0.9999
Tigernut	5.7726	0.8523	0.4921
Energy cane	10.5099	1.0118	0.5842
Guar gum	18.7642	10.8716	6.2767
Apple peels	12.8872	1.8431	1.0641
Cellobiose	14.0875	0.8646	0.4992
Corn stalk	19.0017	3.9711	2.2927
Horse manure	23.7906	7.7463	4.4723
Lignin	13.6365	7.8807	4.5499
Microcrystalline cellulose	14.5634	1.7194	0.9927
Oak leaves	19.0921	1.4823	0.8558
Pectin esterified	13.7311	4.6586	2.6897
Poplar sawdust	29.3093	2.1062	1.216
Wheat bran	16.8408	3.5095	2.0262
Chlamydomonas reinhardtii	10.2285	0.999	0.5768
Vertatryl alcohol	9.1334	1.0265	0.5926
Furfural	11.1621	2.7026	1.5603
Autoclaved mycelium	8.2295	1.2456	0.7191

Simple and complex carbon and nitrogen sources

Expression profiling on diverse complex carbon and nitrogen sources.

Hegedus et al.

RNA-Seq

Sample	Mean cpm	SD cpm	Se of mean
Glucose control	12.868	1.8754	1.0828
Ribose	13.3949	0.7292	0.421
Mannose	12.2757	0.9324	0.6593
Fructose	14.0601	0.8045	0.4645
Arabinose	15.9315	2.033	1.1738
Xylose	15.0624	0.8994	0.5193
Galacturonic acid	16.4176	1.6625	0.9599
Rhamnogalacturonan	16.4646	3.0843	1.7807
Pectin esterified	16.183	1.2321	0.7113
Polygalacturonic acid	16.3383	3.4144	1.9713
Sodium acetate	13.4439	1.5226	0.8791
No nitrogen	11.9652	2.2617	1.3058
BSA	14.8472	1.9341	1.1166
Glutamine	15.7041	3.149	1.8181
No phosphate	13.217	0.1599	0.0923
No carbon	14.9139	0.7391	0.5226
No sulphur	10.0724	1.5221	0.8788

Simple and complex carbon sources (12h incubation)

Expression profiling on diverse complex carbon sources.

Hegedus et al.

RNA-Seq

Sample	Mean cpm	SD cpm	Se of mean
Glucose - control	11.4829	2.2476	1.2977
Amylose	17.8732	3.8825	2.2416
Fucose	14.3698	3.7469	2.1633
Galactose	13.5297	1.5832	0.9141
Lactose	19.0258	8.5755	4.9511
Maltose	26.8899	8.8937	5.1348
Mannitol	18.6073	3.7543	2.1676
Rhamnose	11.9026	4.7198	2.725
Sorbitol	19.2195	0.7508	0.4335
Trehalose	14.9782	5.6906	3.2855
Glycerol	10.7986	3.1104	1.7958
Glucuronic acid	16.2368	0.6295	0.3635
Arabinan	13.9547	5.8532	3.3793
Galactan	11.7317	2.6768	1.5454
Galactomannan	10.9149	4.7638	2.7504
Glucan	11.812	1.2716	0.7342
Xylan	12.1565	0.4798	0.277
Xyloglucan	12.8283	1.1866	0.6851
Arabinogalactan	12.3047	0.5073	0.2929
Pectin	18.7318	2.7172	1.5688
Rhamnogalacturonan	30.7069	1.75	1.0104
Polygalacturonic acid	11.3065	1.2112	0.6993
Mannan	19.9283	2.2184	1.2808
Amylopectin	12.3998	8.9894	5.19
Inulin	11.8818	2.501	1.4439
BSA	6.7208	0.3648	0.2106

Starvation induced by water agar transfer

Expression profiling on starvation induced by transfer to water agar

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
Control	1.5734	0.3658	0.2112
2h WAT	1.6735	0.7096	0.4097
4h WAT	1.5166	0.8321	0.4804
8h WAT	1.2524	0.9973	0.5758
16h WAT	2.2699	0.327	0.1888
24h WAT	2.1182	0.2911	0.1681
WAT hyphal knot -30h	1.997	0.5379	0.3106
WAT hyphal knot -22h	1.3357	0.3247	0.1874
WAT hyphal knot -15h	1.1489	0.9721	0.5612
WAT hyphal knot -7.5h	0.546	0.4958	0.2863
WAT hyphal knot	1.8155	0.7016	0.405
WAT hyphal knot +7.5h	0.9678	0.2073	0.1197

Straw time series

Time series expression profiling on straw as a carbon source

Hegedus et al.

RNA-Seq

Sample	Mean cpm	SD cpm	Se of mean
Glucose control	10.404	1.5375	0.8876
Straw 3h	33.8968	23.7164	13.6927
Straw 6h	27.7033	21.318	12.308
Straw 12h	19.2393	6.1156	3.5309
Straw 24h	14.567	7.0113	4.048

Stress conditions 1

Expression profiling under various stress conditions

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
Flask control	1.4693	0.6673	0.3853
Frost (-20C, 30min)	1.8264	0.6403	0.3697
Heat shock (47C, 2h)	8.5138	1.7535	1.0124
High CO2	1.2569	0.4049	0.2338
Drought (4% agar, 12h)	1.7164	0.4234	0.2445
Oxidative (1mM H2O2, 3h)	2.8014	0.5546	0.3202
Acidic (pH4, 3h)	2.8193	1.1285	0.6516
Alkaline (pH9, 3h)	1.3063	0.3876	0.2238
Osmotic (sorbitol 2h)	1.5809	0.2001	0.1156
CongoRed (3h)	1.7198	0.6036	0.3485
Cobalt chloride control	2.2549	0.5293	0.3056
Cobalt chloride 2mM	1.7141	1.0575	0.6106

Stress conditions 2

Expression profiling under various stress conditions

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
Flask control	1.3049	0.2237	0.1291
Cold stimulation	1.0031	0.9057	0.5229
Scratched surface	2.1698	0.4697	0.2712
Ca2+, 200mM, 24h	0.9439	0.4804	0.2774
Cu2+, 2mM, 6h	1.21	0.6034	0.3484
Voriconazole	0.9884	0.9884	0.5707
Trichoderma interaction, early	1.7921	0.6013	0.3472
Trichoderma interaction 60h	0.1178	0.2041	0.1178
Cobalt chloride 2mM repeat	2.7804	1.5451	0.8921
Hypoxia	1.4569	0.9765	0.5638
Hypoxia control	1.531	0.4477	0.2585
Protoplastation control	2.1278	0.5503	0.3891
Protoplastation 3.5h	1.8725	0.9159	0.6477
Protoplastation 1.5h	3.5036	0.0668	0.0473

General data

Systematic name	exgD
Protein id	CopciAB_503401.T0
Description	Exo-beta-1,3-glucanase

Annotation summary

Conserved domains

Analysis	Signature accession	Signature description	InterPro Accession	Start	End
Pfam	PF00150	Cellulase (glycosyl hydrolase family 5)	IPR001547	265	472

SignalP

Prediction	Start	End	Score
No records

Transmembrane domains

Domain n	Start	End	Length
1	110	132	22

InterPro

Accession	Description
IPR017853	Glycoside hydrolase superfamily
IPR001547	Glycoside hydrolase, family 5

GO

Go id	Term	Ontology
GO:0004553	hydrolase activity, hydrolyzing O-glycosyl compounds	MF
GO:0071704	organic substance metabolic process	BP

KEGG

KEGG Orthology
K01210

EggNOG

COG category	Description
G	Exo-beta-1,3-glucanase

CAZy

Class	Family	Subfamily
GH	GH5	GH5_9

Transcription factor

Group
No records

Conservation of CopciAB_503401 across fungi.

Arrow shows the origin of gene family containing CopciAB_503401.

Protein

Sequence id	CopciAB_503401.T0
Sequence	>CopciAB_503401.T0 MAINIPAPTRLLTLSARAPSSPPDSPDLNPRPDSTCVPWIPDPAKSHALKPTYSITSSTINTQDHSKRGSLNLES HMWATCNDDKPLYSSDSGPSLSSGKRSARCGRITLVIIGVASVILLGVFLPLHFGVLRSLHHGNTVPLSRGNETN SQPTTHTLLRGGDGSEVTTADGTKFTYRNPFGGFWISDPEDPFNLDAQPNEWTPPLNRSWRWGQDRIFGVNLGGL FVLEPFITPGVFEARPGSVDEYTLSEMMRDGVNGTQGFQDLEEHYKTFITEKDIAEIAGAGLNWLRVPLGFWAVE VYENEPFLERTSWTYFLRIVEWARKYGLRIYLDLHAVPGGQNGMNHSGRVHRISFLAGNMGLANAQRTLYYLRVL TEFISQPQYSSVIPVLGILNEPLSEELGMEALSSFYLEAYTMIRNITGYGEGNGPYIAIGDGLRSPLDWEGLLPN ADRVIMDAHPYVAFDRSHDTSPLTDLAEDGEFGGIWPRTACQRWGPLINSTKMALGVTIGGEFSGALNDCGRYIR EVGVTSDHPQCRLYDDWENWTDELKAGLQNFILASMDAIGDFFFWTWKIGPSIEGKITAPFWSYKLGLEQGWIPR DPRTSFGKCARLGISSAPFDGTYKPWQTGDFESEPTIPAEYLANNAWPPGTLTRADMPVALLPTYATTGSVITLP VPTYSGAPASATENLRGWYNDADTRRGVTPIGGCKYPDPYVVKFDVLPTARCGE
Length	729

Coding

Sequence id	CopciAB_503401.T0
Sequence	>CopciAB_503401.T0 ATGGCGATTAACATTCCTGCTCCTACCCGACTTCTAACCCTGAGCGCTCGAGCTCCATCATCACCACCAGACTCG CCGGATCTTAATCCTCGACCGGACAGTACTTGCGTTCCCTGGATCCCTGATCCCGCAAAATCGCATGCACTAAAG CCTACCTACTCGATAACCAGCTCCACCATCAACACGCAAGATCATTCAAAACGGGGTTCCTTGAACCTTGAATCC CACATGTGGGCTACTTGTAACGACGATAAGCCTCTTTACAGCAGCGACAGCGGGCCATCTCTGAGCTCGGGGAAA AGGAGTGCACGGTGCGGGAGAATCACCCTCGTCATCATTGGTGTGGCTTCTGTGATTCTCCTAGGGGTCTTTTTG CCTCTTCATTTTGGAGTCCTTCGATCTTTACACCACGGAAATACAGTCCCACTTTCCCGAGGCAACGAAACAAAC AGCCAACCGACTACTCACACATTGCTGCGGGGAGGCGACGGCTCGGAAGTGACCACGGCGGACGGAACCAAATTT ACTTATCGCAATCCATTCGGCGGATTCTGGATCTCTGACCCTGAAGACCCCTTTAATCTCGACGCACAGCCGAAT GAATGGACCCCACCCCTCAACAGGTCCTGGCGCTGGGGTCAGGATCGAATCTTCGGAGTCAATCTTGGTGGATTG TTCGTCCTCGAGCCGTTCATTACTCCAGGTGTGTTCGAAGCTCGACCAGGATCTGTGGACGAGTACACCCTGTCG GAGATGATGCGCGACGGGGTCAATGGCACCCAGGGATTCCAAGATCTCGAGGAGCATTACAAGACTTTTATCACT GAGAAAGACATCGCTGAGATTGCCGGTGCAGGGCTGAATTGGCTGCGCGTTCCCTTAGGATTTTGGGCTGTCGAG GTATACGAGAACGAACCATTCCTGGAACGGACTTCTTGGACATATTTCCTACGCATCGTCGAATGGGCAAGAAAG TACGGTTTAAGGATTTACCTCGACCTTCATGCTGTACCTGGTGGTCAAAACGGAATGAATCACTCCGGACGCGTT CACCGGATCAGTTTCCTTGCTGGAAACATGGGTCTCGCCAATGCGCAGCGGACCCTCTATTACTTGCGTGTCTTA ACCGAATTCATATCCCAGCCTCAGTACTCGTCTGTCATTCCTGTTCTCGGAATCCTCAATGAGCCACTGTCGGAG GAACTTGGAATGGAGGCGCTGTCTAGCTTTTATCTTGAGGCGTACACGATGATCCGCAACATCACTGGGTACGGC GAAGGAAACGGGCCGTACATTGCTATCGGTGACGGGCTGCGCTCGCCATTGGATTGGGAAGGCCTCCTTCCCAAC GCAGATCGTGTTATCATGGATGCGCATCCATATGTCGCATTCGACCGTAGCCATGACACGTCTCCCCTTACCGAT CTCGCTGAAGATGGCGAATTTGGTGGGATCTGGCCAAGGACCGCTTGTCAGCGATGGGGACCCCTCATCAACTCT ACAAAAATGGCTCTGGGCGTCACCATTGGCGGAGAGTTCTCAGGAGCTCTAAACGATTGTGGCCGGTACATTCGC GAAGTTGGTGTCACGTCGGATCACCCCCAATGCCGATTGTATGACGACTGGGAGAACTGGACCGATGAACTCAAG GCGGGACTGCAAAACTTCATCTTGGCGAGTATGGACGCAATCGGTGATTTCTTCTTTTGGACATGGAAGATAGGA CCTTCGATCGAAGGGAAGATCACCGCCCCATTTTGGTCGTACAAGCTCGGTTTAGAACAGGGATGGATTCCTCGG GACCCACGCACCTCGTTTGGAAAATGTGCTAGGCTCGGTATCAGCAGCGCGCCGTTCGATGGCACCTACAAGCCC TGGCAGACTGGAGATTTTGAGTCAGAGCCGACCATTCCCGCTGAATATCTCGCGAACAACGCTTGGCCGCCTGGG ACCCTTACTCGTGCCGATATGCCCGTTGCTTTGCTGCCTACGTATGCTACCACCGGTTCGGTCATCACTCTCCCT GTTCCGACGTACTCTGGTGCGCCTGCCTCTGCTACTGAGAACTTGAGGGGATGGTATAACGATGCTGATACTCGA AGGGGAGTGACTCCCATTGGCGGTTGCAAGTACCCTGATCCCTATGTGGTTAAATTCGATGTTCTACCTACGGCT CGGTGCGGAGAATAG
Length	2190

Transcript

Sequence id	CopciAB_503401.T0
Sequence	>CopciAB_503401.T0 AAACCCATTCCAGGAGACTTCGACGAATGTAGGGCAGTGAGCTCTCTGGATCGACTTACGCCTCAATGAGTGGAA GTAGCACCAAACTCTGGATTGCCATGTCATTTCCGAAGGAGCTCCTCTGGCTGACACCTTGCCAATACCGTGGCG GTTAACCTCACGACTTGTTCTGTGTTCCAGACAGCCGCCAGATAGAAAACACGGAGATCCTTCGCGTGGATCTCT TACTCCCCGACTCCATGTGCACCCCTGGCGACGTCTGTTGACAATACTGGCTCTGCGATTGCTGACCTCCCCGGC ACGATATCTGGCACCAACGCTATGGCGATTAACATTCCTGCTCCTACCCGACTTCTAACCCTGAGCGCTCGAGCT CCATCATCACCACCAGACTCGCCGGATCTTAATCCTCGACCGGACAGTACTTGCGTTCCCTGGATCCCTGATCCC GCAAAATCGCATGCACTAAAGCCTACCTACTCGATAACCAGCTCCACCATCAACACGCAAGATCATTCAAAACGG GGTTCCTTGAACCTTGAATCCCACATGTGGGCTACTTGTAACGACGATAAGCCTCTTTACAGCAGCGACAGCGGG CCATCTCTGAGCTCGGGGAAAAGGAGTGCACGGTGCGGGAGAATCACCCTCGTCATCATTGGTGTGGCTTCTGTG ATTCTCCTAGGGGTCTTTTTGCCTCTTCATTTTGGAGTCCTTCGATCTTTACACCACGGAAATACAGTCCCACTT TCCCGAGGCAACGAAACAAACAGCCAACCGACTACTCACACATTGCTGCGGGGAGGCGACGGCTCGGAAGTGACC ACGGCGGACGGAACCAAATTTACTTATCGCAATCCATTCGGCGGATTCTGGATCTCTGACCCTGAAGACCCCTTT AATCTCGACGCACAGCCGAATGAATGGACCCCACCCCTCAACAGGTCCTGGCGCTGGGGTCAGGATCGAATCTTC GGAGTCAATCTTGGTGGATTGTTCGTCCTCGAGCCGTTCATTACTCCAGGTGTGTTCGAAGCTCGACCAGGATCT GTGGACGAGTACACCCTGTCGGAGATGATGCGCGACGGGGTCAATGGCACCCAGGGATTCCAAGATCTCGAGGAG CATTACAAGACTTTTATCACTGAGAAAGACATCGCTGAGATTGCCGGTGCAGGGCTGAATTGGCTGCGCGTTCCC TTAGGATTTTGGGCTGTCGAGGTATACGAGAACGAACCATTCCTGGAACGGACTTCTTGGACATATTTCCTACGC ATCGTCGAATGGGCAAGAAAGTACGGTTTAAGGATTTACCTCGACCTTCATGCTGTACCTGGTGGTCAAAACGGA ATGAATCACTCCGGACGCGTTCACCGGATCAGTTTCCTTGCTGGAAACATGGGTCTCGCCAATGCGCAGCGGACC CTCTATTACTTGCGTGTCTTAACCGAATTCATATCCCAGCCTCAGTACTCGTCTGTCATTCCTGTTCTCGGAATC CTCAATGAGCCACTGTCGGAGGAACTTGGAATGGAGGCGCTGTCTAGCTTTTATCTTGAGGCGTACACGATGATC CGCAACATCACTGGGTACGGCGAAGGAAACGGGCCGTACATTGCTATCGGTGACGGGCTGCGCTCGCCATTGGAT TGGGAAGGCCTCCTTCCCAACGCAGATCGTGTTATCATGGATGCGCATCCATATGTCGCATTCGACCGTAGCCAT GACACGTCTCCCCTTACCGATCTCGCTGAAGATGGCGAATTTGGTGGGATCTGGCCAAGGACCGCTTGTCAGCGA TGGGGACCCCTCATCAACTCTACAAAAATGGCTCTGGGCGTCACCATTGGCGGAGAGTTCTCAGGAGCTCTAAAC GATTGTGGCCGGTACATTCGCGAAGTTGGTGTCACGTCGGATCACCCCCAATGCCGATTGTATGACGACTGGGAG AACTGGACCGATGAACTCAAGGCGGGACTGCAAAACTTCATCTTGGCGAGTATGGACGCAATCGGTGATTTCTTC TTTTGGACATGGAAGATAGGACCTTCGATCGAAGGGAAGATCACCGCCCCATTTTGGTCGTACAAGCTCGGTTTA GAACAGGGATGGATTCCTCGGGACCCACGCACCTCGTTTGGAAAATGTGCTAGGCTCGGTATCAGCAGCGCGCCG TTCGATGGCACCTACAAGCCCTGGCAGACTGGAGATTTTGAGTCAGAGCCGACCATTCCCGCTGAATATCTCGCG AACAACGCTTGGCCGCCTGGGACCCTTACTCGTGCCGATATGCCCGTTGCTTTGCTGCCTACGTATGCTACCACC GGTTCGGTCATCACTCTCCCTGTTCCGACGTACTCTGGTGCGCCTGCCTCTGCTACTGAGAACTTGAGGGGATGG TATAACGATGCTGATACTCGAAGGGGAGTGACTCCCATTGGCGGTTGCAAGTACCCTGATCCCTATGTGGTTAAA TTCGATGTTCTACCTACGGCTCGGTGCGGAGAATAGACACCCAATTTG
Length	2523

Gene

Sequence id	CopciAB_503401.T0
Sequence	>CopciAB_503401.T0 AAACCCATTCCAGGAGACTTCGACGAATGTAGGGCAGTGAGCTCTCTGGATCGACTTACGCCTCAATGAGTGGAA GTAGCACCAAACTCTGGATTGCCATGTCATTTCCGAAGGAGCTCCTCTGGCTGACACCTTGCCAATACCGTGGCG GTTAACCTCACGACTTGTTCTGTGTTCCAGACAGCCGCCAGATAGAAAACACGGAGATCCTTCGCGTGGATCTCT TACTCCCCGACTCCATGTGCACCCCTGGCGACGTCTGTTGACAATACTGGCTCTGCGATTGCTGACCTCCCCGGC ACGATATCTGGCACCAACGCTATGGCGATTAACATTCCTGCTCCTACCCGACTTCTAACCCTGAGCGCTCGAGCT CCATCATCACCACCAGACTCGCCGGATCTTAATCCTCGACCGGACAGTACTTGCGTTCCCTGGATCCCTGATCCC GCAAAATCGCATGCACTAAAGCCTACCTACTCGATAACCAGCTCCACCATCAACACGCAAGATCATTCAAAACGG GGTTCCTTGAACCTTGAATCCCACATGTGGGCTACTTGTAACGACGATAAGCCTCTTTACAGCAGCGACAGCGGG CCATCTCTGAGCTCGGGGAAAAGGAGTGCACGGTGCGGGAGAATCACCCTCGTCATCATTGGTGTGGCTTCTGTG ATTCTCCTAGGGGTCTTTTTGCCTCTTCATTTTGGAGTCCTTCGATCTTTACACCACGGAAATACAGTCCCACTT TCCCGAGGCAACGAAACAAACAGCCAACCGACTACTCACACATTGCTGGTGCGTCTTCACTTCACGCGATTCGCT TGTCTTGACCGGTATCTCATAGCGGGGAGGCGACGGCTCGGAAGTGACCACGGCGGACGGAACCAAATTTACTTA TCGCAATCCATTCGGCGGATTCTGTATGTACTCCTTCGTCCCTCTTCTCTGGTGCCACACTGACGTCTTGGATCC AGGGATCTCTGACCCTGAAGACCCCTTTAATCTCGACGCACAGCCGAATGAATGGACCCCACCCCTCAACAGGTC CTGGCGCTGGGGTCAGGATCGAATCTTCGGAGTCAATCTTGGTGGATTGTTCGTCCTCGAGCCGTTCATTACTCC AGGTGTGTTCGAAGCTCGACCAGGATCTGTGGACGAGTACACCCTGTCGGAGATGATGCGCGACGGGGTCAATGG CACCCAGGGATTCCAAGATCTCGAGGAGCATTACAAGACTTTTATCGTAAGTTCTTAATTCCCATAGCACTTGGC CATGGCTGATAGAGCTGTGGGTAGACTGAGAAAGACATCGCTGAGATTGCCGGTGCAGGGCTGAATTGGCTGCGC GTTCCCTTAGGATTTTGGGCTGTCGAGGTATACGAGAACGAACCATTCCTGGAACGGACTTCTTGGACGTGAGTA TGATCACTTTCTCTTTTCAAATGACTGACTCACCGCCTTTCTCCCAAGATATTTCCTACGCATCGTCGAATGGGC AAGAAAGTACGGTTTAAGGATTTACCTCGACCTTCATGCTGTACCTGGTGGTCAAAACGGTATGTGACAATGTTG TACGACGCCTGTGATCGAAGACTTTAACACGTGCTCTTTAGGAATGAATCACTCCGGACGGTAGGACTCATTTAC GATGTTAGTCTATCAATCCCAAACGCTTCCTGAATTTTCGACAGCGTTCACCGGATCAGTTTCCTTGCTGGAAAC ATGGGTCTCGCCAATGCGCAGCGGACCCTCTATTACTTGCGTGTCTTAACCGAATTCATATCCCAGCCTCAGTAC TCGTCTGTCATTCCTGTTCTCGGAATCCTCAATGAGCCACTGTCGGAGGAACTTGGAATGGAGGCGCTGTCTAGC TTTTATCTTGAGGCGTACACGATGATCCGCAACATCACTGGGTACGGCGAAGGAAACGGGCCGGTGAGTATATCC GGTTCTGCTGCTTAACGTCCCAATTAATACTTATCTGTAGTACATTGCTATCGGTGACGGGCTGCGCTCGCCATT GGATTGGGAAGGCCTCCTTCCCAACGCAGATCGTGTTATCATGGATGCGCATCCATATGTCGCATTCGACCGTAG CCATGACACGTCTCCCCTTACCGATCTCGCTGAAGATGGCGAATTTGGTGGGATCTGGCCAAGGACCGCTTGTCA GCGATGGGGACCCCTCATCAACTCTACGTACGTCAGGGCTCAGAAGGTATCGCTGTTTCGCCGGTCTGATTTCAT CAGTAGAAAAATGGCTCTGGGCGTCACCATTGGCGGAGAGTTCTCAGGAGCTCTAAACGATTGTGGCCGGTACAT TCGCGAAGTTGGTGTCACGTCGGATCACCCCCAATGCCGATTGTATGACGACTGGGAGAACTGGACCGATGAACT CAAGGCGGGACTGCAAAACTTCATCTTGGCGAGTATGGACGCAATCGGTGATTTCTTCTTTTGGACATGGAAGGT CAGGCTCTGTCTAGTCGCCCCTTAAACCTTTTAATATTGACTTATTGCTGTGTTATAGATAGGACCTTCGATCGA AGGGAAGATCACCGCCCCATTTTGGTCGTACAAGCTCGGTTTAGAACAGGGATGGATTCCTCGGGACCCACGCAC CTCGTTTGGAAAATGTGCTAGGCTCGGTATCAGCAGCGCGCCGTTCGATGGCACCTACAAGCCCTGGCAGACTGG AGATTTTGAGTCAGAGCCGACCATTCCCGCTGAATATCTCGCGAACAACGCTTGGCCGCCTGGGACCCTTACTCG TGCCGATATGCCCGTTGCTTTGCTGCCTACGTATGCTACCACCGGTTCGGTCATCACTCTCCCTGTTCCGACGTA CTCTGGTGCGCCTGCCTCTGCTACTGAGAACTTGAGGGGATGGTATAACGATGCTGATACTCGAAGGGGAGTGAC TCCCATTGGCGGTTGCAAGTACCCTGATCCCTATGTGGTTAAATTCGATGTTCTACCTACGGCTCGGTGCGGAGA ATAGACACCCAATTTG
Length	3016

CopciAB_503401 Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Reciprocal best hits in model fungi

Orthologs in mushroom models

Expression

General data

Annotation summary

Conserved domains

SignalP

Transmembrane domains

InterPro

GO

KEGG

EggNOG

CAZy

Transcription factor

Conservation of CopciAB_503401 across fungi.

Protein

Coding

Transcript

Gene

CopciAB_503401
Coprinopsis cinerea A43mutB43mut pab1-1 #326