CopciAB_187372
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name	CopciAB_187372	Strain	Coprinopsis cinerea Okayama 7
Standard name	-	Synonyms	187372
Uniprot id		Functional description	protein serine/threonine kinase activity
Location	scaffold_9:1376423..1378993	Strand	-
Gene length (nt)	2571	Transcript length (nt)	2276
CDS length (nt)	1935	Protein length (aa)	644

Reciprocal best hits in model fungi

Strain name	Gene / Protein name

Orthologs in mushroom models

Strain name	Gene / Protein name	Pident	E-value	Bits
Hypsizygus marmoreus strain 51987-8	Hypma_RDB23495	29.1	8.962E-19	91

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	54.4152	1.3722	0.7923
oidia	43.0627	3.5518	2.0506
vegetative_mycelium	39.4779	1.7066	0.9853
primordia	34.7659	1.9366	1.1181
hyphal_knot	30.2837	0.5324	0.3074
young_fruiting_body	12.9411	1.4115	0.815

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	40.0016	12.1651	7.0235
Wheat bran	12.8896	2.9657	1.7123
Horse manure	25.2878	3.8399	2.2169
Oak leaves	19.2818	2.8592	1.6507
Hay	19.086	2.3093	1.3333
Corn stalk	19.1331	4.371	2.5236
Pectine	26.1361	2.0181	1.1652
Microcrystalline cellulose	22.1369	3.6613	2.1138
Xylose	28.3508	7.7845	4.4944
Cellobiose	36.6657	9.4245	5.4412
Lignin	26.5053	6.215	3.5882
Apple peels	31.4463	5.5618	3.2111

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	25.7761	0.9757	0.5633
Bsubtilis	35.8513	1.5915	0.9189
Ecoli	31.5677	1.5625	0.9021

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	1.4455	0.2308	0.1333
BS 4h	2.8428	0.4484	0.2589
BS 8h	2.4475	0.4447	0.2567
BS 12h	1.3204	0.0506	0.0292
Oidia 0 h	6.7804	0.5366	0.3098
Oidia 18 h	2.6656	0.9452	0.5457
Sclerotia	10.6682	1.7759	1.0253

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	8.5205	1.3158	0.7597
DM 36h	7.4031	1.3267	0.766
DM 60h	5.5052	2.1558	1.2447
DM 84h	4.6782	1.1737	0.6776
DM 108h	6.9765	0.0216	0.0125
DM 132h	7.8026	0.0475	0.0274
DM 156hAE	14.2712	1.3101	0.7564
ELI1hAE	9.9198	2.9848	1.7233
ELI2hAE	9.1193	1.5087	0.8711
LI2hAE	7.6173	2.6109	1.5074
LI6hAE	9.2055	1.7319	0.9999
LI12hAE	11.9235	2.357	1.3608
LI18hAE	12.2878	1.2348	0.7129
LI 24hAE	14.0501	1.3499	0.7793
DM 156hAM	8.7089	3.8841	2.2425
ELI1hAM	6.5478	2.5024	1.4448
ELI2hAM	4.6208	0.5474	0.3161
LI2hAM	4.6121	0.7731	0.4463
LI6hAM	6.9831	1.3608	0.7857
LI12hAM	8.3826	1.032	0.5959
LI18hAM	7.801	2.7798	1.6049
LI 24hAM	7.1507	0.9683	0.5591
LI 24hHK	12.1127	1.6691	0.9636
L/D 6h	13.9221	5.4657	3.1556
L/D 12h	16.3653	3.7841	2.1848
L/D 18h	9.1618	4.1956	2.4224
L/D 24h	11.6514	2.4162	1.395

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	19.54	4.7521	2.7436
Hyphal knots	30.7374	20.4004	11.7782
Primordium 1	19.3427	4.1014	2.3679
Primordium 2	17.6164	2.744	1.5842
Young Fruiting body cap	133.7838	9.1639	5.2908
Younf fruiting body gill	19.4736	2.072	1.1963
Young fruiting body stipe	64.5066	25.0058	14.4371
Mature fruiting body cap_gill	42.8456	24.2173	13.9819
Mature fruiting body stipe	37.2066	12.4575	7.1923

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	38.3854	6.7827	3.916
NH4NO3	21.7955	3.3832	1.9533
Proline	25.6633	5.6606	3.2681
Tryptophan	21.8249	4.1224	2.3801
Isoleucin	22.7923	6.3602	3.672
Arginine	23.8401	4.0456	2.3357
Metionine	30.8082	2.1926	1.2659
NaNO3	24.593	0.4588	0.2649

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	38.3854	6.7827	3.916
Citrus peel	10.0512	3.4759	2.0068
Poplar leaves	26.1647	3.5262	2.0359
Typha leaves	22.5721	4.8081	2.776
Overwintered Salix leaves	24.7843	2.3429	1.3527
Reed flowering	18.1781	7.7647	4.4829
Tigernut	17.2928	2.8381	1.6386
Energy cane	22.7412	3.7817	2.1834
Guar gum	23.4534	7.6094	4.3933
Apple peels	22.2688	4.2991	2.4821
Cellobiose	32.344	4.4239	2.5541
Corn stalk	30.4241	1.7552	1.0133
Horse manure	32.026	3.6596	2.1129
Lignin	20.3938	7.0646	4.0788
Microcrystalline cellulose	25.4186	3.3166	1.9148
Oak leaves	30.1477	1.085	0.6264
Pectin esterified	24.4709	2.2085	1.2751
Poplar sawdust	35.1402	1.2773	0.7375
Wheat bran	20.1911	3.1805	1.8363
Chlamydomonas reinhardtii	26.99	2.816	1.6258
Vertatryl alcohol	20.3513	2.2904	1.3224
Furfural	14.1921	0.7681	0.4434
Autoclaved mycelium	29.2311	2.7233	1.5723

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	34.3838	2.2346	1.2901
Ribose	39.8376	5.9699	3.4467
Mannose	39.6501	2.3664	1.6733
Fructose	40.8669	5.1142	2.9527
Arabinose	41.8635	1.1892	0.6866
Xylose	35.5429	3.1122	1.7968
Galacturonic acid	42.587	2.4279	1.4017
Rhamnogalacturonan	43.9556	0.2777	0.1603
Pectin esterified	37.3213	5.3744	3.1029
Polygalacturonic acid	39.9994	4.3549	2.5143
Sodium acetate	44.8935	4.2321	2.4434
No nitrogen	37.1911	1.4907	0.8607
BSA	41.4739	1.0526	0.6077
Glutamine	40.2857	1.8323	1.0579
No phosphate	27.9704	1.1957	0.6903
No carbon	44.5589	6.4213	4.5405
No sulphur	40.4984	2.2681	1.3095

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	38.3854	6.7827	3.916
Amylose	24.6677	3.9689	2.2914
Fucose	26.4859	1.9109	1.1033
Galactose	31.5841	3.1242	1.8038
Lactose	25.0543	3.6923	2.1318
Maltose	24.2895	3.3824	1.9528
Mannitol	27.2798	1.3935	0.8046
Rhamnose	27.7662	1.8799	1.0853
Sorbitol	30.5668	5.6446	3.2589
Trehalose	25.1202	2.8177	1.6268
Glycerol	23.5939	1.4468	0.8353
Glucuronic acid	29.0701	3.9107	2.2578
Arabinan	25.4295	5.6309	3.251
Galactan	18.4381	2.8424	1.6411
Galactomannan	22.7771	4.7145	2.7219
Glucan	25.5577	5.4879	3.1684
Xylan	26.2106	3.3243	1.9193
Xyloglucan	27.7551	2.8717	1.658
Arabinogalactan	28.1922	5.6047	3.2359
Pectin	23.0495	8.9069	5.1424
Rhamnogalacturonan	29.369	2.5797	1.4894
Polygalacturonic acid	24.9566	4.4277	2.5563
Mannan	25.8062	2.6964	1.5568
Amylopectin	19.2003	1.6175	0.9338
Inulin	28.0156	3.3045	1.9078
BSA	27.3484	2.4391	1.4082

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	5.5052	2.1558	1.2447
2h WAT	7.5024	1.1849	0.6841
4h WAT	7.5153	1.6908	0.9762
8h WAT	10.4857	2.2523	1.3003
16h WAT	8.8509	1.2314	0.711
24h WAT	9.457	2.3411	1.3516
WAT hyphal knot -30h	11.0008	0.8045	0.4645
WAT hyphal knot -22h	11.1194	1.3326	0.7694
WAT hyphal knot -15h	12.987	2.6117	1.5079
WAT hyphal knot -7.5h	11.3645	4.6436	2.681
WAT hyphal knot	10.2755	3.0385	1.7543
WAT hyphal knot +7.5h	8.9888	1.7521	1.0116

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	24.5281	3.0483	1.7599
Straw 3h	11.6373	4.4629	2.5766
Straw 6h	15.8124	2.0894	1.2063
Straw 12h	23.6301	3.5519	2.0507
Straw 24h	17.3716	5.5778	3.2204

Stress conditions 1

Expression profiling under various stress conditions

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
Flask control	3.9597	1.0703	0.618
Frost (-20C, 30min)	10.6358	1.4028	0.8099
Heat shock (47C, 2h)	7.8919	3.1543	1.8211
High CO2	5.3423	0.2211	0.1276
Drought (4% agar, 12h)	3.4234	1.9627	1.1332
Oxidative (1mM H2O2, 3h)	4.6197	0.442	0.2552
Acidic (pH4, 3h)	2.7063	0.8165	0.4714
Alkaline (pH9, 3h)	3.6784	0.5865	0.3386
Osmotic (sorbitol 2h)	2.7397	1.0421	0.6017
CongoRed (3h)	5.4297	1.4339	0.8279
Cobalt chloride control	5.9345	0.7345	0.4241
Cobalt chloride 2mM	8.1436	2.3293	1.3448

Stress conditions 2

Expression profiling under various stress conditions

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
Flask control	7.3742	3.4192	1.9741
Cold stimulation	7.9049	3.2246	1.8617
Scratched surface	10.1381	2.8059	1.62
Ca2+, 200mM, 24h	3.8157	2.0934	1.2087
Cu2+, 2mM, 6h	3.482	0.69	0.3984
Voriconazole	8.2619	2.9971	1.7304
Trichoderma interaction, early	6.9432	2.3129	1.3354
Trichoderma interaction 60h	1.7015	1.8731	1.0814
Cobalt chloride 2mM repeat	19.5007	3.6877	2.1291
Hypoxia	6.6807	1.0741	0.6201
Hypoxia control	5.3068	2.3291	1.3447
Protoplastation control	7.2782	0.9258	0.6546
Protoplastation 3.5h	2.4541	1.7384	1.2292
Protoplastation 1.5h	4.0843	1.5913	1.1252

General data

Systematic name	-
Protein id	CopciAB_187372.T0
Description	protein serine/threonine kinase activity

Annotation summary

Conserved domains

Analysis	Signature accession	Signature description	InterPro Accession	Start	End
Pfam	PF00069	Protein kinase domain	IPR000719	382	573

SignalP

Prediction	Start	End	Score
No records

Transmembrane domains

Domain n	Start	End	Length
No records

InterPro

Accession	Description
IPR011009	Protein kinase-like domain superfamily
IPR000719	Protein kinase domain
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
K01104
K08867

EggNOG

COG category	Description
G	protein serine/threonine kinase activity

CAZy

Class	Family	Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_187372 across fungi.

Arrow shows the origin of gene family containing CopciAB_187372.

Protein

Sequence id	CopciAB_187372.T0
Sequence	>CopciAB_187372.T0 MNSTPASNPFSAFSAPPPQPIFTPPKEDVQPGSTSTNPIDIGSTRVFFPPVFFPPPARNNASGGNSSGTDSDDDD QCRVFSFHPSSRGPPSTFRIQLPSAQFPSTSCATPSAARNDPISLGIVPPTHRLRKSGLFVDRKLDDTTTRELPP AKKPRFQHDVLLESGAISLSAPIEAVHPSDLESDDADDVDEDIVRPDALDDDDYLHDLEDEASLDGGYEWQGYDP EDDDTDEQSDYFASEDYRSNPYDADCEDWDETDQFVVLKHEDILANNAYTKTFSASVVRRKSDLDVHSILREKAP RYFVKIVKGRYWLNKEFKAYMRIDQGPDHVMQGDVSIDPFIHKLDAFLDYDLVPRTESQRVYISSLLQGDLFSAS PQAIAINRKHWLAQVTAGIHYLHTIGIIHRDIKLENVLLDYQNNALITDFDHAYTHPSTAPLDYGTNYCYHRSGT HGNMAPEITKMDADVVNRLLKVDPFEQDPANGLYGPACDWYSFGVMTFQLASEEARKDIERAMRNYREYRKNCGT EVGAPAIFGFFCEQYGVDGDMAEMLWELLHPEPASRFRFEDLFSHSYFKGENLDEEGNPVSVFVTLSDDSRDRPF VRPDYKKSTKITVDLNTCTTWDGAGSVWVADHSPIWDILSGRAH
Length	644

Coding

Sequence id	CopciAB_187372.T0
Sequence	>CopciAB_187372.T0 ATGAACTCGACACCAGCGTCCAATCCCTTTTCCGCCTTCTCCGCTCCCCCGCCCCAGCCAATCTTCACTCCGCCC AAAGAAGATGTCCAACCTGGCTCAACTTCAACGAATCCAATCGATATCGGTTCCACTCGCGTATTCTTCCCTCCA GTCTTTTTCCCCCCTCCAGCGCGCAATAACGCCAGTGGTGGCAACTCCAGTGGCACAGACTCTGACGACGACGAC CAGTGCCGCGTCTTTTCCTTCCACCCTTCGAGCAGAGGTCCCCCATCAACCTTCCGCATCCAACTCCCTTCCGCC CAGTTCCCTTCGACTTCCTGTGCCACTCCATCTGCCGCAAGGAATGACCCTATCTCTCTCGGTATCGTCCCTCCC ACCCACCGCCTGCGCAAGTCAGGACTCTTTGTCGATCGCAAACTAGACGACACCACCACTAGAGAGCTTCCCCCC GCCAAGAAACCAAGATTCCAACATGACGTCCTCCTAGAGAGTGGGGCTATCAGTCTCTCCGCCCCTATCGAGGCT GTTCACCCATCCGATCTTGAATCTGACGACGCAGATGATGTAGACGAAGATATCGTCCGTCCGGATGCCCTCGAT GACGATGATTACCTTCACGATCTCGAGGACGAGGCTTCGCTCGACGGTGGCTACGAGTGGCAGGGGTACGATCCC GAAGACGACGATACAGACGAACAGTCCGACTACTTCGCTTCTGAGGACTATCGCAGTAACCCCTATGACGCGGAC TGCGAGGACTGGGACGAGACCGACCAGTTCGTAGTCCTAAAACACGAAGATATCCTCGCCAACAACGCCTATACG AAAACTTTCAGTGCTTCGGTCGTACGTCGGAAGTCCGATCTTGATGTTCATTCCATCCTCCGCGAGAAAGCCCCT CGCTATTTCGTCAAGATCGTCAAGGGCCGGTACTGGTTGAATAAGGAGTTCAAAGCCTACATGCGGATTGATCAA GGCCCTGATCACGTCATGCAAGGCGATGTTTCCATCGACCCTTTCATACACAAACTCGATGCCTTTCTTGATTAT GACCTGGTTCCGCGGACCGAAAGTCAGCGCGTTTACATCTCGTCTCTCCTTCAGGGAGATTTGTTCAGTGCTAGT CCGCAGGCCATCGCCATCAACAGGAAGCATTGGCTCGCTCAAGTGACCGCAGGCATCCACTACCTCCACACAATC GGCATCATCCACCGCGACATTAAGCTCGAAAACGTTTTACTGGACTACCAAAACAACGCTCTCATCACCGACTTT GACCACGCCTACACTCATCCCTCTACCGCCCCTCTCGACTACGGCACCAACTACTGCTACCATCGCTCAGGGACG CATGGAAACATGGCGCCCGAAATCACCAAAATGGACGCAGACGTGGTCAACCGCCTCCTCAAGGTCGACCCATTC GAGCAAGACCCGGCGAATGGCCTGTATGGCCCTGCATGCGACTGGTACAGTTTCGGCGTTATGACGTTCCAACTG GCGTCAGAAGAAGCTAGAAAGGATATAGAGAGAGCCATGAGAAACTATAGAGAATACCGGAAGAACTGCGGGACT GAAGTTGGTGCTCCTGCGATTTTTGGTTTCTTTTGTGAGCAGTATGGGGTGGATGGTGATATGGCTGAGATGCTA TGGGAGTTGTTACATCCCGAGCCTGCTTCCAGGTTCAGATTCGAAGATCTCTTCTCACATAGCTACTTCAAGGGC GAAAATCTAGACGAGGAAGGAAATCCAGTTTCTGTCTTTGTGACTCTCAGTGATGACTCCCGCGATAGACCTTTC GTCCGACCTGACTATAAAAAGTCCACCAAAATCACTGTCGATCTGAACACTTGCACAACTTGGGATGGCGCAGGT TCTGTCTGGGTCGCAGACCATTCTCCCATTTGGGATATCCTCAGTGGCCGTGCTCATTAA
Length	1935

Transcript

Sequence id	CopciAB_187372.T0
Sequence	>CopciAB_187372.T0 AACTTGAACTTCAACTCGAACATTCATTGCTCTCTGGTGCATCCCTTCGAGTGGTAGCCCTTTCCGACGAACTAG GTATCCTGCAGTGCCTGTGGATCGAGCCCCTATAGAAGATGAACTCGACACCAGCGTCCAATCCCTTTTCCGCCT TCTCCGCTCCCCCGCCCCAGCCAATCTTCACTCCGCCCAAAGAAGATGTCCAACCTGGCTCAACTTCAACGAATC CAATCGATATCGGTTCCACTCGCGTATTCTTCCCTCCAGTCTTTTTCCCCCCTCCAGCGCGCAATAACGCCAGTG GTGGCAACTCCAGTGGCACAGACTCTGACGACGACGACCAGTGCCGCGTCTTTTCCTTCCACCCTTCGAGCAGAG GTCCCCCATCAACCTTCCGCATCCAACTCCCTTCCGCCCAGTTCCCTTCGACTTCCTGTGCCACTCCATCTGCCG CAAGGAATGACCCTATCTCTCTCGGTATCGTCCCTCCCACCCACCGCCTGCGCAAGTCAGGACTCTTTGTCGATC GCAAACTAGACGACACCACCACTAGAGAGCTTCCCCCCGCCAAGAAACCAAGATTCCAACATGACGTCCTCCTAG AGAGTGGGGCTATCAGTCTCTCCGCCCCTATCGAGGCTGTTCACCCATCCGATCTTGAATCTGACGACGCAGATG ATGTAGACGAAGATATCGTCCGTCCGGATGCCCTCGATGACGATGATTACCTTCACGATCTCGAGGACGAGGCTT CGCTCGACGGTGGCTACGAGTGGCAGGGGTACGATCCCGAAGACGACGATACAGACGAACAGTCCGACTACTTCG CTTCTGAGGACTATCGCAGTAACCCCTATGACGCGGACTGCGAGGACTGGGACGAGACCGACCAGTTCGTAGTCC TAAAACACGAAGATATCCTCGCCAACAACGCCTATACGAAAACTTTCAGTGCTTCGGTCGTACGTCGGAAGTCCG ATCTTGATGTTCATTCCATCCTCCGCGAGAAAGCCCCTCGCTATTTCGTCAAGATCGTCAAGGGCCGGTACTGGT TGAATAAGGAGTTCAAAGCCTACATGCGGATTGATCAAGGCCCTGATCACGTCATGCAAGGCGATGTTTCCATCG ACCCTTTCATACACAAACTCGATGCCTTTCTTGATTATGACCTGGTTCCGCGGACCGAAAGTCAGCGCGTTTACA TCTCGTCTCTCCTTCAGGGAGATTTGTTCAGTGCTAGTCCGCAGGCCATCGCCATCAACAGGAAGCATTGGCTCG CTCAAGTGACCGCAGGCATCCACTACCTCCACACAATCGGCATCATCCACCGCGACATTAAGCTCGAAAACGTTT TACTGGACTACCAAAACAACGCTCTCATCACCGACTTTGACCACGCCTACACTCATCCCTCTACCGCCCCTCTCG ACTACGGCACCAACTACTGCTACCATCGCTCAGGGACGCATGGAAACATGGCGCCCGAAATCACCAAAATGGACG CAGACGTGGTCAACCGCCTCCTCAAGGTCGACCCATTCGAGCAAGACCCGGCGAATGGCCTGTATGGCCCTGCAT GCGACTGGTACAGTTTCGGCGTTATGACGTTCCAACTGGCGTCAGAAGAAGCTAGAAAGGATATAGAGAGAGCCA TGAGAAACTATAGAGAATACCGGAAGAACTGCGGGACTGAAGTTGGTGCTCCTGCGATTTTTGGTTTCTTTTGTG AGCAGTATGGGGTGGATGGTGATATGGCTGAGATGCTATGGGAGTTGTTACATCCCGAGCCTGCTTCCAGGTTCA GATTCGAAGATCTCTTCTCACATAGCTACTTCAAGGGCGAAAATCTAGACGAGGAAGGAAATCCAGTTTCTGTCT TTGTGACTCTCAGTGATGACTCCCGCGATAGACCTTTCGTCCGACCTGACTATAAAAAGTCCACCAAAATCACTG TCGATCTGAACACTTGCACAACTTGGGATGGCGCAGGTTCTGTCTGGGTCGCAGACCATTCTCCCATTTGGGATA TCCTCAGTGGCCGTGCTCATTAACGAGGGCACGTCCCGATCTATCATTTGAAATGACAAGCGACTTAACGTCCAG GACGCCTTATGAACATCGACCACATAAATTATAGACACCATGCATCCTATCATTATTCCTCTTGCCCATGTACTA CTCGCAATTATGGATTGAAGGACTCCCACTGTAGCTAATTACCCATGTAAACTACCATGTATTTCGACCCTTGTA CTATGCCAATGACACGACGATTCACG
Length	2276

Gene

Sequence id	CopciAB_187372.T0
Sequence	>CopciAB_187372.T0 AACTTGAACTTCAACTCGAACATTCATTGCTCTCTGGTGCATCCCTTCGAGTGGTAGCCCTTTCCGACGAACTAG GTATCCTGCAGTGCCTGTGGATCGAGCCCCTATAGAAGATGAACTCGACACCAGCGTCCAATCCCTTTTCCGCCT TCTCCGCTCCCCCGCCCCAGCCAATCTTCACTCCGCCCAAAGAAGATGTCCAACCTGGCTCAACTTCAACGAATC CAATCGATATCGGTTCCACTCGCGTATTCTTCCCTCCAGTCTTTTTCCCCCCTCCAGCGCGCAATAACGCCAGTG GTGGCAACTCCAGTGGCACAGACTCTGACGACGACGACCAGTGCCGCGTCTTTTCCTTCCACCCTTCGAGCAGAG GTCCCCCATCAACCTTCCGCATCCAACTCCCTTCCGCCCAGTTCCCTTCGACTTCCTGTGCCACTCCATCTGCCG CAAGGAATGACCCTATCTCTCTCGGTATCGTCCCTCCCACCCACCGCCTGCGCAAGTCAGGACTCTTTGTCGATC GCAAACTAGACGACACCACCACTAGAGAGCTTCCCCCCGCCAAGAAACCAAGATTCCAACATGACGTCCTCCTAG AGAGTGGGGCTATCAGTCTCTCCGCCCCTATCGAGGCTGTTCACCCATCCGATCTTGAATCTGACGACGCAGATG ATGTAGACGAAGATATCGTCCGTCCGGATGCCCTCGATGACGATGATTACCTTCACGATCTCGAGGACGAGGCTT CGCTCGACGGTGGCTACGAGTGGCAGGGGTACGATCCCGAAGACGACGATACAGACGAACAGTCCGACTACTTCG CTTCTGAGGACTATCGCAGTAACCCCTATGACGCGGACTGCGAGGACTGGGACGAGACCGACCAGTTCGTAGTCC TAAAACACGAAGATATCCTCGCCAACAACGCCTATACGAAAACTTTCAGTGCTTCGGTCGTACGTCGGAAGTCCG ATCTTGATGTTCATTCCATCCTCCGCGAGAAAGCCCCTCGCTATTTCGTCAAGATCGTCAAGGGCCGGTACTGGT TGAATAAGGAGTTCAAAGCCTACATGCGGATTGATCAAGGCCCTGATCACGTCATGCAAGGCGATGTTTCCATCG ACCCTTTCATACACAAACTCGATGCCTTTCTTGATTATGACCTGGTTCCGCGGACCGAAAGTCAGCGCGTTTACA TCTCGGTGAGTATTCTCCTCATTTCGAACAGGGCCTCAAGTCCTCACGTCGTGCTTTTGCAGTCTCTCCTTCAGG GAGATTTGTTCAGTGCTAGTCCGCAGGCCATCGCCATCAACAGGAAGCATTGGCTCGCTCAAGTGGTATGCTCCC TGTCCCTGTTAACCATTTTCATCGATTAACATCTTCTGTCCAGACCGCAGGCATCCACTACCTCCACACAATCGG CATCATCCACCGCGACATTAAGCTCGAAAACGTTTTACTGGACTACCAAAACAACGCTCTCATCACCGACTTTGA CCACGCCTACACTCATCCCTCTACCGCCCCTCTCGACTACGGCACCAACTACTGCTACCATCGCTCAGGGACGCA TGGAAACATGGCGCCCGAAATCACCAAAATGGACGCAGACGTGGTCAACCGCCTCCTCAAGGTCGACCCATTCGA GCAAGACCCGGCGAATGGCCTGTATGGCCCTGCATGCGACTGGTACAGTTTCGGCGTTATGACGTTCCAACTGGC GTCAGAAGAAGCTAGAAAGGTTAGTGCGCCATGGCAACAGCCTGCATTAGTATCATCTACCCGGGACTTTGACTC ACATGGGTGCCATTGACAGGATATAGAGAGAGCCATGAGAAACTATAGAGAATACCGGAAGAACTGCGGGACTGA AGTTGGTGCTCCTGCGATTTTTGGTTTCTTTTGTGAGCAGTATGGGGTGGATGGTGATATGGCTGAGATGCTATG GGAGGTACGCTCGTATCGGACAGCAGTACTGCGGCGCTCAACTGACTTCTGTTCTCAGTTGTTACATCCCGAGCC TGCTTCCAGGTTCAGATTCGAAGATCTCTTCTCACATAGCTACTTCAAGGGCGAAAATCTAGACGAGGAAGGAAA TCCAGTTTCTGTCTTTGTGACTCTCAGTGATGACTGTACGTTCTCTTCTTGACCTGAATTCCTTTAAGTCTCCTC ATGGAGAACCTTCCAGCCCGCGATAGACCTTTCGTCCGACCTGACTATAAAAAGTCCACCAAAATCACTGTCGAT CTGAACACTTGCACAACTTGGGATGGCGCAGGTTCTGTCTGGGTCGCAGACCATTCTCCCATTTGGGATATCCTC AGTGGCCGTGCTCATTAACGAGGGCACGTCCCGATCTATCATTTGAAATGACAAGCGACTTAACGTCCAGGACGC CTTATGAACATCGACCACATAAATTATAGACACCATGCATCCTATCATTATTCCTCTTGCCCATGTACTACTCGC AATTATGGATTGAAGGACTCCCACTGTAGCTAATTACCCATGTAAACTACCATGTATTTCGACCCTTGTACTATG CCAATGACACGACGATTCACG
Length	2571

CopciAB_187372 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_187372 across fungi.

Protein

Coding

Transcript

Gene

CopciAB_187372
Coprinopsis cinerea A43mutB43mut pab1-1 #326