CopciAB_508178
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name	CopciAB_508178	Strain	Coprinopsis cinerea Okayama 7
Standard name	-	Synonyms	508178
Uniprot id		Functional description	Serine/Threonine protein kinases, catalytic domain
Location	scaffold_1:3542468..3545593	Strand	-
Gene length (nt)	3126	Transcript length (nt)	2691
CDS length (nt)	1881	Protein length (aa)	626

Reciprocal best hits in model fungi

Strain name	Gene / Protein name

Orthologs in mushroom models

Strain name	Gene / Protein name	Pident	E-value	Bits
Agrocybe aegerita	Agrae_CAA7258754	54.2	1.563E-206	650
Hypsizygus marmoreus strain 51987-8	Hypma_RDB29513	54.5	1.638E-197	624
Pleurotus eryngii ATCC 90797	Pleery1_1443782	50.4	1.087E-180	575
Flammulina velutipes	Flave_chr08AA00689	62.4	1.161E-178	569
Lentinula edodes W1-26 v1.0	Lentinedodes1_15449	53.6	1.248E-178	569
Agaricus bisporus var bisporus (H97)	Agabi_varbisH97_2_189979	58.6	3.242E-172	550
Agaricus bisporus var. burnettii JB137-S8	Agabi_varbur_1_110126	58.4	1.649E-171	548
Auricularia subglabra	Aurde3_1_1000885	48	4.083E-158	510
Lentinula edodes NBRC 111202	Lenedo1_248934	63.4	7.402E-154	497
Grifola frondosa	Grifr_OBZ79242	46.2	1.606E-152	493
Ganoderma sp. 10597 SS1 v1.0	Gansp1_113206	45.7	4.373E-149	483
Schizophyllum commune H4-8	Schco3_63296	68.1	1.192E-148	482
Pleurotus ostreatus PC9	PleosPC9_1_85400	47.8	1.24E-143	467
Pleurotus ostreatus PC15	PleosPC15_2_175607	47.1	6.152E-143	465
Lentinula edodes B17	Lened_B_1_1_4179	72.1	1.491E-127	420

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	58.8886	4.7101	2.7194
oidia	86.356	27.6224	15.9478
vegetative_mycelium	194.6583	48.1	27.7706
primordia	88.0996	10.9958	6.3484
hyphal_knot	78.6845	19.9346	11.5092
young_fruiting_body	88.3227	4.5067	2.6019

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	46.6414	5.3968	3.1159
Wheat bran	65.8254	29.0001	16.7432
Horse manure	57.6695	23.4673	13.5489
Oak leaves	73.2886	9.2962	5.3672
Hay	77.0465	15.4768	8.9355
Corn stalk	74.8373	16.5612	9.5616
Pectine	95.2903	3.2399	1.8706
Microcrystalline cellulose	63.6347	9.737	5.6216
Xylose	117.7936	49.9541	28.841
Cellobiose	56.5279	2.6268	1.5166
Lignin	46.5449	8.4384	4.8719
Apple peels	43.8503	8.2452	4.7604

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	50.3313	7.2978	4.2134
Bsubtilis	44.8968	4.4908	2.5927
Ecoli	41.927	6.596	3.8082

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	91.6376	0.124	0.0716
BS 4h	47.2932	5.9449	3.4323
BS 8h	34.3017	0.8803	0.5082
BS 12h	14.8064	5.3116	3.0667
Oidia 0 h	192.0825	36.6037	21.1332
Oidia 18 h	15.9339	3.0189	1.743
Sclerotia	60.179	18.9603	10.9467

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	37.7205	8.678	5.0102
DM 36h	55.1376	17.1087	9.8777
DM 60h	56.0107	9.0186	5.2069
DM 84h	62.297	10.5116	6.0689
DM 108h	33.5464	0.7836	0.4524
DM 132h	34.3148	7.3763	4.2587
DM 156hAE	48.6004	14.5608	8.4067
ELI1hAE	59.3499	9.5036	5.4869
ELI2hAE	51.258	3.8651	2.2315
LI2hAE	56.0154	9.0276	5.2121
LI6hAE	107.2911	50.1017	28.9262
LI12hAE	162.7571	67.3752	38.8991
LI18hAE	160.9271	52.2919	30.1908
LI 24hAE	47.7965	1.6617	0.9594
DM 156hAM	63.5981	8.0336	4.6382
ELI1hAM	52.0049	6.7585	3.902
ELI2hAM	44.948	2.6757	1.5448
LI2hAM	45.6199	16.7892	9.6932
LI6hAM	56.347	14.5138	8.3796
LI12hAM	118.1562	32.4423	18.7306
LI18hAM	169.6659	99.7996	57.6193
LI 24hAM	57.4397	21.1247	12.1964
LI 24hHK	138.8681	48.8304	28.1922
L/D 6h	93.9627	32.5829	18.8117
L/D 12h	57.5321	17.107	9.8767
L/D 18h	220.0449	44.1011	25.4618
L/D 24h	377.461	198.4002	114.5464

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	42.1638	8.7186	5.0337
Hyphal knots	154.4277	58.6723	33.8745
Primordium 1	358.9069	222.005	128.1746
Primordium 2	189.8471	88.8989	51.3258
Young Fruiting body cap	206.6419	18.3635	10.6021
Younf fruiting body gill	29.7382	6.697	3.8665
Young fruiting body stipe	83.5129	46.8873	27.0704
Mature fruiting body cap_gill	480.15	362.1743	209.1014
Mature fruiting body stipe	118.1031	11.0809	6.3975

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	83.7967	12.9975	7.5041
NH4NO3	45.1668	8.4817	4.8969
Proline	70.9606	35.5629	20.5322
Tryptophan	39.6512	7.404	4.2747
Isoleucin	68.2508	13.1943	7.6177
Arginine	33.3599	4.488	2.5911
Metionine	53.3131	12.7492	7.3608
NaNO3	51.7651	8.1202	4.6882

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	83.7967	12.9975	7.5041
Citrus peel	18.1671	2.3831	1.3759
Poplar leaves	57.0035	4.287	2.4751
Typha leaves	64.8822	17.3537	10.0191
Overwintered Salix leaves	72.1126	14.8062	8.5484
Reed flowering	49.114	25.7008	14.8384
Tigernut	29.2697	1.9901	1.149
Energy cane	70.6506	14.844	8.5702
Guar gum	106.7744	73.7305	42.5683
Apple peels	35.2263	10.18	5.8775
Cellobiose	49.4013	2.097	1.2107
Corn stalk	72.0617	21.2256	12.2546
Horse manure	40.0405	8.7996	5.0805
Lignin	27.1995	8.1717	4.7179
Microcrystalline cellulose	41.407	3.916	2.2609
Oak leaves	60.5882	16.4697	9.5088
Pectin esterified	29.7474	5.756	3.3232
Poplar sawdust	42.3121	5.763	3.3273
Wheat bran	37.6579	13.9758	8.0689
Chlamydomonas reinhardtii	120.0269	22.6273	13.0639
Vertatryl alcohol	189.7236	32.7981	18.936
Furfural	28.4095	10.3663	5.985
Autoclaved mycelium	64.7364	26.8154	15.4819

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	99.978	11.1181	6.419
Ribose	108.3266	15.9017	9.1808
Mannose	102.8849	3.7558	2.6558
Fructose	120.5056	22.5067	12.9942
Arabinose	107.9862	3.7918	2.1892
Xylose	124.1716	19.6274	11.3319
Galacturonic acid	98.9168	32.1733	18.5753
Rhamnogalacturonan	90.6125	12.858	7.4236
Pectin esterified	107.6097	6.8907	3.9783
Polygalacturonic acid	115.4829	20.6418	11.9175
Sodium acetate	119.0465	6.0135	3.4719
No nitrogen	173.2398	18.4559	10.6555
BSA	113.5142	25.3299	14.6242
Glutamine	118.8456	17.3377	10.0099
No phosphate	68.1054	2.1058	1.2158
No carbon	96.0919	5.241	3.706
No sulphur	112.5336	12.0593	6.9624

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	83.7967	12.9975	7.5041
Amylose	93.2546	10.4577	6.0378
Fucose	94.888	10.3729	5.9888
Galactose	85.289	16.1331	9.3145
Lactose	44.5783	17.058	9.8485
Maltose	64.0113	38.2261	22.0698
Mannitol	45.341	28.6167	16.5219
Rhamnose	62.2205	13.3516	7.7086
Sorbitol	70.641	10.924	6.307
Trehalose	66.9062	30.761	17.7599
Glycerol	66.4956	13.0618	7.5412
Glucuronic acid	107.8033	39.7694	22.9609
Arabinan	70.375	31.1969	18.0115
Galactan	87.0862	6.4833	3.7431
Galactomannan	90.5369	55.43	32.0025
Glucan	51.8912	5.2194	3.0134
Xylan	138.3912	67.4571	38.9464
Xyloglucan	147.5907	18.6685	10.7783
Arabinogalactan	100.1191	0.5546	0.3202
Pectin	19.9102	9.7019	5.6014
Rhamnogalacturonan	20.6522	9.5975	5.5411
Polygalacturonic acid	74.2492	33.3469	19.2529
Mannan	90.6298	7.6031	4.3896
Amylopectin	39.3793	7.5484	4.3581
Inulin	82.9312	22.1338	12.779
BSA	37.5297	1.6364	0.9448

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	56.0107	9.0186	5.2069
2h WAT	136.1233	20.7442	11.9767
4h WAT	63.4926	11.8927	6.8663
8h WAT	60.1422	3.0094	1.7375
16h WAT	62.6587	7.3599	4.2493
24h WAT	72.8679	10.9227	6.3062
WAT hyphal knot -30h	68.1611	1.1436	0.6603
WAT hyphal knot -22h	118.5693	21.1286	12.1986
WAT hyphal knot -15h	148.8389	50.4792	29.1442
WAT hyphal knot -7.5h	69.9966	18.7169	10.8062
WAT hyphal knot	71.2408	11.3307	6.5418
WAT hyphal knot +7.5h	90.9527	13.6797	7.898

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	15.5563	8.6681	5.0045
Straw 3h	27.443	8.4865	4.8997
Straw 6h	24.6315	14.9542	8.6338
Straw 12h	60.9133	5.6016	3.2341
Straw 24h	40.5673	25.8391	14.9182

Stress conditions 1

Expression profiling under various stress conditions

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
Flask control	22.551	2.2984	1.327
Frost (-20C, 30min)	79.7683	13.798	7.9663
Heat shock (47C, 2h)	24.0128	4.3444	2.5083
High CO2	62.6583	11.387	6.5743
Drought (4% agar, 12h)	89.3957	4.124	2.381
Oxidative (1mM H2O2, 3h)	91.2705	29.6286	17.1061
Acidic (pH4, 3h)	25.2793	6.4239	3.7088
Alkaline (pH9, 3h)	32.3754	3.0607	1.7671
Osmotic (sorbitol 2h)	43.2831	11.9504	6.8995
CongoRed (3h)	47.6865	11.464	6.6188
Cobalt chloride control	53.8746	10.9284	6.3095
Cobalt chloride 2mM	80.5923	2.5822	1.4909

Stress conditions 2

Expression profiling under various stress conditions

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
Flask control	90.8732	76.9651	44.4358
Cold stimulation	69.9713	16.4935	9.5225
Scratched surface	93.6942	9.73	5.6176
Ca2+, 200mM, 24h	170.1285	47.6405	27.5053
Cu2+, 2mM, 6h	32.5663	5.7089	3.2961
Voriconazole	113.592	32.1726	18.5749
Trichoderma interaction, early	97.2748	9.693	5.5963
Trichoderma interaction 60h	62.7692	28.685	16.5613
Cobalt chloride 2mM repeat	66.8327	13.9367	8.0463
Hypoxia	32.4788	4.5012	2.5988
Hypoxia control	43.6523	6.9704	4.0243
Protoplastation control	88.1999	3.897	2.7556
Protoplastation 3.5h	63.4616	17.8598	12.6288
Protoplastation 1.5h	91.4365	29.0875	20.568

General data

Systematic name	-
Protein id	CopciAB_508178.T0
Description	Serine/Threonine protein kinases, catalytic domain

Annotation summary

Conserved domains

Analysis	Signature accession	Signature description	InterPro Accession	Start	End
Pfam	PF00069	Protein kinase domain	IPR000719	25	334

SignalP

Prediction	Start	End	Score
No records

Transmembrane domains

Domain n	Start	End	Length
No records

InterPro

Accession	Description
IPR000719	Protein kinase domain
IPR017441	Protein kinase, ATP binding site
IPR047173	STE20-related kinase adapter protein alpha/beta-like
IPR011009	Protein kinase-like domain superfamily
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
GO:0043539	protein serine/threonine kinase activator activity	MF

KEGG

KEGG Orthology
K08835

EggNOG

COG category	Description
T	Serine/Threonine protein kinases, catalytic domain

CAZy

Class	Family	Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_508178 across fungi.

Arrow shows the origin of gene family containing CopciAB_508178.

Protein

Sequence id	CopciAB_508178.T0
Sequence	>CopciAB_508178.T0 MGATPKFIGAVKDEWQLYSDRAEDYTIGEPIGFGASSIVYQALWKPADDPNAKPTPCALKVLDLDSLPPRSLQLL QRETTLMSLSKHPNVLRVRGSWMDGHRLYIALRLMSKGSVADVMRYGWPGGMDEEVVKCILRQTLKGLNYLHING FIHRDIKAANLLIDDDGTVLLGDLGVAADLAEDPHHHVSSNKSKVHAIPASVALSPHHSAITTGSRPKEATSPTR PGIGKRKSFVGTPCWMAPELIQGKQYDASADIWSFGITALELAQGHPPRFRESTQRVLLRTLREEPPTLDRDGGT FKFTRAFKEMIDSCLHKDPSKRPTAEQLLQSPFFRSAKKKSFLVNAILKDLPPLTKRQERRALPTVASPNSIDSW DFPTSLMTPTTSVLRYSALEELVAAEDRELALQNQVHDAVFEFDNELTPSTQRFSVDQLPKVDEVHESDSSSHHL STSPGTIARSLTSTSGTASTNEVSTAPSSYVAAPSIHSYKKDSSRPSTGYSSSNHSNYDFDSASNPADATILPTH KTAPNLSQLPSSHHKKLSSAASDSDLRGQDTVKASKSVWKKFKDNLKRPGTSSSGYSAAGEESPVSRSLDKASVL SGLFTSVSKSSVTTGGRPSTATSGKY
Length	626

Coding

Sequence id	CopciAB_508178.T0
Sequence	>CopciAB_508178.T0 ATGGGAGCAACCCCAAAGTTCATTGGCGCCGTCAAGGATGAATGGCAGCTCTACAGTGACCGCGCGGAAGACTAT ACTATCGGAGAGCCCATAGGCTTCGGGGCATCGTCTATCGTCTATCAGGCGCTATGGAAGCCCGCTGACGACCCG AATGCAAAGCCCACACCGTGTGCGTTGAAGGTCTTGGACCTCGACTCGCTACCACCCCGCTCGCTGCAACTTCTG CAACGAGAGACAACATTGATGTCCTTGTCGAAGCATCCCAACGTTCTCCGTGTCCGTGGCTCCTGGATGGACGGA CACAGACTCTACATCGCCCTCCGTTTGATGAGCAAGGGCAGTGTCGCAGACGTCATGCGATACGGCTGGCCCGGT GGGATGGACGAAGAAGTCGTCAAGTGCATCCTTCGCCAGACACTCAAGGGTCTAAACTATCTTCACATCAACGGT TTCATTCACCGCGATATCAAGGCCGCCAATCTTCTCATCGACGACGATGGGACCGTCCTGTTGGGCGACTTGGGC GTAGCTGCAGACCTCGCTGAAGACCCACACCACCACGTCTCGTCGAACAAGAGCAAGGTCCATGCCATCCCCGCC TCAGTGGCCCTATCACCTCATCATTCCGCCATCACAACCGGCAGTCGACCAAAAGAGGCAACCAGTCCTACCCGT CCTGGAATTGGGAAACGGAAATCATTCGTTGGCACACCGTGCTGGATGGCCCCCGAGCTCATCCAAGGAAAGCAA TACGACGCCTCTGCGGATATATGGAGTTTCGGCATCACCGCGCTCGAACTGGCTCAAGGACACCCACCACGCTTT CGTGAATCCACACAGCGGGTTTTGCTTCGCACCTTGCGCGAAGAACCGCCCACCCTAGACCGGGACGGAGGGACT TTCAAGTTCACTCGAGCATTCAAAGAGATGATCGATAGTTGCTTGCATAAAGACCCATCGAAGCGCCCTACCGCC GAACAACTCCTTCAATCACCGTTCTTTAGGTCAGCCAAAAAGAAGTCCTTCCTCGTGAACGCCATCCTGAAGGAC TTACCCCCATTAACTAAGCGACAAGAACGGAGAGCTCTCCCCACAGTCGCTTCCCCCAATTCGATCGACTCATGG GATTTCCCCACTTCCCTAATGACCCCGACGACAAGTGTTCTCCGCTATTCCGCTCTGGAGGAGCTGGTAGCGGCC GAAGACCGTGAACTGGCTCTGCAAAACCAGGTTCATGACGCCGTTTTCGAGTTCGACAACGAACTCACTCCCTCG ACTCAACGGTTCAGCGTCGACCAGCTTCCAAAGGTCGACGAAGTGCACGAGAGTGATTCCTCGTCACATCATCTA TCAACCTCCCCCGGAACGATCGCGCGGTCGCTTACAAGCACGTCCGGCACTGCTTCAACGAATGAAGTCTCGACG GCTCCTTCGTCCTATGTTGCTGCACCCTCGATCCATTCCTACAAAAAGGATTCTTCACGGCCTTCCACTGGTTAC TCGTCGAGCAACCACAGCAACTACGACTTCGACTCGGCTTCCAACCCAGCCGATGCGACCATCCTCCCCACCCAC AAGACTGCTCCTAATCTCTCCCAACTACCCTCTTCTCATCACAAGAAACTGTCTTCCGCCGCTAGCGATTCCGAT CTCCGAGGCCAAGACACCGTCAAGGCCTCCAAGAGCGTGTGGAAGAAGTTTAAGGACAATTTGAAGCGGCCGGGT ACATCGTCCAGCGGTTACTCGGCCGCCGGTGAGGAAAGCCCTGTTAGTAGGAGCTTGGATAAGGCGAGTGTGTTG AGTGGGCTGTTCACGAGTGTGAGCAAGAGTAGTGTAACTACTGGGGGCAGGCCTTCCACTGCTACTTCTGGCAAG TATTGA
Length	1881

Transcript

Sequence id	CopciAB_508178.T0
Sequence	>CopciAB_508178.T0 ACACCCCCTCGCTGCTCATTCCCTCCAACACTCTATGGGAGCAACCCCAAAGTTCATTGGCGCCGTCAAGGATGA ATGGCAGCTCTACAGTGACCGCGCGGAAGACTATACTATCGGAGAGCCCATAGGCTTCGGGGCATCGTCTATCGT CTATCAGGCGCTATGGAAGCCCGCTGACGACCCGAATGCAAAGCCCACACCGTGTGCGTTGAAGGTCTTGGACCT CGACTCGCTACCACCCCGCTCGCTGCAACTTCTGCAACGAGAGACAACATTGATGTCCTTGTCGAAGCATCCCAA CGTTCTCCGTGTCCGTGGCTCCTGGATGGACGGACACAGACTCTACATCGCCCTCCGTTTGATGAGCAAGGGCAG TGTCGCAGACGTCATGCGATACGGCTGGCCCGGTGGGATGGACGAAGAAGTCGTCAAGTGCATCCTTCGCCAGAC ACTCAAGGGTCTAAACTATCTTCACATCAACGGTTTCATTCACCGCGATATCAAGGCCGCCAATCTTCTCATCGA CGACGATGGGACCGTCCTGTTGGGCGACTTGGGCGTAGCTGCAGACCTCGCTGAAGACCCACACCACCACGTCTC GTCGAACAAGAGCAAGGTCCATGCCATCCCCGCCTCAGTGGCCCTATCACCTCATCATTCCGCCATCACAACCGG CAGTCGACCAAAAGAGGCAACCAGTCCTACCCGTCCTGGAATTGGGAAACGGAAATCATTCGTTGGCACACCGTG CTGGATGGCCCCCGAGCTCATCCAAGGAAAGCAATACGACGCCTCTGCGGATATATGGAGTTTCGGCATCACCGC GCTCGAACTGGCTCAAGGACACCCACCACGCTTTCGTGAATCCACACAGCGGGTTTTGCTTCGCACCTTGCGCGA AGAACCGCCCACCCTAGACCGGGACGGAGGGACTTTCAAGTTCACTCGAGCATTCAAAGAGATGATCGATAGTTG CTTGCATAAAGACCCATCGAAGCGCCCTACCGCCGAACAACTCCTTCAATCACCGTTCTTTAGGTCAGCCAAAAA GAAGTCCTTCCTCGTGAACGCCATCCTGAAGGACTTACCCCCATTAACTAAGCGACAAGAACGGAGAGCTCTCCC CACAGTCGCTTCCCCCAATTCGATCGACTCATGGGATTTCCCCACTTCCCTAATGACCCCGACGACAAGTGTTCT CCGCTATTCCGCTCTGGAGGAGCTGGTAGCGGCCGAAGACCGTGAACTGGCTCTGCAAAACCAGGTTCATGACGC CGTTTTCGAGTTCGACAACGAACTCACTCCCTCGACTCAACGGTTCAGCGTCGACCAGCTTCCAAAGGTCGACGA AGTGCACGAGAGTGATTCCTCGTCACATCATCTATCAACCTCCCCCGGAACGATCGCGCGGTCGCTTACAAGCAC GTCCGGCACTGCTTCAACGAATGAAGTCTCGACGGCTCCTTCGTCCTATGTTGCTGCACCCTCGATCCATTCCTA CAAAAAGGATTCTTCACGGCCTTCCACTGGTTACTCGTCGAGCAACCACAGCAACTACGACTTCGACTCGGCTTC CAACCCAGCCGATGCGACCATCCTCCCCACCCACAAGACTGCTCCTAATCTCTCCCAACTACCCTCTTCTCATCA CAAGAAACTGTCTTCCGCCGCTAGCGATTCCGATCTCCGAGGCCAAGACACCGTCAAGGCCTCCAAGAGCGTGTG GAAGAAGTTTAAGGACAATTTGAAGCGGCCGGGTACATCGTCCAGCGGTTACTCGGCCGCCGGTGAGGAAAGCCC TGTTAGTAGGAGCTTGGATAAGGCGAGTGTGTTGAGTGGGCTGTTCACGAGTGTGAGCAAGAGTAGTGTAACTAC TGGGGGCAGGCCTTCCACTGCTACTTCTGGCAAGTATTGAACACGTTCAATCTCGCGCTGCTGCTTGCATCTCCA TTTGCATTATTTTTTTCGTCATCGTCATCTGGCATCACATGTCTCTGCATCCATCCTTGCATATCTGGCATCATC AAGATACCTACCAGCTATCCACAGTCATCAGCACGTACATCGGTCGTAATTATCTTTGGGCTACTATCGACTAGC CATATCCCCGGTCCATCCATTCACCCACCCTTATCTATCGAGACATCTCTTGTCTCTCTCTCACACACTCTGACG GACATGCTACATTGTTACACGGCATGGTGGTCATCGCTCTTTCGTCAGTTGTATCTTGCTGTACTAGTAGTATAA TTGCTCTTTTTCGCCTTTCGTCTTTCTTCGATTTCTTCTTGGACATCGTCTTCCTTTTTCTTCTTGCTGCTTCAT GACGTTTACGTTGTGTACTACCTCTATGTTTATGCCTTGTCACTAGCATCTCGTCACCGGCTGCTATCGGTGACC ACTTACGAGGGAGGGTCGCGGTTCAAACCCCTCCTCCAGGACCTGTAGTTGTAGTCTGTCTCGTTGCTTGCTGTA GCTATATGGTTTGGGGCGCGTTTTTCTTTTTCTGCCATGGAGTTGTACTCTTCGATTCCTTGTAGTGGTACTGTC GCGTTTGCTGTTGTTACTTCATCTACTTATTGTTACTCGGAGACTCAATGCATCTGGACAGGGGGTTGATGGGTC GGGTGCATGCGAGTGTATTGGTTGAGATTTGAACGTGTTGTTACAATTTCAATGGGTTTGACGTGC
Length	2691

Gene

Sequence id	CopciAB_508178.T0
Sequence	>CopciAB_508178.T0 ACACCCCCTCGCTGCTCATTCCCTCCAACACTCTATGGGAGCAACCCCAAAGTTCATTGGCGCCGTCAAGGATGA ATGGCAGCTCTACAGGTGAGCCCCTTGTTCACTACCTCCTTTTTTGCGCCGTCGCGCTTATCATCGCCAACCTAC ACAGTGACCGCGCGGAAGACTATACTATCGGAGAGCCCATAGGCTTCGGGGCATCGTCTATCGTCTATCAGGCGC TATGGAAGCCCGCTGACGACCCGAATGCAAAGCCCACACCGTGTGCGTTGAAGGTCTTGGACCTCGACTCGCTAC CACCCCGCTCGCTGCAACTTCTGCAACGAGAGACAACATTGATGTCCTTGTCGAAGCATCCCAACGTTCTCCGTG TCCGTGGCTCCTGGATGGACGGACACAGACTCTACATCGCCCTCCGTTTGATGAGCAAGGGCAGTGTCGCAGACG TCATGCGATACGGCTGGCCCGGTGGGATGGACGAAGAAGTCGTCAAGTGCATCCTTCGCCAGACACTCAAGGGTC TAAAGTATGTATTCGTCGAGTCTATCGGCAAGGGGCCACCCCGTAACCTTCTTGACCATCTAGCTATCTTCACAT CAACGGTTTCATTCACCGCGATATCAAGGCCGCCAATCTTCTCATCGACGACGATGGGACCGTCCTGTTGGGCGA CTTGGGCGTAGCTGCAGACCTCGCTGAAGACCCACACCACCACGTCTCGTCGAACAAGAGCAAGGTCCATGCCAT CCCCGCCTCAGTGGCCCTATCACCTCATCATTCCGCCATCACAACCGGCAGTCGACCAAAAGAGGCAACCAGTCC TACCCGTCCTGGAATTGGGAAACGGAAATCATTCGTTGGCACAGTCAGTTGCCTACAACTCGCTGCTTAAACTTA CACACTGACCCTTCCTTGAGCCGTGCTGGATGGCCCCCGAGCTCATCCAAGGAAAGCAATACGACGCCTCTGCGG ATATATGGAGTTTCGGCATCACCGCGCTCGAACTGGCTCAAGGACACCCACCACGCTTTCGTGAATCCACACAGC GGGTTTTGCTTCGCACGTACGTCAATTATTCCCATTTTACTCTCCTATCCCCAGTTGTTATCGGTGGACTTACAC GTACAATCTTCTCCCAGCTTGCGCGAAGAACCGCCCACCCTAGACCGGGACGGAGGGACTTTCAAGTTCACTCGA GCATTCAAAGAGATGATCGATAGTTGCTTGCATAAAGACCCATCGAAGCGGTGAGTACCCCGAAGTTCTCACCAA ACCTTGACTGACCAATAGTTTTGATTCCTTCCCCAGCCCTACCGCCGAACAACTCCTTCAATCACCGTTCTTTAG GTCAGCCAAAAAGAAGTCCTTCCTCGTGAACGCCATCCTGAGTACGTGTCTCGTCATGAATCTTACATGTCTGCG AGGGCTGACCGTGCTTATGTGTTTTGTAGAGGACTTACCCCCATTAACTAAGCGACAAGAACGGAGAGCTCTCCC CACAGTCGCTTCCCCCAATTCGATCGACTCATGGGATTTCCCCACTTCCCTAATGACCCCGACGACAAGTGTTCT CCGCTATTCCGCTCTGGAGGAGCTGGTAGCGGCCGAAGACCGTGAACTGGCTCTGCAAAACCAGGTTCATGACGC CGTTTTCGAGTTCGACAACGAACTCACTCCCTCGACTCAACGGTTCAGCGTCGACCAGCTTCCAAAGGTCGACGA AGTGCACGAGAGTGATTCCTCGTCACATCATCTATCAACCTCCCCCGGAACGATCGCGCGGTCGCTTACAAGCAC GTCCGGCACTGCTTCAACGAATGAAGTCTCGACGGCTCCTTCGTCCTATGTTGCTGCACCCTCGATCCATTCCTA CAAAAAGGATTCTTCACGGCCTTCCACTGGTTACTCGTCGAGCAACCACAGCAACTACGACTTCGACTCGGCTTC CAACCCAGCCGATGCGACCATCCTCCCCACCCACAAGACTGCTCCTAATCTCTCCCAACTACCCTCTTCTCATCA CAAGAAACTGTCTTCCGCCGCTAGCGATTCCGATCTCCGAGGCCAAGACACCGTCAAGGCCTCCAAGAGCGTGTG GAAGAAGTTTAAGGACAATTTGAAGCGGCCGGGTACATCGTCCAGCGGTTACTCGGCCGCCGGTGAGGAAAGCCC TGTTAGTAGGAGCTTGGATAAGGCGAGTGTGTTGAGTGGGCTGTTCACGAGTGTGAGCAAGAGTAGTGTAACTAC TGGGGGCAGGCCTTCCACTGCTACTTCTGGTCAGTGCACCCTTTCTTGTGTCGATTGATCCAGATGTGCTGACCT CCTTGTCTTTACAGGCAAGTATTGAACACGTTCAATCTCGCGCTGCTGCTTGCATCTCCATTTGCATTATTTTTT TCGTCATCGTCATCTGGCATCACATGTCTCTGCATCCATCCTTGCATATCTGGCATCATCAAGATACCTACCAGC TATCCACAGTCATCAGCACGTACATCGGTCGTAATTATCTTTGGGCTACTATCGACTAGCCATATCCCCGGTCCA TCCATTCACCCACCCTTATCTATCGAGACATCTCTTGTCTCTCTCTCACACACTCTGACGGACATGCTACATTGT TACACGGCATGGTGGTCATCGCTCTTTCGTCAGTTGTATCTTGCTGTACTAGTAGTATAATTGCTCTTTTTCGCC TTTCGTCTTTCTTCGATTTCTTCTTGGACATCGTCTTCCTTTTTCTTCTTGCTGCTTCATGACGTTTACGTTGTG TACTACCTCTATGTTTATGCCTTGTCACTAGCATCTCGTCACCGGCTGCTATCGGTGACCACTTACGAGGGAGGG TCGCGGTTCAAACCCCTCCTCCAGGACCTGTAGTTGTAGTCTGTCTCGTTGCTTGCTGTAGCTATATGGTTTGGG GCGCGTTTTTCTTTTTCTGCCATGGAGTTGTACTCTTCGATTCCTTGTAGTGGTACTGTCGCGTTTGCTGTTGTT ACTTCATCTACTTATTGTTACTCGGAGACTCAATGCATCTGGACAGGGGGTTGATGGGTCGGGTGCATGCGAGTG TATTGGTTGAGATTTGAACGTGTTGTTACAATTTCAATGGGTTTGACGTGC
Length	3126

CopciAB_508178 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_508178 across fungi.

Protein

Coding

Transcript

Gene

CopciAB_508178
Coprinopsis cinerea A43mutB43mut pab1-1 #326