CopciAB_532272
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name	CopciAB_532272	Strain	Coprinopsis cinerea Okayama 7
Standard name	-	Synonyms	532272
Uniprot id		Functional description	bZIP transcription factor
Location	scaffold_4:3012892..3015584	Strand	-
Gene length (nt)	2693	Transcript length (nt)	2632
CDS length (nt)	1104	Protein length (aa)	367

Reciprocal best hits in model fungi

Strain name	Gene / Protein name

Orthologs in mushroom models

Strain name	Gene / Protein name	Pident	E-value	Bits
Pleurotus eryngii ATCC 90797	Pleery1_474294	43.3	4.546E-70	241
Agrocybe aegerita	Agrae_CAA7260628	48.3	1.522E-63	222
Pleurotus ostreatus PC9	PleosPC9_1_103976	45.5	2.852E-62	218
Pleurotus ostreatus PC15	PleosPC15_2_1089374	45.3	8.05E-58	205
Schizophyllum commune H4-8	Schco3_2506997	40.5	1.126E-56	202
Lentinula edodes NBRC 111202	Lenedo1_111604	40.5	2.176E-56	201
Lentinula edodes B17	Lened_B_1_1_9320	40.7	3.775E-56	200
Lentinula edodes W1-26 v1.0	Lentinedodes1_4826	40.7	4.734E-56	200
Agaricus bisporus var bisporus (H97)	Agabi_varbisH97_2_196071	43.5	7.74E-56	199
Agaricus bisporus var. burnettii JB137-S8	Agabi_varbur_1_116286	43.5	1.768E-55	198
Ganoderma sp. 10597 SS1 v1.0	Gansp1_115825	40.9	5.35E-52	188
Hypsizygus marmoreus strain 51987-8	Hypma_RDB16729	44.8	6.858E-52	188
Grifola frondosa	Grifr_OBZ70851	44.3	1.224E-50	184
Auricularia subglabra	Aurde3_1_120387	42.5	6.68E-40	153
Flammulina velutipes	Flave_chr07AA00193	38.3	7.886E-26	110

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	410.4429	33.555	19.373
oidia	273.9874	26.9787	15.5761
vegetative_mycelium	314.4114	19.0466	10.9966
primordia	302.8993	31.9366	18.4386
hyphal_knot	238.8325	16.7823	9.6892
young_fruiting_body	460.7514	8.7372	5.0444

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	314.9505	10.0635	5.8101
Wheat bran	253.0411	70.6686	40.8005
Horse manure	358.9839	261.3747	150.9048
Oak leaves	1225.3154	745.3727	430.3411
Hay	485.3954	70.8837	40.9247
Corn stalk	658.6767	159.4304	92.0472
Pectine	378.6849	82.8682	47.844
Microcrystalline cellulose	423.4419	41.3568	23.8774
Xylose	482.9444	110.5492	63.8256
Cellobiose	350.6147	12.1597	7.0204
Lignin	637.1861	150.0829	86.6504
Apple peels	454.5019	60.3033	34.8161

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	162.3674	15.2109	8.782
Bsubtilis	206.8472	22.3362	12.8958
Ecoli	287.6149	24.2251	13.9864

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	1770.1448	31.7458	18.3284
BS 4h	867.707	126.9959	73.3211
BS 8h	601.6077	127.9799	73.8893
BS 12h	641.2289	64.7978	37.411
Oidia 0 h	255.4687	104.5098	60.3388
Oidia 18 h	463.1182	100.1192	57.8039
Sclerotia	759.0743	63.4791	36.6497

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	696.5355	98.818	57.0526
DM 36h	704.5336	57.1092	32.972
DM 60h	576.4811	43.6343	25.1923
DM 84h	484.6669	36.7153	21.1976
DM 108h	646.391	112.2224	64.7917
DM 132h	728.214	44.0427	25.4281
DM 156hAE	465.5385	103.6179	59.8238
ELI1hAE	757.9302	125.0234	72.1823
ELI2hAE	865.3176	64.3355	37.1441
LI2hAE	786.4341	31.5249	18.2009
LI6hAE	563.0848	56.3753	32.5483
LI12hAE	662.2021	40.0423	23.1184
LI18hAE	699.6995	27.9676	16.1471
LI 24hAE	500.1533	38.1403	22.0203
DM 156hAM	449.2547	32.0912	18.5279
ELI1hAM	804.9079	77.4441	44.7124
ELI2hAM	865.0348	174.1599	100.5513
LI2hAM	645.2551	55.4585	32.019
LI6hAM	535.6142	68.5885	39.5996
LI12hAM	557.8886	35.763	20.6478
LI18hAM	669.0852	19.5078	11.2628
LI 24hAM	648.7229	59.7773	34.5124
LI 24hHK	579.0506	165.0752	95.3062
L/D 6h	569.6751	139.475	80.5259
L/D 12h	459.6806	95.7257	55.2673
L/D 18h	558.0056	19.182	11.0748
L/D 24h	724.2358	91.4404	52.7931

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	141.7362	4.0877	2.36
Hyphal knots	269.8392	86.3017	49.8263
Primordium 1	238.064	41.7738	24.1181
Primordium 2	186.2451	21.3886	12.3487
Young Fruiting body cap	340.7589	55.2039	31.872
Younf fruiting body gill	274.8225	49.9472	28.837
Young fruiting body stipe	261.8325	9.4854	5.4764
Mature fruiting body cap_gill	203.0015	37.1387	21.4421
Mature fruiting body stipe	298.1048	77.4963	44.7425

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	187.1631	19.2622	11.121
NH4NO3	250.7528	14.2245	8.2125
Proline	216.3112	26.1008	15.0693
Tryptophan	155.4712	77.639	44.8249
Isoleucin	260.2148	14.1476	8.1681
Arginine	285.528	21.4153	12.3641
Metionine	216.3529	19.2118	11.0919
NaNO3	237.0101	16.4127	9.4759

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	187.1631	19.2622	11.121
Citrus peel	313.5982	27.5339	15.8967
Poplar leaves	241.7229	24.6878	14.2535
Typha leaves	277.0815	11.4051	6.5848
Overwintered Salix leaves	255.3366	25.2929	14.6029
Reed flowering	312.9063	65.3562	37.7334
Tigernut	202.7065	30.6017	17.6679
Energy cane	253.5352	8.4389	4.8722
Guar gum	281.4333	55.5936	32.097
Apple peels	117.6135	72.3652	41.7801
Cellobiose	200.8282	21.2633	12.2764
Corn stalk	181.8008	19.8982	11.4882
Horse manure	163.1548	82.1703	47.4411
Lignin	196.8357	102.7644	59.3311
Microcrystalline cellulose	205.586	36.5758	21.1171
Oak leaves	219.6572	66.7321	38.5278
Pectin esterified	100.2799	24.6412	14.2266
Poplar sawdust	186.95	104.0479	60.0721
Wheat bran	94.8265	45.8186	26.4534
Chlamydomonas reinhardtii	222.4025	39.1019	22.5755
Vertatryl alcohol	881.4259	32.6498	18.8504
Furfural	413.589	35.5707	20.5367
Autoclaved mycelium	228.9628	29.3426	16.9409

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	205.9202	31.4753	18.1722
Ribose	247.8441	8.9374	5.16
Mannose	219.0903	28.9826	20.4938
Fructose	232.2942	7.4981	4.329
Arabinose	257.7767	30.3428	17.5184
Xylose	250.24	5.3815	3.107
Galacturonic acid	234.9424	15.7131	9.0719
Rhamnogalacturonan	231.6337	13.2939	7.6752
Pectin esterified	230.1451	16.3588	9.4448
Polygalacturonic acid	242.102	15.0724	8.702
Sodium acetate	283.2263	17.9266	10.3499
No nitrogen	196.2054	22.6663	13.0864
BSA	228.2731	15.0519	8.6902
Glutamine	224.181	29.3263	16.9316
No phosphate	187.1265	10.1176	5.8414
No carbon	231.2424	6.445	4.5573
No sulphur	208.5063	15.9135	9.1876

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	187.1631	19.2622	11.121
Amylose	212.5298	34.2395	19.7682
Fucose	233.6018	15.5381	8.9709
Galactose	210.3219	20.252	11.6925
Lactose	308.742	36.6779	21.176
Maltose	276.858	29.1612	16.8362
Mannitol	274.9177	55.341	31.9511
Rhamnose	231.1855	16.9541	9.7884
Sorbitol	219.952	29.9949	17.3176
Trehalose	256.9432	76.2744	44.0371
Glycerol	254.1895	33.0205	19.0644
Glucuronic acid	235.2004	22.0686	12.7413
Arabinan	221.7492	56.6651	32.7156
Galactan	219.8383	7.3632	4.2511
Galactomannan	157.2501	19.9333	11.5085
Glucan	196.9618	26.5161	15.3091
Xylan	217.4765	17.6906	10.2137
Xyloglucan	245.1575	25.9872	15.0037
Arabinogalactan	210.8666	3.2598	1.882
Pectin	92.1191	46.0925	26.6115
Rhamnogalacturonan	88.7062	11.6313	6.7153
Polygalacturonic acid	266.2123	68.2623	39.4113
Mannan	214.4108	29.1193	16.812
Amylopectin	182.5264	38.1788	22.0425
Inulin	279.8687	42.8211	24.7227
BSA	201.8119	15.6225	9.0196

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	576.4811	43.6343	25.1923
2h WAT	644.405	69.18	39.9411
4h WAT	647.0381	65.4413	37.7826
8h WAT	875.1128	28.5267	16.4699
16h WAT	972.6821	146.2387	84.431
24h WAT	878.6326	55.7775	32.2032
WAT hyphal knot -30h	1034.7256	117.1068	67.6117
WAT hyphal knot -22h	872.9728	45.0682	26.0201
WAT hyphal knot -15h	788.2595	50.55	29.1851
WAT hyphal knot -7.5h	674.1113	40.4371	23.3464
WAT hyphal knot	687.2978	26.3795	15.2302
WAT hyphal knot +7.5h	552.5949	39.3313	22.7079

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	163.2851	126.3942	72.9737
Straw 3h	251.6491	47.6793	27.5276
Straw 6h	157.2398	77.568	44.7839
Straw 12h	244.3622	41.3319	23.863
Straw 24h	231.473	30.1277	17.3943

Stress conditions 1

Expression profiling under various stress conditions

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
Flask control	798.763	212.0271	122.4139
Frost (-20C, 30min)	970.149	44.4548	25.666
Heat shock (47C, 2h)	2482.6362	283.5551	163.7106
High CO2	717.2087	75.6931	43.7014
Drought (4% agar, 12h)	724.8555	188.3055	108.7182
Oxidative (1mM H2O2, 3h)	1218.5377	60.0593	34.6753
Acidic (pH4, 3h)	990.4162	109.2588	63.0806
Alkaline (pH9, 3h)	702.1389	93.3065	53.8705
Osmotic (sorbitol 2h)	709.7568	42.2215	24.3766
CongoRed (3h)	1292.6794	79.1667	45.7069
Cobalt chloride control	887.9477	102.7712	59.335
Cobalt chloride 2mM	887.5359	40.8367	23.5771

Stress conditions 2

Expression profiling under various stress conditions

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
Flask control	809.7464	540.9624	312.3248
Cold stimulation	575.7522	101.0685	58.3519
Scratched surface	1518.2537	361.1781	208.5263
Ca2+, 200mM, 24h	866.8804	90.8797	52.4694
Cu2+, 2mM, 6h	464.7503	138.122	79.7448
Voriconazole	684.0651	33.415	19.2921
Trichoderma interaction, early	844.3845	86.8288	50.1306
Trichoderma interaction 60h	913.6526	159.4543	92.061
Cobalt chloride 2mM repeat	772.1515	49.7484	28.7222
Hypoxia	840.0434	74.1639	42.8185
Hypoxia control	693.4731	123.2819	71.1768
Protoplastation control	732.5705	98.9194	69.9466
Protoplastation 3.5h	1735.9531	511.7591	361.8684
Protoplastation 1.5h	1378.3377	169.8602	120.1093

General data

Systematic name	-
Protein id	CopciAB_532272.T0
Description	bZIP transcription factor

Annotation summary

Conserved domains

Analysis	Signature accession	Signature description	InterPro Accession	Start	End
CDD	cd14812	bZIP_u3	-	48	91
Pfam	PF00170	bZIP transcription factor	IPR004827	46	88

SignalP

Prediction	Start	End	Score
No records

Transmembrane domains

Domain n	Start	End	Length
No records

InterPro

Accession	Description
IPR004827	Basic-leucine zipper domain
IPR046347	Basic-leucine zipper domain superfamily

GO

Go id	Term	Ontology
GO:0003700	DNA-binding transcription factor activity	MF
GO:0006355	regulation of transcription, DNA-templated	BP

KEGG

KEGG Orthology
K09027
K16230

EggNOG

COG category	Description
K	bZIP transcription factor

CAZy

Class	Family	Subfamily
No records

Transcription factor

Group
leucine zipper

Conservation of CopciAB_532272 across fungi.

Arrow shows the origin of gene family containing CopciAB_532272.

Protein

Sequence id	CopciAB_532272.T0
Sequence	>CopciAB_532272.T0 MSFVSAHSPSPSCDSPSPSPSTSSHALPDAGQPPRKRSRSEMTSEERKEARAHRNRIAAQNSRDRRKAQFSWLER RVAELEEENRRLRAGLPVPPVPAPPPPAGLHIPVLSNIAPAMMPAPQPIPVLSPEDAIRASRDLERERENEELKE RIKTLERGWDAVVKALAAQGLPTGLSTTPAAPTTASTHSTQPLNPVPVSTTPSTSTTPSSPPTTSPTTTTKPPIS SATHFSTGFPSPAPSHASDFDFEAPVSAPSPLALSTPHQQQRDDVTARHSARVATLEPRSTALQRAVSSSHAAKV SACTLRHLPASSRSPMMQQQMMMQRWKTCSGRLLLMTQRRQRRANLAADQYKRQLLLLRRSLPPPRK
Length	367

Coding

Sequence id	CopciAB_532272.T0
Sequence	>CopciAB_532272.T0 ATGTCCTTTGTTTCCGCCCACTCCCCATCGCCATCGTGCGATTCACCCTCACCGTCGCCATCGACCTCATCACAC GCCTTGCCAGACGCTGGACAGCCGCCCAGGAAGCGGTCCAGGTCTGAGATGACCTCTGAAGAACGCAAGGAAGCA CGAGCGCACAGAAATCGAATCGCCGCTCAGAACAGCCGCGACCGACGGAAGGCTCAATTCTCATGGCTCGAGCGC CGTGTCGCCGAGCTCGAGGAGGAGAACCGCCGGCTACGAGCTGGCCTTCCTGTCCCCCCTGTACCAGCACCACCA CCACCCGCAGGCCTTCATATCCCCGTTCTCTCCAACATCGCCCCCGCCATGATGCCCGCACCACAACCAATCCCT GTCCTCAGTCCCGAGGACGCAATCCGGGCCAGTCGGGATTTGGAGCGAGAACGGGAGAACGAAGAGCTCAAGGAA CGCATCAAGACCTTGGAACGCGGCTGGGACGCAGTTGTCAAGGCTCTGGCAGCCCAGGGCTTGCCCACAGGCCTT TCAACAACTCCCGCCGCACCCACCACCGCCTCGACTCACTCGACCCAACCACTTAACCCCGTCCCTGTTTCGACG ACTCCCTCTACTTCCACAACGCCCTCTTCACCCCCGACAACCTCCCCAACCACCACTACCAAACCTCCCATTTCC TCCGCCACACACTTCTCTACCGGTTTCCCTTCTCCTGCGCCCTCCCATGCCTCCGACTTCGACTTTGAAGCACCC GTCTCCGCACCATCACCATTGGCGTTGTCCACTCCCCACCAACAGCAGCGTGATGACGTTACCGCTCGCCACTCA GCACGGGTGGCGACCCTCGAGCCTCGCTCGACGGCCCTGCAGCGGGCGGTCTCGTCCTCTCACGCGGCCAAAGTG TCGGCGTGTACCCTTCGCCATCTACCAGCTTCATCGAGGTCTCCGATGATGCAACAGCAGATGATGATGCAAAGA TGGAAGACTTGTTCAGGGAGATTGTTGTTGATGACTCAACGTCGTCAGCGACGGGCGAATCTAGCGGCCGACCAG TACAAGAGGCAGCTTCTGCTGCTCCGTCGGTCACTTCCACCACCACGGAAGTAG
Length	1104

Transcript

Sequence id	CopciAB_532272.T0
Sequence	>CopciAB_532272.T0 ACGACCTCCACGTAGTCCGTCCTGCCATTGCGCAGTATCCGCTTCTCCCTTATTTCCTTCCACACCGCCGCCTCA GGGCTTTCCTTTCCTTCGACCCTTACCAAGTCTCTAAATAATACATTCGACTTGGATCCAATTCGAATTTAACTA TTCGGATTACAACAACAACACAAACATCACTGTATTATTTTTTTCACAACGAGAACCACAATGTCCTTTGTTTCC GCCCACTCCCCATCGCCATCGTGCGATTCACCCTCACCGTCGCCATCGACCTCATCACACGCCTTGCCAGACGCT GGACAGCCGCCCAGGAAGCGGTCCAGGTCTGAGATGACCTCTGAAGAACGCAAGGAAGCACGAGCGCACAGAAAT CGAATCGCCGCTCAGAACAGCCGCGACCGACGGAAGGCTCAATTCTCATGGCTCGAGCGCCGTGTCGCCGAGCTC GAGGAGGAGAACCGCCGGCTACGAGCTGGCCTTCCTGTCCCCCCTGTACCAGCACCACCACCACCCGCAGGCCTT CATATCCCCGTTCTCTCCAACATCGCCCCCGCCATGATGCCCGCACCACAACCAATCCCTGTCCTCAGTCCCGAG GACGCAATCCGGGCCAGTCGGGATTTGGAGCGAGAACGGGAGAACGAAGAGCTCAAGGAACGCATCAAGACCTTG GAACGCGGCTGGGACGCAGTTGTCAAGGCTCTGGCAGCCCAGGGCTTGCCCACAGGCCTTTCAACAACTCCCGCC GCACCCACCACCGCCTCGACTCACTCGACCCAACCACTTAACCCCGTCCCTGTTTCGACGACTCCCTCTACTTCC ACAACGCCCTCTTCACCCCCGACAACCTCCCCAACCACCACTACCAAACCTCCCATTTCCTCCGCCACACACTTC TCTACCGGTTTCCCTTCTCCTGCGCCCTCCCATGCCTCCGACTTCGACTTTGAAGCACCCGTCTCCGCACCATCA CCATTGGCGTTGTCCACTCCCCACCAACAGCAGCGTGATGACGTTACCGCTCGCCACTCAGCACGGGTGGCGACC CTCGAGCCTCGCTCGACGGCCCTGCAGCGGGCGGTCTCGTCCTCTCACGCGGCCAAAGTGTCGGCGTGTACCCTT CGCCATCTACCAGCTTCATCGAGGTCTCCGATGATGCAACAGCAGATGATGATGCAAAGATGGAAGACTTGTTCA GGGAGATTGTTGTTGATGACTCAACGTCGTCAGCGACGGGCGAATCTAGCGGCCGACCAGTACAAGAGGCAGCTT CTGCTGCTCCGTCGGTCACTTCCACCACCACGGAAGTAGGGAAGACAGAGACCCAGGGACAAGGAGAGAGTTTGG GTAAGAGGAAGAGGGAAGAAGACGAAGAATCATCGGGAGCGACGAAGAAGCTCGCCTTTGACGGATTGGAATTGG GAATTGGAGCGAACGCCGGACTGGACTTTGGTTTCGACTGGTCGAATACCGCATCATCAACCACCACTGCGCCTC TCACTCCCGACGAGATGCAGCAGATGCTCAACCAGATCGACACCACCAACGCCATGATGCAGTTTCCCAACGACT TGGGCCTCGACATGACCTTGGATCTCGGTATCTGGTCCAACACTGCGACCGCTGGTGTTTTCTAAACCCGGCGCC AGTGTTGTCTGTCTTCCTTGTCTCGCATCACCGGATTCGACTCGTTGTTACCCCACTTCGCAAACGAGTGCGCCT AGTTCTGCGTACTTGAAGGTTTGGGAACAGCCTCACTGAGTCTCCGAAGCGTTGTTTCGTCCCACGTGGACCCCG TGACCCATTAGTCTGGACATTCGCCCAACATGGTGTCGCCCCTGATACCACCTCCCAAAATTGTACAACAGTATC CATTTCGTCTTTCTCATTGGGTTGGCTTTCTTCATCTACATCTAGAGCTCCAGTCGTTTTCGTTCATTTCGTTTT CTTTGTCATTTTCATCATTTCCTCTCATCATCAGCATCTCTCTATTTATGTCTCTCTTCCTCTCTGTTTCTCTTT TTGACGATAGTGTCTTCCTGCATTTTCTACCGTGGTTTTCTTCCTATCGCCCCTTCTGCGCAGTCGACCGATCCG TCGACTGTGGCACGCCCGACGACCTTACCACCTCTGACCCCGACTACTCGGCCTCGCTAGTCACGACTATCGGTC ACCTCTCGCCGTCGAGTTCACCAGCTGGTCTCAAACCGACAGGACGCATTGCGGAGGGAGGGCCTAGGCGAGATG AGATGAAGGAAATGGCGGAATGAACTTCCTGGAAGCCGGGTGGGTGGCTGCTCCTCTTCGGGGTTGTAGCAGTAG CCTGCCTGTTCGCATCCTCGAGTGTTTTTCCGCTTTAATTTCCTTTCCATTCTCTCTTTCCGAAGCTTTCTGCTT TGTGGTGTTGTTTCTCGAGGGATGGTTCCACGTCTGGTTGGCTTGGCGAGTTGGAGGCGATCTTTGGTTCGCTGT CCCACCATCCCGATCGGTCTGTTTCCCTTTTTGGGAAGGAGGACTTCCTGTTTTGGTAGCACGTTCTATGGTTTG TTGGTTCCTCACATTTGGTTGTGGGCGATGAAATAGTTTACTTGCGCGTAGTACATGATTTGGAATGACACTGTT GTCCTGC
Length	2632

Gene

Sequence id	CopciAB_532272.T0
Sequence	>CopciAB_532272.T0 ACGACCTCCACGTAGTCCGTCCTGCCATTGCGCAGTATCCGCTTCTCCCTTATTTCCTTCCACACCGCCGCCTCA GGGCTTTCCTTTCCTTCGACCCTTACCAAGTCTCTAAATAATACATTCGACTTGGATCCAATTCGAATTTAACTA TTCGGATTACAACAACAACACAAACATCACTGTATTGTGAGTAATTTCGGAGACATTTGTCTAGATTTTAGCGAA TATTGACAACGACGTCGTGCAGATTTTTTTCACAACGAGAACCACAATGTCCTTTGTTTCCGCCCACTCCCCATC GCCATCGTGCGATTCACCCTCACCGTCGCCATCGACCTCATCACACGCCTTGCCAGACGCTGGACAGCCGCCCAG GAAGCGGTCCAGGTCTGAGATGACCTCTGAAGAACGCAAGGAAGCACGAGCGCACAGAAATCGAATCGCCGCTCA GAACAGCCGCGACCGACGGAAGGCTCAATTCTCATGGCTCGAGCGCCGTGTCGCCGAGCTCGAGGAGGAGAACCG CCGGCTACGAGCTGGCCTTCCTGTCCCCCCTGTACCAGCACCACCACCACCCGCAGGCCTTCATATCCCCGTTCT CTCCAACATCGCCCCCGCCATGATGCCCGCACCACAACCAATCCCTGTCCTCAGTCCCGAGGACGCAATCCGGGC CAGTCGGGATTTGGAGCGAGAACGGGAGAACGAAGAGCTCAAGGAACGCATCAAGACCTTGGAACGCGGCTGGGA CGCAGTTGTCAAGGCTCTGGCAGCCCAGGGCTTGCCCACAGGCCTTTCAACAACTCCCGCCGCACCCACCACCGC CTCGACTCACTCGACCCAACCACTTAACCCCGTCCCTGTTTCGACGACTCCCTCTACTTCCACAACGCCCTCTTC ACCCCCGACAACCTCCCCAACCACCACTACCAAACCTCCCATTTCCTCCGCCACACACTTCTCTACCGGTTTCCC TTCTCCTGCGCCCTCCCATGCCTCCGACTTCGACTTTGAAGCACCCGTCTCCGCACCATCACCATTGGCGTTGTC CACTCCCCACCAACAGCAGCGTGATGACGTTACCGCTCGCCACTCAGCACGGGTGGCGACCCTCGAGCCTCGCTC GACGGCCCTGCAGCGGGCGGTCTCGTCCTCTCACGCGGCCAAAGTGTCGGCGTGTACCCTTCGCCATCTACCAGC TTCATCGAGGTCTCCGATGATGCAACAGCAGATGATGATGCAAAGATGGAAGACTTGTTCAGGGAGATTGTTGTT GATGACTCAACGTCGTCAGCGACGGGCGAATCTAGCGGCCGACCAGTACAAGAGGCAGCTTCTGCTGCTCCGTCG GTCACTTCCACCACCACGGAAGTAGGGAAGACAGAGACCCAGGGACAAGGAGAGAGTTTGGGTAAGAGGAAGAGG GAAGAAGACGAAGAATCATCGGGAGCGACGAAGAAGCTCGCCTTTGACGGATTGGAATTGGGAATTGGAGCGAAC GCCGGACTGGACTTTGGTTTCGACTGGTCGAATACCGCATCATCAACCACCACTGCGCCTCTCACTCCCGACGAG ATGCAGCAGATGCTCAACCAGATCGACACCACCAACGCCATGATGCAGTTTCCCAACGACTTGGGCCTCGACATG ACCTTGGATCTCGGTATCTGGTCCAACACTGCGACCGCTGGTGTTTTCTAAACCCGGCGCCAGTGTTGTCTGTCT TCCTTGTCTCGCATCACCGGATTCGACTCGTTGTTACCCCACTTCGCAAACGAGTGCGCCTAGTTCTGCGTACTT GAAGGTTTGGGAACAGCCTCACTGAGTCTCCGAAGCGTTGTTTCGTCCCACGTGGACCCCGTGACCCATTAGTCT GGACATTCGCCCAACATGGTGTCGCCCCTGATACCACCTCCCAAAATTGTACAACAGTATCCATTTCGTCTTTCT CATTGGGTTGGCTTTCTTCATCTACATCTAGAGCTCCAGTCGTTTTCGTTCATTTCGTTTTCTTTGTCATTTTCA TCATTTCCTCTCATCATCAGCATCTCTCTATTTATGTCTCTCTTCCTCTCTGTTTCTCTTTTTGACGATAGTGTC TTCCTGCATTTTCTACCGTGGTTTTCTTCCTATCGCCCCTTCTGCGCAGTCGACCGATCCGTCGACTGTGGCACG CCCGACGACCTTACCACCTCTGACCCCGACTACTCGGCCTCGCTAGTCACGACTATCGGTCACCTCTCGCCGTCG AGTTCACCAGCTGGTCTCAAACCGACAGGACGCATTGCGGAGGGAGGGCCTAGGCGAGATGAGATGAAGGAAATG GCGGAATGAACTTCCTGGAAGCCGGGTGGGTGGCTGCTCCTCTTCGGGGTTGTAGCAGTAGCCTGCCTGTTCGCA TCCTCGAGTGTTTTTCCGCTTTAATTTCCTTTCCATTCTCTCTTTCCGAAGCTTTCTGCTTTGTGGTGTTGTTTC TCGAGGGATGGTTCCACGTCTGGTTGGCTTGGCGAGTTGGAGGCGATCTTTGGTTCGCTGTCCCACCATCCCGAT CGGTCTGTTTCCCTTTTTGGGAAGGAGGACTTCCTGTTTTGGTAGCACGTTCTATGGTTTGTTGGTTCCTCACAT TTGGTTGTGGGCGATGAAATAGTTTACTTGCGCGTAGTACATGATTTGGAATGACACTGTTGTCCTGC
Length	2693

CopciAB_532272 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_532272 across fungi.

Protein

Coding

Transcript

Gene

CopciAB_532272
Coprinopsis cinerea A43mutB43mut pab1-1 #326