CopciAB_423744
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name	CopciAB_423744	Strain	Coprinopsis cinerea Okayama 7
Standard name	CDC15	Synonyms	423744
Uniprot id		Functional description	STE STE11 cdc15 protein kinase
Location	scaffold_6:1705654..1712101	Strand	+
Gene length (nt)	6448	Transcript length (nt)	5983
CDS length (nt)	5274	Protein length (aa)	1757

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_RDB20820	55.5	0	1776
Flammulina velutipes	Flave_chr11AA01258	52.8	0	1590
Lentinula edodes W1-26 v1.0	Lentinedodes1_19026	51.4	0	1571
Lentinula edodes NBRC 111202	Lenedo1_1175437	51.3	0	1558
Pleurotus eryngii ATCC 90797	Pleery1_1445291	48.8	0	1556
Agaricus bisporus var bisporus (H97)	Agabi_varbisH97_2_178864	47.6	0	1516
Agaricus bisporus var. burnettii JB137-S8	Agabi_varbur_1_105233	47.6	0	1516
Schizophyllum commune H4-8	Schco3_1284934	50.1	0	1492
Ganoderma sp. 10597 SS1 v1.0	Gansp1_129114	46.9	0	1389
Grifola frondosa	Grifr_OBZ73803	45.9	0	1261
Auricularia subglabra	Aurde3_1_1168543	40.9	3.044E-287	936
Lentinula edodes B17	Lened_B_1_1_15779	66	1.887E-279	912
Pleurotus ostreatus PC15	PleosPC15_2_30777	86.8	3.939E-131	461
Pleurotus ostreatus PC9	PleosPC9_1_59926	86.8	3.855E-131	461

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	443.3986	110.1278	63.5823
oidia	180.9049	20.4101	11.7838
vegetative_mycelium	116.8221	42.3553	24.4538
primordia	80.1854	8.5263	4.9227
hyphal_knot	448.5922	112.7417	65.0915
young_fruiting_body	161.1769	34.903	20.1513

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	161.0827	9.0956	5.2514
Wheat bran	89.7442	13.5526	7.8246
Horse manure	158.3446	54.4181	31.4183
Oak leaves	253.2471	41.4154	23.9112
Hay	194.3904	16.5742	9.5691
Corn stalk	230.2677	39.3496	22.7185
Pectine	192.9222	4.2655	2.4627
Microcrystalline cellulose	180.0342	33.7146	19.4651
Xylose	114.6598	11.0994	6.4083
Cellobiose	131.961	9.2427	5.3363
Lignin	191.4555	41.5015	23.9609
Apple peels	473.3649	76.3765	44.096

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	169.6677	32.0529	18.5057
Bsubtilis	352.7106	9.7635	5.637
Ecoli	152.7487	21.6542	12.502

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	54.802	1.0905	0.6296
BS 4h	23.0377	9.4164	5.4366
BS 8h	18.0259	2.1154	1.2213
BS 12h	17.7424	0.6037	0.3485
Oidia 0 h	17.5709	7.2532	4.1876
Oidia 18 h	32.2195	5.9733	3.4487
Sclerotia	100.612	18.7192	10.8075

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	23.2006	6.0034	3.4661
DM 36h	22.6664	4.3728	2.5246
DM 60h	16.1725	0.9862	0.5694
DM 84h	18.6108	4.9789	2.8746
DM 108h	30.3026	3.2226	1.8606
DM 132h	40.4355	12.5413	7.2407
DM 156hAE	38.3546	3.0447	1.7578
ELI1hAE	36.7692	4.5535	2.629
ELI2hAE	30.4047	6.8457	3.9524
LI2hAE	32.5121	4.4537	2.5713
LI6hAE	45.4123	1.3631	0.787
LI12hAE	41.925	7.8627	4.5395
LI18hAE	42.9791	7.7778	4.4905
LI 24hAE	47.3613	20.6559	11.9257
DM 156hAM	23.561	3.5587	2.0546
ELI1hAM	17.752	0.3429	0.198
ELI2hAM	15.3623	0.8055	0.4651
LI2hAM	13.2596	2.613	1.5086
LI6hAM	27.9021	2.6078	1.5056
LI12hAM	34.4073	10.4609	6.0396
LI18hAM	36.1413	6.7388	3.8906
LI 24hAM	76.8489	42.2279	24.3803
LI 24hHK	24.9529	9.3002	5.3695
L/D 6h	38.0351	7.0735	4.0839
L/D 12h	55.8235	13.8698	8.0077
L/D 18h	41.5407	16.9434	9.7823
L/D 24h	45.4107	7.7899	4.4975

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	144.914	21.5858	12.4626
Hyphal knots	157.6453	48.3385	27.9082
Primordium 1	87.5477	12.5333	7.2361
Primordium 2	86.6463	7.5831	4.3781
Young Fruiting body cap	133.0532	145.5112	84.0109
Younf fruiting body gill	67.0945	23.023	13.2923
Young fruiting body stipe	47.9814	2.6278	1.5172
Mature fruiting body cap_gill	365.1413	130.6542	75.4332
Mature fruiting body stipe	168.1569	10.0431	5.7984

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	99.5792	41.4073	23.9065
NH4NO3	132.2598	40.0412	23.1178
Proline	119.7697	31.9602	18.4522
Tryptophan	86.9796	36.8744	21.2894
Isoleucin	120.7191	14.6106	8.4354
Arginine	92.5077	15.3671	8.8722
Metionine	124.1539	24.4936	14.1414
NaNO3	61.4198	5.0777	2.9316

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	99.5792	41.4073	23.9065
Citrus peel	72.1704	4.3357	2.5032
Poplar leaves	125.5086	5.6928	3.2867
Typha leaves	71.9947	7.2255	4.1717
Overwintered Salix leaves	69.6129	9.4695	5.4672
Reed flowering	58.3818	3.059	1.7661
Tigernut	36.2636	4.5111	2.6045
Energy cane	99.1458	34.6286	19.9928
Guar gum	157.2432	88.1336	50.884
Apple peels	43.4329	8.0441	4.6443
Cellobiose	66.1426	5.0292	2.9036
Corn stalk	73.9427	10.2446	5.9147
Horse manure	80.1811	23.799	13.7404
Lignin	65.7272	24.4674	14.1262
Microcrystalline cellulose	92.2941	32.2088	18.5958
Oak leaves	81.9845	15.1683	8.7574
Pectin esterified	51.5425	37.2636	21.5142
Poplar sawdust	108.7646	19.9577	11.5226
Wheat bran	50.3802	6.2201	3.5911
Chlamydomonas reinhardtii	189.7635	50.8482	29.3572
Vertatryl alcohol	77.6131	6.7059	3.8716
Furfural	95.8864	11.77	6.7954
Autoclaved mycelium	88.9761	31.1189	17.9665

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	85.0733	9.4529	5.4577
Ribose	148.1609	21.1569	12.2149
Mannose	100.182	10.2289	7.2329
Fructose	139.0938	31.1466	17.9825
Arabinose	154.6525	35.9499	20.7557
Xylose	115.2054	6.7809	3.915
Galacturonic acid	158.5895	18.3486	10.5935
Rhamnogalacturonan	142.2197	16.7296	9.6589
Pectin esterified	192.8266	44.473	25.6765
Polygalacturonic acid	133.5448	10.3644	5.9839
Sodium acetate	138.2779	6.369	3.6771
No nitrogen	119.9345	17.0726	9.8568
BSA	175.211	12.9564	7.4804
Glutamine	161.9079	37.2218	21.49
No phosphate	115.9028	24.7381	14.2825
No carbon	240.1077	13.3417	9.434
No sulphur	141.8875	15.741	9.0881

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	99.5792	41.4073	23.9065
Amylose	339.6504	26.2172	15.1365
Fucose	302.6702	61.4831	35.4973
Galactose	466.8938	44.3346	25.5966
Lactose	294.9141	34.1024	19.689
Maltose	371.896	113.5374	65.5508
Mannitol	363.5881	19.2667	11.1236
Rhamnose	285.8713	161.5612	93.2774
Sorbitol	273.1702	31.4098	18.1345
Trehalose	249.6817	151.5877	87.5192
Glycerol	327.7192	210.3553	121.4487
Glucuronic acid	273.6968	62.2769	35.9556
Arabinan	130.4819	67.5698	39.0114
Galactan	122.9538	12.418	7.1695
Galactomannan	90.4333	59.6841	34.4586
Glucan	156.5273	83.6815	48.3135
Xylan	144.2825	22.8399	13.1866
Xyloglucan	127.775	11.4038	6.584
Arabinogalactan	211.7916	18.9765	10.9561
Pectin	112.9078	25.3029	14.6086
Rhamnogalacturonan	45.5306	15.8826	9.1698
Polygalacturonic acid	265.0192	27.1567	15.6789
Mannan	242.2772	59.0828	34.1115
Amylopectin	195.5845	133.3719	77.0023
Inulin	362.2911	64.2462	37.0925
BSA	46.1146	1.6727	0.9657

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	16.1725	0.9862	0.5694
2h WAT	33.7434	6.1316	3.5401
4h WAT	44.4256	11.3472	6.5513
8h WAT	64.4231	3.3691	1.9452
16h WAT	58.6418	2.8168	1.6263
24h WAT	61.3258	11.684	6.7458
WAT hyphal knot -30h	38.0021	2.002	1.1559
WAT hyphal knot -22h	36.0139	3.6566	2.1112
WAT hyphal knot -15h	40.6861	5.2835	3.0505
WAT hyphal knot -7.5h	59.2484	13.6448	7.8778
WAT hyphal knot	46.6492	3.9297	2.2688
WAT hyphal knot +7.5h	36.7557	3.3183	1.9158

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	64.0723	19.9097	11.4949
Straw 3h	56.551	14.9058	8.6058
Straw 6h	52.0881	22.7831	13.1539
Straw 12h	67.8684	7.3959	4.2701
Straw 24h	73.5608	16.4959	9.5239

Stress conditions 1

Expression profiling under various stress conditions

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
Flask control	25.1175	8.8024	5.0821
Frost (-20C, 30min)	43.2002	11.8636	6.8494
Heat shock (47C, 2h)	23.8179	2.5263	1.4586
High CO2	31.4346	9.4319	5.4455
Drought (4% agar, 12h)	16.6891	3.6247	2.0927
Oxidative (1mM H2O2, 3h)	35.3826	4.2187	2.4357
Acidic (pH4, 3h)	25.604	6.5845	3.8015
Alkaline (pH9, 3h)	15.3015	3.7243	2.1502
Osmotic (sorbitol 2h)	33.5511	3.1164	1.7992
CongoRed (3h)	25.872	1.2904	0.745
Cobalt chloride control	69.7262	9.3497	5.3981
Cobalt chloride 2mM	60.6453	0.4793	0.2767

Stress conditions 2

Expression profiling under various stress conditions

Hegedus et al.

QuantSeq

Sample	Mean cpm	SD cpm	Se of mean
Flask control	15.8918	2.9609	1.7095
Cold stimulation	18.8394	5.1377	2.9662
Scratched surface	20.444	2.0699	1.1951
Ca2+, 200mM, 24h	14.4525	1.8211	1.0514
Cu2+, 2mM, 6h	25.1598	5.3169	3.0697
Voriconazole	23.5139	5.0309	2.9046
Trichoderma interaction, early	21.4203	9.5367	5.506
Trichoderma interaction 60h	33.7715	3.6419	2.1027
Cobalt chloride 2mM repeat	37.9712	13.7191	7.9208
Hypoxia	51.2264	15.8404	9.1455
Hypoxia control	59.0423	8.7073	5.0272
Protoplastation control	79.6229	9.6378	6.815
Protoplastation 3.5h	77.4466	8.9112	6.3012
Protoplastation 1.5h	105.8822	16.8103	11.8867

General data

Systematic name	CDC15
Protein id	CopciAB_423744.T0
Description	STE STE11 cdc15 protein kinase

Annotation summary

Conserved domains

Analysis	Signature accession	Signature description	InterPro Accession	Start	End
CDD	cd00014	CH_SF	-	497	598
CDD	cd06627	STKc_Cdc7_like	-	1134	1388
CDD	cd00029	C1	-	1470	1516
Pfam	PF00069	Protein kinase domain	IPR000719	1137	1388
Pfam	PF00130	Phorbol esters/diacylglycerol binding domain (C1 domain)	IPR002219	1470	1518

SignalP

Prediction	Start	End	Score
No records

Transmembrane domains

Domain n	Start	End	Length
No records

InterPro

Accession	Description
IPR036872	CH domain superfamily
IPR002219	Protein kinase C-like, phorbol ester/diacylglycerol-binding domain
IPR017441	Protein kinase, ATP binding site
IPR046349	C1-like domain superfamily
IPR000719	Protein kinase domain
IPR008271	Serine/threonine-protein kinase, active site
IPR011009	Protein kinase-like domain superfamily
IPR001245	Serine-threonine/tyrosine-protein kinase, catalytic domain

GO

Go id	Term	Ontology
GO:0005524	ATP binding	MF
GO:0004672	protein kinase activity	MF
GO:0006468	protein phosphorylation	BP

KEGG

KEGG Orthology
K06683

EggNOG

COG category	Description
T	STE STE11 cdc15 protein kinase

CAZy

Class	Family	Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_423744 across fungi.

Arrow shows the origin of gene family containing CopciAB_423744.

Protein

Sequence id	CopciAB_423744.T0
Sequence	>CopciAB_423744.T0 MAAALVSSAKVPQVSRPLPISSHSRRPNPPPEASSSRYPQQAPAPDVFTSTSSTSETASRSFQRFFENSFRTATR SKKVPTPPVDEFATITAKAKKGKEKEREIHKSDEAPSHKLNVFRKVTFRGKSGQEPPATSNDGSQRPKERVAGKT SFITPSMRQASMSSPALHLSSQALPSPKSQSAVPASSSSNADVLVSPTRPRTRRVSMQPAPPKEISAPSLPSPRT TAQGPTRHRSSKSVPVAIPPSPSSPSLPSTSSESPVPTRVRHVPASPSHSPTPYSTSRVTPIRSPSKTSGSATPR ASSPACACSPSNRIRVATPSRGGASASTSHLPLSSSPSPTPRRPSVDSPRRQPIESPRRTSADYARRPSLDVTSR QSPSPFHGEPPSPIRPRSRTPSQRAYSQNRHFNISAGSLLLPSNPEHRDLIRTATSMLCKEILKPPPHMAKTDAG VRDWKEVEARTAALVRLERIWSRPFSPTTSQSSPTTGAGEERERKLFCDALRDGFVLCQWVSIIQYLLVNVILTP CAIRLLNKLRSSSVVRPDPREDGVTKSSNVTKFLAGCASYGLSGEDLFQQDDLIDGSSESLARVAQTIIALIKFV ESPVPSRSKYMSGQGKSKPLPPSPYGTLSKSSNSTPNLLSTNPQSPASPTRKRWSPPSDLPPLRSYSPGEKSVES VQTIRGVEDEDSMDEDGEEIEVKQMAVPIIKRPPPPPKSPLRKQASKSNDVGGLSAWSRATASPTRVSIASSTQA TIGDISVRDSIPNIRQSRQSMASSVLSSTTLSTAPSSLLDNGQGNLGNRYGTIRTVTTDLTSAAPSLTRAEGSSI SETFARSSSIDIPKHRDRRSGEVQMTRVAEETDESISRVATRVGGETKERGNASHDQRNERPAVHLRKGKWPDDF FDAFQMPNPARSSILDPDESLSRASPVSISKSSPRKIAIVGANRLHDDGSQPLPRRPTHRPRHSIDTPGLLPKEV ALRRDASPDSSTSRSPSGRVLLRRHSTKPATPTRTSLAPRSDDAPGSRGSDDSLVPFPRDRSTGVSTPTSPGGDN ILLERPRLRGRFQSEIEGASGRRGRPNSYDDVAARPARGRIESMVNLGVTSAATSASDLLARNSLDGSTGRALIV KEAGKPPTHFQLGNCIGRGQFGSVYRALNLNTGQMVAVKRIRLEGLKEEEVTQLMREVDLVKSLSHPSIVKYEGM ARDEDTLSIVLEYAENGSLGQTLKAFGKLNERLVASYVVKILEGLHYLHTSDVVHCDLKAANILTTKNGNVKLSD FGVSLNLRAMEREIKDVAGTPNWMAPEVIELKGASIKSDIWSLGCTVIELLTGRPPYADITNSMSVMFRIVEDDM PPLPEGCSELLEDFLKQCLQKDPNNRPTAELLCEHEWLKANWMELKDLRPQDSIPFLRRVSTDMQKSDVSRYFNQ FETPDSPVSEGFVRGDAGRVAPISRRTSNLSVRPPPENDISPREHTFVKTTFSKPMMCRVCLLNVKKSAVLCAQC SLISHAKCAASAPPTCDLRAQLLLYAQYAEKGNPSSAYSNPKDLLGDTRFPVAMSDVPFVSSPSSARTETPPPSS PIGVVGAHSESPPTAFKFKAAFKRSRSNLTPEPAKSPSSTPAPQEPGPEEPRRRRPTLLSKRPERPLSVTSDSTN MSSLRSAATAAESLNSGSGSRNRSASSSGGRAQKGSRYTGGLASTAESEHNRSSTQLISELSTSSAGVAMSYPGP ITHPTTRTLGSLSPDPRRHKRNAKSAGNCVIQ
Length	1757

Coding

Sequence id	CopciAB_423744.T0
Sequence	>CopciAB_423744.T0 ATGGCGGCGGCACTCGTTTCAAGTGCTAAGGTCCCTCAGGTCTCCCGGCCATTGCCCATATCTTCCCACTCGCGT CGGCCCAACCCTCCTCCTGAAGCGTCATCTTCACGGTATCCTCAACAGGCGCCAGCGCCCGATGTTTTCACTTCG ACATCATCCACTTCGGAAACCGCCTCGAGGTCCTTCCAACGCTTCTTCGAGAACAGTTTCCGCACCGCTACACGT TCCAAGAAAGTCCCGACCCCGCCGGTGGATGAGTTCGCGACGATAACCGCCAAGGCCAAGAAAGGAAAGGAGAAG GAAAGAGAGATCCATAAGAGTGACGAGGCTCCATCCCACAAATTGAACGTCTTCCGCAAGGTCACATTCCGTGGC AAAAGTGGGCAAGAACCTCCAGCAACGTCGAACGATGGTAGTCAGCGACCCAAGGAGAGAGTTGCTGGGAAAACC AGCTTCATTACGCCTTCAATGAGACAGGCATCAATGTCATCACCGGCCCTCCACCTCTCTTCACAAGCTCTGCCT TCGCCCAAGTCCCAATCAGCTGTGCCTGCTTCGTCTTCTTCTAATGCTGATGTTCTCGTCTCTCCAACTCGCCCG AGAACCCGGCGGGTCAGTATGCAGCCGGCCCCACCGAAGGAGATTAGTGCACCATCGCTCCCATCACCGCGAACT ACTGCCCAGGGGCCAACACGACATCGTTCATCCAAGTCAGTTCCCGTTGCAATACCGCCTTCACCCTCGTCACCT TCATTGCCCTCTACCTCTAGCGAATCCCCGGTCCCAACCCGAGTTCGCCATGTCCCCGCCAGTCCTTCTCATTCC CCTACACCCTACTCGACTTCTCGAGTCACGCCCATACGTTCACCATCAAAAACCAGTGGTTCTGCTACTCCACGT GCGTCAAGTCCAGCATGCGCCTGTTCCCCTTCCAACCGAATTCGAGTCGCAACACCTTCACGAGGTGGTGCTTCA GCGTCGACATCTCATCTTCCGCTGTCATCGAGTCCGTCCCCAACGCCACGACGTCCATCTGTCGACTCTCCCCGT CGACAACCTATCGAGTCACCACGACGTACATCCGCAGACTACGCACGACGTCCATCTCTCGATGTTACTTCCCGT CAGTCCCCATCACCATTCCACGGAGAACCCCCTTCCCCCATCCGACCACGGTCGAGAACTCCCTCCCAGCGTGCT TACTCACAAAACCGCCATTTCAACATCTCCGCAGGCTCATTGCTTCTTCCTAGTAATCCAGAGCACCGCGACTTG ATTAGGACGGCGACAAGTATGCTCTGCAAGGAAATACTGAAGCCGCCACCGCACATGGCGAAGACGGATGCCGGT GTGAGGGATTGGAAGGAGGTTGAAGCTCGAACGGCAGCATTGGTGCGACTGGAGAGGATCTGGAGTAGACCCTTT AGTCCTACCACGTCCCAAAGCTCGCCTACTACCGGAGCTGGTGAGGAACGGGAAAGGAAGCTGTTCTGTGACGCT CTCCGAGATGGATTCGTTCTATGCCAGTGGGTATCAATTATCCAATATCTTCTCGTCAATGTAATCCTAACGCCG TGTGCTATTAGACTGTTGAACAAGTTGCGGTCGAGTTCTGTAGTCCGCCCTGATCCGCGCGAAGATGGAGTCACC AAGTCGTCTAATGTCACCAAGTTTCTCGCGGGCTGTGCCTCGTATGGACTTTCAGGCGAAGACCTGTTCCAGCAG GACGACCTCATCGACGGCAGCAGCGAGTCGCTTGCACGTGTTGCTCAAACGATCATCGCACTCATCAAGTTCGTT GAATCCCCTGTGCCATCCAGATCCAAATACATGTCTGGCCAGGGCAAGAGCAAACCCCTTCCCCCGAGTCCGTAT GGCACGTTGTCAAAGTCGTCCAACTCGACGCCCAACCTCCTCTCAACCAACCCCCAATCTCCAGCATCTCCCACC AGGAAACGCTGGTCCCCTCCCTCCGACCTTCCACCGTTACGTTCATATAGCCCAGGGGAAAAGTCCGTCGAGTCA GTTCAGACGATACGTGGGGTAGAGGATGAGGATTCGATGGATGAGGACGGGGAGGAAATCGAAGTTAAACAGATG GCCGTACCAATCATTAAGAGACCGCCTCCTCCACCAAAATCTCCTTTACGGAAACAAGCATCAAAGTCTAATGAC GTCGGTGGACTATCTGCCTGGTCAAGGGCTACCGCTTCCCCCACGCGAGTTTCGATCGCAAGTTCGACCCAAGCC ACGATTGGTGACATATCTGTCCGGGACTCCATTCCAAACATCCGACAGTCCCGACAGTCCATGGCATCTAGCGTA CTTTCGTCCACTACTTTATCAACCGCGCCTTCTAGCCTCCTCGACAATGGTCAAGGGAATCTTGGCAATAGGTAC GGCACCATTCGAACGGTGACGACCGATCTAACCTCCGCTGCTCCCTCCCTGACGCGTGCGGAGGGCAGTTCCATC TCAGAAACATTTGCGCGGTCATCTTCTATAGATATACCCAAGCATAGAGACAGGAGGAGCGGCGAAGTTCAGATG ACGAGGGTGGCAGAGGAAACGGACGAGAGCATCTCTAGAGTTGCGACGAGGGTTGGTGGTGAGACAAAGGAGAGG GGTAACGCATCCCATGATCAGCGCAATGAAAGGCCAGCCGTCCACCTCCGTAAGGGAAAGTGGCCCGATGACTTC TTCGACGCATTCCAGATGCCAAACCCGGCTCGTTCAAGCATCCTCGATCCAGATGAAAGCTTATCTAGGGCAAGT CCTGTGTCAATTTCCAAGTCTTCCCCTCGCAAGATCGCTATTGTTGGCGCCAATCGCTTACATGATGATGGTTCG CAGCCGCTGCCTCGACGACCCACGCACCGACCTAGGCACAGCATTGATACCCCGGGATTACTGCCCAAGGAAGTC GCGTTGCGTCGAGATGCCAGTCCGGACAGTTCGACATCGAGGTCGCCTTCCGGGAGGGTTCTATTGCGCAGGCAC AGTACGAAGCCAGCTACTCCCACGCGAACGTCACTTGCACCCCGAAGTGACGATGCTCCTGGTTCTCGAGGTTCT GATGATTCCCTCGTACCCTTCCCCCGCGATCGAAGCACTGGCGTTTCAACCCCGACATCTCCTGGTGGCGACAAT ATACTCCTAGAAAGGCCGCGTCTTCGTGGGAGGTTCCAAAGTGAGATCGAGGGTGCAAGTGGTCGCAGAGGAAGG CCGAACTCTTACGACGATGTGGCCGCCAGGCCAGCTCGTGGCAGGATTGAGAGTATGGTTAACCTTGGGGTTACA TCGGCTGCGACCAGTGCTAGCGATCTGTTGGCCCGAAACTCGCTCGATGGAAGTACGGGTCGGGCGCTCATCGTG AAGGAAGCAGGGAAGCCCCCAACACACTTTCAACTGGGTAACTGCATTGGCCGCGGCCAATTTGGCTCTGTCTAT CGGGCGCTTAACCTCAACACCGGACAAATGGTTGCTGTCAAGCGTATCCGTTTGGAAGGCTTGAAGGAAGAGGAG GTCACGCAGCTCATGCGGGAGGTTGATCTCGTCAAGAGTCTCTCTCATCCTAGCATCGTCAAGTATGAAGGAATG GCCAGAGATGAGGATACACTAAGTATCGTGCTTGAATACGCAGAGAATGGATCTCTTGGCCAAACCCTCAAGGCC TTCGGTAAACTCAACGAGCGCCTTGTCGCAAGCTATGTCGTCAAGATCTTGGAAGGTTTGCACTACCTACACACC AGTGACGTAGTCCACTGCGATCTCAAGGCTGCGAACATCCTTACCACGAAGAACGGCAACGTCAAGCTTTCGGAT TTCGGAGTTTCTCTCAACCTTCGAGCGATGGAGCGCGAGATCAAGGATGTGGCTGGAACGCCCAACTGGATGGCG CCTGAGGTGATCGAACTCAAGGGCGCCTCCATCAAGTCGGACATTTGGTCTTTGGGTTGCACTGTGATTGAACTG TTGACGGGTCGTCCTCCATACGCAGACATCACTAATAGCATGTCTGTGATGTTCCGTATTGTCGAGGACGATATG CCCCCTCTACCTGAAGGTTGCTCAGAGCTGCTCGAAGATTTCCTCAAGCAATGCCTTCAGAAAGATCCGAACAAT AGGCCTACTGCTGAACTTCTCTGCGAGCATGAGTGGCTGAAGGCCAACTGGATGGAGCTAAAGGATTTGCGACCT CAAGATAGCATTCCGTTCCTTCGGCGTGTCAGCACGGATATGCAGAAGTCGGACGTCAGCCGTTACTTTAACCAG TTCGAGACTCCCGACTCTCCCGTATCCGAAGGTTTCGTACGCGGTGACGCTGGGAGGGTTGCTCCTATCAGTCGC CGCACATCGAACCTTTCTGTTCGGCCGCCTCCTGAGAATGACATTTCACCAAGAGAACATACCTTTGTCAAAACG ACATTCAGTAAACCCATGATGTGTCGAGTGTGTCTCTTGAATGTCAAGAAGAGTGCTGTTCTTTGTGCCCAGTGC AGCCTTATTTCTCATGCCAAATGCGCTGCCAGTGCTCCTCCAACATGCGATCTACGCGCTCAGCTTCTACTCTAC GCGCAGTACGCGGAAAAGGGCAATCCTTCAAGCGCTTACTCCAATCCAAAGGATCTCCTGGGGGATACGAGGTTT CCGGTTGCCATGTCGGATGTCCCCTTCGTCTCTAGTCCGTCCAGCGCGAGGACTGAAACACCTCCGCCCTCGTCG CCCATTGGCGTCGTCGGTGCGCATTCGGAATCACCGCCTACTGCGTTCAAGTTCAAGGCGGCTTTCAAGCGTTCC CGATCCAACTTGACGCCCGAGCCGGCCAAGTCGCCTTCATCGACGCCAGCACCGCAAGAACCCGGGCCGGAAGAA CCTCGTCGTAGACGACCGACCCTACTCTCCAAGAGACCGGAGCGACCTCTGTCAGTCACGAGCGACAGTACCAAC ATGAGCAGCCTCCGAAGTGCTGCTACTGCGGCAGAAAGCCTCAACTCTGGGTCAGGAAGTCGCAATAGGTCAGCG TCTTCGTCGGGTGGTCGAGCTCAGAAGGGTTCTCGGTACACTGGAGGTCTTGCGTCCACTGCGGAATCCGAACAC AACAGATCCTCTACGCAACTGATTTCAGAACTATCCACCTCTTCAGCAGGAGTTGCTATGAGTTACCCAGGTCCT ATTACTCACCCCACAACTAGAACACTTGGCTCGCTTTCACCAGATCCACGGCGTCATAAACGAAACGCAAAGTCT GCTGGAAATTGTGTTATTCAGTAA
Length	5274

Transcript

Sequence id	CopciAB_423744.T0
Sequence	>CopciAB_423744.T0 AGGTTCTCTGCCGTTACTCTTTCCGAGGTCAGCTGTAGCCTGCTTGCCTGAACAAATTGTTCGTGGCGCAGGAGA AAGGTACCACCAAAGGCCCTTGAAGGCTCTCCAAGCTGCCTTGAGGCTTATAGGCGTCAATTAACGCCCCTCAAG GTTTGATTGCGACGACCACGTTTTCTTCGTGTTGATCACCCCAAGTCCGCAAGACCCCAAGCCCACCGCAATTCT GACAATTGCCGCAGCCTCTAGGCAAGCAAGAGGCCGTTGAATTTCTTTTTGCGGGTGCTGGGAAGGAATAGCTTC TAGGTGCACTTCATTCAGAACCTGGTTGATTTGCCCACTTCACAGCATTTCAAGTTGCTCAGGGTCCCAGAAGGC TTACCAGCACTGTCCGCTGGTCGCAGTTCGATGAACCTTCATGGCGGCGGCACTCGTTTCAAGTGCTAAGGTCCC TCAGGTCTCCCGGCCATTGCCCATATCTTCCCACTCGCGTCGGCCCAACCCTCCTCCTGAAGCGTCATCTTCACG GTATCCTCAACAGGCGCCAGCGCCCGATGTTTTCACTTCGACATCATCCACTTCGGAAACCGCCTCGAGGTCCTT CCAACGCTTCTTCGAGAACAGTTTCCGCACCGCTACACGTTCCAAGAAAGTCCCGACCCCGCCGGTGGATGAGTT CGCGACGATAACCGCCAAGGCCAAGAAAGGAAAGGAGAAGGAAAGAGAGATCCATAAGAGTGACGAGGCTCCATC CCACAAATTGAACGTCTTCCGCAAGGTCACATTCCGTGGCAAAAGTGGGCAAGAACCTCCAGCAACGTCGAACGA TGGTAGTCAGCGACCCAAGGAGAGAGTTGCTGGGAAAACCAGCTTCATTACGCCTTCAATGAGACAGGCATCAAT GTCATCACCGGCCCTCCACCTCTCTTCACAAGCTCTGCCTTCGCCCAAGTCCCAATCAGCTGTGCCTGCTTCGTC TTCTTCTAATGCTGATGTTCTCGTCTCTCCAACTCGCCCGAGAACCCGGCGGGTCAGTATGCAGCCGGCCCCACC GAAGGAGATTAGTGCACCATCGCTCCCATCACCGCGAACTACTGCCCAGGGGCCAACACGACATCGTTCATCCAA GTCAGTTCCCGTTGCAATACCGCCTTCACCCTCGTCACCTTCATTGCCCTCTACCTCTAGCGAATCCCCGGTCCC AACCCGAGTTCGCCATGTCCCCGCCAGTCCTTCTCATTCCCCTACACCCTACTCGACTTCTCGAGTCACGCCCAT ACGTTCACCATCAAAAACCAGTGGTTCTGCTACTCCACGTGCGTCAAGTCCAGCATGCGCCTGTTCCCCTTCCAA CCGAATTCGAGTCGCAACACCTTCACGAGGTGGTGCTTCAGCGTCGACATCTCATCTTCCGCTGTCATCGAGTCC GTCCCCAACGCCACGACGTCCATCTGTCGACTCTCCCCGTCGACAACCTATCGAGTCACCACGACGTACATCCGC AGACTACGCACGACGTCCATCTCTCGATGTTACTTCCCGTCAGTCCCCATCACCATTCCACGGAGAACCCCCTTC CCCCATCCGACCACGGTCGAGAACTCCCTCCCAGCGTGCTTACTCACAAAACCGCCATTTCAACATCTCCGCAGG CTCATTGCTTCTTCCTAGTAATCCAGAGCACCGCGACTTGATTAGGACGGCGACAAGTATGCTCTGCAAGGAAAT ACTGAAGCCGCCACCGCACATGGCGAAGACGGATGCCGGTGTGAGGGATTGGAAGGAGGTTGAAGCTCGAACGGC AGCATTGGTGCGACTGGAGAGGATCTGGAGTAGACCCTTTAGTCCTACCACGTCCCAAAGCTCGCCTACTACCGG AGCTGGTGAGGAACGGGAAAGGAAGCTGTTCTGTGACGCTCTCCGAGATGGATTCGTTCTATGCCAGTGGGTATC AATTATCCAATATCTTCTCGTCAATGTAATCCTAACGCCGTGTGCTATTAGACTGTTGAACAAGTTGCGGTCGAG TTCTGTAGTCCGCCCTGATCCGCGCGAAGATGGAGTCACCAAGTCGTCTAATGTCACCAAGTTTCTCGCGGGCTG TGCCTCGTATGGACTTTCAGGCGAAGACCTGTTCCAGCAGGACGACCTCATCGACGGCAGCAGCGAGTCGCTTGC ACGTGTTGCTCAAACGATCATCGCACTCATCAAGTTCGTTGAATCCCCTGTGCCATCCAGATCCAAATACATGTC TGGCCAGGGCAAGAGCAAACCCCTTCCCCCGAGTCCGTATGGCACGTTGTCAAAGTCGTCCAACTCGACGCCCAA CCTCCTCTCAACCAACCCCCAATCTCCAGCATCTCCCACCAGGAAACGCTGGTCCCCTCCCTCCGACCTTCCACC GTTACGTTCATATAGCCCAGGGGAAAAGTCCGTCGAGTCAGTTCAGACGATACGTGGGGTAGAGGATGAGGATTC GATGGATGAGGACGGGGAGGAAATCGAAGTTAAACAGATGGCCGTACCAATCATTAAGAGACCGCCTCCTCCACC AAAATCTCCTTTACGGAAACAAGCATCAAAGTCTAATGACGTCGGTGGACTATCTGCCTGGTCAAGGGCTACCGC TTCCCCCACGCGAGTTTCGATCGCAAGTTCGACCCAAGCCACGATTGGTGACATATCTGTCCGGGACTCCATTCC AAACATCCGACAGTCCCGACAGTCCATGGCATCTAGCGTACTTTCGTCCACTACTTTATCAACCGCGCCTTCTAG CCTCCTCGACAATGGTCAAGGGAATCTTGGCAATAGGTACGGCACCATTCGAACGGTGACGACCGATCTAACCTC CGCTGCTCCCTCCCTGACGCGTGCGGAGGGCAGTTCCATCTCAGAAACATTTGCGCGGTCATCTTCTATAGATAT ACCCAAGCATAGAGACAGGAGGAGCGGCGAAGTTCAGATGACGAGGGTGGCAGAGGAAACGGACGAGAGCATCTC TAGAGTTGCGACGAGGGTTGGTGGTGAGACAAAGGAGAGGGGTAACGCATCCCATGATCAGCGCAATGAAAGGCC AGCCGTCCACCTCCGTAAGGGAAAGTGGCCCGATGACTTCTTCGACGCATTCCAGATGCCAAACCCGGCTCGTTC AAGCATCCTCGATCCAGATGAAAGCTTATCTAGGGCAAGTCCTGTGTCAATTTCCAAGTCTTCCCCTCGCAAGAT CGCTATTGTTGGCGCCAATCGCTTACATGATGATGGTTCGCAGCCGCTGCCTCGACGACCCACGCACCGACCTAG GCACAGCATTGATACCCCGGGATTACTGCCCAAGGAAGTCGCGTTGCGTCGAGATGCCAGTCCGGACAGTTCGAC ATCGAGGTCGCCTTCCGGGAGGGTTCTATTGCGCAGGCACAGTACGAAGCCAGCTACTCCCACGCGAACGTCACT TGCACCCCGAAGTGACGATGCTCCTGGTTCTCGAGGTTCTGATGATTCCCTCGTACCCTTCCCCCGCGATCGAAG CACTGGCGTTTCAACCCCGACATCTCCTGGTGGCGACAATATACTCCTAGAAAGGCCGCGTCTTCGTGGGAGGTT CCAAAGTGAGATCGAGGGTGCAAGTGGTCGCAGAGGAAGGCCGAACTCTTACGACGATGTGGCCGCCAGGCCAGC TCGTGGCAGGATTGAGAGTATGGTTAACCTTGGGGTTACATCGGCTGCGACCAGTGCTAGCGATCTGTTGGCCCG AAACTCGCTCGATGGAAGTACGGGTCGGGCGCTCATCGTGAAGGAAGCAGGGAAGCCCCCAACACACTTTCAACT GGGTAACTGCATTGGCCGCGGCCAATTTGGCTCTGTCTATCGGGCGCTTAACCTCAACACCGGACAAATGGTTGC TGTCAAGCGTATCCGTTTGGAAGGCTTGAAGGAAGAGGAGGTCACGCAGCTCATGCGGGAGGTTGATCTCGTCAA GAGTCTCTCTCATCCTAGCATCGTCAAGTATGAAGGAATGGCCAGAGATGAGGATACACTAAGTATCGTGCTTGA ATACGCAGAGAATGGATCTCTTGGCCAAACCCTCAAGGCCTTCGGTAAACTCAACGAGCGCCTTGTCGCAAGCTA TGTCGTCAAGATCTTGGAAGGTTTGCACTACCTACACACCAGTGACGTAGTCCACTGCGATCTCAAGGCTGCGAA CATCCTTACCACGAAGAACGGCAACGTCAAGCTTTCGGATTTCGGAGTTTCTCTCAACCTTCGAGCGATGGAGCG CGAGATCAAGGATGTGGCTGGAACGCCCAACTGGATGGCGCCTGAGGTGATCGAACTCAAGGGCGCCTCCATCAA GTCGGACATTTGGTCTTTGGGTTGCACTGTGATTGAACTGTTGACGGGTCGTCCTCCATACGCAGACATCACTAA TAGCATGTCTGTGATGTTCCGTATTGTCGAGGACGATATGCCCCCTCTACCTGAAGGTTGCTCAGAGCTGCTCGA AGATTTCCTCAAGCAATGCCTTCAGAAAGATCCGAACAATAGGCCTACTGCTGAACTTCTCTGCGAGCATGAGTG GCTGAAGGCCAACTGGATGGAGCTAAAGGATTTGCGACCTCAAGATAGCATTCCGTTCCTTCGGCGTGTCAGCAC GGATATGCAGAAGTCGGACGTCAGCCGTTACTTTAACCAGTTCGAGACTCCCGACTCTCCCGTATCCGAAGGTTT CGTACGCGGTGACGCTGGGAGGGTTGCTCCTATCAGTCGCCGCACATCGAACCTTTCTGTTCGGCCGCCTCCTGA GAATGACATTTCACCAAGAGAACATACCTTTGTCAAAACGACATTCAGTAAACCCATGATGTGTCGAGTGTGTCT CTTGAATGTCAAGAAGAGTGCTGTTCTTTGTGCCCAGTGCAGCCTTATTTCTCATGCCAAATGCGCTGCCAGTGC TCCTCCAACATGCGATCTACGCGCTCAGCTTCTACTCTACGCGCAGTACGCGGAAAAGGGCAATCCTTCAAGCGC TTACTCCAATCCAAAGGATCTCCTGGGGGATACGAGGTTTCCGGTTGCCATGTCGGATGTCCCCTTCGTCTCTAG TCCGTCCAGCGCGAGGACTGAAACACCTCCGCCCTCGTCGCCCATTGGCGTCGTCGGTGCGCATTCGGAATCACC GCCTACTGCGTTCAAGTTCAAGGCGGCTTTCAAGCGTTCCCGATCCAACTTGACGCCCGAGCCGGCCAAGTCGCC TTCATCGACGCCAGCACCGCAAGAACCCGGGCCGGAAGAACCTCGTCGTAGACGACCGACCCTACTCTCCAAGAG ACCGGAGCGACCTCTGTCAGTCACGAGCGACAGTACCAACATGAGCAGCCTCCGAAGTGCTGCTACTGCGGCAGA AAGCCTCAACTCTGGGTCAGGAAGTCGCAATAGGTCAGCGTCTTCGTCGGGTGGTCGAGCTCAGAAGGGTTCTCG GTACACTGGAGGTCTTGCGTCCACTGCGGAATCCGAACACAACAGATCCTCTACGCAACTGATTTCAGAACTATC CACCTCTTCAGCAGGAGTTGCTATGAGTTACCCAGGTCCTATTACTCACCCCACAACTAGAACACTTGGCTCGCT TTCACCAGATCCACGGCGTCATAAACGAAACGCAAAGTCTGCTGGAAATTGTGTTATTCAGTAACTTTATTCCCT TCATTTTACTTGGCTCTCTCCTTCACCTTGTCCCTGGTTTTTGTCTACCCCCTTTCTCTGTCTTTGTGCATCATG TGTTTTCTTGTAGTTATAGCAATCAGGTGTTCTTTAAAGGATGCATCTATCTCGGACACCCCTTCTCTTGAACAG TCTCTGTCTTTTGCTGTTGTTAAACACTGTCGCTTGTGTACCACCATCTCATTAGTCCTAGTTAGGTTGACACTT ACCCCATGCATGTATACTACTGGAAATTTACCGTTAATAAAGATGCCTTCTGGATGGA
Length	5983

Gene

Sequence id	CopciAB_423744.T0
Sequence	>CopciAB_423744.T0 AGGTTCTCTGCCGTTACTCTTTCCGAGGTCAGCTGTAGCCTGCTTGCCTGAACAAATTGTTCGTGGCGCAGGAGA AAGGTACCACCAAAGGCCCTTGAAGGCTCTCCAAGGTCTCACAGCTTGTCTTTGATTCCGGTTTGTTCTGACAGT CACCATTTACAGCTGCCTTGAGGCTTATAGGCGTCAATTAACGCCCCTCAAGGTTTGATTGCGACGACCACGTTT TCTTCGTGTTGATCACCCCAAGTCCGCAAGACCCCAAGCCCACCGCAATTCTGACAATTGCCGCAGCCTCTAGGC AAGCAAGAGGCCGTTGAATTTCTTTTTGCGGGTGCTGGGAAGGAATAGCTTCTAGGTATGTTCATGTTCTGTCTG GTTGTGCAGAGTTCTTTCCGACGTGATATCATGTCGATGAAACGCCGTCGCCGCCGACTGCGGCGTCCACAATGC CCCCGACTTTGTTAAAGGACAAACTGACCCCTTTGTATAGGTGCACTTCATTCAGAACCTGGTTGATTTGCCCAC TTCACAGCATTTCAAGTTGCTCAGGGTCCCAGAAGGCTTACCAGCACTGTCCGCTGGTCGCAGTTCGATGAACCT TCATGGCGGCGGCACTCGTTTCAAGTGCTAAGGTCCCTCAGGTCTCCCGGCCATTGCCCATATCTTCCCACTCGC GTCGGCCCAACCCTCCTCCTGAAGCGTCATCTTCACGGTATCCTCAACAGGCGCCAGCGCCCGATGTTTTCACTT CGACATCATCCACTTCGGAAACCGCCTCGAGGTCCTTCCAACGCTTCTTCGAGAACAGTTTCCGCACCGCTACAC GTTCCAAGAAAGTCCCGACCCCGCCGGTGGATGAGTTCGCGACGATAACCGCCAAGGCCAAGAAAGGAAAGGAGA AGGAAAGAGAGATCCATAAGAGTGACGAGGCTCCATCCCACAAATTGAACGTCTTCCGCAAGGTCACATTCCGTG GCAAAAGTGGGCAAGAACCTCCAGCAACGTCGAACGATGGTAGTCAGCGACCCAAGGAGAGAGTTGCTGGGAAAA CCAGCTTCATTACGCCTTCAATGAGACAGGCATCAATGTCATCACCGGCCCTCCACCTCTCTTCACAAGCTCTGC CTTCGCCCAAGTCCCAATCAGCTGTGCCTGCTTCGTCTTCTTCTAATGCTGATGTTCTCGTCTCTCCAACTCGCC CGAGAACCCGGCGGGTCAGTATGCAGCCGGCCCCACCGAAGGAGATTAGTGCACCATCGCTCCCATCACCGCGAA CTACTGCCCAGGGGCCAACACGACATCGTTCATCCAAGTCAGTTCCCGTTGCAATACCGCCTTCACCCTCGTCAC CTTCATTGCCCTCTACCTCTAGCGAATCCCCGGTCCCAACCCGAGTTCGCCATGTCCCCGCCAGTCCTTCTCATT CCCCTACACCCTACTCGACTTCTCGAGTCACGCCCATACGTTCACCATCAAAAACCAGTGGTTCTGCTACTCCAC GTGCGTCAAGTCCAGCATGCGCCTGTTCCCCTTCCAACCGAATTCGAGTCGCAACACCTTCACGAGGTGGTGCTT CAGCGTCGACATCTCATCTTCCGCTGTCATCGAGTCCGTCCCCAACGCCACGACGTCCATCTGTCGACTCTCCCC GTCGACAACCTATCGAGTCACCACGACGTACATCCGCAGACTACGCACGACGTCCATCTCTCGATGTTACTTCCC GTCAGTCCCCATCACCATTCCACGGAGAACCCCCTTCCCCCATCCGACCACGGTCGAGAACTCCCTCCCAGCGTG CTTACTCACAAAACCGCCATTTCAACATCTCCGCAGGCTCATTGCTTCTTCCTAGTAATCCAGAGCACCGCGACT TGATTAGGACGGCGACAAGTATGCTCTGCAAGGAAATACTGAAGCCGCCACCGCACATGGCGAAGACGGATGCCG GTGTGAGGGATTGGAAGGAGGTTGAAGCTCGAACGGCAGCATTGGTGCGACTGGAGAGGATCTGGAGTAGACCCT TTAGTCCTACCACGTCCCAAAGCTCGCCTACTACCGGAGCTGGTGAGGAACGGGAAAGGAAGCTGTTCTGTGACG CTCTCCGAGATGGATTCGTTCTATGCCAGTGGGTATCAATTATCCAATATCTTCTCGTCAATGTAATCCTAACGC CGTGTGCTATTAGACTGTTGAACAAGTTGCGGTCGAGTTCTGTAGTCCGCCCTGATCCGCGCGAAGATGGAGTCA CCAAGTCGTCTAATGTCACCAAGTTTCTCGCGGGCTGTGCCTCGTATGGACTTTCAGGCGAAGACCTGTTCCAGC AGGACGACCTCATCGACGGCAGCAGCGAGTCGCTTGCACGTGTTGCTCAAACGATCATCGCACTCATCAAGTTCG TTGAATCCCCTGTGCCATCCAGATCCAAATACATGTCTGGCCAGGGCAAGAGCAAACCCCTTCCCCCGAGTCCGT ATGGCACGTTGTCAAAGTCGTCCAACTCGACGCCCAACCTCCTCTCAACCAACCCCCAATCTCCAGCATCTCCCA CCAGGAAACGCTGGTCCCCTCCCTCCGACCTTCCACCGTTACGTTCATATAGCCCAGGGGAAAAGTCCGTCGAGT CAGTTCAGACGATACGTGGGGTAGAGGATGAGGATTCGATGGATGAGGACGGGGAGGAAATCGAAGTTAAACAGA TGGCCGTACCAATCATTAAGAGACCGCCTCCTCCACCAAAATCTCCTTTACGGAAACAAGCATCAAAGTCTAATG ACGTCGGTGGACTATCTGCCTGGTCAAGGGCTACCGCTTCCCCCACGCGAGTTTCGATCGCAAGTTCGACCCAAG CCACGATTGGTGACATATCTGTCCGGGACTCCATTCCAAACATCCGACAGTCCCGACAGTCCATGGCATCTAGCG TACTTTCGTCCACTACTTTATCAACCGCGCCTTCTAGCCTCCTCGACAATGGTCAAGGGAATCTTGGCAATAGGT ACGGCACCATTCGAACGGTGACGACCGATCTAACCTCCGCTGCTCCCTCCCTGACGCGTGCGGAGGGCAGTTCCA TCTCAGAAACATTTGCGCGGTCATCTTCTATAGATATACCCAAGCATAGAGACAGGAGGAGCGGCGAAGTTCAGA TGACGAGGGTGGCAGAGGAAACGGACGAGAGCATCTCTAGAGTTGCGACGAGGGTTGGTGGTGAGACAAAGGAGA GGGGTAACGCATCCCATGATCAGCGCAATGAAAGGCCAGCCGTCCACCTCCGTAAGGGAAAGTGGCCCGATGACT TCTTCGACGCATTCCAGATGCCAAACCCGGCTCGTTCAAGCATCCTCGATCCAGATGAAAGCTTATCTAGGGCAA GTCCTGTGTCAATTTCCAAGTCTTCCCCTCGCAAGATCGCTATTGTTGGCGCCAATCGCTTACATGATGATGGTT CGCAGCCGCTGCCTCGACGACCCACGCACCGACCTAGGCACAGCATTGATACCCCGGGATTACTGCCCAAGGAAG TCGCGTTGCGTCGAGATGCCAGTCCGGACAGTTCGACATCGAGGTCGCCTTCCGGGAGGGTTCTATTGCGCAGGC ACAGTACGAAGCCAGCTACTCCCACGCGAACGTCACTTGCACCCCGAAGTGACGATGCTCCTGGTTCTCGAGGTT CTGATGATTCCCTCGTACCCTTCCCCCGCGATCGAAGCACTGGCGTTTCAACCCCGACATCTCCTGGTGGCGACA ATATACTCCTAGAAAGGCCGCGTCTTCGTGGGAGGTTCCAAAGTGAGATCGAGGGTGCAAGTGGTCGCAGAGGAA GGCCGAACTCTTACGACGATGTGGCCGCCAGGCCAGCTCGTGGCAGGATTGAGAGTATGGTTAACCTTGGGGTTA CATCGGCTGCGACCAGTGCTAGCGATCTGTTGGCCCGAAACTCGCTCGATGGAAGTACGGGTCGGGCGCTCATCG TGAAGGAAGCAGGGAAGCCCCCAACACACTTTGTGAGTGTCCTTTAGCTTCTTGTACCAAGTGATCGAGATTCTG AGATATGGCTTCATAGCAACTGGGTAACTGCATTGGCCGCGGCCAATTTGGCTCTGTCTATCGGGCGCTTAACCT CAACACCGGACAAATGGTTGCTGTCAAGCGTATCCGTTTGGAAGGCTTGAAGGAAGAGGAGGTCACGCAGCTCAT GCGGGAGGTTGATCTCGTCAAGAGTCTCTCTCATCCTAGCATCGTCAAGTATGAAGGAATGGCCAGAGATGAGGA TACACTAAGTATCGTGCTTGAGTGAGCCGAAGCATTCTCCCATCTCGATCGTATTTTAATTCCCTTTCGTTTAGA TACGCAGAGAATGGATCTCTTGGCCAAACCCTCAAGGCCTTCGGTAAACTCAACGAGCGCCTTGTCGCAAGCTAT GTCGTCAAGATCTTGGAAGGTTTGCACTACCTACACACCAGTGACGTAGTCCACTGCGATCTCAAGGCTGCGAAC ATCCTTACCACGAAGAACGGCAACGTCAAGCTTTCGGATTTCGGAGTTTCTCTCAACCTTCGAGCGATGGAGCGC GAGATCAAGGATGTGGCTGGAACGCCCAACTGGATGGCGCCTGAGGTGATCGAACTCAAGGGCGCCTCCATCAAG TCGGACATTTGGTCTTTGGGTTGCACTGTGATTGAACTGTTGACGGGTCGTCCTCCATACGCAGACATCACTAAT AGCATGTCTGGTACGTCAAAGAATTCCATCGACGATCCCTTCCTTGGTTTAATCATGATGCAACAGTGATGTTCC GTATTGTCGAGGACGATATGCCCCCTCTACCTGAAGGTTGCTCAGAGCTGCTCGAAGATTTCCTCAAGCAATGCC TTCAGAAAGATCCGAACAATAGGCCTACTGCTGAACTTCTCTGCGAGCATGAGTGGCTGAAGGCCAACTGGATGG AGCTAAAGGTTTGTCTGCGCTTGAATAGCGACAATGCGATGGCTGAAACCATACTCTATCAGGATTTGCGACCTC AAGATAGCATTCCGTTCCTTCGGCGTGTCAGCACGGATATGCAGAAGTCGGACGTCAGCCGTTACTTTAACCAGT TCGAGACTCCCGACTCTCCCGTATCCGAAGGTTTCGTACGCGGTGACGCTGGGAGGGTTGCTCCTATCAGTCGCC GCACATCGAACCTTTCTGTTCGGCCGCCTCCTGAGAATGACATTTCACCAAGAGAACATACCTTTGTCAAAACGA CATTCAGTAAACGTAAGTAATTCAACTGGCTATGAATAGATGAGTCCAGAACTAAACTTTCGACATAGCCATGAT GTGTCGAGTGTGTCTCTTGAATGTCAAGAAGAGTGCTGTTCTTTGTGCCCAGTGCAGCCTTATTTCTCATGCCAA ATGCGCTGCCAGTGCTCCTCCAACATGCGATCTACGCGCTCAGCTTCTACTCTACGCGCAGTACGCGGAAAAGGG CAATCCTTCAAGCGCTTACTCCAATCCAAAGGATCTCCTGGGGGATACGAGGTTTCCGGTTGCCATGTCGGATGT CCCCTTCGTCTCTAGTCCGTCCAGCGCGAGGACTGAAACACCTCCGCCCTCGTCGCCCATTGGCGTCGTCGGTGC GCATTCGGAATCACCGCCTACTGCGTTCAAGTTCAAGGCGGCTTTCAAGCGTTCCCGATCCAACTTGACGCCCGA GCCGGCCAAGTCGCCTTCATCGACGCCAGCACCGCAAGAACCCGGGCCGGAAGAACCTCGTCGTAGACGACCGAC CCTACTCTCCAAGAGACCGGAGCGACCTCTGTCAGTCACGAGCGACAGTACCAACATGAGCAGCCTCCGAAGTGC TGCTACTGCGGCAGAAAGCCTCAACTCTGGGTCAGGAAGTCGCAATAGGTCAGCGTCTTCGTCGGGTGGTCGAGC TCAGAAGGGTTCTCGGTACACTGGAGGTCTTGCGTCCACTGCGGAATCCGAACACAACAGATCCTCTACGCAACT GATTTCAGAACTATCCACCTCTTCAGCAGGAGTTGCTATGAGTTACCCAGGTCCTATTACTCACCCCACAACTAG AACACTTGGCTCGCTTTCACCAGATCCACGGCGTCATAAACGAAACGCAAAGTCTGCTGGAAATTGTGTTATTCA GTAACTTTATTCCCTTCATTTTACTTGGCTCTCTCCTTCACCTTGTCCCTGGTTTTTGTCTACCCCCTTTCTCTG TCTTTGTGCATCATGTGTTTTCTTGTAGTTATAGCAATCAGGTGTTCTTTAAAGGATGCATCTATCTCGGACACC CCTTCTCTTGAACAGTCTCTGTCTTTTGCTGTTGTTAAACACTGTCGCTTGTGTACCACCATCTCATTAGTCCTA GTTAGGTTGACACTTACCCCATGCATGTATACTACTGGAAATTTACCGTTAATAAAGATGCCTTCTGGATGGA
Length	6448

CopciAB_423744 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_423744 across fungi.

Protein

Coding

Transcript

Gene

CopciAB_423744
Coprinopsis cinerea A43mutB43mut pab1-1 #326