CopciAB_496841
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_496841 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 496841
Uniprot id Functional description
Location scaffold_7:1963135..1967254 Strand +
Gene length (nt) 4120 Transcript length (nt) 3904
CDS length (nt) 3627 Protein length (aa) 1208

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 2.5031 0.9702 0.5601
oidia 3.626 1.0171 0.5872
vegetative_mycelium 2.6412 0.1648 0.0952
primordia 35.0765 5.77 3.3313
hyphal_knot 2.872 0.4243 0.245
young_fruiting_body 55.0287 14.5992 8.4289
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 12.5559 6.3218 3.6499
Wheat bran 8.8724 3.0913 1.7848
Horse manure 25.5201 9.4486 5.4551
Oak leaves 11.5721 9.9733 5.7581
Hay 16.794 4.3705 2.5233
Corn stalk 20.3988 4.3936 2.5367
Pectine 19.6499 2.4118 1.3925
Microcrystalline cellulose 7.715 1.9497 1.1257
Xylose 4.096 0.6843 0.3951
Cellobiose 3.7367 1.1261 0.6502
Lignin 16.5479 6.2475 3.607
Apple peels 7.0423 1.8866 1.0893
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 9.7596 1.5789 0.9116
Bsubtilis 10.6936 3.5779 2.0657
Ecoli 16.7536 0.3569 0.2061
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 0.1642 0.1062 0.0613
BS 4h 0.4224 0.2862 0.1653
BS 8h 0.6902 0.4129 0.2384
BS 12h 0.4088 0.1712 0.0988
Oidia 0 h 2.6056 0.7634 0.4407
Oidia 18 h 1.999 0.7431 0.4291
Sclerotia 0.1735 0.3006 0.1735
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 0.4415 0.0949 0.0548
DM 36h 0.4545 0.3669 0.2118
DM 60h 0.2214 0.1773 0.1024
DM 84h 0.4767 0.1025 0.0592
DM 108h 0.2752 0.1548 0.0894
DM 132h 0.5154 0.4707 0.2718
DM 156hAE 0.3512 0.3122 0.1802
ELI1hAE 0.9204 0.2634 0.1521
ELI2hAE 1.1385 0.589 0.3401
LI2hAE 0.5169 0.4763 0.275
LI6hAE 1.2923 0.1466 0.0846
LI12hAE 1.023 0.3818 0.2204
LI18hAE 1.0188 0.7253 0.4188
LI 24hAE 0.551 0.1591 0.0919
DM 156hAM 0.4473 0.3943 0.2276
ELI1hAM 0.4185 0.1854 0.107
ELI2hAM 0.462 0.4351 0.2512
LI2hAM 0.7178 0.2967 0.1713
LI6hAM 0.7709 0.4403 0.2542
LI12hAM 1.6639 1.0575 0.6106
LI18hAM 2.8875 1.557 0.8989
LI 24hAM 1.071 0.9964 0.5753
LI 24hHK 1.0985 0.6137 0.3543
L/D 6h 1.5412 0.6499 0.3752
L/D 12h 1.2184 0.5587 0.3226
L/D 18h 0.9164 0.7172 0.4141
L/D 24h 1.8271 0.2829 0.1633
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 2.419 0.7181 0.4146
Hyphal knots 2.7359 1.59 0.918
Primordium 1 3.2474 0.4018 0.232
Primordium 2 3.3576 0.4551 0.2628
Young Fruiting body cap 3.1022 2.0846 1.2035
Younf fruiting body gill 12.9885 10.4854 6.0537
Young fruiting body stipe 43.7773 8.2543 4.7656
Mature fruiting body cap_gill 177.9451 53.4932 30.8843
Mature fruiting body stipe 99.7183 28.0285 16.1822
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 2.6754 0.294 0.1698
NH4NO3 8.674 2.7066 1.5627
Proline 3.3233 1.2768 0.7372
Tryptophan 5.1294 1.41 0.8141
Isoleucin 10.1471 3.4292 1.9798
Arginine 3.6745 1.3853 0.7998
Metionine 6.6976 0.8641 0.4989
NaNO3 5.8195 1.6116 0.9305
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 2.6754 0.294 0.1698
Citrus peel 1.6216 0.6576 0.3796
Poplar leaves 4.3874 0.0562 0.0324
Typha leaves 3.1225 0.32 0.1848
Overwintered Salix leaves 5.0324 1.2014 0.6936
Reed flowering 2.6185 0.8759 0.5057
Tigernut 2.0655 0.4967 0.2868
Energy cane 3.5117 1.1857 0.6846
Guar gum 5.0661 4.4787 2.5858
Apple peels 11.0529 0.5755 0.3323
Cellobiose 10.5277 0.5529 0.3192
Corn stalk 7.8385 1.698 0.9803
Horse manure 4.4089 1.4199 0.8198
Lignin 3.0615 1.9817 1.1441
Microcrystalline cellulose 3.8252 0.7737 0.4467
Oak leaves 7.579 2.5062 1.447
Pectin esterified 6.9922 1.4432 0.8333
Poplar sawdust 10.2212 3.2425 1.872
Wheat bran 3.1938 0.9002 0.5197
Chlamydomonas reinhardtii 1.9738 0.6242 0.3604
Vertatryl alcohol 1.4769 0.8995 0.5193
Furfural 2.3352 0.6484 0.3743
Autoclaved mycelium 2.3836 0.5346 0.3087
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 15.7557 0.9771 0.5641
Ribose 14.9576 1.3913 0.8033
Mannose 15.6379 1.8435 1.3035
Fructose 17.6177 0.5139 0.2967
Arabinose 14.6057 0.9436 0.5448
Xylose 16.2018 1.1199 0.6466
Galacturonic acid 15.7917 0.7746 0.4472
Rhamnogalacturonan 15.0915 2.54 1.4664
Pectin esterified 14.9247 1.0482 0.6052
Polygalacturonic acid 13.6809 0.7243 0.4182
Sodium acetate 12.8233 1.4981 0.8649
No nitrogen 6.4861 1.0093 0.5827
BSA 15.4912 1.2408 0.7164
Glutamine 14.0031 1.1078 0.6396
No phosphate 12.134 1.6375 0.9454
No carbon 13.5989 0.2097 0.1483
No sulphur 13.8273 4.7478 2.7411
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 2.6754 0.294 0.1698
Amylose 3.6522 1.0117 0.5841
Fucose 3.4536 1.7014 0.9823
Galactose 2.8977 0.2895 0.1671
Lactose 7.4658 4.8031 2.773
Maltose 5.0822 2.7789 1.6044
Mannitol 5.4093 2.9104 1.6803
Rhamnose 3.5862 1.4579 0.8417
Sorbitol 3.8019 1.5197 0.8774
Trehalose 5.4182 1.1814 0.6821
Glycerol 3.4255 0.7676 0.4432
Glucuronic acid 3.1512 0.7836 0.4524
Arabinan 3.0083 0.6696 0.3866
Galactan 3.1327 1.4043 0.8108
Galactomannan 2.7969 0.708 0.4088
Glucan 2.6503 0.9613 0.555
Xylan 2.4918 0.4403 0.2542
Xyloglucan 3.9903 0.8727 0.5038
Arabinogalactan 3.7854 0.9727 0.5616
Pectin 1.4611 0.2859 0.1651
Rhamnogalacturonan 1.6896 0.7693 0.4442
Polygalacturonic acid 1.9313 0.4091 0.2362
Mannan 3.7498 0.8624 0.4979
Amylopectin 4.4086 1.7994 1.0389
Inulin 6.0906 4.0092 2.3147
BSA 1.5854 0.3528 0.2037
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 0.2214 0.1773 0.1024
2h WAT 0.6121 0.298 0.1721
4h WAT 0.4957 0.4726 0.2728
8h WAT 0.2808 0.4864 0.2808
16h WAT 0.2185 0.1929 0.1114
24h WAT 0.3267 0.4137 0.2389
WAT hyphal knot -30h 0.5605 0.8323 0.4805
WAT hyphal knot -22h 0.2024 0.0338 0.0195
WAT hyphal knot -15h 0.3747 0.1183 0.0683
WAT hyphal knot -7.5h 0.4168 0.432 0.2494
WAT hyphal knot 0.678 0.5456 0.315
WAT hyphal knot +7.5h 0.831 0.3477 0.2008
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 3.7442 0.9486 0.5477
Straw 3h 3.319 1.1405 0.6584
Straw 6h 2.4359 0.5197 0.3001
Straw 12h 4.3442 0.5838 0.3371
Straw 24h 7.3597 0.7807 0.4507
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 0.3533 0.427 0.2465
Frost (-20C, 30min) 0.8382 0.3139 0.1813
Heat shock (47C, 2h) 0.1412 0.1291 0.0745
High CO2 0.6104 0.254 0.1466
Drought (4% agar, 12h) 1.9007 0.4798 0.277
Oxidative (1mM H2O2, 3h) 1.3437 0.5206 0.3006
Acidic (pH4, 3h) 0.3113 0.3802 0.2195
Alkaline (pH9, 3h) 0.6904 0.7319 0.4225
Osmotic (sorbitol 2h) 0.1454 0.1453 0.0839
CongoRed (3h) 0.1999 0.0669 0.0386
Cobalt chloride control 0.5307 0.3996 0.2307
Cobalt chloride 2mM 0.408 0.1348 0.0778
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 1.2011 1.6304 0.9413
Cold stimulation 0.1266 0.1274 0.0736
Scratched surface 0.7521 0.2318 0.1338
Ca2+, 200mM, 24h 0.6885 0.5438 0.314
Cu2+, 2mM, 6h 0.1316 0.1259 0.0727
Voriconazole 0.5133 0.3945 0.2278
Trichoderma interaction, early 1.0584 0.6317 0.3647
Trichoderma interaction 60h 2.3212 2.5812 1.4902
Cobalt chloride 2mM repeat 1.1241 0.1181 0.0682
Hypoxia 0.5519 0.6987 0.4034
Hypoxia control 0.5945 0.4761 0.2749
Protoplastation control 0.5134 0.1114 0.0787
Protoplastation 3.5h 0.1939 0.2742 0.1939
Protoplastation 1.5h 0.0751 0.1063 0.0751

General data

Systematic name -
Protein id CopciAB_496841.T0
Description

Annotation summary

0 300 600 900 1200 1208

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 578 820

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
IPR040976 Fungal-type protein kinase

GO

Go id Term Ontology
No records

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
No records

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_496841 across fungi.

Arrow shows the origin of gene family containing CopciAB_496841.

Protein

Sequence id CopciAB_496841.T0
Sequence >CopciAB_496841.T0
MGPEQSPSGELSEPTSSPYSLQRSPSSPDTPGSASTAATTPPVVQADASLKLGRTPTPRSSISPLERFIESNGSE
TAKSPLPNLTTPRHATTNTSPPHAQLLDLIGNHNLLDSMWVGPMPVEKFLWEYGFAQQYDEFNYYQNCLRDDPIP
RPGNIFSEMPSLAPTMFEGPEDLEDEGSLAVYAENGLVEQRRKAADALISAIDQAGILKDITLHNTVYLPGTVQC
HTVQVEKTELVCEDSEDEEDVSHTDGRISPSSVSSSGGSRIVPVTTTGDRPFYVELLPDISTSDKLSIPPECLYE
FHASQELLIVNTGIDPFDPFLTPGLTSDYSHELHLAERDSMDEVEWTKRAKIREAWAQRDRISVMINELYSIYSH
RKSNRHSPRSVPLKGLRTHTYLVLVFDPYVRFVRVDYSGVVVSGRANFRDEGLPGPDPRRPFEVFLRGFGEMDPG
ERGWDESVMLANRTVYGKRIKQAKQALAEWAWDDEPEFVGNEEDLVCTYEPCRGDPPLLAFKVPTDPSEDAKDGK
EQFEYTTVFAQYPLEERPVGPKVHLKSKKAIALDDLREFYSPYAPLYDWKDVHIFSRNTLVFPVYNPGTKKVSLM
KDSWRMVDSPHCLPESEVLRKLNADGVRNVPELEFGQDVGKLGFWPYSRASKAEWRRKELNEYQETLGHLYAEEQ
WNVLWADWRVGGGSRRGPVRHMKRVHHRFVTSFIGKKLDDCRGLENSYPFVKIIYDALVAHADAVIKSGILHRDI
SIGNVMHNGEGDGVLNDWDQARFVDYEVQRCETAGGTHAFKSAWLIGSDSERKNTVQDDLESFLHVVLWQFMMHM
ADVVDDTDSDDSKKDEADDDTLFGEAEEEPDTRPPLTRRQLRHWMNGFFNAPFRGELPGRQPMSDKQRFCMNDPR
WNAENKRVLDLLKQCSPLDWLVTKARFMLGQWYGYQRNLSIPIPMMPLCKEEAELSPEEIHGTPEELGLDLADHV
VMLDAFYEALEMGGWPGEEDHEDQDGEQPMFLEDDSGLVGGLLQVEEEDENGERPIPLEGGSVDAPPLVDPLNPL
GLPDLLPGAAGRNVRPAIQWEDFSDALEDYEFYASSEEESFSNTDEFRSQFLSPVSWDKEGYEEAGAGEYGEDPT
EEVADEIGFRPEIVSPPAWARLPSMSDAREEKENTDEEGDDYSNLGPSTPAKWAKVARRRDEDDEDDCNDYDNEP
LTKRFKHN
Length 1208

Coding

Sequence id CopciAB_496841.T0
Sequence >CopciAB_496841.T0
ATGGGTCCTGAGCAATCTCCGTCGGGAGAACTATCTGAACCTACATCCTCTCCGTACAGCCTTCAGCGGTCACCG
TCCTCGCCAGACACTCCAGGTAGCGCTTCCACAGCCGCCACCACTCCCCCAGTGGTACAGGCCGACGCGTCCTTG
AAGCTCGGTCGGACTCCCACACCCAGAAGCTCTATCAGCCCCCTTGAACGCTTCATCGAATCGAACGGCTCTGAA
ACTGCTAAATCACCCCTTCCCAACCTCACCACACCTCGGCATGCCACCACGAACACAAGTCCTCCACACGCGCAG
CTTCTCGATCTCATCGGAAACCACAATCTCCTCGATAGTATGTGGGTAGGCCCCATGCCCGTGGAGAAGTTCCTC
TGGGAGTATGGATTCGCGCAACAGTACGATGAGTTTAACTACTATCAGAACTGCCTGCGAGACGATCCCATTCCG
CGGCCAGGTAACATCTTTTCAGAGATGCCATCGCTAGCGCCGACGATGTTTGAAGGACCGGAGGACCTTGAGGAC
GAGGGATCGCTGGCCGTATACGCTGAGAACGGTCTCGTCGAGCAGCGGAGGAAGGCGGCTGATGCATTGATTTCT
GCAATTGATCAAGCGGGCATCTTGAAGGACATCACCCTTCACAATACTGTGTACCTGCCTGGAACGGTCCAGTGC
CACACCGTCCAAGTGGAGAAGACCGAACTGGTCTGCGAAGACAGTGAAGACGAGGAAGACGTCTCTCATACCGAC
GGAAGGATTTCTCCTTCCTCGGTAAGCTCGTCCGGAGGATCGAGAATCGTTCCCGTAACCACCACTGGAGACCGA
CCATTCTATGTCGAACTTCTCCCCGACATCTCTACCAGCGATAAGCTGTCCATACCACCGGAATGCTTGTACGAA
TTCCATGCATCCCAGGAACTCCTCATCGTCAACACCGGTATCGACCCCTTCGACCCCTTCCTCACCCCAGGCCTC
ACCTCCGACTACTCACACGAACTGCACTTAGCCGAGCGCGACTCCATGGATGAGGTCGAATGGACGAAACGAGCA
AAGATCCGCGAGGCGTGGGCTCAGCGGGACCGGATCAGCGTCATGATTAACGAACTTTACTCCATTTACTCCCAC
CGCAAGTCCAACAGGCACTCTCCCCGCTCGGTACCACTCAAAGGTCTCAGGACGCACACCTACCTCGTTCTTGTC
TTCGACCCTTACGTCCGCTTCGTGCGGGTGGATTATAGCGGGGTGGTTGTTAGCGGTAGGGCTAACTTCCGTGAT
GAGGGGCTGCCCGGTCCCGATCCTCGACGCCCGTTCGAGGTTTTCTTGCGGGGGTTTGGCGAGATGGATCCTGGT
GAGAGGGGGTGGGATGAGAGTGTTATGCTTGCGAATCGTACGGTTTATGGAAAGCGTATCAAACAAGCGAAGCAG
GCGTTGGCTGAATGGGCTTGGGACGATGAGCCAGAGTTTGTGGGAAACGAAGAGGACCTCGTCTGCACGTACGAA
CCGTGTAGGGGTGATCCACCCCTGCTGGCGTTCAAGGTTCCGACTGACCCGAGCGAAGACGCCAAGGATGGAAAG
GAGCAGTTCGAATACACGACCGTCTTCGCTCAGTACCCGCTCGAGGAACGTCCGGTCGGACCCAAAGTGCATCTG
AAATCCAAGAAGGCGATCGCCCTCGATGACCTTAGGGAATTCTATTCCCCATACGCCCCTCTCTACGACTGGAAG
GACGTCCACATCTTCTCGCGCAACACCCTCGTCTTTCCCGTATACAACCCCGGTACCAAGAAGGTCAGCTTGATG
AAGGACTCGTGGCGCATGGTCGACTCGCCCCATTGTCTCCCGGAGAGTGAAGTCCTACGGAAACTTAACGCGGAT
GGAGTGAGGAATGTACCCGAGTTGGAGTTTGGGCAGGACGTTGGAAAGCTGGGCTTTTGGCCGTATAGTCGGGCG
AGCAAGGCGGAGTGGAGGCGAAAAGAGCTGAATGAGTACCAAGAGACCCTCGGGCACTTGTATGCGGAAGAGCAG
TGGAACGTGCTTTGGGCGGACTGGAGGGTTGGGGGTGGGAGTCGCAGGGGGCCTGTGAGGCATATGAAGAGGGTG
CACCATCGGTTTGTGACCTCGTTCATTGGGAAGAAGTTGGATGATTGCAGGGGATTGGAGAACTCGTATCCCTTT
GTGAAGATCATTTATGATGCGCTGGTTGCGCATGCCGATGCGGTCATCAAGAGCGGTATCTTGCACCGTGACATC
AGTATTGGGAACGTTATGCACAACGGCGAAGGGGATGGTGTTTTGAACGATTGGGACCAAGCCCGCTTCGTCGAT
TATGAAGTCCAACGATGCGAGACAGCAGGGGGTACGCACGCTTTCAAATCTGCCTGGCTCATTGGATCCGACTCT
GAACGCAAGAACACCGTCCAAGACGACCTAGAATCCTTCCTTCATGTTGTTCTGTGGCAGTTCATGATGCATATG
GCCGATGTTGTGGACGACACGGACAGCGATGACTCAAAAAAAGACGAAGCTGACGACGATACCCTATTCGGCGAG
GCTGAAGAAGAGCCTGACACTCGTCCGCCGCTCACCAGACGCCAACTTCGCCACTGGATGAACGGTTTCTTCAAC
GCTCCTTTCAGAGGGGAACTGCCAGGTCGCCAACCCATGTCGGACAAGCAGCGCTTCTGCATGAACGACCCGCGG
TGGAATGCAGAGAATAAGCGGGTGCTTGACCTTCTCAAACAGTGTTCCCCTCTCGATTGGCTCGTCACTAAGGCG
CGCTTTATGTTGGGACAGTGGTACGGCTACCAGAGGAACCTCTCGATCCCTATTCCGATGATGCCGCTGTGCAAA
GAGGAAGCAGAGCTCTCTCCGGAGGAGATACATGGGACGCCCGAGGAGCTAGGGTTGGATCTCGCAGACCATGTT
GTCATGCTGGACGCGTTTTACGAAGCGCTTGAGATGGGTGGGTGGCCTGGCGAGGAAGATCACGAAGATCAGGAC
GGAGAGCAGCCGATGTTCCTCGAAGATGATTCGGGACTCGTGGGAGGCTTGCTCCAAGTGGAAGAAGAAGACGAG
AATGGTGAGCGGCCGATACCTCTGGAAGGAGGTTCGGTTGACGCGCCTCCTCTTGTCGATCCACTCAACCCTTTG
GGACTTCCAGATCTACTCCCTGGTGCGGCGGGAAGGAACGTTCGACCTGCGATTCAATGGGAGGACTTTTCGGAC
GCCTTGGAAGACTACGAGTTCTACGCGTCATCTGAAGAAGAATCCTTCTCCAACACGGATGAATTCAGGAGTCAA
TTTCTATCTCCAGTTAGCTGGGATAAGGAGGGTTACGAAGAGGCCGGAGCAGGGGAGTATGGCGAGGATCCGACA
GAGGAAGTGGCTGACGAGATTGGATTTCGTCCAGAAATTGTTTCCCCCCCTGCTTGGGCGAGGCTCCCGAGCATG
TCAGATGCAAGGGAGGAGAAGGAGAACACCGACGAGGAAGGGGACGACTACAGCAACTTGGGACCTAGCACCCCA
GCCAAGTGGGCTAAGGTCGCTCGCCGTAGGGACGAGGACGACGAGGACGACTGCAATGACTACGATAACGAACCA
CTCACGAAGAGATTCAAGCATAATTGA
Length 3627

Transcript

Sequence id CopciAB_496841.T0
Sequence >CopciAB_496841.T0
CTACATCAACTGCTACATCTCCCCGTCACCACAGTTTATCGACAGGATACTTTCCATCTCTTCCTACGCGCTCTC
TTTCAAACTACTTCAACGAGCTTATACGACAAGACCTCGACTCCACGTCCGACATTCTACGACACGATCTACATA
TCATGGGTCCTGAGCAATCTCCGTCGGGAGAACTATCTGAACCTACATCCTCTCCGTACAGCCTTCAGCGGTCAC
CGTCCTCGCCAGACACTCCAGGTAGCGCTTCCACAGCCGCCACCACTCCCCCAGTGGTACAGGCCGACGCGTCCT
TGAAGCTCGGTCGGACTCCCACACCCAGAAGCTCTATCAGCCCCCTTGAACGCTTCATCGAATCGAACGGCTCTG
AAACTGCTAAATCACCCCTTCCCAACCTCACCACACCTCGGCATGCCACCACGAACACAAGTCCTCCACACGCGC
AGCTTCTCGATCTCATCGGAAACCACAATCTCCTCGATAGTATGTGGGTAGGCCCCATGCCCGTGGAGAAGTTCC
TCTGGGAGTATGGATTCGCGCAACAGTACGATGAGTTTAACTACTATCAGAACTGCCTGCGAGACGATCCCATTC
CGCGGCCAGGTAACATCTTTTCAGAGATGCCATCGCTAGCGCCGACGATGTTTGAAGGACCGGAGGACCTTGAGG
ACGAGGGATCGCTGGCCGTATACGCTGAGAACGGTCTCGTCGAGCAGCGGAGGAAGGCGGCTGATGCATTGATTT
CTGCAATTGATCAAGCGGGCATCTTGAAGGACATCACCCTTCACAATACTGTGTACCTGCCTGGAACGGTCCAGT
GCCACACCGTCCAAGTGGAGAAGACCGAACTGGTCTGCGAAGACAGTGAAGACGAGGAAGACGTCTCTCATACCG
ACGGAAGGATTTCTCCTTCCTCGGTAAGCTCGTCCGGAGGATCGAGAATCGTTCCCGTAACCACCACTGGAGACC
GACCATTCTATGTCGAACTTCTCCCCGACATCTCTACCAGCGATAAGCTGTCCATACCACCGGAATGCTTGTACG
AATTCCATGCATCCCAGGAACTCCTCATCGTCAACACCGGTATCGACCCCTTCGACCCCTTCCTCACCCCAGGCC
TCACCTCCGACTACTCACACGAACTGCACTTAGCCGAGCGCGACTCCATGGATGAGGTCGAATGGACGAAACGAG
CAAAGATCCGCGAGGCGTGGGCTCAGCGGGACCGGATCAGCGTCATGATTAACGAACTTTACTCCATTTACTCCC
ACCGCAAGTCCAACAGGCACTCTCCCCGCTCGGTACCACTCAAAGGTCTCAGGACGCACACCTACCTCGTTCTTG
TCTTCGACCCTTACGTCCGCTTCGTGCGGGTGGATTATAGCGGGGTGGTTGTTAGCGGTAGGGCTAACTTCCGTG
ATGAGGGGCTGCCCGGTCCCGATCCTCGACGCCCGTTCGAGGTTTTCTTGCGGGGGTTTGGCGAGATGGATCCTG
GTGAGAGGGGGTGGGATGAGAGTGTTATGCTTGCGAATCGTACGGTTTATGGAAAGCGTATCAAACAAGCGAAGC
AGGCGTTGGCTGAATGGGCTTGGGACGATGAGCCAGAGTTTGTGGGAAACGAAGAGGACCTCGTCTGCACGTACG
AACCGTGTAGGGGTGATCCACCCCTGCTGGCGTTCAAGGTTCCGACTGACCCGAGCGAAGACGCCAAGGATGGAA
AGGAGCAGTTCGAATACACGACCGTCTTCGCTCAGTACCCGCTCGAGGAACGTCCGGTCGGACCCAAAGTGCATC
TGAAATCCAAGAAGGCGATCGCCCTCGATGACCTTAGGGAATTCTATTCCCCATACGCCCCTCTCTACGACTGGA
AGGACGTCCACATCTTCTCGCGCAACACCCTCGTCTTTCCCGTATACAACCCCGGTACCAAGAAGGTCAGCTTGA
TGAAGGACTCGTGGCGCATGGTCGACTCGCCCCATTGTCTCCCGGAGAGTGAAGTCCTACGGAAACTTAACGCGG
ATGGAGTGAGGAATGTACCCGAGTTGGAGTTTGGGCAGGACGTTGGAAAGCTGGGCTTTTGGCCGTATAGTCGGG
CGAGCAAGGCGGAGTGGAGGCGAAAAGAGCTGAATGAGTACCAAGAGACCCTCGGGCACTTGTATGCGGAAGAGC
AGTGGAACGTGCTTTGGGCGGACTGGAGGGTTGGGGGTGGGAGTCGCAGGGGGCCTGTGAGGCATATGAAGAGGG
TGCACCATCGGTTTGTGACCTCGTTCATTGGGAAGAAGTTGGATGATTGCAGGGGATTGGAGAACTCGTATCCCT
TTGTGAAGATCATTTATGATGCGCTGGTTGCGCATGCCGATGCGGTCATCAAGAGCGGTATCTTGCACCGTGACA
TCAGTATTGGGAACGTTATGCACAACGGCGAAGGGGATGGTGTTTTGAACGATTGGGACCAAGCCCGCTTCGTCG
ATTATGAAGTCCAACGATGCGAGACAGCAGGGGGTACGCACGCTTTCAAATCTGCCTGGCTCATTGGATCCGACT
CTGAACGCAAGAACACCGTCCAAGACGACCTAGAATCCTTCCTTCATGTTGTTCTGTGGCAGTTCATGATGCATA
TGGCCGATGTTGTGGACGACACGGACAGCGATGACTCAAAAAAAGACGAAGCTGACGACGATACCCTATTCGGCG
AGGCTGAAGAAGAGCCTGACACTCGTCCGCCGCTCACCAGACGCCAACTTCGCCACTGGATGAACGGTTTCTTCA
ACGCTCCTTTCAGAGGGGAACTGCCAGGTCGCCAACCCATGTCGGACAAGCAGCGCTTCTGCATGAACGACCCGC
GGTGGAATGCAGAGAATAAGCGGGTGCTTGACCTTCTCAAACAGTGTTCCCCTCTCGATTGGCTCGTCACTAAGG
CGCGCTTTATGTTGGGACAGTGGTACGGCTACCAGAGGAACCTCTCGATCCCTATTCCGATGATGCCGCTGTGCA
AAGAGGAAGCAGAGCTCTCTCCGGAGGAGATACATGGGACGCCCGAGGAGCTAGGGTTGGATCTCGCAGACCATG
TTGTCATGCTGGACGCGTTTTACGAAGCGCTTGAGATGGGTGGGTGGCCTGGCGAGGAAGATCACGAAGATCAGG
ACGGAGAGCAGCCGATGTTCCTCGAAGATGATTCGGGACTCGTGGGAGGCTTGCTCCAAGTGGAAGAAGAAGACG
AGAATGGTGAGCGGCCGATACCTCTGGAAGGAGGTTCGGTTGACGCGCCTCCTCTTGTCGATCCACTCAACCCTT
TGGGACTTCCAGATCTACTCCCTGGTGCGGCGGGAAGGAACGTTCGACCTGCGATTCAATGGGAGGACTTTTCGG
ACGCCTTGGAAGACTACGAGTTCTACGCGTCATCTGAAGAAGAATCCTTCTCCAACACGGATGAATTCAGGAGTC
AATTTCTATCTCCAGTTAGCTGGGATAAGGAGGGTTACGAAGAGGCCGGAGCAGGGGAGTATGGCGAGGATCCGA
CAGAGGAAGTGGCTGACGAGATTGGATTTCGTCCAGAAATTGTTTCCCCCCCTGCTTGGGCGAGGCTCCCGAGCA
TGTCAGATGCAAGGGAGGAGAAGGAGAACACCGACGAGGAAGGGGACGACTACAGCAACTTGGGACCTAGCACCC
CAGCCAAGTGGGCTAAGGTCGCTCGCCGTAGGGACGAGGACGACGAGGACGACTGCAATGACTACGATAACGAAC
CACTCACGAAGAGATTCAAGCATAATTGAGCCTAACGCTCGATGGATACTGGCAACCCGTATGTACTTTGGGCAT
GGATGGAACTGTTGTGTGTACTTCTATATCATGTGTGTATGGATATGTGTGACAATAACGTTGATGCATATTTAC
TAAA
Length 3904

Gene

Sequence id CopciAB_496841.T0
Sequence >CopciAB_496841.T0
CTACATCAACTGCTACATCTCCCCGTCACCACAGTTTATCGACAGGATACTTTCCATCTCTTCCTACGCGCTCTC
TTTCAAACTACTTCAACGAGCTTATACGACAAGGTGTGTTGTTTGCAGCCGGAAAATAGCTCTATCGGAACTTAA
ACAGCGCCAGACCTCGACTCCACGTCCGACATTCTACGACACGATCTACATATCATGGGTCCTGAGCAATCTCCG
TCGGGAGAACTATCTGAACCTACATCCTCTCCGTACAGCCTTCAGCGGTCACCGTCCTCGCCAGACACTCCAGGT
AGCGCTTCCACAGCCGCCACCACTCCCCCAGTGGTACAGGCCGACGCGTCCTTGAAGCTCGGTCGGACTCCCACA
CCCAGAAGCTCTATCAGCCCCCTTGAACGCTTCATCGAATCGAACGGCTCTGAAACTGCTAAATCACCCCTTCCC
AACCTCACCACACCTCGGCATGCCACCACGAACACAAGTCCTCCACACGCGCAGCTTCTCGATCTCATCGGAAAC
CACAATCTCCTCGATAGTATGTGGGTAGGCCCCATGCCCGTGGAGAAGTTCCTCTGGGAGTATGGATTCGCGCAA
CAGTACGATGAGTTTAACTACTATCAGAACTGCCTGCGAGACGATCCCATTCCGCGGCCAGGTAACATCTTTTCA
GAGATGCCATCGCTAGCGCCGACGATGTTTGAAGGACCGGAGGACCTTGAGGACGAGGGATCGCTGGCCGTATAC
GCTGAGAACGGTCTCGTCGAGCAGCGGAGGAAGGCGGCTGATGCATTGGTATGTCTATTTTTCCTGGTAAGATAA
GTTGTGCTGACCTGAATTCCAGATTTCTGCAATTGATCAAGCGGGCATCTTGAAGGACATCACCCTTCACAATAC
TGTGTACCTGCCTGGAACGGTCCAGTGCCACACCGTCCAAGTGGAGAAGACCGAACTGGTCTGCGAAGACAGTGA
AGACGAGGAAGACGTCTCTCATACCGACGGAAGGATTTCTCCTTCCTCGGTAAGCTCGTCCGGAGGATCGAGAAT
CGTTCCCGTAACCACCACTGGAGACCGACCATTCTATGTCGAACTTCTCCCCGACATCTCTACCAGCGATAAGCT
GTCCATACCACCGGAATGCTTGTACGAATTCCATGCATCCCAGGAACTCCTCATCGTCAACACCGGTATCGACCC
CTTCGACCCCTTCCTCACCCCAGGCCTCACCTCCGACTACTCACACGAACTGCACTTAGCCGAGCGCGACTCCAT
GGATGAGGTCGAATGGACGAAACGAGCAAAGATCCGCGAGGCGTGGGCTCAGCGGGACCGGATCAGCGTCATGAT
TAACGAACTTTACTCCATTTACTCCCACCGCAAGTCCAACAGGCACTCTCCCCGCTCGGTACCACTCAAAGGTCT
CAGGACGCACACCTACCTCGTTCTTGTCTTCGACCCTTACGTCCGCTTCGTGCGGGTGGATTATAGCGGGGTGGT
TGTTAGCGGTAGGGCTAACTTCCGTGATGAGGGGCTGCCCGGTCCCGATCCTCGACGCCCGTTCGAGGTTTTCTT
GCGGGGGTTTGGCGAGATGGATCCTGGTGAGAGGGGGTGGGATGAGAGTGTTATGCTTGCGAATCGTACGGTTTA
TGGAAAGCGTATCAAACAAGCGAAGCAGGCGTTGGCTGAATGGGCTTGGGACGATGAGCCAGAGTTTGTGGGAAA
CGAAGAGGACCTCGTCTGCACGTACGAACCGTGTAGGGGTGATCCACCCCTGCTGGCGTTCAAGGTTCCGACTGA
CCCGAGCGAAGACGCCAAGGATGGAAAGGAGCAGTTCGAATACACGACCGTCTTCGCTCAGTACCCGCTCGAGGA
ACGTCCGGTCGGACCCAAAGTGCATCTGAAATCCAAGAAGGCGATCGCCCTCGATGACCTTAGGGAATTCTATTC
CCCATACGCCCCTCTCTACGACTGGAAGGACGTCCACATCTTCTCGCGCAACACCCTCGTCTTTCCCGTATACAA
CCCCGGTACCAAGAAGGTCAGCTTGATGAAGGACTCGTGGCGCATGGTCGACTCGCCCCATTGTCTCCCGGAGAG
TGAAGTCCTACGGAAACTTAACGCGGATGGAGTGAGGAATGTACCCGAGTTGGAGTTTGGGCAGGACGTTGGAAA
GCTGGGCTTTTGGCCGTATAGTCGGGCGAGCAAGGCGGAGTGGAGGCGAAAAGAGCTGAATGAGTACCAAGAGAC
CCTCGGGCACTTGTATGCGGAAGAGCAGTGGAACGTGCTTTGGGCGGACTGGAGGGTTGGGGGTGGGAGTCGCAG
GGGGCCTGTGAGGCATATGAAGAGGGTGCACCATCGGTTTGTGACCTCGTTCATTGGGAAGAAGTTGGATGATTG
CAGGGGATTGGAGAACTCGTATCCCTTTGTGAAGATCATTTATGATGCGCTGGTTGGTGAGTACTTGACATTTCT
CTGCAGAGATATCGAGCTAAAACTGATATTTCCCTTCTCTAGCGCATGCCGATGCGGTCATCAAGAGCGGTATCT
TGCACCGTGACATCAGTATTGGGAACGTTATGCACAACGGCGAAGGGGATGGTGTTTTGAACGATTGGGACCAAG
CCCGCTTCGTCGATTATGAAGTCCAACGATGCGAGACAGCAGGGGTATGTGTTTCCTTCGCCTAGTGCTTGAATC
ATTGTCGCTAACACATTTATCAGGGTACGCACGCTTTCAAATCTGCCTGGCTCATTGGATCCGACTCTGAACGCA
AGAACACCGTCCAAGACGACCTAGAATCCTTCCTTCATGTTGTTCTGTGGCAGTTCATGATGCATATGGCCGATG
TTGTGGACGACACGGACAGCGATGACTCAAAAAAAGACGAAGCTGACGACGATACCCTATTCGGCGAGGCTGAAG
AAGAGCCTGACACTCGTCCGCCGCTCACCAGACGCCAACTTCGCCACTGGATGAACGGTTTCTTCAACGCTCCTT
TCAGAGGGGAACTGCCAGGTCGCCAACCCATGTCGGACAAGCAGCGCTTCTGCATGAACGACCCGCGGTGGAATG
CAGAGAATAAGCGGGTGCTTGACCTTCTCAAACAGTGTTCCCCTCTCGATTGGCTCGTCACTAAGGCGCGCTTTA
TGTTGGGACAGTGGTACGGCTACCAGAGGAACCTCTCGATCCCTATTCCGATGATGCCGCTGTGCAAAGAGGAAG
CAGAGCTCTCTCCGGAGGAGATACATGGGACGCCCGAGGAGCTAGGGTTGGATCTCGCAGACCATGTTGTCATGC
TGGACGCGTTTTACGAAGCGCTTGAGATGGGTGGGTGGCCTGGCGAGGAAGATCACGAAGATCAGGACGGAGAGC
AGCCGATGTTCCTCGAAGATGATTCGGGACTCGTGGGAGGCTTGCTCCAAGTGGAAGAAGAAGACGAGAATGGTG
AGCGGCCGATACCTCTGGAAGGAGGTTCGGTTGACGCGCCTCCTCTTGTCGATCCACTCAACCCTTTGGGACTTC
CAGATCTACTCCCTGGTGCGGCGGGAAGGAACGTTCGACCTGCGATTCAATGGGAGGACTTTTCGGACGCCTTGG
AAGACTACGAGTTCTACGCGTCATCTGAAGAAGAATCCTTCTCCAACACGGATGAATTCAGGAGTCAATTTCTAT
CTCCAGTTAGCTGGGATAAGGAGGGTTACGAAGAGGCCGGAGCAGGGGAGTATGGCGAGGATCCGACAGAGGAAG
TGGCTGACGAGATTGGATTTCGTCCAGAAATTGTTTCCCCCCCTGCTTGGGCGAGGCTCCCGAGCATGTCAGATG
CAAGGGAGGAGAAGGAGAACACCGACGAGGAAGGGGACGACTACAGCAACTTGGGACCTAGCACCCCAGCCAAGT
GGGCTAAGGTCGCTCGCCGTAGGGACGAGGACGACGAGGACGACTGCAATGACTACGATAACGAACCACTCACGA
AGAGATTCAAGCATAATTGAGCCTAACGCTCGATGGATACTGGCAACCCGTATGTACTTTGGGCATGGATGGAAC
TGTTGTGTGTACTTCTATATCATGTGTGTATGGATATGTGTGACAATAACGTTGATGCATATTTACTAAA
Length 4120