CopciAB_546202
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_546202 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 546202
Uniprot id Functional description other FunK1 protein kinase
Location scaffold_8:2189929..2193367 Strand +
Gene length (nt) 3439 Transcript length (nt) 3215
CDS length (nt) 3036 Protein length (aa) 1011

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 2.6275 0.2802 0.1618
oidia 5.0733 2.0272 1.1704
vegetative_mycelium 6.2627 1.0822 0.6248
primordia 12.973 1.7903 1.0336
hyphal_knot 4.2194 0.6274 0.3622
young_fruiting_body 3.1817 0.4068 0.2349
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 3.2185 1.6865 0.9737
Wheat bran 2.3584 0.476 0.2748
Horse manure 2.8139 0.4846 0.2798
Oak leaves 3.5098 0.7707 0.4449
Hay 1.5157 0.397 0.2292
Corn stalk 3.6588 0.3728 0.2152
Pectine 3.8829 0.1243 0.0718
Microcrystalline cellulose 2.3365 0.4199 0.2424
Xylose 4.4336 1.4317 0.8266
Cellobiose 4.0145 0.9172 0.5296
Lignin 3.2082 2.2621 1.306
Apple peels 3.5446 0.6698 0.3867
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 4.8115 0.3506 0.2024
Bsubtilis 4.3127 0.4442 0.2564
Ecoli 5.9042 0.1685 0.0973
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 11.947 2.995 1.7292
BS 4h 6.0234 1.1821 0.6825
BS 8h 3.1414 1.0109 0.5837
BS 12h 1.0367 0.0476 0.0275
Oidia 0 h 5.8794 1.6132 0.9314
Oidia 18 h 3.0366 1.2739 0.7355
Sclerotia 2.7116 2.2915 1.323
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 1.1942 0.5997 0.3462
DM 36h 1.7728 0.602 0.3476
DM 60h 0.949 0.5172 0.2986
DM 84h 1.2399 0.4066 0.2348
DM 108h 1.2281 0.2328 0.1344
DM 132h 1.5689 0.5015 0.2896
DM 156hAE 2.7255 1.2241 0.7067
ELI1hAE 1.7942 1.6063 0.9274
ELI2hAE 2.3217 0.743 0.429
LI2hAE 2.3664 0.8354 0.4823
LI6hAE 1.0581 0.6163 0.3558
LI12hAE 3.5543 0.9677 0.5587
LI18hAE 3.0947 0.6737 0.3889
LI 24hAE 2.9006 0.9147 0.5281
DM 156hAM 1.1732 0.1327 0.0766
ELI1hAM 2.3173 0.67 0.3868
ELI2hAM 2.2754 1.0628 0.6136
LI2hAM 1.8075 0.3283 0.1896
LI6hAM 2.1293 0.6105 0.3525
LI12hAM 2.9385 0.6512 0.376
LI18hAM 2.503 0.704 0.4065
LI 24hAM 0.9336 0.4043 0.2334
LI 24hHK 1.9226 0.762 0.4399
L/D 6h 3.4499 0.5295 0.3057
L/D 12h 3.1604 1.487 0.8585
L/D 18h 1.6549 0.7622 0.44
L/D 24h 3.3412 0.4133 0.2386
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 3.7062 0.7196 0.4154
Hyphal knots 6.884 1.0757 0.6211
Primordium 1 7.7008 2.988 1.7251
Primordium 2 4.9819 0.4075 0.2353
Young Fruiting body cap 6.5759 1.5759 0.9098
Younf fruiting body gill 4.063 2.5191 1.4544
Young fruiting body stipe 5.9907 2.0812 1.2016
Mature fruiting body cap_gill 5.3746 1.2126 0.7001
Mature fruiting body stipe 2.2433 0.9193 0.5308
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 6.7367 3.581 2.0675
NH4NO3 4.3673 0.0837 0.0483
Proline 4.5884 0.7838 0.4525
Tryptophan 3.4457 0.8007 0.4623
Isoleucin 4.4366 0.3742 0.2161
Arginine 3.9524 0.6484 0.3744
Metionine 3.0112 1.2193 0.7039
NaNO3 7.3561 2.1495 1.241
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 6.7367 3.581 2.0675
Citrus peel 12.9943 3.6233 2.0919
Poplar leaves 2.6233 0.6021 0.3476
Typha leaves 5.6913 5.1173 2.9545
Overwintered Salix leaves 6.3137 5.3012 3.0606
Reed flowering 14.7685 5.7845 3.3397
Tigernut 5.5171 1.2055 0.696
Energy cane 4.7778 1.9157 1.106
Guar gum 11.1239 14.2907 8.2507
Apple peels 4.3777 0.9125 0.5268
Cellobiose 4.7938 1.4604 0.8432
Corn stalk 3.7726 0.2086 0.1204
Horse manure 3.1246 0.1545 0.0892
Lignin 11.1971 9.695 5.5974
Microcrystalline cellulose 5.1198 2.4637 1.4224
Oak leaves 3.0568 0.7828 0.452
Pectin esterified 6.1516 2.3572 1.3609
Poplar sawdust 3.6129 0.7317 0.4224
Wheat bran 3.9206 0.1757 0.1014
Chlamydomonas reinhardtii 2.9325 0.4658 0.2689
Vertatryl alcohol 7.2856 0.7684 0.4437
Furfural 4.4142 3.4022 1.9643
Autoclaved mycelium 4.1389 1.7569 1.0144
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 5.8852 0.7475 0.4316
Ribose 4.9432 1.3761 0.7945
Mannose 7.5221 0.3703 0.2618
Fructose 6.1564 2.0666 1.1932
Arabinose 5.5729 1.1895 0.6868
Xylose 5.8583 0.7227 0.4172
Galacturonic acid 5.3324 0.9903 0.5717
Rhamnogalacturonan 4.525 1.5604 0.9009
Pectin esterified 5.2446 1.0078 0.5819
Polygalacturonic acid 6.0275 1.5856 0.9154
Sodium acetate 4.5159 1.0108 0.5836
No nitrogen 7.0095 0.9619 0.5553
BSA 4.6925 2.2549 1.3019
Glutamine 5.0376 0.8772 0.5064
No phosphate 3.8795 0.3949 0.228
No carbon 4.5717 0.4517 0.3194
No sulphur 7.1739 1.0592 0.6115
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 6.7367 3.581 2.0675
Amylose 2.7308 1.2829 0.7407
Fucose 3.148 0.3672 0.212
Galactose 2.7567 0.1633 0.0943
Lactose 2.5793 0.4551 0.2628
Maltose 2.6842 0.0949 0.0548
Mannitol 2.1012 0.6053 0.3495
Rhamnose 4.0835 1.7366 1.0026
Sorbitol 3.1334 0.2594 0.1498
Trehalose 5.018 5.0915 2.9396
Glycerol 6.8705 7.3725 4.2565
Glucuronic acid 3.3833 0.6022 0.3477
Arabinan 3.9432 2.7924 1.6122
Galactan 2.9016 0.5047 0.2914
Galactomannan 4.1989 0.9287 0.5362
Glucan 5.0221 2.3391 1.3505
Xylan 2.9719 0.7413 0.428
Xyloglucan 2.6423 0.5663 0.3269
Arabinogalactan 2.9187 0.5554 0.3207
Pectin 4.6813 0.7877 0.4548
Rhamnogalacturonan 5.9831 1.1098 0.6407
Polygalacturonic acid 3.0068 0.311 0.1795
Mannan 3.6384 0.7745 0.4471
Amylopectin 4.507 3.7309 2.154
Inulin 2.2579 0.2263 0.1306
BSA 8.2579 1.3069 0.7546
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 0.949 0.5172 0.2986
2h WAT 1.3702 0.6944 0.4009
4h WAT 1.7444 0.8952 0.5169
8h WAT 1.618 0.885 0.511
16h WAT 0.5518 0.3697 0.2134
24h WAT 1.225 0.5905 0.3409
WAT hyphal knot -30h 1.7881 0.481 0.2777
WAT hyphal knot -22h 2.1568 0.9427 0.5443
WAT hyphal knot -15h 3.308 0.5503 0.3177
WAT hyphal knot -7.5h 1.9328 0.8402 0.4851
WAT hyphal knot 2.106 1.1777 0.68
WAT hyphal knot +7.5h 2.491 1.587 0.9162
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 4.6888 0.7267 0.4195
Straw 3h 4.3319 2.0874 1.2051
Straw 6h 3.8144 3.0622 1.768
Straw 12h 3.2911 1.3035 0.7526
Straw 24h 6.9443 3.6094 2.0839
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 2.7378 2.2828 1.318
Frost (-20C, 30min) 1.1637 0.1294 0.0747
Heat shock (47C, 2h) 16.7489 1.2871 0.7431
High CO2 0.9748 0.1837 0.1061
Drought (4% agar, 12h) 3.4377 1.0717 0.6188
Oxidative (1mM H2O2, 3h) 6.3473 1.2996 0.7503
Acidic (pH4, 3h) 2.6099 1.6892 0.9753
Alkaline (pH9, 3h) 2.2302 0.9291 0.5364
Osmotic (sorbitol 2h) 0.9058 0.5701 0.3291
CongoRed (3h) 2.2268 0.3446 0.1989
Cobalt chloride control 1.5994 0.6194 0.3576
Cobalt chloride 2mM 2.1941 0.8436 0.4871
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 2.1074 2.2511 1.2997
Cold stimulation 4.7851 0.9025 0.5211
Scratched surface 2.2314 0.3983 0.23
Ca2+, 200mM, 24h 2.5565 0.7552 0.436
Cu2+, 2mM, 6h 2.7149 0.765 0.4417
Voriconazole 2.6603 1.071 0.6183
Trichoderma interaction, early 2.864 1.5646 0.9033
Trichoderma interaction 60h 20.7323 6.6489 3.8387
Cobalt chloride 2mM repeat 5.3231 2.4806 1.4322
Hypoxia 1.2319 0.7445 0.4299
Hypoxia control 1.1205 0.4516 0.2607
Protoplastation control 1.5131 0.2956 0.2091
Protoplastation 3.5h 4.475 0.0229 0.0162
Protoplastation 1.5h 0.1742 0.0371 0.0262

General data

Systematic name -
Protein id CopciAB_546202.T0
Description other FunK1 protein kinase

Annotation summary

0 300 600 900 1011

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 279 650

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR040976 Fungal-type protein kinase
IPR011009 Protein kinase-like domain superfamily

GO

Go id Term Ontology
No records

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
G other FunK1 protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_546202 across fungi.

Arrow shows the origin of gene family containing CopciAB_546202.

Protein

Sequence id CopciAB_546202.T0
Sequence >CopciAB_546202.T0
MSHSHAFVGSHYEGDKLVTLEPEHFMDQFLPRGFMRYFDRVVEEMTNRKLFVPRCWRDNPDDYPEDPKSNPDQFY
ESYPEEETREPEIFWRPWKKRTRGQRVDYFTSIRRNGPQEHPEDVAAYKEERDAEIQVFKSFEHECPSNYRNGDP
EWVAQAWFRPLWDGVRDIVAQFCREDGVEVGFDGLSIRCPQLPSEWGRQMSAAITTNLDTKSPMNVSDVVFPATI
MVDDCDQVVSDSTREDICVNRTFQILNDDVRRKSVFGLSVFTNFTDLVHPDAGLCISKLTLWYCTDGCAFRSEAI
NLREDPDLAIAAILSLLEASQTTDHDPLITSLPNGNYLYELPPAGDRAETHYYRTLGLLSSPYQVYRCRVWKVEQ
VISKTDLTRVPGTSDMVLKDVYSDAEKRTEDVVQGEVFRDIGAFGRDKNWRQHPLLKALDDDDMDALGEALEGDR
WKKFFTRIIAHHIGESVASKLPEKAFDRDYDLIKATRPRRTPFPLGRQCRYVYDAVCTPLPNIPTLGVAIDVIKQ
VLIPLRLMFCAGWVHRDINPDNILAYRPSDDAPWSVKLSDLKFAMKFPVAEIPPKDEIIIGTPGFMACEVQLQQH
TSPPITIDKDVPCEDYLRKFHEAQEKLDLFGPVLQTYQHEFESIWWVMMWETTFRVFDRPDTNENIFLRLADPDT
VYWKKSLWDEGIRVYNIHAENRVNMYTPYNGVPVASTLEGFIVALDKLVWAFRRATYKRNEAGLRRKVEAYADVV
GSKHWKAFWGAVEESREQWGEELLMVDSEVWDRARTVAKELGSRVYEFVPLTVQEMQKVEVDAEESKVKKPVTKK
KGSATKQKGSTTKKKSGDATTKEASDAAKKKAGDATKQKGSTSKKKAGDATTKKASDAAKKKLAGDATKEKVGDT
TKKKVGDATKKKVGDTTKKKAGNPTTKKASDAAKKKPGDATNKKVSDTTKKNARGATKKTRSKTVSNKETVTAAS
EKKAGSSKNSKKRKADENGDDEDRKRGAKRARVGSK
Length 1011

Coding

Sequence id CopciAB_546202.T0
Sequence >CopciAB_546202.T0
ATGTCTCACTCCCATGCTTTTGTGGGCAGTCATTACGAGGGTGACAAGCTAGTCACCCTCGAACCCGAACATTTC
ATGGATCAGTTTCTCCCAAGGGGTTTTATGCGTTACTTTGACCGTGTCGTCGAAGAAATGACGAACCGTAAACTC
TTTGTTCCCCGCTGCTGGAGGGACAACCCGGATGACTACCCCGAAGACCCTAAAAGCAACCCAGATCAATTCTAC
GAAAGCTATCCCGAAGAGGAGACTCGCGAACCAGAGATTTTCTGGCGGCCCTGGAAGAAGAGGACTCGGGGCCAG
AGGGTTGACTATTTTACTTCGATCAGGCGGAATGGGCCACAGGAGCACCCAGAAGACGTCGCTGCGTACAAAGAA
GAGCGTGACGCGGAGATCCAGGTCTTCAAGTCGTTCGAGCACGAGTGCCCGAGTAACTACCGAAATGGAGACCCG
GAATGGGTGGCTCAAGCATGGTTCCGTCCACTCTGGGACGGTGTTCGTGATATTGTGGCTCAGTTCTGTCGAGAA
GATGGCGTCGAAGTGGGCTTTGATGGGCTTTCTATTCGCTGTCCCCAATTACCCTCAGAGTGGGGCCGTCAGATG
AGCGCCGCCATCACTACCAACCTCGATACGAAGAGCCCCATGAATGTCTCCGACGTTGTGTTCCCGGCTACCATC
ATGGTTGACGATTGTGACCAAGTTGTCAGCGACTCAACGCGCGAAGATATCTGTGTGAACAGGACCTTCCAAATT
CTCAACGACGACGTTCGCCGCAAGTCCGTGTTTGGGCTAAGCGTGTTCACCAATTTTACGGACCTTGTACATCCT
GATGCTGGACTTTGCATTAGCAAGCTTACTCTTTGGTACTGCACCGATGGGTGTGCTTTTCGCTCAGAGGCTATC
AATCTTCGAGAGGACCCTGACCTTGCCATTGCAGCTATCCTCTCCCTTCTCGAGGCCTCTCAGACTACCGATCAC
GACCCCCTCATCACCTCTCTCCCTAACGGCAACTACCTCTACGAGCTCCCACCCGCCGGCGACAGGGCAGAGACG
CACTACTACAGGACTCTCGGCCTCCTCTCAAGCCCATACCAAGTCTACAGATGCCGCGTCTGGAAGGTTGAACAG
GTCATTTCGAAAACTGACTTGACACGTGTCCCCGGGACTTCCGATATGGTTCTAAAAGACGTATACAGCGATGCA
GAGAAAAGAACTGAGGATGTCGTCCAGGGCGAGGTCTTCCGAGACATTGGTGCCTTCGGTCGAGACAAGAATTGG
CGACAACATCCGCTCCTCAAGGCGCTCGATGATGACGATATGGATGCTTTGGGTGAAGCGTTGGAGGGCGATAGG
TGGAAGAAGTTCTTCACTCGTATTATCGCGCATCATATTGGCGAAAGCGTGGCCAGCAAGCTTCCCGAAAAGGCC
TTCGACAGGGATTATGACTTGATAAAGGCCACTCGTCCCCGTCGTACTCCGTTTCCGCTCGGGAGACAGTGCAGA
TATGTTTATGATGCGGTGTGCACTCCGCTCCCCAACATTCCGACCTTGGGTGTCGCTATCGACGTGATCAAACAA
GTGCTTATTCCACTTCGTCTTATGTTCTGCGCAGGATGGGTTCATCGTGACATCAACCCTGACAATATTCTTGCG
TACCGCCCTTCCGATGATGCGCCCTGGTCGGTCAAACTCTCTGACCTCAAGTTTGCCATGAAATTCCCTGTGGCG
GAGATACCCCCCAAGGACGAAATTATCATTGGTACACCAGGCTTTATGGCATGCGAGGTCCAGCTGCAGCAACAC
ACGTCTCCGCCTATTACCATCGACAAAGATGTGCCCTGCGAGGACTACCTCCGAAAGTTTCACGAAGCCCAAGAG
AAGCTCGATCTCTTCGGGCCAGTGTTGCAGACTTACCAACACGAATTCGAGTCGATCTGGTGGGTCATGATGTGG
GAGACGACCTTCCGTGTGTTCGATCGGCCCGACACCAATGAAAACATATTCCTCCGCCTCGCCGACCCCGATACC
GTGTACTGGAAGAAATCGTTGTGGGATGAGGGGATAAGGGTTTACAATATCCATGCGGAGAATAGGGTGAACATG
TATACCCCGTACAACGGGGTGCCGGTTGCGTCTACTCTTGAGGGGTTCATTGTGGCGCTTGACAAGTTGGTGTGG
GCGTTCCGAAGGGCGACGTATAAGCGTAACGAGGCGGGGTTGAGGAGGAAGGTGGAAGCGTACGCGGATGTGGTG
GGTAGTAAGCATTGGAAGGCGTTCTGGGGTGCTGTGGAGGAGAGTAGGGAGCAGTGGGGGGAGGAGCTGCTTATG
GTTGACAGTGAGGTGTGGGATAGGGCAAGGACCGTGGCGAAGGAGTTGGGGAGTCGGGTATACGAGTTTGTTCCT
CTTACTGTGCAGGAAATGCAGAAGGTTGAGGTGGATGCTGAGGAGAGCAAGGTGAAGAAGCCTGTCACGAAGAAG
AAAGGTTCCGCCACCAAGCAGAAAGGCTCGACCACCAAGAAGAAATCTGGCGATGCTACGACGAAGGAAGCCAGT
GATGCCGCCAAGAAGAAAGCCGGCGATGCCACCAAGCAGAAAGGCTCGACCAGCAAGAAGAAAGCTGGCGATGCT
ACGACGAAAAAAGCCAGTGATGCCGCCAAGAAGAAACTTGCTGGCGATGCTACGAAGGAGAAAGTCGGTGATACT
ACCAAGAAGAAAGTCGGTGATGCGACGAAGAAGAAAGTTGGTGATACCACCAAGAAGAAAGCTGGCAATCCTACG
ACGAAGAAAGCTAGTGATGCCGCCAAGAAGAAACCCGGTGATGCCACAAACAAGAAAGTCAGTGATACCACCAAG
AAGAACGCCCGTGGTGCCACGAAGAAGACTAGGTCGAAGACTGTATCCAACAAAGAGACAGTCACTGCTGCTTCG
GAGAAGAAAGCCGGAAGCTCGAAGAATTCGAAGAAGCGTAAAGCCGATGAGAATGGGGACGATGAAGATAGGAAG
AGGGGGGCGAAGAGGGCCAGGGTTGGGTCGAAATAA
Length 3036

Transcript

Sequence id CopciAB_546202.T0
Sequence >CopciAB_546202.T0
GAACTACAACCATCGAAACGACCGCTTCAGTCAAACCTCTCCTTTTCTGCGATGTCTCACTCCCATGCTTTTGTG
GGCAGTCATTACGAGGGTGACAAGCTAGTCACCCTCGAACCCGAACATTTCATGGATCAGTTTCTCCCAAGGGGT
TTTATGCGTTACTTTGACCGTGTCGTCGAAGAAATGACGAACCGTAAACTCTTTGTTCCCCGCTGCTGGAGGGAC
AACCCGGATGACTACCCCGAAGACCCTAAAAGCAACCCAGATCAATTCTACGAAAGCTATCCCGAAGAGGAGACT
CGCGAACCAGAGATTTTCTGGCGGCCCTGGAAGAAGAGGACTCGGGGCCAGAGGGTTGACTATTTTACTTCGATC
AGGCGGAATGGGCCACAGGAGCACCCAGAAGACGTCGCTGCGTACAAAGAAGAGCGTGACGCGGAGATCCAGGTC
TTCAAGTCGTTCGAGCACGAGTGCCCGAGTAACTACCGAAATGGAGACCCGGAATGGGTGGCTCAAGCATGGTTC
CGTCCACTCTGGGACGGTGTTCGTGATATTGTGGCTCAGTTCTGTCGAGAAGATGGCGTCGAAGTGGGCTTTGAT
GGGCTTTCTATTCGCTGTCCCCAATTACCCTCAGAGTGGGGCCGTCAGATGAGCGCCGCCATCACTACCAACCTC
GATACGAAGAGCCCCATGAATGTCTCCGACGTTGTGTTCCCGGCTACCATCATGGTTGACGATTGTGACCAAGTT
GTCAGCGACTCAACGCGCGAAGATATCTGTGTGAACAGGACCTTCCAAATTCTCAACGACGACGTTCGCCGCAAG
TCCGTGTTTGGGCTAAGCGTGTTCACCAATTTTACGGACCTTGTACATCCTGATGCTGGACTTTGCATTAGCAAG
CTTACTCTTTGGTACTGCACCGATGGGTGTGCTTTTCGCTCAGAGGCTATCAATCTTCGAGAGGACCCTGACCTT
GCCATTGCAGCTATCCTCTCCCTTCTCGAGGCCTCTCAGACTACCGATCACGACCCCCTCATCACCTCTCTCCCT
AACGGCAACTACCTCTACGAGCTCCCACCCGCCGGCGACAGGGCAGAGACGCACTACTACAGGACTCTCGGCCTC
CTCTCAAGCCCATACCAAGTCTACAGATGCCGCGTCTGGAAGGTTGAACAGGTCATTTCGAAAACTGACTTGACA
CGTGTCCCCGGGACTTCCGATATGGTTCTAAAAGACGTATACAGCGATGCAGAGAAAAGAACTGAGGATGTCGTC
CAGGGCGAGGTCTTCCGAGACATTGGTGCCTTCGGTCGAGACAAGAATTGGCGACAACATCCGCTCCTCAAGGCG
CTCGATGATGACGATATGGATGCTTTGGGTGAAGCGTTGGAGGGCGATAGGTGGAAGAAGTTCTTCACTCGTATT
ATCGCGCATCATATTGGCGAAAGCGTGGCCAGCAAGCTTCCCGAAAAGGCCTTCGACAGGGATTATGACTTGATA
AAGGCCACTCGTCCCCGTCGTACTCCGTTTCCGCTCGGGAGACAGTGCAGATATGTTTATGATGCGGTGTGCACT
CCGCTCCCCAACATTCCGACCTTGGGTGTCGCTATCGACGTGATCAAACAAGTGCTTATTCCACTTCGTCTTATG
TTCTGCGCAGGATGGGTTCATCGTGACATCAACCCTGACAATATTCTTGCGTACCGCCCTTCCGATGATGCGCCC
TGGTCGGTCAAACTCTCTGACCTCAAGTTTGCCATGAAATTCCCTGTGGCGGAGATACCCCCCAAGGACGAAATT
ATCATTGGTACACCAGGCTTTATGGCATGCGAGGTCCAGCTGCAGCAACACACGTCTCCGCCTATTACCATCGAC
AAAGATGTGCCCTGCGAGGACTACCTCCGAAAGTTTCACGAAGCCCAAGAGAAGCTCGATCTCTTCGGGCCAGTG
TTGCAGACTTACCAACACGAATTCGAGTCGATCTGGTGGGTCATGATGTGGGAGACGACCTTCCGTGTGTTCGAT
CGGCCCGACACCAATGAAAACATATTCCTCCGCCTCGCCGACCCCGATACCGTGTACTGGAAGAAATCGTTGTGG
GATGAGGGGATAAGGGTTTACAATATCCATGCGGAGAATAGGGTGAACATGTATACCCCGTACAACGGGGTGCCG
GTTGCGTCTACTCTTGAGGGGTTCATTGTGGCGCTTGACAAGTTGGTGTGGGCGTTCCGAAGGGCGACGTATAAG
CGTAACGAGGCGGGGTTGAGGAGGAAGGTGGAAGCGTACGCGGATGTGGTGGGTAGTAAGCATTGGAAGGCGTTC
TGGGGTGCTGTGGAGGAGAGTAGGGAGCAGTGGGGGGAGGAGCTGCTTATGGTTGACAGTGAGGTGTGGGATAGG
GCAAGGACCGTGGCGAAGGAGTTGGGGAGTCGGGTATACGAGTTTGTTCCTCTTACTGTGCAGGAAATGCAGAAG
GTTGAGGTGGATGCTGAGGAGAGCAAGGTGAAGAAGCCTGTCACGAAGAAGAAAGGTTCCGCCACCAAGCAGAAA
GGCTCGACCACCAAGAAGAAATCTGGCGATGCTACGACGAAGGAAGCCAGTGATGCCGCCAAGAAGAAAGCCGGC
GATGCCACCAAGCAGAAAGGCTCGACCAGCAAGAAGAAAGCTGGCGATGCTACGACGAAAAAAGCCAGTGATGCC
GCCAAGAAGAAACTTGCTGGCGATGCTACGAAGGAGAAAGTCGGTGATACTACCAAGAAGAAAGTCGGTGATGCG
ACGAAGAAGAAAGTTGGTGATACCACCAAGAAGAAAGCTGGCAATCCTACGACGAAGAAAGCTAGTGATGCCGCC
AAGAAGAAACCCGGTGATGCCACAAACAAGAAAGTCAGTGATACCACCAAGAAGAACGCCCGTGGTGCCACGAAG
AAGACTAGGTCGAAGACTGTATCCAACAAAGAGACAGTCACTGCTGCTTCGGAGAAGAAAGCCGGAAGCTCGAAG
AATTCGAAGAAGCGTAAAGCCGATGAGAATGGGGACGATGAAGATAGGAAGAGGGGGGCGAAGAGGGCCAGGGTT
GGGTCGAAATAAACCGGTGTCTGAATTGAAGCGTTACCTGGATCGGAGTGTTTAAACTTTAAGTAGATGCATATA
GGACAGTATGATTGGTCTTAGGATGATAGCGCAGCGCGAAATGAATTCAAAGCTATCCTTGCTAT
Length 3215

Gene

Sequence id CopciAB_546202.T0
Sequence >CopciAB_546202.T0
GAACTACAACCATCGAAACGACCGCTTCAGTCAAACCTCTCCTTTTCTGCGATGTCTCACTCCCATGCTTTTGTG
GGCAGTCATTACGAGGGTGACAAGCTAGTCACCCTCGAACCCGAACATTTCATGGATCAGTTTCTCCCAAGGGGT
TTTATGCGTTACTTTGACCGTGTCGTCGAAGAAATGACGAACCGTAAACTCTTTGTTCCCCGCTGCTGGAGGGAC
AACCCGGATGACTACCCCGAAGACCCTAAAAGCAACCCAGATCAATTCTACGAAAGCTATCCCGAAGAGGAGACT
CGCGAACCAGAGATTTTCTGGCGGCCCTGGAAGAAGAGGACTCGGGGCCAGAGGGTTGACTATTTTACTTCGATC
AGGCGGAATGGGCCACAGGAGCACCCAGAAGACGTCGCTGCGTACAAAGAAGAGCGTGACGCGGAGATCCAGGTC
TTCAAGTCGTTCGAGCACGAGTGCCCGAGTAACTACCGAAATGGAGACCCGGAATGGGTGGCTCAAGCATGGTTC
CGTCCACTCTGGGACGGTGTTCGTGATATTGTGGCTCAGTTCTGTCGAGAAGATGGCGTCGAAGTGGGCTTTGAT
GGGCTTTCTATTCGCTGTCCCCAATTACCCTCAGAGTGGGGCCGTCAGATGAGCGCCGCCATCACTACCAACCTC
GATACGAAGAGCCCCATGAATGTCTCCGACGTTGTGTTCCCGGCTACCATCATGGTTGACGATTGTGACCAAGTT
GTCAGCGACTCAACGGTGCGTGTTGCTTCCTATCAAATCTATTCACGTTGCTGACTGAGTCCACCACAGCGCGAA
GATATCTGTGTGAACAGGACCTTCCAAATTCTCAACGACGACGTTCGCCGCAAGTCCGTGTTTGGGCTAAGCGTG
TTCACCAATTTTACGGACCTTGTACATCCTGATGCTGGACTTTGCATTAGCAAGCTTACTCTTTGGTACTGCACC
GATGGGTGTGCTTTTCGCTCAGAGGCTATCAATCTTCGAGAGGTATGTCCTTGTTCTATTTCTACGCGTCTACGA
TGTGGTGCTCATTCGATTTCTAGGACCCTGACCTTGCCATTGCAGCTATCCTCTCCCTTCTCGAGGCCTCTCAGA
CTACCGATCACGACCCCCTCATCACCTCTCTCCCTAACGGCAACTACCTCTACGAGCTCCCACCCGCCGGCGACA
GGGCAGAGACGCACTACTACAGGACTCTCGGCCTCCTCTCAAGCCCATACCAAGTCTACAGATGCCGCGTCTGGA
AGGTTGAACAGGTCATTTCGAAAACTGACTTGACACGTGTCCCCGGGACTTCCGATATGGTTCTAAAAGACGTAT
ACAGCGATGCAGAGAAAAGAACTGAGGATGTCGTCCAGGGCGAGGTCTTCCGAGACATTGGTGCCTTCGGTCGAG
ACAAGAATTGGCGACAACATCCGCTCCTCAAGGCGCTCGATGATGACGATATGGATGCTTTGGGTGAAGCGTTGG
AGGGCGATAGGTGGAAGAAGTTCTTCACTCGTATTATCGCGCATCATATTGGCGAAAGCGTGGCCAGCAAGCTTC
CCGAAAAGGCCTTCGACAGGGATTATGACTTGATAAAGGCCACTCGTCCCCGTCGTACTCCGTTTCCGCTCGGGA
GACAGTGCAGATATGTTTATGATGCGGTGTGCACTCCGCTCCCCAACATTCCGACCTTGGGTGTCGCTATCGACG
TGATCAAACAAGTGCTTATTCGTAAGTTTGCCCCACTTCTGTTACCCATTACCAACAGCTGTACTGACTCACGTT
TTAGCACTTCGTCTTATGTTCTGCGCAGGATGGGTTCATCGTGACATCAACCCTGACAATATTCTTGCGTACCGC
CCTTCCGATGATGCGCCCTGGTCGGTCAAACTCTCTGACCTCAAGTTTGCCATGAAATTCCCTGTGGCGGAGATA
CCCCCCAAGGACGAAATTATCATTGTGCGTTTCTTGTTCTTTTTTACTTATGAGATACTGACGCATCTCGGCTAC
TGCAGGGTACACCAGGCTTTATGGCATGCGAGGTCCAGCTGCAGCAACACACGTCTCCGCCTATTACCATCGACA
AAGATGTGCCCTGCGAGGACTACCTCCGAAAGTTTCACGAAGCCCAAGAGAAGCTCGATCTCTTCGGGCCAGTGT
TGCAGACTTACCAACACGAATTCGAGTCGATCTGGTGGGTCATGATGTGGGAGACGACCTTCCGTGTGTTCGATC
GGCCCGACACCAATGAAAACATATTCCTCCGCCTCGCCGACCCCGATACCGTGTACTGGAAGAAATCGTTGTGGG
ATGAGGGGATAAGGGTTTACAATATCCATGCGGAGAATAGGGTGAACATGTATACCCCGTACAACGGGGTGCCGG
TTGCGTCTACTCTTGAGGGGTTCATTGTGGCGCTTGACAAGTTGGTGTGGGCGTTCCGAAGGGCGACGTATAAGC
GTAACGAGGCGGGGTTGAGGAGGAAGGTGGAAGCGTACGCGGATGTGGTGGGTAGTAAGCATTGGAAGGCGTTCT
GGGGTGCTGTGGAGGAGAGTAGGGAGCAGTGGGGGGAGGAGCTGCTTATGGTTGACAGTGAGGTGTGGGATAGGG
CAAGGACCGTGGCGAAGGAGTTGGGGAGTCGGGTATACGAGTTTGTTCCTCTTACTGTGCAGGAAATGCAGAAGG
TTGAGGTGGATGCTGAGGAGAGCAAGGTGAAGAAGCCTGTCACGAAGAAGAAAGGTTCCGCCACCAAGCAGAAAG
GCTCGACCACCAAGAAGAAATCTGGCGATGCTACGACGAAGGAAGCCAGTGATGCCGCCAAGAAGAAAGCCGGCG
ATGCCACCAAGCAGAAAGGCTCGACCAGCAAGAAGAAAGCTGGCGATGCTACGACGAAAAAAGCCAGTGATGCCG
CCAAGAAGAAACTTGCTGGCGATGCTACGAAGGAGAAAGTCGGTGATACTACCAAGAAGAAAGTCGGTGATGCGA
CGAAGAAGAAAGTTGGTGATACCACCAAGAAGAAAGCTGGCAATCCTACGACGAAGAAAGCTAGTGATGCCGCCA
AGAAGAAACCCGGTGATGCCACAAACAAGAAAGTCAGTGATACCACCAAGAAGAACGCCCGTGGTGCCACGAAGA
AGACTAGGTCGAAGACTGTATCCAACAAAGAGACAGTCACTGCTGCTTCGGAGAAGAAAGCCGGAAGCTCGAAGA
ATTCGAAGAAGCGTAAAGCCGATGAGAATGGGGACGATGAAGATAGGAAGAGGGGGGCGAAGAGGGCCAGGGTTG
GGTCGAAATAAACCGGTGTCTGAATTGAAGCGTTACCTGGATCGGAGTGTTTAAACTTTAAGTAGATGCATATAG
GACAGTATGATTGGTCTTAGGATGATAGCGCAGCGCGAAATGAATTCAAAGCTATCCTTGCTAT
Length 3439