CopciAB_396210
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_396210 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 396210
Uniprot id Functional description other FunK1 protein kinase
Location scaffold_10:2129281..2132103 Strand +
Gene length (nt) 2823 Transcript length (nt) 2545
CDS length (nt) 2382 Protein length (aa) 793

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 ostreatus PC15 PleosPC15_2_1098298 36.8 5.432E-133 443
Pleurotus ostreatus PC9 PleosPC9_1_117739 36.9 3.619E-123 414
Pleurotus eryngii ATCC 90797 Pleery1_1362323 43.7 4.664E-121 408

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 7.5294 1.8776 1.084
oidia 14.4344 0.7076 0.4085
vegetative_mycelium 13.5052 1.735 1.0017
primordia 21.9013 1.0825 0.625
hyphal_knot 4.2789 0.6493 0.3749
young_fruiting_body 27.9637 5.3881 3.1108
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 5.2224 1.438 0.8302
Wheat bran 8.0862 1.8013 1.04
Horse manure 7.89 3.2556 1.8796
Oak leaves 10.4954 1.1288 0.6517
Hay 8.7372 2.5498 1.4721
Corn stalk 7.7641 2.235 1.2904
Pectine 6.0152 1.2786 0.7382
Microcrystalline cellulose 6.6268 1.6543 0.9551
Xylose 4.4089 1.0759 0.6211
Cellobiose 4.0711 0.9513 0.5492
Lignin 7.7438 5.1841 2.993
Apple peels 5.6081 0.5007 0.2891
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 9.9593 1.3068 0.7545
Bsubtilis 8.6732 0.9269 0.5352
Ecoli 9.3989 0.3392 0.1959
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 2.4106 1.8143 1.0475
BS 4h 3.1479 0.8413 0.4857
BS 8h 1.7471 0.3731 0.2154
BS 12h 1.9556 0.0453 0.0261
Oidia 0 h 6.3733 1.5642 0.9031
Oidia 18 h 2.9924 1.1548 0.6667
Sclerotia 1.8555 1.0905 0.6296
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 8.9797 1.0746 0.6204
DM 36h 7.3311 0.3918 0.2262
DM 60h 6.9103 0.8548 0.4935
DM 84h 7.2023 1.1529 0.6656
DM 108h 6.4762 0.6538 0.3774
DM 132h 5.3533 0.5575 0.3219
DM 156hAE 6.8423 1.376 0.7944
ELI1hAE 8.0438 3.5967 2.0765
ELI2hAE 5.6515 1.515 0.8747
LI2hAE 8.8983 1.1225 0.6481
LI6hAE 5.044 2.0163 1.1641
LI12hAE 6.3894 1.0107 0.5835
LI18hAE 7.289 1.9929 1.1506
LI 24hAE 4.4087 1.0899 0.6293
DM 156hAM 5.3918 0.9856 0.569
ELI1hAM 5.4615 0.6725 0.3882
ELI2hAM 7.6072 0.8448 0.4878
LI2hAM 6.2815 1.0684 0.6169
LI6hAM 4.9883 1.3894 0.8022
LI12hAM 7.545 1.8569 1.0721
LI18hAM 4.0706 1.2777 0.7377
LI 24hAM 1.4159 0.9559 0.5519
LI 24hHK 3.6197 1.3645 0.7878
L/D 6h 4.7787 1.1167 0.6447
L/D 12h 4.8868 0.3792 0.2189
L/D 18h 2.5684 1.6624 0.9598
L/D 24h 3.5717 0.7656 0.442
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 4.5867 0.417 0.2408
Hyphal knots 3.704 1.158 0.6686
Primordium 1 4.4134 0.3796 0.2192
Primordium 2 4.8825 1.1745 0.6781
Young Fruiting body cap 8.1646 0.9684 0.5591
Younf fruiting body gill 23.9764 7.9883 4.612
Young fruiting body stipe 2.8411 0.8028 0.4635
Mature fruiting body cap_gill 11.0893 4.8054 2.7744
Mature fruiting body stipe 4.6696 1.6352 0.9441
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 12.9726 0.6937 0.4005
NH4NO3 11.8011 2.1624 1.2485
Proline 11.7052 3.1353 1.8101
Tryptophan 7.1658 2.4426 1.4102
Isoleucin 10.8682 0.8565 0.4945
Arginine 10.3067 0.7548 0.4358
Metionine 10.0096 0.598 0.3453
NaNO3 9.8219 2.7504 1.5879
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 12.9726 0.6937 0.4005
Citrus peel 10.1211 3.3761 1.9492
Poplar leaves 10.5999 0.0919 0.053
Typha leaves 13.443 1.6929 0.9774
Overwintered Salix leaves 11.9669 1.3239 0.7644
Reed flowering 10.1114 2.5973 1.4995
Tigernut 10.2699 0.832 0.4803
Energy cane 11.0242 2.2502 1.2992
Guar gum 9.231 2.0898 1.2066
Apple peels 11.8827 2.6831 1.5491
Cellobiose 16.2449 1.8521 1.0693
Corn stalk 12.7469 2.1128 1.2198
Horse manure 16.7855 4.8726 2.8132
Lignin 11.2738 1.2632 0.7293
Microcrystalline cellulose 14.2783 2.0845 1.2035
Oak leaves 12.96 1.4085 0.8132
Pectin esterified 14.2588 2.1867 1.2625
Poplar sawdust 11.6199 3.8027 2.1955
Wheat bran 10.5661 1.6728 0.9658
Chlamydomonas reinhardtii 11.4935 2.8372 1.638
Vertatryl alcohol 18.9457 2.8485 1.6446
Furfural 15.4468 1.6003 0.9239
Autoclaved mycelium 11.9147 1.6648 0.9612
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 13.0677 0.4149 0.2395
Ribose 22.7738 3.2439 1.8729
Mannose 18.6492 3.5746 2.5276
Fructose 16.0949 5.1336 2.9639
Arabinose 17.7399 1.723 0.9948
Xylose 18.7041 2.414 1.3937
Galacturonic acid 18.0149 2.0051 1.1577
Rhamnogalacturonan 15.9135 0.9832 0.5677
Pectin esterified 16.681 1.4256 0.823
Polygalacturonic acid 21.1748 0.4083 0.2357
Sodium acetate 20.9604 2.0234 1.1682
No nitrogen 14.0083 2.9139 1.6823
BSA 15.4788 2.9444 1.6999
Glutamine 15.83 2.2262 1.2853
No phosphate 18.991 2.315 1.3366
No carbon 16.0851 1.3291 0.9398
No sulphur 11.5616 2.0104 1.1607
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 12.9726 0.6937 0.4005
Amylose 9.2827 1.8897 1.091
Fucose 11.1337 0.3023 0.1745
Galactose 10.0334 0.6921 0.3996
Lactose 10.8908 3.1854 1.8391
Maltose 8.6043 2.308 1.3325
Mannitol 10.7959 2.1024 1.2138
Rhamnose 11.1691 1.1209 0.6471
Sorbitol 10.5483 0.9607 0.5547
Trehalose 11.839 2.3636 1.3646
Glycerol 9.9261 0.7846 0.453
Glucuronic acid 10.3572 0.5663 0.327
Arabinan 13.0195 1.4912 0.8609
Galactan 13.947 0.2067 0.1193
Galactomannan 13.7693 2.0384 1.1769
Glucan 14.1866 2.5472 1.4706
Xylan 11.7183 2.6147 1.5096
Xyloglucan 11.4689 1.902 1.0981
Arabinogalactan 9.9584 0.85 0.4907
Pectin 8.5623 0.678 0.3915
Rhamnogalacturonan 6.1079 1.6794 0.9696
Polygalacturonic acid 9.3185 0.5333 0.3079
Mannan 11.2328 0.5673 0.3275
Amylopectin 10.7164 2.7655 1.5967
Inulin 10.1995 1.3028 0.7522
BSA 11.4959 1.4291 0.8251
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 6.9103 0.8548 0.4935
2h WAT 9.3005 2.2385 1.2924
4h WAT 8.7084 1.5615 0.9015
8h WAT 8.5076 1.6314 0.9419
16h WAT 7.8879 1.9132 1.1046
24h WAT 5.2734 1.1968 0.691
WAT hyphal knot -30h 8.9965 2.5226 1.4564
WAT hyphal knot -22h 10.7639 0.6053 0.3495
WAT hyphal knot -15h 9.9675 0.5719 0.3302
WAT hyphal knot -7.5h 10.7166 2.4541 1.4168
WAT hyphal knot 7.5733 3.1287 1.8063
WAT hyphal knot +7.5h 6.5599 1.234 0.7124
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 14.5162 4.2531 2.4555
Straw 3h 10.2075 0.5493 0.3171
Straw 6h 9.251 4.3872 2.533
Straw 12h 12.9846 2.4781 1.4307
Straw 24h 14.1206 4.6884 2.7068
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 5.1067 0.4551 0.2628
Frost (-20C, 30min) 4.2067 0.7847 0.4531
Heat shock (47C, 2h) 1.114 0.7729 0.4462
High CO2 4.819 1.4136 0.8161
Drought (4% agar, 12h) 5.8677 1.1669 0.6737
Oxidative (1mM H2O2, 3h) 3.1137 1.7157 0.9906
Acidic (pH4, 3h) 5.836 2.517 1.4532
Alkaline (pH9, 3h) 4.8936 0.8775 0.5066
Osmotic (sorbitol 2h) 4.6644 2.0849 1.2037
CongoRed (3h) 4.0468 0.4311 0.2489
Cobalt chloride control 2.5245 0.4022 0.2322
Cobalt chloride 2mM 1.9808 0.4756 0.2746
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 5.947 0.8546 0.4934
Cold stimulation 9.1435 2.569 1.4832
Scratched surface 14.0867 1.1739 0.6778
Ca2+, 200mM, 24h 4.0749 1.8566 1.0719
Cu2+, 2mM, 6h 4.9087 1.8877 1.0899
Voriconazole 3.6982 0.6608 0.3815
Trichoderma interaction, early 8.2684 0.0997 0.0576
Trichoderma interaction 60h 6.0649 5.6304 3.2507
Cobalt chloride 2mM repeat 6.8223 2.4732 1.4279
Hypoxia 5.7574 0.3355 0.1937
Hypoxia control 4.0805 0.1894 0.1093
Protoplastation control 4.0399 0.2803 0.1982
Protoplastation 3.5h 3.1595 3.0246 2.1387
Protoplastation 1.5h 0.7013 0.9918 0.7013

General data

Systematic name -
Protein id CopciAB_396210.T0
Description other FunK1 protein kinase

Annotation summary

0 200 400 600 793

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 153 615

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
G other FunK1 protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_396210 across fungi.

Arrow shows the origin of gene family containing CopciAB_396210.

Protein

Sequence id CopciAB_396210.T0
Sequence >CopciAB_396210.T0
MDGEIVEVTFDDFASVYLPFNPQDSDVEATVNSMAPASRDPPPPVTPITETSTDQPVRRSTRPKAVGVVRKSEPE
EEISILCHTPQGDVRFSDFPFPPISSSDKETEFYSPIQKISAAVVKGPAPAGRVRNSFAYLDCPRKSIDGRESNN
FIDAAVARKQPASTQPSASPKTSDIALVAEYTFRVANALENANQAVSANVQIMNDDVRRMHCYGMTIESDQVRLW
YHSRSHSAVSQPFSFVKEPKKLIKVLLSFLFATEEELGYDLKVTSVGDDYIFEMGSQTTPRFFRTQGPPLSEFRS
SCITGRMTRVWKVVEVDSASKDAAVLRDATPFVLKDVWIEESAMTERQVQQALFKDIEDYWRNVDVETEARLEKV
HDTARELQAQVRSGEYKKWFLTIFLDYEGRRSRRLPKSARQRRGLLLKEGEVPPLASHSGTTRPLSQTESSNLPR
LFAPKKQYRALIEEVCIPVGDIERLDQVFHVLDGAIRPLLLMFGARWIHRDISAGNILGHLQGSGAAPHYQTKLS
DLEYARRYPPPVDYTAGGDPKTGTPFFMACEILLGAPLAPLWLFNENADIEAIREMIDNRAGSSAPVEDLEVIPH
HLHDLESIWWIAAWSILSRVPDSTANTYSLTIFINAIRQAPSSERIKLFTLGKLKDNVPQGRCLDGAATELTKLG
RALRSLYGLHTTSWVTYGQDSEQVVEIYVSGFEFFIKVFGSLLQEVPALSLTSCGNRNIAQSSAPRPKRCRPKDD
DEYQPGAGDSNAPSGSGKGAKRSKTRNKSGSGSKSRTSTCQMT
Length 793

Coding

Sequence id CopciAB_396210.T0
Sequence >CopciAB_396210.T0
ATGGACGGCGAGATTGTCGAGGTCACATTCGACGATTTCGCATCTGTCTACCTTCCTTTTAACCCTCAGGACTCT
GACGTCGAAGCCACTGTTAACAGCATGGCGCCGGCCAGCAGGGACCCTCCTCCCCCTGTTACACCCATCACCGAA
ACTTCTACGGACCAACCTGTTCGCCGCTCAACCCGCCCCAAGGCTGTCGGTGTAGTACGGAAGTCTGAACCAGAG
GAAGAGATCAGCATCTTGTGCCATACTCCGCAGGGTGACGTTCGATTTAGCGACTTCCCTTTCCCTCCCATTAGC
TCCAGTGATAAAGAAACCGAATTCTACTCTCCCATCCAGAAGATCTCTGCAGCTGTTGTGAAGGGACCAGCGCCA
GCTGGACGAGTGCGAAACTCGTTCGCGTATCTGGATTGCCCTCGAAAGTCGATTGACGGCCGTGAATCGAACAAC
TTTATTGATGCTGCCGTTGCTCGCAAACAGCCAGCTTCCACTCAGCCTAGTGCGTCTCCAAAGACGTCGGACATT
GCTCTCGTGGCAGAATACACATTCCGAGTGGCCAATGCACTCGAGAACGCAAATCAGGCAGTTTCTGCCAACGTT
CAAATCATGAACGATGACGTTCGACGCATGCATTGCTACGGAATGACTATCGAAAGCGACCAGGTCAGGCTGTGG
TACCACTCTCGCTCTCACTCGGCCGTTTCGCAACCGTTCAGCTTCGTAAAGGAACCGAAGAAATTGATCAAAGTT
CTGCTTTCATTCCTCTTCGCAACAGAGGAGGAGCTGGGCTACGACCTCAAGGTCACCAGCGTCGGCGACGATTAC
ATTTTCGAGATGGGCAGCCAGACTACCCCTCGTTTCTTCCGCACGCAGGGGCCGCCACTTTCCGAGTTTCGCTCT
AGCTGTATCACCGGTCGGATGACTCGAGTCTGGAAGGTCGTTGAAGTGGATTCCGCTTCCAAAGATGCCGCAGTG
CTCAGAGATGCTACACCCTTCGTTTTAAAAGACGTGTGGATCGAGGAGTCGGCGATGACGGAACGTCAAGTCCAA
CAGGCCCTGTTCAAGGACATTGAGGATTATTGGCGGAATGTTGATGTCGAAACCGAAGCACGTCTCGAAAAGGTC
CACGATACCGCTCGGGAGCTTCAGGCACAAGTCCGCAGTGGCGAGTACAAGAAGTGGTTCCTCACTATCTTCTTG
GATTACGAGGGCCGACGCTCCAGACGCCTCCCGAAGAGTGCCCGACAACGTAGAGGGCTTTTACTGAAGGAGGGG
GAAGTTCCGCCACTAGCCTCCCACAGTGGTACAACACGTCCGTTGTCACAGACGGAATCGTCGAATCTTCCCCGA
CTGTTCGCCCCAAAGAAGCAATATCGCGCCCTCATTGAGGAGGTGTGCATTCCTGTGGGAGACATCGAGCGATTG
GATCAAGTGTTTCACGTCCTGGATGGTGCCATTCGGCCTCTACTGTTGATGTTTGGCGCTCGCTGGATTCATCGC
GACATCAGCGCTGGCAATATACTTGGCCACCTTCAAGGTTCTGGTGCAGCCCCTCATTATCAGACCAAACTTAGT
GATTTGGAGTATGCGAGACGTTACCCTCCTCCTGTTGACTACACTGCCGGAGGTGACCCGAAAACGGGTACGCCA
TTTTTTATGGCTTGCGAAATTCTTCTCGGAGCTCCTCTAGCTCCTCTGTGGTTGTTCAACGAAAACGCCGATATT
GAAGCAATCCGAGAAATGATTGACAATCGAGCAGGCAGTTCCGCGCCGGTTGAGGATCTTGAAGTAATTCCCCAT
CACCTTCACGACCTGGAGTCCATTTGGTGGATTGCTGCATGGTCTATCCTTTCTAGGGTCCCGGATTCAACGGCC
AATACATATAGCCTTACCATTTTCATCAACGCCATCAGACAAGCACCAAGTTCCGAAAGGATCAAGCTGTTCACC
CTTGGTAAACTCAAAGACAACGTCCCACAAGGCCGATGTCTCGATGGGGCTGCCACCGAGCTGACAAAACTAGGG
AGGGCGTTACGCTCTTTGTATGGCCTTCACACTACCAGTTGGGTGACTTACGGTCAAGATTCCGAACAAGTCGTT
GAAATCTACGTCAGTGGATTCGAGTTCTTCATCAAAGTCTTCGGATCTCTCCTACAGGAAGTGCCCGCTCTTTCC
CTGACGTCTTGCGGGAACAGAAACATCGCACAATCCAGCGCTCCACGTCCCAAACGATGTCGACCAAAGGACGAC
GACGAGTACCAGCCTGGCGCTGGGGACTCAAATGCGCCATCGGGTTCAGGAAAGGGAGCGAAGCGGTCGAAAACT
CGAAACAAGTCTGGTTCTGGGTCGAAATCGCGTACTTCTACTTGTCAGATGACCTAG
Length 2382

Transcript

Sequence id CopciAB_396210.T0
Sequence >CopciAB_396210.T0
AGGGACGAAGTTCTAACCTTCATAAGCTGACATCTTCTGCAGGGTCATCGAGTCATACCAATGGCTCGGAGAACA
AATTAACTGATCTTCGTCCTGAAACTGCACGAGAAATGGACGGCGAGATTGTCGAGGTCACATTCGACGATTTCG
CATCTGTCTACCTTCCTTTTAACCCTCAGGACTCTGACGTCGAAGCCACTGTTAACAGCATGGCGCCGGCCAGCA
GGGACCCTCCTCCCCCTGTTACACCCATCACCGAAACTTCTACGGACCAACCTGTTCGCCGCTCAACCCGCCCCA
AGGCTGTCGGTGTAGTACGGAAGTCTGAACCAGAGGAAGAGATCAGCATCTTGTGCCATACTCCGCAGGGTGACG
TTCGATTTAGCGACTTCCCTTTCCCTCCCATTAGCTCCAGTGATAAAGAAACCGAATTCTACTCTCCCATCCAGA
AGATCTCTGCAGCTGTTGTGAAGGGACCAGCGCCAGCTGGACGAGTGCGAAACTCGTTCGCGTATCTGGATTGCC
CTCGAAAGTCGATTGACGGCCGTGAATCGAACAACTTTATTGATGCTGCCGTTGCTCGCAAACAGCCAGCTTCCA
CTCAGCCTAGTGCGTCTCCAAAGACGTCGGACATTGCTCTCGTGGCAGAATACACATTCCGAGTGGCCAATGCAC
TCGAGAACGCAAATCAGGCAGTTTCTGCCAACGTTCAAATCATGAACGATGACGTTCGACGCATGCATTGCTACG
GAATGACTATCGAAAGCGACCAGGTCAGGCTGTGGTACCACTCTCGCTCTCACTCGGCCGTTTCGCAACCGTTCA
GCTTCGTAAAGGAACCGAAGAAATTGATCAAAGTTCTGCTTTCATTCCTCTTCGCAACAGAGGAGGAGCTGGGCT
ACGACCTCAAGGTCACCAGCGTCGGCGACGATTACATTTTCGAGATGGGCAGCCAGACTACCCCTCGTTTCTTCC
GCACGCAGGGGCCGCCACTTTCCGAGTTTCGCTCTAGCTGTATCACCGGTCGGATGACTCGAGTCTGGAAGGTCG
TTGAAGTGGATTCCGCTTCCAAAGATGCCGCAGTGCTCAGAGATGCTACACCCTTCGTTTTAAAAGACGTGTGGA
TCGAGGAGTCGGCGATGACGGAACGTCAAGTCCAACAGGCCCTGTTCAAGGACATTGAGGATTATTGGCGGAATG
TTGATGTCGAAACCGAAGCACGTCTCGAAAAGGTCCACGATACCGCTCGGGAGCTTCAGGCACAAGTCCGCAGTG
GCGAGTACAAGAAGTGGTTCCTCACTATCTTCTTGGATTACGAGGGCCGACGCTCCAGACGCCTCCCGAAGAGTG
CCCGACAACGTAGAGGGCTTTTACTGAAGGAGGGGGAAGTTCCGCCACTAGCCTCCCACAGTGGTACAACACGTC
CGTTGTCACAGACGGAATCGTCGAATCTTCCCCGACTGTTCGCCCCAAAGAAGCAATATCGCGCCCTCATTGAGG
AGGTGTGCATTCCTGTGGGAGACATCGAGCGATTGGATCAAGTGTTTCACGTCCTGGATGGTGCCATTCGGCCTC
TACTGTTGATGTTTGGCGCTCGCTGGATTCATCGCGACATCAGCGCTGGCAATATACTTGGCCACCTTCAAGGTT
CTGGTGCAGCCCCTCATTATCAGACCAAACTTAGTGATTTGGAGTATGCGAGACGTTACCCTCCTCCTGTTGACT
ACACTGCCGGAGGTGACCCGAAAACGGGTACGCCATTTTTTATGGCTTGCGAAATTCTTCTCGGAGCTCCTCTAG
CTCCTCTGTGGTTGTTCAACGAAAACGCCGATATTGAAGCAATCCGAGAAATGATTGACAATCGAGCAGGCAGTT
CCGCGCCGGTTGAGGATCTTGAAGTAATTCCCCATCACCTTCACGACCTGGAGTCCATTTGGTGGATTGCTGCAT
GGTCTATCCTTTCTAGGGTCCCGGATTCAACGGCCAATACATATAGCCTTACCATTTTCATCAACGCCATCAGAC
AAGCACCAAGTTCCGAAAGGATCAAGCTGTTCACCCTTGGTAAACTCAAAGACAACGTCCCACAAGGCCGATGTC
TCGATGGGGCTGCCACCGAGCTGACAAAACTAGGGAGGGCGTTACGCTCTTTGTATGGCCTTCACACTACCAGTT
GGGTGACTTACGGTCAAGATTCCGAACAAGTCGTTGAAATCTACGTCAGTGGATTCGAGTTCTTCATCAAAGTCT
TCGGATCTCTCCTACAGGAAGTGCCCGCTCTTTCCCTGACGTCTTGCGGGAACAGAAACATCGCACAATCCAGCG
CTCCACGTCCCAAACGATGTCGACCAAAGGACGACGACGAGTACCAGCCTGGCGCTGGGGACTCAAATGCGCCAT
CGGGTTCAGGAAAGGGAGCGAAGCGGTCGAAAACTCGAAACAAGTCTGGTTCTGGGTCGAAATCGCGTACTTCTA
CTTGTCAGATGACCTAGGAAGGCTTCCTGTAACCTCCTGTAGCATTTCATTAAAAAGTCTCATTGTTGTG
Length 2545

Gene

Sequence id CopciAB_396210.T0
Sequence >CopciAB_396210.T0
AGGGACGAAGTTCTAACCTTCATAAGCTGACATCTTCTGCAGGGTCATCGAGTCATACCAATGGCTCGGAGAACA
AATTAACTGATCTTCGTCCTGAAACTGCACGAGAAATGGACGGCGAGATTGTCGAGGTCACATTCGACGATTTCG
CATCTGTCTACCTTCCTTTTAACCCTCAGGACTCTGACGTCGAAGCCACTGTTAACAGCATGGCGCCGGCCAGCA
GGGACCCTCCTCCCCCTGTTACACCCATCACCGAAACTTCTACGGACCAACCTGTTCGCCGCTCAACCCGCCCCA
AGGCTGTCGGTGTAGTACGGAAGTCTGAACCAGAGGAAGAGATCAGCATCTTGTGCCATACTCCGCAGGGTGACG
TTCGATTTAGCGACTTCCCTTTCCCTCCCATTAGCTCCAGTGATAAAGAAACCGAATTCTACTCTCCCATCCAGA
AGATCTCTGCAGCTGTTGTGAAGGGACCAGCGCCAGCTGGACGAGTGCGAAACTCGTTCGCGTATCTGGATTGCC
CTCGAAAGTCGATTGACGGCCGTGAATCGAACAACTTTATTGATGCTGCCGTTGCTCGCAAACAGCCAGCTTCCA
CTCAGCCTAGTGCGTCTCCAAAGACGTCGGACATTGCTCTCGTGGCAGAATACACATTCCGAGTGGCCAATGCAC
TCGAGGTGAGTGCTGTTTCACCAACCAACGCCGCAAACTCATTCCAAGTTCTACAGAACGCAAATCAGGCAGTTT
CTGCCAACGTTCAAATCATGAACGATGACGTTCGACGCATGCATTGCTACGGAGTACGTGGACTATTTGACCAAA
TGACAATCGACGCTGGTCTGATTCCTTTGTCAGATGACTATCGAAAGCGACCAGGTCAGGCTGTGGTACCACTCT
CGCTCTCACTCGGCCGTTTCGCAACCGTTCAGCTTCGTAAAGGTATGGGGATGGGCATCCATCACATCAGTCAAA
CTGAGAGCTCACATATTCAACGCCAGGAACCGAAGAAATTGATCAAAGTTCTGCTTTCATTCCTCTTCGCAACAG
AGGAGGAGCTGGGCTACGACCTCAAGGTCACCAGCGTCGGCGACGATTACATTTTCGAGATGGGCAGCCAGACTA
CCCCTCGTTTCTTCCGCACGCAGGGGCCGCCACTTTCCGAGTTTCGCTCTAGCTGTATCACCGGTCGGATGACTC
GAGTCTGGAAGGTCGTTGAAGTGGATTCCGCTTCCAAAGATGCCGCAGTGCTCAGAGATGCTACACCCTTCGTTT
TAAAAGACGTGTGGATCGAGGAGTCGGCGATGACGGAACGTCAAGTCCAACAGGCCCTGTTCAAGGACATTGAGG
ATTATTGGCGGAATGTTGATGTCGAAACCGAAGCACGTCTCGAAAAGGTCCACGATACCGCTCGGGAGCTTCAGG
CACAAGTCCGCAGTGGCGAGTACAAGAAGTGGTTCCTCACTATCTTCTTGGATTACGAGGGCCGACGCTCCAGAC
GCCTCCCGAAGAGTGCCCGACAACGTAGAGGGCTTTTACTGAAGGAGGGGGAAGTTCCGCCACTAGCCTCCCACA
GTGGTACAACACGTCCGTTGTCACAGACGGAATCGTCGAATCTTCCCCGACTGTTCGCCCCAAAGAAGCAATATC
GCGCCCTCATTGAGGAGGTGTGCATTCCTGTGGGAGACATCGAGCGATTGGATCAAGTGTTTCACGTCCTGGATG
GTGCCATTCGGCGTGAGTATCAATCCATCTCGCAATCCGCAAATCGGCGTCCGCTGACCTTGATTCGACAGCTCT
ACTGTTGATGTTTGGCGCTCGCTGGATTCATCGCGACATCAGCGCTGGCAATATACTTGGCCACCTTCAAGGTTC
TGGTGCAGCCCCTCATTATCAGACCAAACTTAGTGATTTGGAGTATGCGAGACGTTACCCTCCTCCTGTTGACTA
CACTGCCGGAGGTGACCCGAAAACGGTGGGTCATACATCGTGATTTCCCAGCTTGCCCCCTTGACCCATACATGC
CCAGGGTACGCCATTTTTTATGGCTTGCGAAATTCTTCTCGGAGCTCCTCTAGCTCCTCTGTGGTTGTTCAACGA
AAACGCCGATATTGAAGCAATCCGAGAAATGATTGACAATCGAGCAGGCAGTTCCGCGCCGGTTGAGGATCTTGA
AGTAATTCCCCATCACCTTCACGACCTGGAGTCCATTTGGTGGATTGCTGCATGGTCTATCCTTTCTAGGGTCCC
GGATTCAACGGCCAATACATATAGCCTTACCATTTTCATCAACGCCATCAGACAAGCACCAAGTTCCGAAAGGAT
CAAGCTGTTCACCCTTGGTAAACTCAAAGACAACGTCCCACAAGGCCGATGTCTCGATGGGGCTGCCACCGAGCT
GACAAAACTAGGGAGGGCGTTACGCTCTTTGTATGGCCTTCACACTACCAGTTGGGTGACTTACGGTCAAGATTC
CGAACAAGTCGTTGAAATCTACGTCAGTGGATTCGAGTTCTTCATCAAAGTCTTCGGATCTCTCCTACAGGAAGT
GCCCGCTCTTTCCCTGACGTCTTGCGGGAACAGAAACATCGCACAATCCAGCGCTCCACGTCCCAAACGATGTCG
ACCAAAGGACGACGACGAGTACCAGCCTGGCGCTGGGGACTCAAATGCGCCATCGGGTTCAGGAAAGGGAGCGAA
GCGGTCGAAAACTCGAAACAAGTCTGGTTCTGGGTCGAAATCGCGTACTTCTACTTGTCAGATGACCTAGGAAGG
CTTCCTGTAACCTCCTGTAGCATTTCATTAAAAAGTCTCATTGTTGTG
Length 2823