CopciAB_398996
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_398996 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 398996
Uniprot id Functional description
Location scaffold_12:1139879..1143423 Strand +
Gene length (nt) 3545 Transcript length (nt) 3149
CDS length (nt) 2826 Protein length (aa) 941

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_RDB21963 27.8 2.161E-53 205

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 89.2448 8.8754 5.1242
oidia 79.3283 5.2594 3.0365
vegetative_mycelium 79.3643 10.8317 6.2537
primordia 50.6114 3.3069 1.9093
hyphal_knot 78.6738 1.1792 0.6808
young_fruiting_body 23.7229 1.6374 0.9453
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 86.4205 1.8624 1.0753
Wheat bran 52.6865 7.4718 4.3138
Horse manure 73.2831 18.8185 10.8649
Oak leaves 78.1583 17.0854 9.8643
Hay 67.6636 8.3159 4.8012
Corn stalk 73.627 2.7895 1.6105
Pectine 86.4392 2.7726 1.6008
Microcrystalline cellulose 80.9378 8.3958 4.8473
Xylose 72.4824 13.2505 7.6502
Cellobiose 90.9514 9.747 5.6275
Lignin 73.1264 7.4525 4.3027
Apple peels 86.4807 3.1421 1.8141
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 65.6238 2.0879 1.2055
Bsubtilis 65.1658 3.9055 2.2549
Ecoli 65.8169 1.9876 1.1476
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 10.3739 2.7603 1.5937
BS 4h 15.7642 0.9129 0.527
BS 8h 10.6238 1.4119 0.8152
BS 12h 11.8553 2.2133 1.2778
Oidia 0 h 15.1383 2.5603 1.4782
Oidia 18 h 10.5689 1.4068 0.8122
Sclerotia 21.3995 5.0055 2.8899
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 13.2935 1.2446 0.7186
DM 36h 13.5694 2.4087 1.3906
DM 60h 11.2289 1.6541 0.955
DM 84h 8.4991 0.3803 0.2196
DM 108h 10.5062 0.8299 0.4791
DM 132h 12.1715 0.7579 0.4376
DM 156hAE 12.3822 2.1524 1.2427
ELI1hAE 11.9862 3.9186 2.2624
ELI2hAE 12.4893 0.4457 0.2573
LI2hAE 11.4411 2.2417 1.2942
LI6hAE 12.0072 1.4066 0.8121
LI12hAE 14.6681 3.7893 2.1877
LI18hAE 12.9259 2.3663 1.3662
LI 24hAE 14.8376 1.3686 0.7901
DM 156hAM 12.3876 2.9655 1.7121
ELI1hAM 15.4268 1.1871 0.6854
ELI2hAM 14.065 4.1212 2.3794
LI2hAM 16.4683 1.9543 1.1283
LI6hAM 15.0066 1.1768 0.6794
LI12hAM 15.7221 0.8527 0.4923
LI18hAM 14.6724 5.5451 3.2014
LI 24hAM 14.2955 1.4103 0.8142
LI 24hHK 17.2294 1.5997 0.9236
L/D 6h 18.867 3.0936 1.7861
L/D 12h 18.3604 1.9074 1.1013
L/D 18h 20.9 3.8326 2.2127
L/D 24h 17.1661 1.5062 0.8696
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 43.822 9.623 5.5558
Hyphal knots 49.6334 9.6016 5.5435
Primordium 1 59.339 2.5199 1.4548
Primordium 2 50.5664 5.296 3.0576
Young Fruiting body cap 37.8719 11.4919 6.6349
Younf fruiting body gill 30.0448 4.1123 2.3742
Young fruiting body stipe 30.3209 5.7855 3.3402
Mature fruiting body cap_gill 19.5529 2.4362 1.4065
Mature fruiting body stipe 31.1791 6.0979 3.5206
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 38.1627 7.0113 4.048
NH4NO3 59.1169 6.5296 3.7698
Proline 49.6585 5.849 3.3769
Tryptophan 54.244 20.8589 12.0429
Isoleucin 59.768 12.0406 6.9516
Arginine 47.6858 1.0291 0.5942
Metionine 39.5529 2.6865 1.551
NaNO3 40.6237 3.0807 1.7787
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 38.1627 7.0113 4.048
Citrus peel 33.1853 1.6772 0.9683
Poplar leaves 42.9807 4.7914 2.7663
Typha leaves 30.8343 5.1158 2.9536
Overwintered Salix leaves 36.9002 9.1531 5.2846
Reed flowering 24.8802 4.621 2.668
Tigernut 25.7745 4.5357 2.6187
Energy cane 37.4431 4.4385 2.5626
Guar gum 37.9453 16.7601 9.6764
Apple peels 38.6779 3.761 2.1714
Cellobiose 57.7442 3.6154 2.0873
Corn stalk 34.7054 4.7231 2.7269
Horse manure 41.6629 5.2812 3.0491
Lignin 36.9936 18.3726 10.6074
Microcrystalline cellulose 46.2562 13.3733 7.7211
Oak leaves 36.1132 5.4593 3.1519
Pectin esterified 29.3816 6.1514 3.5515
Poplar sawdust 44.3219 8.6569 4.9981
Wheat bran 27.8379 5.8641 3.3857
Chlamydomonas reinhardtii 41.2459 2.8536 1.6475
Vertatryl alcohol 76.8922 3.5103 2.0267
Furfural 39.5489 1.434 0.8279
Autoclaved mycelium 48.1983 4.4963 2.5959
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 71.4852 5.5171 3.1853
Ribose 75.4503 5.2527 3.0326
Mannose 73.5956 0.9828 0.6949
Fructose 81.8508 8.2754 4.7778
Arabinose 79.2555 7.3816 4.2618
Xylose 78.5069 3.4358 1.9837
Galacturonic acid 76.6995 16.0156 9.2466
Rhamnogalacturonan 77.55 0.9834 0.5678
Pectin esterified 79.7357 4.9668 2.8676
Polygalacturonic acid 77.9772 3.6684 2.118
Sodium acetate 68.8685 5.0973 2.9429
No nitrogen 82.1915 1.9233 1.1104
BSA 84.1038 2.1979 1.269
Glutamine 85.8266 4.1729 2.4092
No phosphate 73.4979 4.1845 2.416
No carbon 70.602 1.8097 1.2796
No sulphur 85.7304 13.5348 7.8143
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 38.1627 7.0113 4.048
Amylose 47.0319 4.2978 2.4813
Fucose 41.5337 5.4603 3.1525
Galactose 49.4843 3.732 2.1547
Lactose 62.8552 3.3765 1.9494
Maltose 58.0654 9.6867 5.5926
Mannitol 65.2214 5.8053 3.3517
Rhamnose 49.5957 5.4501 3.1466
Sorbitol 58.7065 1.8825 1.0868
Trehalose 43.9522 12.469 7.199
Glycerol 45.6853 14.3973 8.3123
Glucuronic acid 51.8942 4.1966 2.4229
Arabinan 41.7509 12.6082 7.2794
Galactan 41.0639 2.808 1.6212
Galactomannan 37.9845 8.6489 4.9935
Glucan 45.8306 5.0425 2.9113
Xylan 43.8934 0.7555 0.4362
Xyloglucan 46.0667 4.3751 2.526
Arabinogalactan 51.0022 1.1843 0.6838
Pectin 36.4074 7.655 4.4196
Rhamnogalacturonan 31.1459 5.2018 3.0033
Polygalacturonic acid 53.6214 2.4703 1.4262
Mannan 45.7919 1.601 0.9244
Amylopectin 35.8677 3.9913 2.3044
Inulin 46.9566 5.4255 3.1324
BSA 26.2656 4.2954 2.4799
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 11.2289 1.6541 0.955
2h WAT 8.4748 0.8387 0.4842
4h WAT 11.1507 2.855 1.6483
8h WAT 9.2927 2.1436 1.2376
16h WAT 11.5556 1.7438 1.0068
24h WAT 11.4472 1.4002 0.8084
WAT hyphal knot -30h 12.6471 1.3592 0.7847
WAT hyphal knot -22h 13.7023 1.6961 0.9793
WAT hyphal knot -15h 12.8544 2.0082 1.1594
WAT hyphal knot -7.5h 14.1593 2.1955 1.2676
WAT hyphal knot 15.9997 2.6679 1.5403
WAT hyphal knot +7.5h 11.4858 2.3116 1.3346
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 36.3065 13.7166 7.9193
Straw 3h 34.5433 6.6499 3.8393
Straw 6h 25.8036 8.5599 4.9421
Straw 12h 33.765 5.3102 3.0659
Straw 24h 30.7148 11.3647 6.5614
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 7.3554 0.0137 0.0079
Frost (-20C, 30min) 11.3857 0.6599 0.381
Heat shock (47C, 2h) 16.8755 2.7813 1.6058
High CO2 10.8239 1.8298 1.0564
Drought (4% agar, 12h) 11.4023 0.7319 0.4226
Oxidative (1mM H2O2, 3h) 8.3729 1.6606 0.9587
Acidic (pH4, 3h) 6.346 1.4437 0.8335
Alkaline (pH9, 3h) 8.4019 1.5301 0.8834
Osmotic (sorbitol 2h) 7.4028 2.7771 1.6034
CongoRed (3h) 7.231 0.7546 0.4356
Cobalt chloride control 13.3623 1.0304 0.5949
Cobalt chloride 2mM 12.024 2.7395 1.5817
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 12.7114 3.0112 1.7385
Cold stimulation 9.2471 0.3311 0.1911
Scratched surface 19.7765 3.5603 2.0555
Ca2+, 200mM, 24h 12.3652 4.6515 2.6855
Cu2+, 2mM, 6h 7.7047 2.881 1.6634
Voriconazole 8.2986 3.7006 2.1366
Trichoderma interaction, early 11.7273 0.8072 0.4661
Trichoderma interaction 60h 9.1882 6.5952 3.8077
Cobalt chloride 2mM repeat 9.2119 0.4371 0.2524
Hypoxia 11.042 1.1808 0.6817
Hypoxia control 12.623 1.7447 1.0073
Protoplastation control 9.5504 0.0176 0.0124
Protoplastation 3.5h 11.8639 1.6993 1.2016
Protoplastation 1.5h 11.4666 2.6149 1.849

General data

Systematic name -
Protein id CopciAB_398996.T0
Description

Annotation summary

0 200 400 600 800 941

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 475 782

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
No records

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_398996 across fungi.

Arrow shows the origin of gene family containing CopciAB_398996.

Protein

Sequence id CopciAB_398996.T0
Sequence >CopciAB_398996.T0
MGKRSSPVKTQPAPKRQRGQNSQYVSTTFDALSLDIPYTRNSQSKISKTEDREPVERPYSVVSTALRMEAHSRIN
HQVSGRTWQSLDLVEHVFGRMLPIPLVATVLLDLLRLQLLSVSRNEGQSSQGQSTGDLWIDACLDAATLAHHREI
PKTRIFDWKWCPSLSQHGEGGGAMFFNAIALTAHQLASKRAQLGKRNPIRHWWSLPMYQSDRPFVGPDGEQCRPS
IVSVPIHAFGRRRIDELPPHFHPLPSSVASTISTCLETQQCRNGTYGASLEDAASTNLSHSGLKRQLQTQLQFPV
PVIHTNGFDFNCLDTDYICWESFATTAEICESEDLHSAISQSMIYMRQQFLAQPHLRMALGLTKTAGHITLTRAD
AMGVEHATFDSQSGWGVLETVRLALGFAIADDETLGHHPGFVLEEQHCLRYVDPPTKSRFMKDRGPVFVPSTIGV
MTKASWLAPENVQDADNVGDSNGQEKELGDGDTKGTAQDMKRCRVPFFFTVTENGDRYYLDYPVRTCDELSGRMT
RVWCAYRQLRRLDEIPDSVDERDRATAVEQLQAGKEVFVGPYALKIQNDAVDSVASRENLVMKIKEAVEREGGSR
TGASYILPPERIHTNGNVIKLVRGFETSDDIPSAVCESQQRVEVVTISLYKRRLSQYHCFGEVARAIADALRAIQ
WLESKGWLHRDISDGNLLLAWESLSSFSEPFSPHPKVVLCRRPPSNPEGVCGLLHDFDMSGVVNDTTGFDRENPI
GTLPYIAISVLAGAARQRMTVDDLQSVFYVAYLFAFDHGPPHDEIFYPKALPPRMRGVPVYPELIREWTQRNAPF
SLGAMKNMFFQYSREWYPERIPFTPDEASTFLGNWPDRTPRRESWRTLVEVLFDCLWLTVEESEHCTPNRNVDIQ
KVIDTVDHTLKIGTLSKCDANDNGCPDCPLPRNRPSGLNAQ
Length 941

Coding

Sequence id CopciAB_398996.T0
Sequence >CopciAB_398996.T0
ATGGGGAAAAGATCATCTCCAGTGAAAACCCAACCTGCACCGAAACGACAGCGGGGCCAGAATTCTCAATATGTT
TCGACAACGTTTGACGCACTGTCCTTGGACATCCCTTACACTCGCAATAGCCAAAGTAAAATATCGAAGACGGAG
GACAGGGAGCCTGTAGAGCGCCCATACTCAGTCGTTTCCACTGCCCTTCGAATGGAGGCTCACTCTCGGATAAAT
CACCAGGTATCGGGTCGGACGTGGCAGAGCCTTGACCTGGTGGAGCACGTCTTTGGCAGAATGCTTCCTATCCCA
CTTGTCGCAACCGTCCTTCTTGACCTGTTGCGATTGCAATTGCTGTCGGTATCCCGAAACGAGGGACAGTCGTCA
CAAGGCCAGTCTACTGGGGACCTGTGGATAGACGCGTGTCTTGACGCTGCAACCCTTGCCCACCACCGGGAGATA
CCCAAGACGCGAATATTCGACTGGAAATGGTGCCCCTCGCTTTCGCAGCACGGTGAGGGAGGGGGCGCCATGTTC
TTCAACGCCATCGCCCTGACTGCCCACCAACTGGCGTCCAAGAGAGCACAATTAGGGAAGAGGAATCCCATCCGA
CACTGGTGGTCACTTCCCATGTATCAATCCGATCGTCCCTTTGTTGGGCCTGACGGTGAGCAATGTCGACCCAGC
ATCGTTAGCGTTCCTATCCATGCTTTTGGCCGCCGTCGTATCGACGAACTTCCACCCCACTTCCATCCACTACCT
TCCTCTGTCGCTAGCACAATCTCTACCTGTCTTGAAACCCAGCAATGCCGAAATGGCACCTATGGAGCAAGTCTA
GAGGATGCTGCGTCCACCAATCTTTCCCATTCCGGATTAAAACGCCAACTCCAGACACAACTTCAGTTCCCAGTC
CCAGTCATCCACACAAATGGGTTCGACTTCAATTGTCTCGACACGGACTACATCTGCTGGGAAAGCTTTGCAACG
ACTGCCGAAATATGCGAATCCGAAGACCTCCATTCCGCCATTTCCCAGTCCATGATCTACATGCGTCAACAATTT
CTTGCTCAGCCACACTTGCGCATGGCCCTCGGGCTAACAAAGACAGCGGGCCACATCACATTGACCCGTGCGGAT
GCCATGGGCGTTGAACATGCCACGTTCGATTCACAATCGGGATGGGGGGTGTTGGAGACGGTCAGGCTGGCATTG
GGTTTTGCGATTGCAGATGACGAAACCCTTGGCCACCATCCTGGCTTTGTGCTAGAGGAGCAGCATTGCTTGCGC
TATGTGGATCCCCCTACCAAGTCGAGGTTTATGAAGGACAGAGGCCCCGTATTCGTACCATCGACCATTGGCGTT
ATGACGAAGGCCTCTTGGTTAGCCCCGGAGAACGTTCAAGACGCGGACAACGTGGGTGATAGTAATGGTCAGGAG
AAGGAACTCGGCGACGGAGACACAAAGGGGACTGCTCAGGATATGAAACGCTGTCGAGTTCCCTTCTTTTTCACT
GTTACAGAAAATGGGGATCGATACTACCTGGACTACCCCGTTCGGACCTGCGACGAGCTGTCTGGTCGCATGACG
AGGGTTTGGTGCGCGTATCGGCAGCTCAGGCGCTTAGATGAAATACCAGATTCGGTCGACGAGCGGGATAGAGCC
ACAGCTGTTGAACAGCTGCAAGCGGGAAAAGAGGTCTTTGTTGGGCCTTATGCGCTCAAGATACAGAACGATGCG
GTCGACTCGGTTGCCTCGCGCGAGAACCTTGTGATGAAGATCAAAGAAGCGGTCGAGAGAGAAGGTGGAAGCAGG
ACGGGTGCGTCCTATATCCTTCCCCCGGAGAGGATTCATACCAACGGCAATGTTATCAAGCTTGTACGTGGCTTC
GAAACATCAGATGACATCCCCTCAGCCGTTTGCGAGTCGCAGCAGAGGGTTGAGGTGGTCACTATCTCCCTATAC
AAGCGCAGATTATCCCAGTATCATTGCTTTGGCGAGGTTGCACGAGCTATCGCCGATGCCCTTCGCGCTATTCAG
TGGCTAGAGTCGAAGGGGTGGCTACACAGAGACATAAGCGACGGAAACCTGTTGTTGGCATGGGAAAGCCTCTCG
TCCTTCTCGGAGCCCTTTTCTCCGCATCCCAAAGTTGTGCTATGTCGTCGTCCACCGTCGAATCCTGAAGGCGTC
TGCGGTCTTTTGCATGACTTCGATATGTCAGGTGTAGTAAACGACACAACTGGGTTCGACAGGGAAAACCCCATT
GGAACCCTACCCTACATTGCAATTAGTGTCCTAGCCGGAGCAGCCAGGCAACGCATGACTGTAGACGACTTACAG
AGCGTCTTCTATGTGGCCTATCTATTTGCCTTTGACCACGGACCTCCACACGACGAAATCTTCTACCCCAAGGCC
TTGCCGCCTCGCATGCGGGGCGTTCCTGTCTATCCCGAACTTATTCGCGAATGGACCCAACGAAACGCTCCATTC
AGCCTTGGAGCTATGAAGAATATGTTCTTCCAGTATTCTAGAGAATGGTACCCAGAACGCATCCCCTTCACCCCG
GATGAAGCTTCCACATTCTTGGGAAACTGGCCAGACCGGACGCCTAGGCGTGAGTCGTGGCGGACACTAGTCGAA
GTGCTTTTCGATTGTCTCTGGCTGACAGTCGAAGAAAGTGAGCATTGCACACCCAACCGAAACGTGGATATACAA
AAGGTCATCGATACAGTCGACCATACGCTAAAGATTGGCACCCTGTCGAAGTGTGATGCTAATGACAATGGATGT
CCTGACTGTCCTCTACCCCGCAATCGCCCCTCGGGCCTCAACGCTCAATGA
Length 2826

Transcript

Sequence id CopciAB_398996.T0
Sequence >CopciAB_398996.T0
GGCACTGTTGCAATACGACTTCACCGCTGCCTGGACTACAAAACGACCAAACTTCAAGGACGGAACGCTCACCCC
AGCTGGTGAATACAGGACGACCTTGAATGGGGAAAAGATCATCTCCAGTGAAAACCCAACCTGCACCGAAACGAC
AGCGGGGCCAGAATTCTCAATATGTTTCGACAACGTTTGACGCACTGTCCTTGGACATCCCTTACACTCGCAATA
GCCAAAGTAAAATATCGAAGACGGAGGACAGGGAGCCTGTAGAGCGCCCATACTCAGTCGTTTCCACTGCCCTTC
GAATGGAGGCTCACTCTCGGATAAATCACCAGGTATCGGGTCGGACGTGGCAGAGCCTTGACCTGGTGGAGCACG
TCTTTGGCAGAATGCTTCCTATCCCACTTGTCGCAACCGTCCTTCTTGACCTGTTGCGATTGCAATTGCTGTCGG
TATCCCGAAACGAGGGACAGTCGTCACAAGGCCAGTCTACTGGGGACCTGTGGATAGACGCGTGTCTTGACGCTG
CAACCCTTGCCCACCACCGGGAGATACCCAAGACGCGAATATTCGACTGGAAATGGTGCCCCTCGCTTTCGCAGC
ACGGTGAGGGAGGGGGCGCCATGTTCTTCAACGCCATCGCCCTGACTGCCCACCAACTGGCGTCCAAGAGAGCAC
AATTAGGGAAGAGGAATCCCATCCGACACTGGTGGTCACTTCCCATGTATCAATCCGATCGTCCCTTTGTTGGGC
CTGACGGTGAGCAATGTCGACCCAGCATCGTTAGCGTTCCTATCCATGCTTTTGGCCGCCGTCGTATCGACGAAC
TTCCACCCCACTTCCATCCACTACCTTCCTCTGTCGCTAGCACAATCTCTACCTGTCTTGAAACCCAGCAATGCC
GAAATGGCACCTATGGAGCAAGTCTAGAGGATGCTGCGTCCACCAATCTTTCCCATTCCGGATTAAAACGCCAAC
TCCAGACACAACTTCAGTTCCCAGTCCCAGTCATCCACACAAATGGGTTCGACTTCAATTGTCTCGACACGGACT
ACATCTGCTGGGAAAGCTTTGCAACGACTGCCGAAATATGCGAATCCGAAGACCTCCATTCCGCCATTTCCCAGT
CCATGATCTACATGCGTCAACAATTTCTTGCTCAGCCACACTTGCGCATGGCCCTCGGGCTAACAAAGACAGCGG
GCCACATCACATTGACCCGTGCGGATGCCATGGGCGTTGAACATGCCACGTTCGATTCACAATCGGGATGGGGGG
TGTTGGAGACGGTCAGGCTGGCATTGGGTTTTGCGATTGCAGATGACGAAACCCTTGGCCACCATCCTGGCTTTG
TGCTAGAGGAGCAGCATTGCTTGCGCTATGTGGATCCCCCTACCAAGTCGAGGTTTATGAAGGACAGAGGCCCCG
TATTCGTACCATCGACCATTGGCGTTATGACGAAGGCCTCTTGGTTAGCCCCGGAGAACGTTCAAGACGCGGACA
ACGTGGGTGATAGTAATGGTCAGGAGAAGGAACTCGGCGACGGAGACACAAAGGGGACTGCTCAGGATATGAAAC
GCTGTCGAGTTCCCTTCTTTTTCACTGTTACAGAAAATGGGGATCGATACTACCTGGACTACCCCGTTCGGACCT
GCGACGAGCTGTCTGGTCGCATGACGAGGGTTTGGTGCGCGTATCGGCAGCTCAGGCGCTTAGATGAAATACCAG
ATTCGGTCGACGAGCGGGATAGAGCCACAGCTGTTGAACAGCTGCAAGCGGGAAAAGAGGTCTTTGTTGGGCCTT
ATGCGCTCAAGATACAGAACGATGCGGTCGACTCGGTTGCCTCGCGCGAGAACCTTGTGATGAAGATCAAAGAAG
CGGTCGAGAGAGAAGGTGGAAGCAGGACGGGTGCGTCCTATATCCTTCCCCCGGAGAGGATTCATACCAACGGCA
ATGTTATCAAGCTTGTACGTGGCTTCGAAACATCAGATGACATCCCCTCAGCCGTTTGCGAGTCGCAGCAGAGGG
TTGAGGTGGTCACTATCTCCCTATACAAGCGCAGATTATCCCAGTATCATTGCTTTGGCGAGGTTGCACGAGCTA
TCGCCGATGCCCTTCGCGCTATTCAGTGGCTAGAGTCGAAGGGGTGGCTACACAGAGACATAAGCGACGGAAACC
TGTTGTTGGCATGGGAAAGCCTCTCGTCCTTCTCGGAGCCCTTTTCTCCGCATCCCAAAGTTGTGCTATGTCGTC
GTCCACCGTCGAATCCTGAAGGCGTCTGCGGTCTTTTGCATGACTTCGATATGTCAGGTGTAGTAAACGACACAA
CTGGGTTCGACAGGGAAAACCCCATTGGAACCCTACCCTACATTGCAATTAGTGTCCTAGCCGGAGCAGCCAGGC
AACGCATGACTGTAGACGACTTACAGAGCGTCTTCTATGTGGCCTATCTATTTGCCTTTGACCACGGACCTCCAC
ACGACGAAATCTTCTACCCCAAGGCCTTGCCGCCTCGCATGCGGGGCGTTCCTGTCTATCCCGAACTTATTCGCG
AATGGACCCAACGAAACGCTCCATTCAGCCTTGGAGCTATGAAGAATATGTTCTTCCAGTATTCTAGAGAATGGT
ACCCAGAACGCATCCCCTTCACCCCGGATGAAGCTTCCACATTCTTGGGAAACTGGCCAGACCGGACGCCTAGGC
GTGAGTCGTGGCGGACACTAGTCGAAGTGCTTTTCGATTGTCTCTGGCTGACAGTCGAAGAAAGTGAGCATTGCA
CACCCAACCGAAACGTGGATATACAAAAGGTCATCGATACAGTCGACCATACGCTAAAGATTGGCACCCTGTCGA
AGTGTGATGCTAATGACAATGGATGTCCTGACTGTCCTCTACCCCGCAATCGCCCCTCGGGCCTCAACGCTCAAT
GAAGTCACAACAGAATCGAAAGTTACTCCTGGACGTGCCTCCGGCACGCCTGAACAGCCCCACAGATTGCAATTG
GTCTCATTCAACCAGGGCGTCGGGTATGATCAAACCCATGCAGTAGCGGATTTCCACCAAAATCTATTCGCGGTG
TTACAGAAATAGAAGTACAACATCGATACAGGTTGGCGCTACAGTACAACAGGTGAATATTACTTGTACAATCA
Length 3149

Gene

Sequence id CopciAB_398996.T0
Sequence >CopciAB_398996.T0
GGCACTGTTGCAATACGACTTCACCGCTGCCTGGACTACAAAACGACCAAACTTCAAGGACGGAACGCTCACCCC
AGCTGGTGAATACAGGACGACCTTGAATGGGGAAAAGATCATCTCCAGTGAAAACCCAACCTGCACCGAAACGAC
AGCGGGGCCAGAATTCTCAATATGTTTCGACAACGTTTGACGCAGTATGTGCCTCCGTTCCATTCGTTCGAGCCC
ACACTTATAGAATGGATATGATATCAGCTGTCCTTGGACATCCCTTACACTCGCAATAGCCAAAGTAAAATATCG
AAGACGGAGGACAGGGAGCCTGTAGAGCGCCCATACTCAGTCGTTTCCACTGCCCTTCGAATGGAGGCTCACTCT
CGGATAAATCACCAGGTATCGGGTCGGACGTGGCAGAGCCTTGACCTGGTGGAGCACGTCTTTGGCAGAATGCTT
CCTATCCCACTTGTCGCAACCGTCCTTCTTGACCTGTTGCGATTGCAATTGCTGTCGGTATCCCGAAACGAGGGA
CAGTCGTCACAAGGCCAGTCTACTGGGGACCTGTGGATAGACGCGTGTCTTGACGCTGCAACCCTTGCCCACCAC
CGGGAGATACCCAAGACGCGAATATTCGACTGGAAATGGTGCCCCTCGCTTTCGCAGCACGGTGAGGGAGGGGGC
GCCATGTTCTTCAACGCCATCGCCCTGACTGCCCACCAACTGGCGTCCAAGAGAGCACAATTAGGGAAGAGGAAT
CCCATCCGACACTGGTGGTCACTTCCCATGTATCAATCCGATCGTCCCTTTGTTGGGCCTGACGGTGAGCAATGT
CGACCCAGCATCGTTAGCGTTCCTATCCATGCTTTTGGCCGCCGTCGTATCGACGAACTTCCACCCCACTTCCAT
CCACTACCTTCCTCTGTCGCTAGCACAATCTCTACCTGTCTTGAAACCCAGCAATGCCGAAATGGCACCTATGGA
GCAAGTCTAGAGGATGCTGCGTCCACCAATCTTTCCCATTCCGGATTAAAACGCCAACTCCAGACACAACTTCAG
TTCCCAGTCCCAGTCATCCACACAAATGGGTTCGACTTCAATTGTCTCGACACGGACTACATCTGCTGGGAAAGC
TTTGCAACGACTGCCGAAATATGCGAATCCGAAGACCTCCATTCCGCCATTTCCCAGTCCATGATCTACATGCGT
CAACAATTTCTTGCTCAGCCACACTTGCGCATGGCCCTCGGGCTAACAAAGACAGCGGGCCACATCACATTGACC
CGTGCGGATGCCATGGGCGTTGAACATGCCACGTTCGATTCACAATCGGGATGGGGGGTGTTGGAGACGGTCAGG
CTGGCATTGGGTTTTGCGATTGCAGATGACGAAACCCTTGGCCACCATCCTGGCTTTGTGCTAGAGGAGCAGCAT
TGCTTGCGCTATGTGGATCCCCCTACCAAGTCGAGGTTTATGAAGGACAGAGGCCCCGTATTCGTACCATCGACC
ATTGGCGTTATGACGAAGGCCTCTTGGTTAGCCCCGGAGAACGTTCAAGACGCGGACAACGTGGGTGATAGTAAT
GGTCAGGAGAAGGAACTCGGCGACGGAGACACAAAGGGGACTGCTCAGGATATGAAACGCTGTCGAGTTCCCTTC
TTTTTCACTGTTACAGAAAATGGGGATCGATACTACCTGGACTACCCCGTTCGGACCTGCGACGAGCTGTCTGGT
CGCATGACGAGGGTTTGGTGCGCGTATCGGCAGCTCAGGCGCTTAGATGAAATACCAGATTCGGTCGACGAGCGG
GATAGAGCCACAGCTGTTGAACAGCTGCAAGCGGGAAAAGAGGTCTTTGTTGGGCCTTATGCGCTCAAGATACAG
AACGATGCGGTCGACTCGGTTGCCTCGCGCGAGAACCTTGTGATGAAGATCAAAGAAGCGGTCGAGAGAGAAGGT
GGAAGCAGGACGGGTGCGTCCTATATCCTTCCCCCGGAGAGGTAGGTTAGACACACTCCCATCGAAATTGTGCAT
GTTCTGACGAACCTTGTCGCGTCCAGGATTCATACCAACGGCAATGTTATCAAGCTTGTACGTGGCTTCGAAACA
TCAGATGACATCCCCTCAGCCGTTTGCGAGTCGCAGCAGAGGGTTGAGGTGGTCACTATCTCCCTATACAAGCGC
AGATTATCCCAGTATCATTGCTTTGGCGAGGTTGCACGAGCTATCGCCGATGCCCTTCGCGGTGGGTATCCAGCA
TGGCCCGCACATCTGCCTTGCTTCTGACTTTGTACGCTTCCCAGCTATTCAGTGGCTAGAGTCGAAGGGGTGGCT
ACACAGAGACATAAGCGACGGAAACCTGTTGTTGGCATGGGAAAGCCTCTCGTCCTTCTCGGAGCCCTTTTCTCC
GCATCCCAAAGTTGTGCTATGTCGTCGTCCACCGTCGAATCCTGAAGGCGTCTGCGGTCTTTTGCATGACTTCGA
TATGTCAGGTGTAGTAAACGACACAACTGGGTTCGACAGGGAAAACCCCATTGTCAGCTTCTCCGTCGCTCCGCC
CTTCTGTTTCTGACCCCATTTCTCTCTTTTAGGGAACCCTACCCTACATTGCAATTAGTGTCCTAGCCGGAGCAG
CCAGGCAACGCATGACTGTAGACGACGTTAGTGGTATGGCCTTTCTCATCCTGCAGACCTGTTTCTGATGCACCT
TGTGCAGTTACAGAGCGTCTTCTATGTGGCCTATCTATTTGCCTTTGACCACGGACCTCCACACGACGAAATCTT
CTACCCCAAGGCCTTGCCGCCTCGCATGCGGGGCGTTCCTGTCTATCCCGAACTTATTCGCGAATGGACCCAACG
AAACGCTCCATTCAGCCTTGGAGCTATGAAGAATATGTTCTTCCAGTATTCTAGAGAATGGTACCCAGAACGCAT
CCCCTTCACCCCGGATGAAGCTTCCACATTCTTGGGAAACTGGCCAGACCGGACGCCTAGGCGTGAGTCGTGGCG
GACACTAGTCGAAGTGCTTTTCGATTGTCTCTGGCTGACAGTCGAAGAAAGTGAGCATTGCACACCCAACCGAAA
CGTGGATATACAAAAGGTCATCGATACAGTCGACCATACGCTAAGTGGGGATGTATTCGTCCAATTCATACTGCA
ATCCTAACACTCTTTATAGAGATTGGCACCCTGTCGAAGTGTGATGCTAATGACAATGGATGTCCTGACTGTCCT
CTACCCCGCAATCGCCCCTCGGGCCTCAACGCTCAATGAAGGTTGGATCATTTCTGTTATGTACCTAGAGATACG
CGCTCTGACATCATTATCATACAAGTCACAACAGAATCGAAAGTTACTCCTGGACGTGCCTCCGGCACGCCTGAA
CAGCCCCACAGATTGCAATTGGTCTCATTCAACCAGGGCGTCGGGTATGATCAAACCCATGCAGTAGCGGATTTC
CACCAAAATCTATTCGCGGTGTTACAGAAATAGAAGTACAACATCGATACAGGTTGGCGCTACAGTACAACAGGT
GAATATTACTTGTACAATCA
Length 3545