CopciAB_413523
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_413523 Strain Coprinopsis cinerea Okayama 7
Standard name CEX1 Synonyms 413523
Uniprot id Functional description ARM repeat-containing protein
Location scaffold_4:2050233..2053716 Strand -
Gene length (nt) 3484 Transcript length (nt) 2879
CDS length (nt) 2511 Protein length (aa) 836

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Neurospora crassa stk-28
Aspergillus nidulans AN1326
Saccharomyces cerevisiae YOR112W_CEX1
Schizosaccharomyces pombe ppk3

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7259200 62.8 0 1047
Hypsizygus marmoreus strain 51987-8 Hypma_RDB24858 62.8 0 1034
Lentinula edodes W1-26 v1.0 Lentinedodes1_21792 60.5 0 1024
Pleurotus ostreatus PC9 PleosPC9_1_50104 60.1 0 1004
Pleurotus ostreatus PC15 PleosPC15_2_61673 60.9 2.47E-304 999
Pleurotus eryngii ATCC 90797 Pleery1_1505058 60.1 1.748E-304 991
Flammulina velutipes Flave_chr07AA00844 59.8 5.832E-304 972
Lentinula edodes NBRC 111202 Lenedo1_1045530 65 4.679E-304 955
Auricularia subglabra Aurde3_1_1160322 56.4 8.56E-267 836
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_36828 69.5 2.331E-264 828
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_69620 69.4 4.947E-264 827
Schizophyllum commune H4-8 Schco3_2510875 61.2 8.867E-262 821
Ganoderma sp. 10597 SS1 v1.0 Gansp1_45026 67.7 1.142E-255 803
Grifola frondosa Grifr_OBZ68346 54.9 1.91E-216 689
Lentinula edodes B17 Lened_B_1_1_13817 71 4.932E-65 240

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 43.9162 3.0976 1.7884
oidia 49.6037 3.8529 2.2245
vegetative_mycelium 49.8148 4.355 2.5143
primordia 54.5775 1.4151 0.817
hyphal_knot 50.4477 3.398 1.9619
young_fruiting_body 33.3367 4.1633 2.4037
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 52.2629 1.0586 0.6112
Wheat bran 30.7441 3.3397 1.9282
Horse manure 47.7121 3.9875 2.3022
Oak leaves 44.8705 12.7974 7.3886
Hay 39.1634 4.0494 2.3379
Corn stalk 44.4159 5.6046 3.2358
Pectine 48.0724 3.0137 1.74
Microcrystalline cellulose 44.9322 5.9233 3.4198
Xylose 43.9251 6.1358 3.5425
Cellobiose 43.0581 8.172 4.7181
Lignin 42.2305 8.2821 4.7817
Apple peels 56.9283 1.5232 0.8794
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 66.0536 0.8793 0.5077
Bsubtilis 53.845 4.948 2.8567
Ecoli 58.8611 2.2859 1.3198
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 7.8018 1.0032 0.5792
BS 4h 14.4729 1.5937 0.9201
BS 8h 12.8447 1.391 0.8031
BS 12h 12.2939 0.8396 0.4847
Oidia 0 h 21.2662 1.3787 0.796
Oidia 18 h 22.1442 4.4296 2.5574
Sclerotia 8.2098 2.1366 1.2336
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 10.6944 2.8788 1.6621
DM 36h 15.6943 0.4763 0.275
DM 60h 18.7386 3.22 1.8591
DM 84h 18.6876 1.4444 0.8339
DM 108h 14.2181 1.1444 0.6607
DM 132h 13.1935 0.9634 0.5562
DM 156hAE 23.9512 3.7686 2.1758
ELI1hAE 20.2783 4.7117 2.7203
ELI2hAE 20.1702 5.8806 3.3952
LI2hAE 17.9551 0.9827 0.5674
LI6hAE 21.9655 4.526 2.6131
LI12hAE 16.7033 4.2988 2.4819
LI18hAE 17.3305 0.5448 0.3145
LI 24hAE 20.1183 2.6953 1.5561
DM 156hAM 18.2288 2.6209 1.5132
ELI1hAM 12.7156 3.6252 2.093
ELI2hAM 14.9988 2.5167 1.453
LI2hAM 13.3776 2.052 1.1847
LI6hAM 19.5013 5.9333 3.4256
LI12hAM 14.5175 2.7856 1.6083
LI18hAM 16.2248 3.1214 1.8021
LI 24hAM 18.135 5.1566 2.9772
LI 24hHK 20.2579 3.4988 2.02
L/D 6h 19.7053 3.5954 2.0758
L/D 12h 24.8325 2.5755 1.4869
L/D 18h 22.7277 4.1134 2.3749
L/D 24h 20.7717 2.6697 1.5413
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 37.814 1.5591 0.9001
Hyphal knots 31.1603 5.1409 2.9681
Primordium 1 41.4413 4.8663 2.8096
Primordium 2 37.9831 1.7264 0.9968
Young Fruiting body cap 39.3305 14.1788 8.1862
Younf fruiting body gill 40.9623 0.5791 0.3343
Young fruiting body stipe 58.4996 5.2958 3.0575
Mature fruiting body cap_gill 10.0804 1.0979 0.6339
Mature fruiting body stipe 10.2329 1.5276 0.882
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 34.1468 6.9159 3.9929
NH4NO3 50.8888 6.9799 4.0299
Proline 38.7439 8.8668 5.1193
Tryptophan 43.4781 7.0979 4.0979
Isoleucin 46.1073 6.6916 3.8634
Arginine 43.839 4.0611 2.3447
Metionine 35.4896 3.5336 2.0401
NaNO3 31.3777 1.4069 0.8123
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 34.1468 6.9159 3.9929
Citrus peel 12.6327 0.8302 0.4793
Poplar leaves 27.4236 2.5012 1.4441
Typha leaves 26.5772 6.9663 4.022
Overwintered Salix leaves 25.7879 6.6055 3.8137
Reed flowering 21.8099 4.8323 2.7899
Tigernut 17.515 1.0801 0.6236
Energy cane 27.9088 7.1167 4.1088
Guar gum 41.8991 19.3297 11.16
Apple peels 39.9072 2.9898 1.7262
Cellobiose 42.863 3.2872 1.8978
Corn stalk 52.14 4.7969 2.7695
Horse manure 39.2091 0.2795 0.1614
Lignin 21.6247 5.3127 3.0673
Microcrystalline cellulose 31.6022 6.243 3.6044
Oak leaves 46.2409 1.0036 0.5795
Pectin esterified 36.2002 7.2815 4.204
Poplar sawdust 48.5099 1.3714 0.7918
Wheat bran 34.969 4.3168 2.4923
Chlamydomonas reinhardtii 29.0242 0.8797 0.5079
Vertatryl alcohol 31.2051 3.352 1.9353
Furfural 32.878 5.1395 2.9673
Autoclaved mycelium 26.0233 4.0092 2.3147
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 65.7188 1.2021 0.6941
Ribose 69.5772 2.5028 1.445
Mannose 69.5896 4.058 2.8695
Fructose 65.1213 4.7387 2.7359
Arabinose 72.4078 6.3301 3.6547
Xylose 72.6354 3.1283 1.8061
Galacturonic acid 69.0694 8.0099 4.6245
Rhamnogalacturonan 65.4928 3.1996 1.8473
Pectin esterified 67.9182 6.512 3.7597
Polygalacturonic acid 69.1134 2.1097 1.218
Sodium acetate 67.6882 1.5263 0.8812
No nitrogen 67.9496 5.2329 3.0212
BSA 63.8661 6.1699 3.5622
Glutamine 62.364 3.5571 2.0537
No phosphate 63.0028 1.4462 0.835
No carbon 67.889 0.6968 0.4927
No sulphur 64.5561 1.9212 1.1092
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 34.1468 6.9159 3.9929
Amylose 35.8754 4.2056 2.4281
Fucose 35.8126 1.67 0.9642
Galactose 38.5899 2.1395 1.2352
Lactose 43.3397 4.406 2.5438
Maltose 46.1142 5.8451 3.3747
Mannitol 46.2623 10.9888 6.3444
Rhamnose 30.966 0.7681 0.4435
Sorbitol 39.4716 0.7559 0.4364
Trehalose 36.5686 7.3971 4.2707
Glycerol 33.5543 6.7335 3.8876
Glucuronic acid 43.1993 3.2203 1.8593
Arabinan 30.8284 6.7241 3.8822
Galactan 29.1428 2.0393 1.1774
Galactomannan 34.3562 9.2123 5.3187
Glucan 32.8762 4.1442 2.3926
Xylan 37.6828 2.5618 1.479
Xyloglucan 46.5435 2.3349 1.348
Arabinogalactan 45.9884 1.7634 1.0181
Pectin 28.6072 7.7952 4.5005
Rhamnogalacturonan 22.2993 2.4572 1.4186
Polygalacturonic acid 37.6205 7.9689 4.6008
Mannan 39.4831 4.1181 2.3776
Amylopectin 30.0639 6.2464 3.6064
Inulin 33.1508 0.6889 0.3977
BSA 16.4316 1.7804 1.0279
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 18.7386 3.22 1.8591
2h WAT 15.9518 3.6981 2.1351
4h WAT 16.8706 2.0798 1.2008
8h WAT 10.9127 1.7353 1.0019
16h WAT 14.9077 1.9643 1.1341
24h WAT 16.0519 3.1055 1.7929
WAT hyphal knot -30h 14.204 3.9488 2.2798
WAT hyphal knot -22h 13.8058 2.7042 1.5613
WAT hyphal knot -15h 15.039 3.5628 2.057
WAT hyphal knot -7.5h 13.0571 2.1172 1.2224
WAT hyphal knot 14.6072 1.0246 0.5916
WAT hyphal knot +7.5h 17.3947 0.3753 0.2167
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 26.4963 5.8018 3.3497
Straw 3h 24.9068 7.719 4.4566
Straw 6h 24.173 8.3823 4.8395
Straw 12h 31.5021 2.947 1.7014
Straw 24h 32.3345 9.9765 5.7599
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 10.6701 1.5437 0.8913
Frost (-20C, 30min) 12.6585 2.0458 1.1812
Heat shock (47C, 2h) 8.0555 2.1405 1.2358
High CO2 20.535 4.7701 2.754
Drought (4% agar, 12h) 21.6564 3.2295 1.8645
Oxidative (1mM H2O2, 3h) 12.2041 0.3916 0.2261
Acidic (pH4, 3h) 14.3286 0.402 0.2321
Alkaline (pH9, 3h) 13.0217 1.014 0.5854
Osmotic (sorbitol 2h) 12.0812 2.0795 1.2006
CongoRed (3h) 11.1696 3.9832 2.2997
Cobalt chloride control 15.5372 1.5656 0.9039
Cobalt chloride 2mM 14.6192 2.7677 1.5979
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 18.1329 10.8125 6.2426
Cold stimulation 9.7134 2.54 1.4665
Scratched surface 16.94 2.0654 1.1925
Ca2+, 200mM, 24h 12.9937 4.5093 2.6035
Cu2+, 2mM, 6h 13.82 4.5014 2.5989
Voriconazole 14.2869 4.7766 2.7578
Trichoderma interaction, early 15.2341 4.7692 2.7535
Trichoderma interaction 60h 1.2941 1.1341 0.6548
Cobalt chloride 2mM repeat 14.3885 0.6365 0.3675
Hypoxia 14.9097 1.396 0.806
Hypoxia control 13.1702 2.1735 1.2549
Protoplastation control 14.363 0.2954 0.2089
Protoplastation 3.5h 14.8679 8.0346 5.6813
Protoplastation 1.5h 13.9602 5.5747 3.9419

General data

Systematic name CEX1
Protein id CopciAB_413523.T0
Description ARM repeat-containing protein

Annotation summary

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
No records

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR000719 Protein kinase domain
IPR016024 Armadillo-type fold
IPR011009 Protein kinase-like domain superfamily
IPR011989 Armadillo-like helical

GO

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

KEGG

KEGG Orthology
K08876

EggNOG

COG category Description
T ARM repeat-containing protein

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_413523 across fungi.

Arrow shows the origin of gene family containing CopciAB_413523.

Protein

Sequence id CopciAB_413523.T0
Sequence >CopciAB_413523.T0
MDYLRTLGSAAVSTLVQKSGLNLPFTLGAKVATFDTIYTLYDGTKRDDGSPVSIFEYELSGRNTRALAQNALRKL
RTTRHPDVLKFMDVVETDSTIHIMTERVRPLQSALSSWSTKTEQERQDWLLWGLHRVSVALTFLNDPCSSTHGAF
NTNAIFISPSGEWKLGGFELLSNPKDDAAVLYTSASLLPGSMNTAPPEVKKSGWSTLKQHDVAAADAYALGLLLH
TLFNPSHPPPATAQPPHPPPPASSRGSIPLPIFPLFKKLLTPNPATRATPKHFLEVGMTDGGFFANNPLVKICLG
LDNFAIASESEKATFLRTLNESAASFPQELASKKILPSLLSALEFGGASAAAILPLVLQFGANVSPEEYTKTIVD
PIVKLYSSPDRGTRMALLDHLPQYIDKLDKKTVSDKIFPHLQTGFADTVAVIREATVRSISSFAPKLTERILNND
LLRLLAKMQVDPEPSIRTNTCILLGRLGPTLGYNTKKKVLVPAFSRALKDSFVHARVAALMAFTATIDCFEIEDL
ATKVIPNMSFALIDREKVVRDQAFKTLDLYVKKLEAHAATLPETANTDGPPNLPELNTTSSTAIINSAAGAATTL
AGWAITSLGKQLAASDMQTTIDTTSNPLDSPALTAKPPVPLATRPALSQTPSSSSTKAKPLQLGGMKSPNSAFNL
GDQLAEEFAASETASSWGGDLMDVNADDDDWSAFETAQAPPVEAPSTPATPAPVTQLKVKAPRPSSLHRSSSPRI
PTSARAPSGVTSRSMTPDQAWDSQGEWVEAPSAKPSAPPTPSVSSTGSSTPMTKEEKAAEMARRKEERRQRIAML
KEQKKLAAAGA
Length 836

Coding

Sequence id CopciAB_413523.T0
Sequence >CopciAB_413523.T0
ATGGACTACCTGAGGACGTTAGGCTCAGCTGCCGTATCGACGCTGGTGCAAAAATCAGGTCTCAATTTACCATTT
ACGCTTGGTGCTAAAGTTGCGACATTCGACACAATCTATACCCTTTATGATGGTACCAAACGGGACGACGGATCG
CCTGTTTCTATATTTGAATACGAACTCAGTGGACGTAATACACGCGCTTTGGCTCAGAATGCCCTCCGTAAACTG
CGAACAACGCGACATCCCGACGTTCTGAAATTCATGGACGTCGTTGAAACAGATTCCACAATCCATATCATGACG
GAACGAGTGCGCCCATTGCAATCTGCTCTTTCCTCTTGGTCGACTAAGACCGAGCAAGAACGTCAAGACTGGCTC
TTGTGGGGCTTGCATCGTGTGTCTGTAGCATTGACATTCTTGAATGACCCTTGCTCCTCCACTCACGGTGCATTC
AATACCAATGCGATCTTCATTTCACCGTCTGGAGAATGGAAACTGGGGGGATTCGAACTCTTGAGCAATCCAAAG
GACGACGCAGCCGTTCTCTATACTTCGGCCTCCTTGCTTCCAGGATCTATGAACACAGCACCACCTGAAGTCAAG
AAGTCCGGATGGTCGACACTCAAGCAGCACGATGTCGCCGCCGCTGATGCATATGCCCTGGGTCTACTGTTGCAT
ACTTTGTTTAACCCAAGCCATCCGCCTCCGGCGACAGCCCAACCACCGCACCCGCCTCCGCCGGCGTCGTCTCGC
GGATCAATTCCATTGCCTATATTCCCTCTTTTCAAGAAGTTATTGACTCCCAACCCAGCCACAAGAGCTACCCCG
AAGCATTTCCTCGAAGTCGGAATGACAGACGGAGGCTTCTTTGCCAACAATCCACTGGTGAAGATATGCCTGGGG
CTCGATAACTTTGCAATCGCCAGTGAATCGGAGAAGGCAACGTTCCTTCGAACACTCAACGAATCAGCAGCATCG
TTCCCCCAGGAACTTGCCTCAAAAAAAATACTCCCTTCCCTTCTCTCGGCGCTGGAATTCGGCGGTGCATCTGCA
GCCGCAATACTTCCGTTGGTCCTTCAATTTGGAGCCAACGTTTCTCCAGAGGAGTACACAAAGACGATCGTTGAC
CCTATTGTGAAGCTGTACAGCAGTCCTGACCGCGGAACAAGAATGGCATTGCTTGACCACCTCCCTCAGTACATC
GATAAACTGGACAAGAAGACCGTCTCAGACAAGATTTTCCCCCACTTGCAAACTGGTTTCGCTGATACTGTAGCG
GTTATCCGCGAAGCTACAGTCAGGTCTATCAGCTCCTTTGCTCCCAAGCTTACGGAGCGTATCCTGAATAACGAT
TTGCTTCGACTGCTTGCAAAGATGCAGGTTGACCCTGAACCATCCATTAGGACCAATACTTGTATTTTGCTTGGA
AGGTTGGGTCCGACCTTGGGATATAACACGAAGAAAAAGGTTCTTGTACCTGCCTTCTCGCGTGCCCTAAAGGAC
TCATTTGTCCATGCTCGTGTCGCGGCTCTCATGGCATTTACGGCCACCATCGACTGCTTTGAGATCGAAGATCTG
GCAACGAAGGTCATTCCGAACATGTCCTTTGCCTTAATCGATAGGGAGAAGGTTGTGAGAGACCAGGCGTTCAAG
ACACTGGATCTGTATGTCAAAAAGCTTGAGGCCCATGCGGCTACACTGCCCGAGACGGCTAATACAGACGGTCCT
CCCAATCTTCCTGAACTGAACACAACTTCCTCAACGGCCATTATTAACTCGGCTGCTGGTGCAGCGACGACTCTA
GCTGGTTGGGCCATCACCTCCTTGGGCAAACAGCTTGCAGCATCGGACATGCAGACAACCATTGACACCACTTCG
AATCCGCTTGATTCACCCGCCCTCACCGCTAAGCCACCTGTTCCATTGGCTACACGACCCGCCTTATCGCAAACC
CCGTCCAGCTCGTCGACGAAAGCCAAACCACTTCAACTGGGGGGGATGAAATCTCCGAACTCTGCCTTTAACCTG
GGGGACCAACTCGCGGAAGAGTTTGCGGCCAGTGAGACCGCTTCTTCATGGGGCGGGGACTTGATGGATGTTAAT
GCAGACGACGATGACTGGAGTGCCTTTGAGACTGCTCAAGCTCCTCCAGTAGAAGCTCCCTCGACTCCTGCAACA
CCCGCCCCTGTCACACAACTGAAAGTCAAGGCTCCACGTCCTTCGTCGTTACACAGGTCTTCATCGCCTCGGATA
CCAACCTCGGCTAGAGCACCCTCGGGGGTTACGTCGAGGTCTATGACGCCGGACCAAGCTTGGGACTCACAAGGA
GAATGGGTGGAAGCCCCAAGCGCAAAGCCATCTGCTCCACCGACGCCAAGCGTGAGTAGCACAGGTAGCAGCACA
CCAATGACCAAGGAAGAGAAAGCGGCTGAGATGGCGAGACGTAAGGAAGAACGGAGACAGCGTATTGCTATGTTA
AAGGAGCAGAAGAAATTGGCGGCGGCTGGGGCTTAG
Length 2511

Transcript

Sequence id CopciAB_413523.T0
Sequence >CopciAB_413523.T0
ACAGCGACGAGCACTGTAAATCTGGTACTGGGACGATCGTCAGGATTCCTCTCTATCTTCTGCAGAACCCAGCGT
CGCGCAATCATTGAACGCAATACTACGATCATCACCACATACTATATCGCACGACTGACAGGGCCTACCTGAACG
ACCATGGACTACCTGAGGACGTTAGGCTCAGCTGCCGTATCGACGCTGGTGCAAAAATCAGGTCTCAATTTACCA
TTTACGCTTGGTGCTAAAGTTGCGACATTCGACACAATCTATACCCTTTATGATGGTACCAAACGGGACGACGGA
TCGCCTGTTTCTATATTTGAATACGAACTCAGTGGACGTAATACACGCGCTTTGGCTCAGAATGCCCTCCGTAAA
CTGCGAACAACGCGACATCCCGACGTTCTGAAATTCATGGACGTCGTTGAAACAGATTCCACAATCCATATCATG
ACGGAACGAGTGCGCCCATTGCAATCTGCTCTTTCCTCTTGGTCGACTAAGACCGAGCAAGAACGTCAAGACTGG
CTCTTGTGGGGCTTGCATCGTGTGTCTGTAGCATTGACATTCTTGAATGACCCTTGCTCCTCCACTCACGGTGCA
TTCAATACCAATGCGATCTTCATTTCACCGTCTGGAGAATGGAAACTGGGGGGATTCGAACTCTTGAGCAATCCA
AAGGACGACGCAGCCGTTCTCTATACTTCGGCCTCCTTGCTTCCAGGATCTATGAACACAGCACCACCTGAAGTC
AAGAAGTCCGGATGGTCGACACTCAAGCAGCACGATGTCGCCGCCGCTGATGCATATGCCCTGGGTCTACTGTTG
CATACTTTGTTTAACCCAAGCCATCCGCCTCCGGCGACAGCCCAACCACCGCACCCGCCTCCGCCGGCGTCGTCT
CGCGGATCAATTCCATTGCCTATATTCCCTCTTTTCAAGAAGTTATTGACTCCCAACCCAGCCACAAGAGCTACC
CCGAAGCATTTCCTCGAAGTCGGAATGACAGACGGAGGCTTCTTTGCCAACAATCCACTGGTGAAGATATGCCTG
GGGCTCGATAACTTTGCAATCGCCAGTGAATCGGAGAAGGCAACGTTCCTTCGAACACTCAACGAATCAGCAGCA
TCGTTCCCCCAGGAACTTGCCTCAAAAAAAATACTCCCTTCCCTTCTCTCGGCGCTGGAATTCGGCGGTGCATCT
GCAGCCGCAATACTTCCGTTGGTCCTTCAATTTGGAGCCAACGTTTCTCCAGAGGAGTACACAAAGACGATCGTT
GACCCTATTGTGAAGCTGTACAGCAGTCCTGACCGCGGAACAAGAATGGCATTGCTTGACCACCTCCCTCAGTAC
ATCGATAAACTGGACAAGAAGACCGTCTCAGACAAGATTTTCCCCCACTTGCAAACTGGTTTCGCTGATACTGTA
GCGGTTATCCGCGAAGCTACAGTCAGGTCTATCAGCTCCTTTGCTCCCAAGCTTACGGAGCGTATCCTGAATAAC
GATTTGCTTCGACTGCTTGCAAAGATGCAGGTTGACCCTGAACCATCCATTAGGACCAATACTTGTATTTTGCTT
GGAAGGTTGGGTCCGACCTTGGGATATAACACGAAGAAAAAGGTTCTTGTACCTGCCTTCTCGCGTGCCCTAAAG
GACTCATTTGTCCATGCTCGTGTCGCGGCTCTCATGGCATTTACGGCCACCATCGACTGCTTTGAGATCGAAGAT
CTGGCAACGAAGGTCATTCCGAACATGTCCTTTGCCTTAATCGATAGGGAGAAGGTTGTGAGAGACCAGGCGTTC
AAGACACTGGATCTGTATGTCAAAAAGCTTGAGGCCCATGCGGCTACACTGCCCGAGACGGCTAATACAGACGGT
CCTCCCAATCTTCCTGAACTGAACACAACTTCCTCAACGGCCATTATTAACTCGGCTGCTGGTGCAGCGACGACT
CTAGCTGGTTGGGCCATCACCTCCTTGGGCAAACAGCTTGCAGCATCGGACATGCAGACAACCATTGACACCACT
TCGAATCCGCTTGATTCACCCGCCCTCACCGCTAAGCCACCTGTTCCATTGGCTACACGACCCGCCTTATCGCAA
ACCCCGTCCAGCTCGTCGACGAAAGCCAAACCACTTCAACTGGGGGGGATGAAATCTCCGAACTCTGCCTTTAAC
CTGGGGGACCAACTCGCGGAAGAGTTTGCGGCCAGTGAGACCGCTTCTTCATGGGGCGGGGACTTGATGGATGTT
AATGCAGACGACGATGACTGGAGTGCCTTTGAGACTGCTCAAGCTCCTCCAGTAGAAGCTCCCTCGACTCCTGCA
ACACCCGCCCCTGTCACACAACTGAAAGTCAAGGCTCCACGTCCTTCGTCGTTACACAGGTCTTCATCGCCTCGG
ATACCAACCTCGGCTAGAGCACCCTCGGGGGTTACGTCGAGGTCTATGACGCCGGACCAAGCTTGGGACTCACAA
GGAGAATGGGTGGAAGCCCCAAGCGCAAAGCCATCTGCTCCACCGACGCCAAGCGTGAGTAGCACAGGTAGCAGC
ACACCAATGACCAAGGAAGAGAAAGCGGCTGAGATGGCGAGACGTAAGGAAGAACGGAGACAGCGTATTGCTATG
TTAAAGGAGCAGAAGAAATTGGCGGCGGCTGGGGCTTAGGGCCAAGAGACTTTCACAGCCTGGTGTCCGAAGAAC
ACCCGGAAGGAGGACCGCCCTATCTGTGTCTACAAGAGTACCGTTGCTTTTTTATTTCATCTTGATCGATAAGGC
ATTGGTGCCTATGGATCTGCTGGTCTTCATGACAGACTCGGTTCGACACCATTGGCAATTTCATGTACTTAACAG
ATTCTAAAATAGTATGCATTTACCCTTTC
Length 2879

Gene

Sequence id CopciAB_413523.T0
Sequence >CopciAB_413523.T0
ACAGCGACGAGCACTGTAAATCTGGTACTGGGACGATCGTCAGGATTCCTCTCTATCTTCTGCAGAACCCAGCGT
CGCGCAATCATTGAACGCAATACTACGATCATCACCACATACTATATCGCACGACTGACAGGGCCTACCTGAACG
ACCATGGACTACCTGAGGACGTTAGGCTCAGCTGCCGTATCGACGCTGGTGCAAAAATCAGGTCTCAATTTACCA
TTTACGCTTGGTGCTAAAGTTGCGACATTCGACACAATCTATACCCTTTATGATGGTACCAAACGGGTATGCCCC
TCATTAATCTGGTTTCCACCTTTTGCTCAACAATCACACCCCTCAGGACGACGGATCGCCTGTTTCTATATTTGA
ATACGAACTCAGTGGACGTAATACACGCGCTTTGGCTCAGAATGCCCTCCGTAAACTGCGAACAACGCGACATCC
CGACGTTCTGAAATTCATGGACGTCGTTGAAACAGATTCCACAATCCATATCATGACGGAACGAGTGCGCCCATT
GCAATCTGCTCTTTCCTCTTGGTCGACTAAGACCGAGCAAGAACGTCAAGACTGGCTCTTGTGGGGCTTGCATCG
TGTGTCTGTTCGTCACCCCTTCTATCTCCTTCGATTTGACTCCTGATTTTCACCATCAAGGTAGCATTGACATTC
TTGAATGACCCTTGCTCCTCCACTCACGGTGCATTCAATACCAATGCGATCTTCATTTCACCGTCTGGAGAATGG
AAACTGGGGGGATTCGAACTCTTGAGCAATCCAAAGGACGACGCAGCCGTTCTCTATGTGAGTTGCCTCGACCGT
GAACTTGATTTGGACTGACGGTTGCAGACTTCGGCCTCCTTGCTTCCAGGATCTATGAACACAGCACCACCTGAA
GTCAAGAAGTCCGGATGGTCGACACTCAAGCAGTGAGTCACGAGCTTCACATATCACTCTCGGTCACTGAGTACT
TGCAGGCACGATGTCGCCGCCGCTGATGCATATGCCCTGGGTCTACTGTTGCATACTTTGTTTAACCCAAGCCAT
CCGCCTCCGGCGACAGCCCAACCACCGCACCCGCCTCCGCCGGCGTCGTCTCGCGGATCAATTCCATTGCCTATA
TTCCCTCTTTTCAAGAAGTTATTGACTCCCAACCCAGCCACAAGAGCTACCCCGAAGCATTTCCTCGAAGTCGGA
ATGACAGACGGAGGCTTCTTTGCCAACAATCCACTGGTGAAGATATGCCTGGGGCTCGATAACTTTGCAATCGCC
AGTGAATCGGAGAAGGCAACGTTCCTTCGGTAAGCGCTCAGTATATTTCGACACTCGAACGGCCACTTATGGCAG
TACAGAACACTCAACGAATCAGCAGCATCGTTCCCCCAGGAACTTGCCTCAAAAAAAATACTCCCTTCCCTTCTC
TCGGCGCTGGAATTCGGCGGTGCATCTGCAGCCGCAATACTTCCGTTGGTCCTTCAATTTGGAGCCAACGTTTCT
CCAGAGGAGTACACAAAGACGATCGTTGACCCTATTGTGAAGCTGTACAGCAGTCCTGACCGCGGAACAAGAATG
GCATTGCTTGACCACCTCCCTCAGTACATCGATAAACTGGACAAGAAGACCGTCTCAGACAAGATTTTCCCCCAC
TTGGTATGGAATTCCCAAGCGGCCTACAGGCGCCCCTTCTGACCGCTTTCTAGCAAACTGGTTTCGCTGATACTG
TAGCGGTTATCCGCGAAGCTACAGTCAGGTCTATCAGCTCCTTTGCTCCCAAGGTCGGCTCGAGGTCTTCCCGAT
TAGCAGAAAAGAACTAACGACGGAGTATAGCTTACGGAGCGTATCCTGAATAACGATTTGCTTCGACTGCTTGCA
AAGATGCAGGTTGACCCTGAACCATCCATTAGGACCAATACTTGTATTTTGCTTGGAAGGTTGGGTCCGACCTTG
GGATATAACACGAAGAAAAAGGTTCTTGTACCTGCCTTCTCGCGTGCCCTAAAGGACTCATTTGTCCATGCTCGT
GTCGCGGCTCTCATGGCATTTACGGCCACCATCGACTGCTTTGAGATCGAAGATCTGGCAACGAAGGTCATTCCG
AACATGTCCTTTGCCTTAATCGATAGGGAGAAGTCTGTTGCCCACACTTCATGTTTGATCCCGCTTCTGACTGCC
TGGATAGGGTTGTGAGAGACCAGGCGTTCAAGACACTGGATCTGTATGTCAAAAAGCTTGAGGCCCATGCGGCTA
CACTGGTCAGTCGCCCGAGAATAACACTCCTATATGTATGTTGACATGCTCTCCCAGCCCGAGACGGCTAATACA
GACGGTCCTCCCAATCTTCCTGAACTGAACACAACTTCCTCAACGGCCATTATTAACTCGGCTGCTGGTGCAGCG
ACGACTCTAGCTGGTTGGGCCATCACCTCCTTGGGCAAACAGGTGGGTGCAACAATGTCACTAAGTGCAGTCCTC
TCACTTTGCGTATAGCTTGCAGCATCGGACATGCAGACAACCATTGACACCACTTCGAATCCGCTTGATTCACCC
GCCCTCACCGCTAAGCCACCTGTTCCATTGGCTACACGACCCGCCTTATCGCAAACCCCGTCCAGCTCGTCGACG
AAAGCCAAACCACTTCAACTGGGGGGGATGAAATCTCCGAACTCTGCCTTTAACCTGGGGGACCAACTCGCGGAA
GAGTTTGCGGCCAGTGAGACCGCTTCTTCATGGGGCGGGGACTTGATGGATGTTAATGCAGACGACGATGACTGG
AGTATGTGTTCGGGATCCCTAATCAGAATATCACTAATCGATATCCAAGGTGCCTTTGAGACTGCTCAAGCTCCT
CCAGTAGAAGCTCCCTCGACTCCTGCAACACCCGCCCCTGTCACACAACTGAAAGTCAAGGCTCCACGTCCTTCG
TCGTTACACAGGTCTTCATCGCCTCGGATACCAACCTCGGCTAGAGCACCCTCGGGGGTTACGTCGAGGTCTATG
ACGCCGGACCAAGCTTGGGACTCACAAGGAGAATGGGTGGAAGCCCCAAGCGCAAAGCCATCTGCTCCACCGACG
CCAAGCGTGAGTAGCACAGGTAGCAGCACACCAATGACCAAGGAAGAGAAAGCGGCTGAGATGGCGAGACGTAAG
GAAGAACGGAGACAGGTGAGTGTGCCTTCATTGTATACCTCATACTTTGTCTGATTTCTCCCTGTTAGCGTATTG
CTATGTTAAAGGAGCAGAAGAAATTGGCGGCGGCTGGGGCTTAGGGCCAAGAGACTTTCACAGCCTGGTGTCCGA
AGAACACCCGGAAGGAGGACCGCCCTATCTGTGTCTACAAGAGTACCGTTGCTTTTTTATTTCATCTTGATCGAT
AAGGCATTGGTGCCTATGGATCTGCTGGTCTTCATGACAGACTCGGTTCGACACCATTGGCAATTTCATGTACTT
AACAGATTCTAAAATAGTATGCATTTACCCTTTC
Length 3484