CopciAB_364989
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_364989 Strain Coprinopsis cinerea Okayama 7
Standard name BUR1 Synonyms 364989
Uniprot id Functional description Serine/Threonine protein kinases, catalytic domain
Location scaffold_12:1370138..1373660 Strand -
Gene length (nt) 3523 Transcript length (nt) 3194
CDS length (nt) 2796 Protein length (aa) 931

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Schizosaccharomyces pombe cdk9
Aspergillus nidulans AN8865_ptkA
Saccharomyces cerevisiae YPR161C_SGV1
Candida albicans CRK1
Fusarium graminearum BUR1

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7270268 50.8 2.725E-284 891
Hypsizygus marmoreus strain 51987-8 Hypma_RDB30566 51 1.155E-276 869
Lentinula edodes NBRC 111202 Lenedo1_755734 49 5.724E-263 829
Lentinula edodes W1-26 v1.0 Lentinedodes1_5444 47.7 2.769E-262 827
Pleurotus ostreatus PC9 PleosPC9_1_134732 47.3 2.417E-228 728
Pleurotus ostreatus PC15 PleosPC15_2_1114569 46.8 2.825E-226 722
Pleurotus eryngii ATCC 90797 Pleery1_1450760 46.8 4.058E-223 713
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_79639 62.3 9.497E-218 697
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_180093 60.4 9.725E-217 694
Ganoderma sp. 10597 SS1 v1.0 Gansp1_47378 59.4 6.792E-201 648
Auricularia subglabra Aurde3_1_1213764 40.7 1.174E-172 566
Lentinula edodes B17 Lened_B_1_1_8440 73.4 1.096E-158 524
Schizophyllum commune H4-8 Schco3_2511891 66.5 1.571E-158 524
Grifola frondosa Grifr_OBZ78401 44.8 2.951E-133 449

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 48.3735 6.221 3.5917
oidia 33.3512 2.1766 1.2567
vegetative_mycelium 34.3126 4.3581 2.5161
primordia 64.7239 2.8959 1.672
hyphal_knot 48.3941 1.2042 0.6952
young_fruiting_body 67.5975 4.3731 2.5248
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 45.6944 7.4679 4.3116
Wheat bran 16.8734 5.2438 3.0275
Horse manure 34.866 14.3027 8.2577
Oak leaves 60.1964 22.0381 12.7237
Hay 29.4079 6.6447 3.8363
Corn stalk 35.1747 5.4751 3.1611
Pectine 46.6427 3.4967 2.0188
Microcrystalline cellulose 46.2757 10.1427 5.8559
Xylose 43.9954 1.3331 0.7697
Cellobiose 39.8922 5.1157 2.9535
Lignin 50.884 3.8109 2.2002
Apple peels 46.5062 8.5999 4.9651
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 20.4329 1.6707 0.9646
Bsubtilis 26.1754 1.8091 1.0445
Ecoli 24.3874 2.0474 1.1821
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 67.1623 2.7784 1.6041
BS 4h 38.9087 8.1645 4.7138
BS 8h 17.7145 1.0354 0.5978
BS 12h 9.6792 3.0089 1.7372
Oidia 0 h 36.7241 12.1427 7.0106
Oidia 18 h 12.5267 0.7271 0.4198
Sclerotia 9.8424 1.8292 1.0561
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 6.1934 0.8816 0.509
DM 36h 5.4129 0.871 0.5029
DM 60h 4.8332 1.3718 0.792
DM 84h 3.3412 0.5476 0.3162
DM 108h 4.0873 0.9227 0.5327
DM 132h 4.621 1.1931 0.6888
DM 156hAE 8.0499 0.2226 0.1285
ELI1hAE 7.2277 1.2151 0.7015
ELI2hAE 5.5955 0.9988 0.5766
LI2hAE 8.3225 2.0409 1.1783
LI6hAE 8.9326 2.3011 1.3285
LI12hAE 4.6771 0.5982 0.3454
LI18hAE 6.6381 0.6704 0.387
LI 24hAE 8.6724 3.1846 1.8386
DM 156hAM 2.8548 0.7773 0.4488
ELI1hAM 6.9532 0.5457 0.3151
ELI2hAM 7.1326 2.3941 1.3822
LI2hAM 6.4004 1.4978 0.8647
LI6hAM 5.519 0.8009 0.4624
LI12hAM 4.0904 0.8169 0.4716
LI18hAM 5.9116 0.8933 0.5158
LI 24hAM 7.0989 2.8258 1.6315
LI 24hHK 5.6796 2.3563 1.3604
L/D 6h 6.3226 2.2223 1.283
L/D 12h 6.2587 1.0811 0.6242
L/D 18h 7.3463 1.4343 0.8281
L/D 24h 7.8074 1.1349 0.6552
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 18.8276 1.5132 0.8736
Hyphal knots 28.1113 5.8686 3.3882
Primordium 1 30.4541 1.0394 0.6001
Primordium 2 25.7868 5.9505 3.4355
Young Fruiting body cap 48.9048 26.7049 15.4181
Younf fruiting body gill 27.1275 4.366 2.5207
Young fruiting body stipe 38.145 9.4821 5.4745
Mature fruiting body cap_gill 109.6697 16.2015 9.3539
Mature fruiting body stipe 656.1134 27.0241 15.6024
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 54.4952 16.8462 9.7262
NH4NO3 28.6002 0.8368 0.4831
Proline 36.6435 5.1934 2.9984
Tryptophan 36.1166 9.2533 5.3424
Isoleucin 38.4833 3.958 2.2852
Arginine 39.0239 2.0544 1.1861
Metionine 35.0167 1.205 0.6957
NaNO3 45.9774 4.4754 2.5839
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 54.4952 16.8462 9.7262
Citrus peel 54.4548 12.295 7.0985
Poplar leaves 47.2117 12.3467 7.1283
Typha leaves 46.5999 7.4753 4.3159
Overwintered Salix leaves 48.0667 6.9852 4.0329
Reed flowering 74.4866 29.3855 16.9657
Tigernut 50.4201 3.8184 2.2045
Energy cane 40.5372 5.224 3.0161
Guar gum 30.286 5.6863 3.283
Apple peels 34.5778 7.8087 4.5083
Cellobiose 36.7947 1.0266 0.5927
Corn stalk 30.2083 2.8211 1.6287
Horse manure 32.5721 3.1279 1.8059
Lignin 40.3579 17.8682 10.3162
Microcrystalline cellulose 45.3311 16.0226 9.2506
Oak leaves 27.1511 6.9029 3.9854
Pectin esterified 28.1252 5.2778 3.0471
Poplar sawdust 27.5497 6.5603 3.7876
Wheat bran 19.6457 5.0965 2.9425
Chlamydomonas reinhardtii 35.9129 6.2842 3.6282
Vertatryl alcohol 40.2748 1.8822 1.0867
Furfural 36.9664 2.4442 1.4112
Autoclaved mycelium 50.9333 11.2302 6.4838
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 25.6012 1.7572 1.0145
Ribose 23.1737 1.8445 1.0649
Mannose 28.766 5.4556 3.8577
Fructose 26.0792 0.9081 0.5243
Arabinose 26.2806 2.2704 1.3108
Xylose 27.1552 2.1874 1.2629
Galacturonic acid 24.6816 3.6155 2.0874
Rhamnogalacturonan 25.0077 2.5722 1.4851
Pectin esterified 24.7269 3.5686 2.0603
Polygalacturonic acid 28.0492 4.3908 2.535
Sodium acetate 23.3514 3.0058 1.7354
No nitrogen 28.4432 2.1664 1.2508
BSA 29.6051 2.7581 1.5924
Glutamine 30.8975 6.0557 3.4962
No phosphate 23.8155 1.1861 0.6848
No carbon 26.0961 2.719 1.9226
No sulphur 30.4164 2.2297 1.2873
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 54.4952 16.8462 9.7262
Amylose 25.2835 3.0475 1.7595
Fucose 28.3245 1.6242 0.9377
Galactose 28.1315 0.8853 0.5111
Lactose 35.0203 3.2243 1.8615
Maltose 30.8281 3.1241 1.8037
Mannitol 37.5031 1.6428 0.9485
Rhamnose 41.2514 7.1904 4.1514
Sorbitol 29.7007 1.6058 0.9271
Trehalose 35.3399 5.9217 3.4189
Glycerol 37.3007 6.0926 3.5176
Glucuronic acid 29.6484 1.32 0.7621
Arabinan 27.665 2.5708 1.4842
Galactan 38.223 2.057 1.1876
Galactomannan 31.0718 2.2377 1.2919
Glucan 37.8094 4.0147 2.3179
Xylan 30.7797 2.0715 1.196
Xyloglucan 27.8866 5.2094 3.0077
Arabinogalactan 33.1724 1.2605 0.7278
Pectin 28.0885 15.689 9.058
Rhamnogalacturonan 50.7719 13.3744 7.7217
Polygalacturonic acid 35.264 2.7891 1.6103
Mannan 31.3559 3.4217 1.9755
Amylopectin 30.6446 8.3129 4.7995
Inulin 31.0726 3.036 1.7528
BSA 94.0119 2.7321 1.5774
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 4.8332 1.3718 0.792
2h WAT 3.6687 0.7678 0.4433
4h WAT 3.0619 0.3477 0.2008
8h WAT 3.4184 2.0655 1.1925
16h WAT 3.8983 2.0567 1.1874
24h WAT 4.7694 2.3007 1.3283
WAT hyphal knot -30h 4.3735 1.2601 0.7275
WAT hyphal knot -22h 5.9253 1.4755 0.8519
WAT hyphal knot -15h 4.9861 1.2069 0.6968
WAT hyphal knot -7.5h 6.2867 3.614 2.0866
WAT hyphal knot 5.3081 0.6007 0.3468
WAT hyphal knot +7.5h 6.2432 2.1249 1.2268
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 39.0988 10.8179 6.2457
Straw 3h 30.1817 3.6044 2.081
Straw 6h 25.1981 1.4013 0.809
Straw 12h 36.851 3.0892 1.7836
Straw 24h 36.8127 3.5411 2.0445
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 9.1186 2.2175 1.2803
Frost (-20C, 30min) 4.5925 0.3712 0.2143
Heat shock (47C, 2h) 28.0887 1.3353 0.7709
High CO2 4.72 0.6165 0.3559
Drought (4% agar, 12h) 2.7604 1.8747 1.0824
Oxidative (1mM H2O2, 3h) 5.3031 1.574 0.9087
Acidic (pH4, 3h) 7.5682 1.8938 1.0934
Alkaline (pH9, 3h) 5.5193 0.7084 0.409
Osmotic (sorbitol 2h) 6.9044 0.9941 0.5739
CongoRed (3h) 7.5422 0.3759 0.2171
Cobalt chloride control 4.5632 0.7611 0.4394
Cobalt chloride 2mM 5.1943 1.2083 0.6976
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 3.4369 1.2973 0.749
Cold stimulation 2.9956 1.5956 0.9212
Scratched surface 6.405 0.1642 0.0948
Ca2+, 200mM, 24h 5.4099 1.0814 0.6244
Cu2+, 2mM, 6h 4.4604 1.1425 0.6597
Voriconazole 3.7433 1.4667 0.8468
Trichoderma interaction, early 4.9559 2.1984 1.2693
Trichoderma interaction 60h 9.4716 8.6876 5.0158
Cobalt chloride 2mM repeat 10.1967 2.2499 1.299
Hypoxia 5.9946 0.4952 0.2859
Hypoxia control 4.2862 2.236 1.2909
Protoplastation control 4.7566 0.5796 0.4098
Protoplastation 3.5h 19.4182 17.8658 12.633
Protoplastation 1.5h 10.2923 0.746 0.5275

General data

Systematic name BUR1
Protein id CopciAB_364989.T0
Description Serine/Threonine protein kinases, catalytic domain

Annotation summary

0 200 400 600 800 931

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd07866 STKc_BUR1 - 383 687
Pfam PF00069 Protein kinase domain IPR000719 392 687

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR017441 Protein kinase, ATP binding site
IPR000719 Protein kinase domain
IPR008271 Serine/threonine-protein kinase, active site
IPR011009 Protein kinase-like domain superfamily

GO

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

KEGG

KEGG Orthology
K15562

EggNOG

COG category Description
D Serine/Threonine protein kinases, catalytic domain

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_364989 across fungi.

Arrow shows the origin of gene family containing CopciAB_364989.

Protein

Sequence id CopciAB_364989.T0
Sequence >CopciAB_364989.T0
MKRQASASPQRDRSSKRATTSSPPEEGELDDGAPISQQPSTSLPPPPATLPSKPVKPVPFPFKKKAETTTSNVKP
INVFGTPSGSGSRPEPPRNTKDDDSRRNRGPPEPKSRIGDHWEPTYDHHNRGRSWGDGGRDYRDRDFRNRSPRRS
MERSRSPRRDRHRLPIRHSPSRSSERGYTPPRSRSRSRDRGYDRYRDRDDRWRPDFDRDRDRHYRPHDHYRPDDR
EWTRRGDADRRRVDSYRPQSPGSKPPSSPPPPRSPELPPVAAPAPPPPPQPSQPPPPPAAPPSEPIEPRPPSDTP
PPPPPPDPRLMNNPPPPPTGAVKRPSLPPTLPNKPVFSSVPPPSLKPKPPAPPPAPPKIRVVKRRTASKRTDKQD
MEAYGRVFVGCGQQSDYEVTTKLGEGTFGEVHKAIQKATGASVALKRILMHHEKEGMPVTALREIKILKALKHPC
IVNILDMFVVRSSEKDPLSVYMVFPYMDHDLAGLLENERVKLQPSQIKLYMKQLLEGTEYMHRNHILHRDMKAAN
LLISNTGNLRIADFGLARSFDTNITKGGSTRKYTNCVVTRWYRPPELLLGARQYGGEVDIWGIGCVLGEMFNRRP
ILPGSSDLDQLEKIWYLCGTPTQHSWPNFDALPGCDGVKHFKSNHIRRVKMTYESVGAETADLLDKLLVCNPKER
ITAAQALEHEYFWTDPLPADPKTLPVYEASHEFDKRGQRNHQPMMGHHQPSKYQDPSHRLPPPAGNPQRRQGNHR
GPPGPWPGAPPLSHGPHAHPPGPGSYNMNQGPPPGMPGPPPPGFRPGPPGGIPMNPNMGPGPYPGGRPQFNGPGG
PRPPGPGAYSLPPNPGGRPPFRGPHNGPPGPPGGPGRMGGSGLPPRPSVSLPPKPAAPLGGGVALGTVPRSNVPM
PGRRSQPAQPPPPASTGSGNGYAPNGGLNYG
Length 931

Coding

Sequence id CopciAB_364989.T0
Sequence >CopciAB_364989.T0
ATGAAGCGTCAGGCGTCCGCCTCACCCCAGAGGGACAGGTCCTCAAAGCGAGCGACGACGTCGTCGCCACCAGAA
GAAGGCGAACTTGACGACGGCGCACCCATTAGCCAGCAACCTTCGACCAGCCTTCCGCCACCACCTGCAACTCTT
CCTTCAAAGCCAGTGAAACCGGTTCCTTTTCCTTTCAAGAAAAAGGCGGAAACGACCACATCTAATGTGAAGCCT
ATAAATGTCTTTGGCACCCCGTCTGGCTCCGGCTCCCGCCCTGAACCACCCAGAAATACGAAGGACGACGACTCG
CGACGGAATCGAGGCCCTCCAGAGCCTAAATCGAGGATTGGTGACCACTGGGAGCCAACCTATGACCACCATAAT
CGCGGGAGGTCTTGGGGAGACGGCGGGAGAGATTATAGAGATAGAGATTTTCGCAACAGATCCCCAAGACGGTCA
ATGGAACGCTCAAGGTCGCCACGACGAGACAGGCACCGTCTCCCCATCCGCCATTCTCCCTCCAGAAGTTCAGAA
CGTGGCTATACTCCCCCACGCTCCCGTTCACGATCTCGAGATAGAGGCTATGACCGCTATAGAGACAGAGACGAC
CGGTGGCGCCCAGACTTTGACAGAGACAGAGACAGGCACTATAGGCCTCACGACCATTACCGTCCCGACGACCGT
GAATGGACGAGAAGAGGTGACGCGGATCGTCGTCGAGTCGATTCCTATCGTCCACAATCTCCTGGTTCGAAGCCT
CCGAGCTCGCCGCCGCCTCCACGCTCCCCGGAACTCCCTCCTGTCGCTGCTCCCGCGCCGCCCCCACCTCCACAG
CCTTCCCAACCTCCGCCTCCACCTGCCGCCCCGCCGTCTGAGCCAATAGAACCCAGACCACCTTCTGATACTCCA
CCCCCGCCCCCTCCTCCAGATCCACGCCTTATGAATAACCCTCCCCCACCGCCCACTGGTGCGGTGAAACGTCCA
AGCCTGCCGCCAACTCTTCCGAACAAACCTGTATTTTCCTCCGTTCCACCCCCGTCACTGAAGCCGAAACCACCA
GCCCCACCTCCAGCCCCACCAAAAATCCGAGTTGTCAAACGGCGGACTGCGTCCAAGCGGACGGACAAGCAAGAC
ATGGAGGCTTATGGCCGAGTCTTTGTTGGCTGCGGACAGCAATCCGATTATGAAGTCACTACAAAGTTGGGAGAG
GGTACTTTCGGAGAGGTTCACAAAGCCATCCAAAAGGCCACTGGAGCATCCGTCGCACTCAAGCGCATTTTGATG
CACCACGAAAAGGAAGGCATGCCCGTCACCGCCTTGCGTGAAATCAAGATTCTCAAAGCCCTGAAACACCCGTGT
ATTGTGAATATCCTTGACATGTTCGTCGTCAGAAGTAGCGAGAAAGATCCGTTATCTGTCTATATGGTCTTCCCC
TACATGGATCATGATCTCGCCGGTTTACTGGAGAACGAACGTGTGAAGCTGCAGCCCAGCCAGATTAAGCTGTAC
ATGAAGCAGCTGCTGGAAGGCACTGAATACATGCATCGGAATCACATCCTTCACCGTGACATGAAAGCCGCCAAC
TTGCTGATTTCGAACACTGGCAACCTTCGAATTGCCGATTTCGGTTTGGCCCGTAGCTTTGATACCAACATCACC
AAAGGGGGATCGACCAGAAAGTATACGAACTGTGTCGTCACGCGGTGGTATCGTCCCCCCGAACTCTTGCTCGGT
GCCAGACAGTACGGCGGTGAAGTGGACATTTGGGGCATTGGCTGCGTGTTAGGAGAGATGTTCAACCGCCGCCCT
ATTCTCCCCGGATCTTCGGATTTGGATCAACTAGAGAAGATTTGGTACCTGTGTGGAACACCGACTCAGCACTCT
TGGCCTAATTTCGACGCCTTGCCCGGATGCGACGGCGTTAAGCACTTCAAGAGTAATCATATCCGCAGGGTCAAG
ATGACATATGAAAGTGTTGGCGCTGAAACGGCCGATCTGTTGGATAAACTCTTGGTTTGTAATCCGAAGGAAAGG
ATCACGGCTGCTCAAGCTCTCGAGCACGAGTACTTCTGGACCGACCCCTTACCTGCTGATCCCAAGACACTGCCC
GTCTATGAAGCGTCCCACGAGTTTGATAAACGCGGTCAACGGAACCACCAACCAATGATGGGACACCACCAACCT
TCCAAATACCAAGATCCCTCTCACCGCCTTCCTCCCCCCGCTGGCAATCCGCAGAGACGACAAGGCAATCACCGA
GGTCCTCCAGGTCCCTGGCCTGGCGCACCTCCTCTTTCACATGGTCCTCACGCTCACCCTCCAGGGCCAGGCTCG
TACAACATGAATCAAGGACCACCACCGGGGATGCCTGGACCTCCTCCTCCTGGATTCCGCCCTGGGCCTCCGGGA
GGTATTCCTATGAATCCCAACATGGGTCCTGGACCCTATCCTGGAGGACGGCCTCAATTCAACGGGCCCGGTGGA
CCTCGACCTCCTGGACCTGGCGCATACAGTCTCCCACCCAACCCCGGTGGTCGACCACCCTTCCGCGGCCCTCAT
AATGGGCCTCCCGGCCCACCTGGAGGGCCAGGAAGGATGGGAGGATCAGGACTTCCTCCTCGTCCCAGCGTTAGC
CTTCCACCGAAGCCCGCTGCTCCGTTGGGCGGTGGTGTGGCTCTGGGGACTGTACCTCGCTCGAATGTACCCATG
CCTGGTCGACGGTCTCAGCCAGCACAACCACCACCACCTGCAAGCACTGGCTCTGGAAACGGCTACGCACCCAAC
GGAGGCTTAAACTATGGATAG
Length 2796

Transcript

Sequence id CopciAB_364989.T0
Sequence >CopciAB_364989.T0
GTCAACGACGACGACCACACTGCCATGAAGCGTCAGGCGTCCGCCTCACCCCAGAGGGACAGGTCCTCAAAGCGA
GCGACGACGTCGTCGCCACCAGAAGAAGGCGAACTTGACGACGGCGCACCCATTAGCCAGCAACCTTCGACCAGC
CTTCCGCCACCACCTGCAACTCTTCCTTCAAAGCCAGTGAAACCGGTTCCTTTTCCTTTCAAGAAAAAGGCGGAA
ACGACCACATCTAATGTGAAGCCTATAAATGTCTTTGGCACCCCGTCTGGCTCCGGCTCCCGCCCTGAACCACCC
AGAAATACGAAGGACGACGACTCGCGACGGAATCGAGGCCCTCCAGAGCCTAAATCGAGGATTGGTGACCACTGG
GAGCCAACCTATGACCACCATAATCGCGGGAGGTCTTGGGGAGACGGCGGGAGAGATTATAGAGATAGAGATTTT
CGCAACAGATCCCCAAGACGGTCAATGGAACGCTCAAGGTCGCCACGACGAGACAGGCACCGTCTCCCCATCCGC
CATTCTCCCTCCAGAAGTTCAGAACGTGGCTATACTCCCCCACGCTCCCGTTCACGATCTCGAGATAGAGGCTAT
GACCGCTATAGAGACAGAGACGACCGGTGGCGCCCAGACTTTGACAGAGACAGAGACAGGCACTATAGGCCTCAC
GACCATTACCGTCCCGACGACCGTGAATGGACGAGAAGAGGTGACGCGGATCGTCGTCGAGTCGATTCCTATCGT
CCACAATCTCCTGGTTCGAAGCCTCCGAGCTCGCCGCCGCCTCCACGCTCCCCGGAACTCCCTCCTGTCGCTGCT
CCCGCGCCGCCCCCACCTCCACAGCCTTCCCAACCTCCGCCTCCACCTGCCGCCCCGCCGTCTGAGCCAATAGAA
CCCAGACCACCTTCTGATACTCCACCCCCGCCCCCTCCTCCAGATCCACGCCTTATGAATAACCCTCCCCCACCG
CCCACTGGTGCGGTGAAACGTCCAAGCCTGCCGCCAACTCTTCCGAACAAACCTGTATTTTCCTCCGTTCCACCC
CCGTCACTGAAGCCGAAACCACCAGCCCCACCTCCAGCCCCACCAAAAATCCGAGTTGTCAAACGGCGGACTGCG
TCCAAGCGGACGGACAAGCAAGACATGGAGGCTTATGGCCGAGTCTTTGTTGGCTGCGGACAGCAATCCGATTAT
GAAGTCACTACAAAGTTGGGAGAGGGTACTTTCGGAGAGGTTCACAAAGCCATCCAAAAGGCCACTGGAGCATCC
GTCGCACTCAAGCGCATTTTGATGCACCACGAAAAGGAAGGCATGCCCGTCACCGCCTTGCGTGAAATCAAGATT
CTCAAAGCCCTGAAACACCCGTGTATTGTGAATATCCTTGACATGTTCGTCGTCAGAAGTAGCGAGAAAGATCCG
TTATCTGTCTATATGGTCTTCCCCTACATGGATCATGATCTCGCCGGTTTACTGGAGAACGAACGTGTGAAGCTG
CAGCCCAGCCAGATTAAGCTGTACATGAAGCAGCTGCTGGAAGGCACTGAATACATGCATCGGAATCACATCCTT
CACCGTGACATGAAAGCCGCCAACTTGCTGATTTCGAACACTGGCAACCTTCGAATTGCCGATTTCGGTTTGGCC
CGTAGCTTTGATACCAACATCACCAAAGGGGGATCGACCAGAAAGTATACGAACTGTGTCGTCACGCGGTGGTAT
CGTCCCCCCGAACTCTTGCTCGGTGCCAGACAGTACGGCGGTGAAGTGGACATTTGGGGCATTGGCTGCGTGTTA
GGAGAGATGTTCAACCGCCGCCCTATTCTCCCCGGATCTTCGGATTTGGATCAACTAGAGAAGATTTGGTACCTG
TGTGGAACACCGACTCAGCACTCTTGGCCTAATTTCGACGCCTTGCCCGGATGCGACGGCGTTAAGCACTTCAAG
AGTAATCATATCCGCAGGGTCAAGATGACATATGAAAGTGTTGGCGCTGAAACGGCCGATCTGTTGGATAAACTC
TTGGTTTGTAATCCGAAGGAAAGGATCACGGCTGCTCAAGCTCTCGAGCACGAGTACTTCTGGACCGACCCCTTA
CCTGCTGATCCCAAGACACTGCCCGTCTATGAAGCGTCCCACGAGTTTGATAAACGCGGTCAACGGAACCACCAA
CCAATGATGGGACACCACCAACCTTCCAAATACCAAGATCCCTCTCACCGCCTTCCTCCCCCCGCTGGCAATCCG
CAGAGACGACAAGGCAATCACCGAGGTCCTCCAGGTCCCTGGCCTGGCGCACCTCCTCTTTCACATGGTCCTCAC
GCTCACCCTCCAGGGCCAGGCTCGTACAACATGAATCAAGGACCACCACCGGGGATGCCTGGACCTCCTCCTCCT
GGATTCCGCCCTGGGCCTCCGGGAGGTATTCCTATGAATCCCAACATGGGTCCTGGACCCTATCCTGGAGGACGG
CCTCAATTCAACGGGCCCGGTGGACCTCGACCTCCTGGACCTGGCGCATACAGTCTCCCACCCAACCCCGGTGGT
CGACCACCCTTCCGCGGCCCTCATAATGGGCCTCCCGGCCCACCTGGAGGGCCAGGAAGGATGGGAGGATCAGGA
CTTCCTCCTCGTCCCAGCGTTAGCCTTCCACCGAAGCCCGCTGCTCCGTTGGGCGGTGGTGTGGCTCTGGGGACT
GTACCTCGCTCGAATGTACCCATGCCTGGTCGACGGTCTCAGCCAGCACAACCACCACCACCTGCAAGCACTGGC
TCTGGAAACGGCTACGCACCCAACGGAGGCTTAAACTATGGATAGCATTTCCCAAAGTCTTCTACTGGCTCTCCT
GTCGCTGGCTTTACTTATGGTTTTGTCATACGGTTCTTTTGGGACCAGGTTTCCACGTACATCCTTATCGGTCCA
CATTCACTTGGGACACCGCTTCTTGCATTTTTCTTTTTTGACCCATGTTCAAAGTTCAACTTCTTTTGCTTTCAT
ACAATCATATCCCATCGTTAACATTCGTATAGTAGTAGTACCATCCAGCCCATCAACCCAACCCACCCCGCAATG
CAATCGCAACTTACATGGCAATCATGATGCACATATACACCTTTCACGGTTTCTTTACAGTTATCCTTACTTAGT
TCCTAGTTCCACGCCTCAATTTCATACAATTTGTTGTCGCTTTC
Length 3194

Gene

Sequence id CopciAB_364989.T0
Sequence >CopciAB_364989.T0
GTCAACGACGACGACCACACTGCCATGAAGCGTCAGGCGTCCGCCTCACCCCAGAGGGACAGGTCCTCAAAGCGA
GCGACGACGTCGTCGCCACCAGAAGAAGGCGAACTTGACGACGGCGCACCCATTAGCCAGCAACCTTCGACCAGC
CTTCCGCCACCACCTGCAACTCTTCCTTCAAAGCCAGTGAAACCGGTTCCTTTTCCTTTCAAGAAAAAGGCGGAA
ACGACCACATCTAATGTGAAGCCTATAAATGTCTTTGGCACCCCGTCTGGCTCCGGCTCCCGCCCTGAACCACCC
AGAAATACGAAGGACGACGACTCGCGACGGAATCGAGGCCCTCCAGAGCCTAAATCGAGGATTGGTGACCACTGG
GAGCCAACCTATGACCACCATAATCGCGGGAGGTCTTGGGGAGACGGCGGGAGAGATTATAGAGATAGAGATTTT
CGCAACAGATCCCCAAGACGGTCAATGGAACGCTCAAGGTCGCCACGACGAGACAGGCACCGTCTCCCCATCCGC
CATTCTCCCTCCAGAAGTTCAGAACGTGGCTATACTCCCCCACGCTCCCGTTCACGATCTCGAGATAGAGGCTAT
GACCGCTATAGAGACAGAGACGACCGGTGGCGCCCAGACTTTGACAGAGACAGAGACAGGCACTATAGGCCTCAC
GACCATTACCGTCCCGACGACCGTGAATGGACGAGAAGAGGTGACGCGGATCGTCGTCGAGTCGATTCCTATCGT
CCACAATCTCCTGGTTCGAAGCCTCCGAGCTCGCCGCCGCCTCCACGCTCCCCGGAACTCCCTCCTGTCGCTGCT
CCCGCGCCGCCCCCACCTCCACAGCCTTCCCAACCTCCGCCTCCACCTGCCGCCCCGCCGTCTGAGCCAATAGAA
CCCAGACCACCTTCTGATACTCCACCCCCGCCCCCTCCTCCAGATCCACGCCTTATGAATAACCCTCCCCCACCG
CCCACTGGTGCGGTGAAACGTCCAAGCCTGCCGCCAACTCTTCCGAACAAACCTGTATTTTCCTCCGTTCCACCC
CCGTCACTGAAGCCGAAACCACCAGCCCCACCTCCAGCCCCACCAAAAATCCGAGTTGTCAAACGGCGGACTGCG
TCCAAGCGGACGGACAAGCAAGACATGGAGGCTTATGGCCGAGTCTTTGTTGGCTGCGGACAGCAATCCGATTAT
GAAGTCACTACAAAGTTGGGAGAGGGTACTTTCGGGTAAGAACTAAGCTCATCCCTTTTGTGTTGCTGGAAATTT
AACCTTTTGAACAGAGAGGTTCACAAAGCCATCCAAAAGGCCACTGGAGCATCCGTCGCACTCAAGCGCATTTTG
ATGCACCACGAAAAGGAAGGCATGCCCGTCACCGCCTTGCGTGAAATCAAGATTCTCAAAGCCCTGAAACACCCG
TGTATTGTGAATATCCTTGACATGTTCGTCGTCAGAAGTAGGTTCTCTCGCAGCTCGTGCTCTACAGAATCAATG
ACATCGTGTTCCCAGGTAGCGAGAAAGATCCGTTATCTGTCTATATGGTCTTCCCCTACATGGATCATGATCTCG
CCGGTTTACTGGAGAACGAACGTGTGAAGCTGCAGCCCAGCCAGATTAAGCTGTACATGAAGCAGCTGCTGGAAG
GCACTGAATACATGCATCGGGTGGGCAATGAAAACGCCTATCTCCTTTTCAGTTTTCTCATCACCATCGTTTTGT
CCCTTTACAGAATCACATCCTTCACCGTGACATGAAAGCCGCCAACTTGCTGATTTCGAACACTGGCAACCTTCG
AATTGCCGATTTCGGTTTGGCCCGTAGCTTTGATACCAACATCACCAAAGGGGGATCGACCAGAAAGTATACGAA
CTGTGTCGTCACGCGGTGGTATCGTCCCCCCGAACTCTTGCTCGGTGCCAGACAGTACGGCGGTGAAGTGGACAT
TTGGGGCATTGGGTGAGTGGTTTTTGGTTCTCCTATTACACCTTGACTGAAGGGGTTTTAGCTGCGTGTTAGGAG
AGATGTTCAACCGCCGCCCTATTCTCCCCGGATCTTCGGATTTGGATCAACTAGAGAAGATTTGGTACCTGTGTG
GAACACCGACTCAGCACTCTTGGCCTAATTTCGACGCCTTGCCCGGATGCGACGGCGTTAAGCACTTCAAGAGTA
ATCATATCCGCAGGGTCAAGATGACATATGAAAGGTTGGCTTGTCCATTGCGTTACTCTTGGCTGGCGTGCTGAC
TTTCCTCACCAAGTGTTGGCGCTGAAACGGCCGATCTGTTGGATAAACTCTTGGTTTGTAATCCGAAGGAAAGGA
TCACGGCTGCTCAAGCTCTCGAGCACGAGTACTTCTGGACCGACCCCTTACCTGCTGATCCCAAGACGTAAGAGC
CTTTTTACACTTCCATTGGAATCATGTCTGACTCTGAATGCTTTAGACTGCCCGTCTATGAAGCGTCCCACGAGT
TTGATAAACGCGGTCAACGGAACCACCAACCAATGATGGGACACCACCAACCTTCCAAATACCAAGATCCCTCTC
ACCGCCTTCCTCCCCCCGCTGGCAATCCGCAGAGACGACAAGGCAATCACCGAGGTCCTCCAGGTCCCTGGCCTG
GCGCACCTCCTCTTTCACATGGTCCTCACGCTCACCCTCCAGGGCCAGGCTCGTACAACATGAATCAAGGACCAC
CACCGGGGATGCCTGGACCTCCTCCTCCTGGATTCCGCCCTGGGCCTCCGGGAGGTATTCCTATGAATCCCAACA
TGGGTCCTGGACCCTATCCTGGAGGACGGCCTCAATTCAACGGGCCCGGTGGACCTCGACCTCCTGGACCTGGCG
CATACAGTCTCCCACCCAACCCCGGTGGTCGACCACCCTTCCGCGGCCCTCATAATGGGCCTCCCGGCCCACCTG
GAGGGCCAGGAAGGATGGGAGGATCAGGACTTCCTCCTCGTCCCAGCGTTAGCCTTCCACCGAAGCCCGCTGCTC
CGTTGGGCGGTGGTGTGGCTCTGGGGACTGTACCTCGCTCGAATGTACCCATGCCTGGTCGACGGTCTCAGCCAG
CACAACCACCACCACCTGCAAGCACTGGCTCTGGAAACGGCTACGCACCCAACGGAGGCTTAAACTATGGATAGC
ATTTCCCAAAGTCTTCTACTGGCTCTCCTGTCGCTGGCTTTACTTATGGTTTTGTCATACGGTTCTTTTGGGACC
AGGTTTCCACGTACATCCTTATCGGTCCACATTCACTTGGGACACCGCTTCTTGCATTTTTCTTTTTTGACCCAT
GTTCAAAGTTCAACTTCTTTTGCTTTCATACAATCATATCCCATCGTTAACATTCGTATAGTAGTAGTACCATCC
AGCCCATCAACCCAACCCACCCCGCAATGCAATCGCAACTTACATGGCAATCATGATGCACATATACACCTTTCA
CGGTTTCTTTACAGTTATCCTTACTTAGTTCCTAGTTCCACGCCTCAATTTCATACAATTTGTTGTCGCTTTC
Length 3523