CopciAB_397547
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_397547 Strain Coprinopsis cinerea Okayama 7
Standard name GIN4 Synonyms 397547
Uniprot id Functional description Serine/Threonine protein kinases, catalytic domain
Location scaffold_6:1488605..1491788 Strand -
Gene length (nt) 3184 Transcript length (nt) 3129
CDS length (nt) 2835 Protein length (aa) 944

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7265113 44.9 1.924E-218 700
Hypsizygus marmoreus strain 51987-8 Hypma_RDB23720 41.2 1.83E-195 633
Pleurotus ostreatus PC9 PleosPC9_1_88265 39.7 2.536E-183 597
Pleurotus eryngii ATCC 90797 Pleery1_1464094 39.2 1.897E-177 580
Ganoderma sp. 10597 SS1 v1.0 Gansp1_108470 38.7 4.395E-174 570
Grifola frondosa Grifr_OBZ73948 43.6 5.075E-171 561
Lentinula edodes W1-26 v1.0 Lentinedodes1_9481 36.7 9.742E-158 522
Flammulina velutipes Flave_chr06AA00340 36.3 6.439E-146 487
Pleurotus ostreatus PC15 PleosPC15_2_1044044 65.8 1.302E-145 486
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_223080 66.3 2.922E-139 467
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_70363 66.3 3.045E-139 467
Auricularia subglabra Aurde3_1_39749 62.1 3.258E-135 456
Schizophyllum commune H4-8 Schco3_2535527 35.1 1.077E-134 454
Lentinula edodes NBRC 111202 Lenedo1_1036975 51.6 2.576E-108 375

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 18.4377 3.5324 2.0394
oidia 21.3363 1.1287 0.6517
vegetative_mycelium 25.737 3.7057 2.1395
primordia 25.5044 1.6822 0.9712
hyphal_knot 29.9503 3.4523 1.9932
young_fruiting_body 1501.7966 22.6634 13.0847
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 21.908 1.7281 0.9977
Wheat bran 13.7059 1.3158 0.7597
Horse manure 11.7351 5.0767 2.9311
Oak leaves 14.136 4.6958 2.7111
Hay 13.1729 2.7038 1.561
Corn stalk 13.8462 5.151 2.9739
Pectine 13.3298 0.9901 0.5716
Microcrystalline cellulose 18.9535 0.2871 0.1658
Xylose 13.5934 2.6771 1.5456
Cellobiose 19.5106 1.1778 0.68
Lignin 15.6519 0.8991 0.5191
Apple peels 21.6485 0.3832 0.2212
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 16.5125 1.628 0.9399
Bsubtilis 22.084 1.1245 0.6492
Ecoli 15.9177 2.1115 1.2191
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 41.3219 1.9352 1.1173
BS 4h 22.5031 3.7997 2.1937
BS 8h 13.4515 2.7917 1.6118
BS 12h 11.6421 2.0147 1.1632
Oidia 0 h 5.4896 0.3174 0.1832
Oidia 18 h 5.6473 1.1171 0.645
Sclerotia 5.3808 0.5486 0.3168
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 8.5877 1.2651 0.7304
DM 36h 5.5722 0.3926 0.2267
DM 60h 6.0384 0.8056 0.4651
DM 84h 10.4379 0.4142 0.2392
DM 108h 12.51 2.2962 1.3257
DM 132h 13.3244 1.9765 1.1412
DM 156hAE 4.0171 0.3978 0.2297
ELI1hAE 5.305 1.307 0.7546
ELI2hAE 4.146 0.3897 0.225
LI2hAE 4.3012 0.6046 0.3491
LI6hAE 3.7606 1.0947 0.632
LI12hAE 4.1841 0.4933 0.2848
LI18hAE 4.4406 0.6857 0.3959
LI 24hAE 6.2094 2.3773 1.3726
DM 156hAM 10.4736 1.6672 0.9626
ELI1hAM 5.3336 1.1505 0.6642
ELI2hAM 4.4363 1.226 0.7078
LI2hAM 4.122 0.4261 0.246
LI6hAM 5.2968 1.6565 0.9564
LI12hAM 9.5961 1.5084 0.8709
LI18hAM 10.9914 3.5699 2.0611
LI 24hAM 11.4526 1.7901 1.0335
LI 24hHK 20.2581 8.5273 4.9232
L/D 6h 10.7855 1.8895 1.0909
L/D 12h 5.2872 1.1034 0.6371
L/D 18h 6.8701 2.083 1.2026
L/D 24h 6.8842 0.2104 0.1215
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 13.9311 1.3004 0.7508
Hyphal knots 9.5665 2.0254 1.1694
Primordium 1 15.8428 0.2096 0.121
Primordium 2 14.7862 3.2532 1.8782
Young Fruiting body cap 17.8649 7.1606 4.1342
Younf fruiting body gill 233.6515 363.5254 209.8815
Young fruiting body stipe 30.2686 6.2358 3.6002
Mature fruiting body cap_gill 42.381 12.9706 7.4886
Mature fruiting body stipe 18.9484 3.3707 1.9461
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 13.0393 3.2743 1.8904
NH4NO3 15.0451 2.5053 1.4465
Proline 14.3916 6.2426 3.6042
Tryptophan 25.7503 9.3228 5.3825
Isoleucin 16.0214 9.8091 5.6633
Arginine 10.6892 1.3428 0.7753
Metionine 11.2882 1.2268 0.7083
NaNO3 10.0284 1.0374 0.599
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 13.0393 3.2743 1.8904
Citrus peel 8.7054 1.2492 0.7212
Poplar leaves 11.9088 2.2136 1.278
Typha leaves 9.9703 1.2561 0.7252
Overwintered Salix leaves 9.8607 0.3862 0.223
Reed flowering 9.0781 3.5099 2.0264
Tigernut 7.5097 1.7311 0.9994
Energy cane 11.6926 0.7038 0.4063
Guar gum 10.8518 1.7288 0.9981
Apple peels 8.1115 1.4732 0.8505
Cellobiose 8.8187 2.0422 1.1791
Corn stalk 12.537 1.2743 0.7357
Horse manure 8.1542 2.108 1.217
Lignin 7.3152 1.9663 1.1352
Microcrystalline cellulose 8.5984 0.7463 0.4309
Oak leaves 9.7647 1.4464 0.8351
Pectin esterified 6.7122 1.9021 1.0982
Poplar sawdust 11.3705 1.5043 0.8685
Wheat bran 8.8524 2.7539 1.59
Chlamydomonas reinhardtii 10.9223 0.6632 0.3829
Vertatryl alcohol 19.3671 0.9734 0.562
Furfural 12.9593 2.0607 1.1898
Autoclaved mycelium 8.5018 0.3891 0.2247
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 11.7239 0.659 0.3805
Ribose 12.8844 0.7414 0.4281
Mannose 13.7858 1.2251 0.8662
Fructose 14.6569 0.8856 0.5113
Arabinose 13.131 1.0786 0.6227
Xylose 14.4067 0.2906 0.1678
Galacturonic acid 13.3302 1.6449 0.9497
Rhamnogalacturonan 14.4397 3.3723 1.947
Pectin esterified 12.6667 0.7741 0.4469
Polygalacturonic acid 14.1869 1.1496 0.6637
Sodium acetate 12.5876 0.7268 0.4196
No nitrogen 16.6445 2.2273 1.286
BSA 15.2565 1.4505 0.8374
Glutamine 15.5545 2.8467 1.6436
No phosphate 15.0021 2.5534 1.4742
No carbon 14.6496 1.0305 0.7287
No sulphur 12.3148 0.2031 0.1173
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 13.0393 3.2743 1.8904
Amylose 14.1521 1.7647 1.0189
Fucose 12.6738 2.3054 1.331
Galactose 10.1432 2.2537 1.3012
Lactose 13.5176 1.0143 0.5856
Maltose 14.6537 1.7043 0.984
Mannitol 14.1637 2.4796 1.4316
Rhamnose 11.3955 2.2484 1.2981
Sorbitol 11.2939 1.9799 1.1431
Trehalose 12.948 1.5992 0.9233
Glycerol 12.546 2.4873 1.436
Glucuronic acid 13.674 1.9641 1.1339
Arabinan 11.278 2.4163 1.3951
Galactan 9.0961 0.6942 0.4008
Galactomannan 11.2088 0.5605 0.3236
Glucan 10.2886 1.5828 0.9138
Xylan 9.8995 0.5051 0.2916
Xyloglucan 13.6917 0.1605 0.0927
Arabinogalactan 13.0298 1.6741 0.9665
Pectin 9.7358 0.9566 0.5523
Rhamnogalacturonan 9.2739 2.5842 1.492
Polygalacturonic acid 12.7372 2.2351 1.2905
Mannan 11.9465 1.5263 0.8812
Amylopectin 11.4241 1.6234 0.9373
Inulin 11.8741 2.058 1.1882
BSA 10.8436 2.4347 1.4057
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 6.0384 0.8056 0.4651
2h WAT 6.6517 0.1793 0.1035
4h WAT 5.0669 1.5132 0.8736
8h WAT 6.4234 1.038 0.5993
16h WAT 6.1489 1.4111 0.8147
24h WAT 5.0635 2.4009 1.3861
WAT hyphal knot -30h 4.0546 0.6629 0.3827
WAT hyphal knot -22h 4.7575 1.0895 0.629
WAT hyphal knot -15h 2.9964 1.1699 0.6754
WAT hyphal knot -7.5h 4.1468 2.8452 1.6427
WAT hyphal knot 3.7022 0.8032 0.4637
WAT hyphal knot +7.5h 4.3425 1.2405 0.7162
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 6.0674 2.8064 1.6203
Straw 3h 8.0064 1.099 0.6345
Straw 6h 9.0232 3.5388 2.0431
Straw 12h 10.5669 2.295 1.325
Straw 24h 11.2934 3.1425 1.8143
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 3.7437 0.6149 0.355
Frost (-20C, 30min) 16.9158 1.32 0.7621
Heat shock (47C, 2h) 9.8352 2.4793 1.4315
High CO2 11.2757 0.8812 0.5087
Drought (4% agar, 12h) 9.9249 0.1874 0.1082
Oxidative (1mM H2O2, 3h) 7.7719 1.1866 0.6851
Acidic (pH4, 3h) 3.8894 2.5143 1.4516
Alkaline (pH9, 3h) 4.639 1.4044 0.8108
Osmotic (sorbitol 2h) 7.4938 3.1797 1.8358
CongoRed (3h) 5.2931 2.9624 1.7103
Cobalt chloride control 17.2304 2.8848 1.6655
Cobalt chloride 2mM 15.7638 5.3146 3.0684
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 5.203 4.5854 2.6474
Cold stimulation 9.0846 3.0303 1.7495
Scratched surface 5.2159 0.492 0.2841
Ca2+, 200mM, 24h 7.0549 0.8794 0.5077
Cu2+, 2mM, 6h 18.0656 21.4227 12.3684
Voriconazole 9.4767 0.7578 0.4375
Trichoderma interaction, early 7.6221 2.9148 1.6828
Trichoderma interaction 60h 17.145 10.8245 6.2495
Cobalt chloride 2mM repeat 7.6426 4.6836 2.7041
Hypoxia 5.8788 1.6071 0.9279
Hypoxia control 11.3086 2.0838 1.2031
Protoplastation control 6.1082 0.5825 0.4119
Protoplastation 3.5h 9.4699 4.1538 2.9372
Protoplastation 1.5h 8.6853 6.7574 4.7782

General data

Systematic name GIN4
Protein id CopciAB_397547.T0
Description Serine/Threonine protein kinases, catalytic domain

Annotation summary

0 200 400 600 800 944

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd14081 STKc_BRSK1_2 - 24 294
Pfam PF00069 Protein kinase domain IPR000719 27 294

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
IPR011009 Protein kinase-like domain superfamily
IPR008271 Serine/threonine-protein kinase, active site

GO

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

KEGG

KEGG Orthology
K02515
K06668
K18679
K18680

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_397547 across fungi.

Arrow shows the origin of gene family containing CopciAB_397547.

Protein

Sequence id CopciAB_397547.T0
Sequence >CopciAB_397547.T0
MADPPRTPFSFHSTKTVRDPKSIGLWTVGRTIGKGASGRVRIARHAKTGQYAAIKIISKSTLPPMMSQVSLNRLA
DVTEHVQLSVEREIVVMKLINHPNIMKLYDVWETSTDLYLVLEYVQGGELFDYLCSKGRLPVHEALLYFQQIISA
VDYCHRFNIAHRDLKPENILLDENSNIKIADFGMAAWQSNPDAETLRTSCGSPHYAAPEIINGQPYNGAAADIWS
CGIILHALLVGKLPFDDDDCPALLEKILRAKFTMPTDIPASAQNLLGRMLEKDVKKRITMAEIMEHPFFLSQDPP
KVDYALPDLESIAQPVPSVSALDPDIFANLRTLWHGTSDAVLIDSLINNERNWQKGIYHLLVDYRSRNPQVYDED
EQAVAKLHKERKRRRQQRKPVQNDGDADDIPPRAAPPTPRSASRHNRLGIDLSFDELLPHAKSSSSSLSERNETS
RPTHLQPPPMSTQRSSDSTTSEGASVSSTTATTTTATSSSLLTPFSPLWETLDLPKLTVPNTQDREMQTFFNHIV
THLNVLQAKTASSDISTWGASSSLGSAASGGGSESGTIKSGRSGLSASSAAVPNARMTSARKTGVDHEDGFFRPS
RHSSPRLDSSLIAPIQQKGKGKEKASLHLPEEGDEDDEDSLGEVEGRQQLGASTVEALRYTETQPLSVRSHSRRA
LYPVTPSRTTNKENEDVPLDAYRSNLTRQALANHAKRNLSTPKAITIVEPQPVSQRKHIRQGSRKPPQTPLSALS
PLDNRGVGGLSSSSAYAHGYTSPPPHPSSTATPKRTWIDTVFKPKAPNYTLYSRRGVQETRNECRRLLMDLDLLV
SIEENERMGVLKCRSIEIQDPFRVHNVPKAIRFRVEGQRAPYNLVQSGITMSLSFYHEKGSFEAFQDIYHSLRAR
WDMDKVESVAEGDEDEMEGMTKLASGLSALSTRAIGGRPASQAY
Length 944

Coding

Sequence id CopciAB_397547.T0
Sequence >CopciAB_397547.T0
ATGGCTGACCCTCCACGCACACCGTTCTCATTTCATTCAACGAAAACCGTTCGGGACCCCAAGTCGATTGGGCTA
TGGACAGTAGGGAGGACGATTGGGAAGGGTGCCTCAGGTCGCGTTAGGATTGCGCGTCATGCAAAGACAGGCCAA
TACGCAGCAATCAAAATCATCTCAAAGAGCACCCTTCCGCCCATGATGTCCCAAGTTTCCCTGAACCGCCTGGCA
GACGTCACAGAGCATGTTCAGCTCTCTGTAGAGCGAGAGATCGTTGTTATGAAACTCATCAACCACCCCAACATC
ATGAAGCTCTACGACGTTTGGGAAACGTCCACGGATCTCTACCTAGTCTTGGAATACGTTCAGGGTGGCGAACTG
TTCGACTACCTCTGTTCCAAGGGACGACTGCCGGTCCACGAGGCCCTCTTATACTTCCAGCAAATCATATCTGCA
GTCGACTATTGCCATCGTTTTAATATTGCGCATCGGGACTTAAAACCGGAGAACATCCTACTCGACGAGAACTCG
AACATTAAGATTGCGGATTTTGGTATGGCAGCATGGCAGAGCAACCCAGACGCCGAAACACTTCGCACGTCTTGC
GGGAGTCCACATTACGCCGCCCCGGAGATCATCAACGGCCAGCCATACAACGGTGCAGCCGCCGATATCTGGTCC
TGCGGCATCATCCTTCACGCTCTGTTGGTCGGCAAACTCCCATTCGACGACGACGATTGTCCCGCCCTTCTCGAA
AAGATTCTACGCGCCAAGTTCACCATGCCCACGGATATCCCGGCTTCCGCGCAGAACCTATTGGGCCGCATGTTG
GAGAAGGATGTCAAGAAGAGGATCACCATGGCCGAGATCATGGAACATCCTTTTTTCCTGTCCCAGGACCCGCCA
AAGGTCGACTATGCGCTCCCAGACCTCGAAAGCATCGCTCAACCTGTCCCAAGCGTCTCAGCCCTCGATCCAGAC
ATATTTGCCAACCTCCGTACCCTCTGGCACGGAACGAGCGACGCCGTCCTCATTGACAGCCTCATTAACAACGAG
CGAAACTGGCAAAAGGGCATCTACCACCTACTCGTTGACTATCGATCCCGCAATCCGCAGGTGTACGACGAAGAC
GAGCAAGCCGTTGCGAAACTTCACAAGGAACGGAAACGTCGACGACAGCAACGTAAGCCTGTACAGAATGACGGG
GATGCCGATGACATCCCTCCTCGTGCAGCTCCTCCCACACCTCGCAGCGCTTCCCGACACAACCGGCTTGGAATC
GACCTCTCCTTCGATGAACTACTACCCCATGCCAAGTCTTCATCATCGTCCCTATCAGAACGAAATGAAACATCC
CGTCCGACTCATCTCCAACCCCCTCCAATGTCTACCCAACGCAGCTCAGACTCTACCACTTCTGAAGGAGCATCT
GTCAGTAGCACAACGGCCACCACCACCACCGCAACCAGCTCATCCCTCCTCACCCCTTTCTCTCCGCTCTGGGAA
ACCCTAGATCTACCCAAACTTACGGTTCCCAACACACAAGACCGCGAGATGCAAACCTTTTTCAATCACATCGTG
ACGCATCTCAATGTTCTCCAAGCCAAGACGGCTTCTTCAGATATCAGCACATGGGGTGCCTCGTCTTCTTTGGGT
TCGGCGGCTTCAGGTGGAGGTAGTGAGAGTGGCACGATCAAGAGTGGGAGGAGTGGTTTAAGCGCTTCGAGTGCA
GCCGTGCCTAACGCGAGGATGACGTCGGCTAGGAAGACGGGAGTGGATCACGAAGACGGGTTCTTTCGACCATCC
CGACATTCTTCGCCGAGATTGGATTCATCTCTCATTGCCCCTATCCAGCAGAAAGGTAAAGGGAAGGAGAAGGCG
AGCTTGCATTTGCCGGAGGAAGGCGACGAAGATGATGAGGATTCACTTGGCGAGGTTGAAGGACGACAGCAGTTG
GGAGCTTCCACCGTGGAAGCGCTTCGGTACACCGAGACACAACCGCTCAGCGTGCGAAGCCATTCCCGACGGGCT
CTGTACCCTGTGACGCCCAGCCGCACCACCAACAAGGAGAACGAAGATGTCCCATTGGATGCCTACCGAAGTAAT
CTGACGAGGCAGGCTCTCGCCAACCACGCAAAGCGGAACCTTTCTACACCCAAAGCGATTACGATCGTCGAACCT
CAACCAGTCTCCCAACGCAAACACATCAGGCAAGGGAGTCGCAAACCCCCTCAAACACCATTGTCTGCTCTGTCA
CCTCTAGACAACAGAGGGGTGGGAGGTCTGTCATCAAGCAGCGCTTACGCCCACGGTTACACTTCCCCACCTCCA
CATCCCTCTTCCACCGCGACTCCCAAACGCACCTGGATCGACACAGTCTTTAAACCGAAAGCACCCAACTACACG
CTCTACTCCCGTCGTGGCGTGCAAGAAACGCGCAATGAATGCCGCAGGCTGCTCATGGACCTCGACCTTCTCGTC
TCCATCGAGGAGAACGAGCGGATGGGCGTCCTGAAATGCCGCTCGATTGAAATTCAGGACCCTTTCCGGGTACAC
AACGTGCCCAAAGCTATCCGGTTCCGAGTAGAAGGTCAGAGGGCACCTTACAATCTGGTGCAGTCGGGGATCACA
ATGTCGTTGTCCTTCTATCATGAGAAGGGGTCCTTTGAGGCGTTTCAGGATATCTATCACTCGTTAAGGGCGAGA
TGGGATATGGACAAGGTTGAGTCGGTGGCGGAAGGAGATGAAGATGAGATGGAGGGGATGACGAAGCTAGCGAGT
GGTTTGTCTGCACTTTCGACGAGGGCCATTGGGGGACGGCCTGCGAGTCAGGCGTATTGA
Length 2835

Transcript

Sequence id CopciAB_397547.T0
Sequence >CopciAB_397547.T0
ACCTCGTCAGCCATTAGAAATGTCATGTTATAAACCTGTACCGGTCGACACCGTTGCGCGACCTTCGACCGGACG
TTTCGTCCTCAGGAATCATGGCTGACCCTCCACGCACACCGTTCTCATTTCATTCAACGAAAACCGTTCGGGACC
CCAAGTCGATTGGGCTATGGACAGTAGGGAGGACGATTGGGAAGGGTGCCTCAGGTCGCGTTAGGATTGCGCGTC
ATGCAAAGACAGGCCAATACGCAGCAATCAAAATCATCTCAAAGAGCACCCTTCCGCCCATGATGTCCCAAGTTT
CCCTGAACCGCCTGGCAGACGTCACAGAGCATGTTCAGCTCTCTGTAGAGCGAGAGATCGTTGTTATGAAACTCA
TCAACCACCCCAACATCATGAAGCTCTACGACGTTTGGGAAACGTCCACGGATCTCTACCTAGTCTTGGAATACG
TTCAGGGTGGCGAACTGTTCGACTACCTCTGTTCCAAGGGACGACTGCCGGTCCACGAGGCCCTCTTATACTTCC
AGCAAATCATATCTGCAGTCGACTATTGCCATCGTTTTAATATTGCGCATCGGGACTTAAAACCGGAGAACATCC
TACTCGACGAGAACTCGAACATTAAGATTGCGGATTTTGGTATGGCAGCATGGCAGAGCAACCCAGACGCCGAAA
CACTTCGCACGTCTTGCGGGAGTCCACATTACGCCGCCCCGGAGATCATCAACGGCCAGCCATACAACGGTGCAG
CCGCCGATATCTGGTCCTGCGGCATCATCCTTCACGCTCTGTTGGTCGGCAAACTCCCATTCGACGACGACGATT
GTCCCGCCCTTCTCGAAAAGATTCTACGCGCCAAGTTCACCATGCCCACGGATATCCCGGCTTCCGCGCAGAACC
TATTGGGCCGCATGTTGGAGAAGGATGTCAAGAAGAGGATCACCATGGCCGAGATCATGGAACATCCTTTTTTCC
TGTCCCAGGACCCGCCAAAGGTCGACTATGCGCTCCCAGACCTCGAAAGCATCGCTCAACCTGTCCCAAGCGTCT
CAGCCCTCGATCCAGACATATTTGCCAACCTCCGTACCCTCTGGCACGGAACGAGCGACGCCGTCCTCATTGACA
GCCTCATTAACAACGAGCGAAACTGGCAAAAGGGCATCTACCACCTACTCGTTGACTATCGATCCCGCAATCCGC
AGGTGTACGACGAAGACGAGCAAGCCGTTGCGAAACTTCACAAGGAACGGAAACGTCGACGACAGCAACGTAAGC
CTGTACAGAATGACGGGGATGCCGATGACATCCCTCCTCGTGCAGCTCCTCCCACACCTCGCAGCGCTTCCCGAC
ACAACCGGCTTGGAATCGACCTCTCCTTCGATGAACTACTACCCCATGCCAAGTCTTCATCATCGTCCCTATCAG
AACGAAATGAAACATCCCGTCCGACTCATCTCCAACCCCCTCCAATGTCTACCCAACGCAGCTCAGACTCTACCA
CTTCTGAAGGAGCATCTGTCAGTAGCACAACGGCCACCACCACCACCGCAACCAGCTCATCCCTCCTCACCCCTT
TCTCTCCGCTCTGGGAAACCCTAGATCTACCCAAACTTACGGTTCCCAACACACAAGACCGCGAGATGCAAACCT
TTTTCAATCACATCGTGACGCATCTCAATGTTCTCCAAGCCAAGACGGCTTCTTCAGATATCAGCACATGGGGTG
CCTCGTCTTCTTTGGGTTCGGCGGCTTCAGGTGGAGGTAGTGAGAGTGGCACGATCAAGAGTGGGAGGAGTGGTT
TAAGCGCTTCGAGTGCAGCCGTGCCTAACGCGAGGATGACGTCGGCTAGGAAGACGGGAGTGGATCACGAAGACG
GGTTCTTTCGACCATCCCGACATTCTTCGCCGAGATTGGATTCATCTCTCATTGCCCCTATCCAGCAGAAAGGTA
AAGGGAAGGAGAAGGCGAGCTTGCATTTGCCGGAGGAAGGCGACGAAGATGATGAGGATTCACTTGGCGAGGTTG
AAGGACGACAGCAGTTGGGAGCTTCCACCGTGGAAGCGCTTCGGTACACCGAGACACAACCGCTCAGCGTGCGAA
GCCATTCCCGACGGGCTCTGTACCCTGTGACGCCCAGCCGCACCACCAACAAGGAGAACGAAGATGTCCCATTGG
ATGCCTACCGAAGTAATCTGACGAGGCAGGCTCTCGCCAACCACGCAAAGCGGAACCTTTCTACACCCAAAGCGA
TTACGATCGTCGAACCTCAACCAGTCTCCCAACGCAAACACATCAGGCAAGGGAGTCGCAAACCCCCTCAAACAC
CATTGTCTGCTCTGTCACCTCTAGACAACAGAGGGGTGGGAGGTCTGTCATCAAGCAGCGCTTACGCCCACGGTT
ACACTTCCCCACCTCCACATCCCTCTTCCACCGCGACTCCCAAACGCACCTGGATCGACACAGTCTTTAAACCGA
AAGCACCCAACTACACGCTCTACTCCCGTCGTGGCGTGCAAGAAACGCGCAATGAATGCCGCAGGCTGCTCATGG
ACCTCGACCTTCTCGTCTCCATCGAGGAGAACGAGCGGATGGGCGTCCTGAAATGCCGCTCGATTGAAATTCAGG
ACCCTTTCCGGGTACACAACGTGCCCAAAGCTATCCGGTTCCGAGTAGAAGGTCAGAGGGCACCTTACAATCTGG
TGCAGTCGGGGATCACAATGTCGTTGTCCTTCTATCATGAGAAGGGGTCCTTTGAGGCGTTTCAGGATATCTATC
ACTCGTTAAGGGCGAGATGGGATATGGACAAGGTTGAGTCGGTGGCGGAAGGAGATGAAGATGAGATGGAGGGGA
TGACGAAGCTAGCGAGTGGTTTGTCTGCACTTTCGACGAGGGCCATTGGGGGACGGCCTGCGAGTCAGGCGTATT
GAGCGGACACTCGACTTTTGGTATGCGATTTGTGGATTTTTCCCGGGATGTGGGATGATATTGTCTTGCCGATCC
GTACAAGTTTCCGGGCTGCTTAGTTTACCGTCTTGCCGACGACCAGTGTAGCGTGCTCTACCTCCGGCTACTAGT
ATTACTCTTCCAAGTATCTACATGTGCTGCTTGTCAATGTATAGCTAAGCCAGG
Length 3129

Gene

Sequence id CopciAB_397547.T0
Sequence >CopciAB_397547.T0
ACCTCGTCAGCCATTAGAAATGTCATGTTATAAACCTGTACCGGTCGACACCGTTGCGCGACCTTCGACCGGACG
TTTCGTCCTCAGGAATCATGGCTGACCCTCCACGCACACCGTTCTCATTTCATTCAACGAAAACCGTTCGGGACC
CCAAGTCGATTGGGCTATGGACAGTAGGGAGGACGATTGGGAAGGGTGCCTCAGGTAAGACACCCAGGTTTTATA
GGCTTAATACAGTAGAAATGAACGCAACTTCTAGGTCGCGTTAGGATTGCGCGTCATGCAAAGACAGGCCAATAC
GCAGCAATCAAAATCATCTCAAAGAGCACCCTTCCGCCCATGATGTCCCAAGTTTCCCTGAACCGCCTGGCAGAC
GTCACAGAGCATGTTCAGCTCTCTGTAGAGCGAGAGATCGTTGTTATGAAACTCATCAACCACCCCAACATCATG
AAGCTCTACGACGTTTGGGAAACGTCCACGGATCTCTACCTAGTCTTGGAATACGTTCAGGGTGGCGAACTGTTC
GACTACCTCTGTTCCAAGGGACGACTGCCGGTCCACGAGGCCCTCTTATACTTCCAGCAAATCATATCTGCAGTC
GACTATTGCCATCGTTTTAATATTGCGCATCGGGACTTAAAACCGGAGAACATCCTACTCGACGAGAACTCGAAC
ATTAAGATTGCGGATTTTGGTATGGCAGCATGGCAGAGCAACCCAGACGCCGAAACACTTCGCACGTCTTGCGGG
AGTCCACATTACGCCGCCCCGGAGATCATCAACGGCCAGCCATACAACGGTGCAGCCGCCGATATCTGGTCCTGC
GGCATCATCCTTCACGCTCTGTTGGTCGGCAAACTCCCATTCGACGACGACGATTGTCCCGCCCTTCTCGAAAAG
ATTCTACGCGCCAAGTTCACCATGCCCACGGATATCCCGGCTTCCGCGCAGAACCTATTGGGCCGCATGTTGGAG
AAGGATGTCAAGAAGAGGATCACCATGGCCGAGATCATGGAACATCCTTTTTTCCTGTCCCAGGACCCGCCAAAG
GTCGACTATGCGCTCCCAGACCTCGAAAGCATCGCTCAACCTGTCCCAAGCGTCTCAGCCCTCGATCCAGACATA
TTTGCCAACCTCCGTACCCTCTGGCACGGAACGAGCGACGCCGTCCTCATTGACAGCCTCATTAACAACGAGCGA
AACTGGCAAAAGGGCATCTACCACCTACTCGTTGACTATCGATCCCGCAATCCGCAGGTGTACGACGAAGACGAG
CAAGCCGTTGCGAAACTTCACAAGGAACGGAAACGTCGACGACAGCAACGTAAGCCTGTACAGAATGACGGGGAT
GCCGATGACATCCCTCCTCGTGCAGCTCCTCCCACACCTCGCAGCGCTTCCCGACACAACCGGCTTGGAATCGAC
CTCTCCTTCGATGAACTACTACCCCATGCCAAGTCTTCATCATCGTCCCTATCAGAACGAAATGAAACATCCCGT
CCGACTCATCTCCAACCCCCTCCAATGTCTACCCAACGCAGCTCAGACTCTACCACTTCTGAAGGAGCATCTGTC
AGTAGCACAACGGCCACCACCACCACCGCAACCAGCTCATCCCTCCTCACCCCTTTCTCTCCGCTCTGGGAAACC
CTAGATCTACCCAAACTTACGGTTCCCAACACACAAGACCGCGAGATGCAAACCTTTTTCAATCACATCGTGACG
CATCTCAATGTTCTCCAAGCCAAGACGGCTTCTTCAGATATCAGCACATGGGGTGCCTCGTCTTCTTTGGGTTCG
GCGGCTTCAGGTGGAGGTAGTGAGAGTGGCACGATCAAGAGTGGGAGGAGTGGTTTAAGCGCTTCGAGTGCAGCC
GTGCCTAACGCGAGGATGACGTCGGCTAGGAAGACGGGAGTGGATCACGAAGACGGGTTCTTTCGACCATCCCGA
CATTCTTCGCCGAGATTGGATTCATCTCTCATTGCCCCTATCCAGCAGAAAGGTAAAGGGAAGGAGAAGGCGAGC
TTGCATTTGCCGGAGGAAGGCGACGAAGATGATGAGGATTCACTTGGCGAGGTTGAAGGACGACAGCAGTTGGGA
GCTTCCACCGTGGAAGCGCTTCGGTACACCGAGACACAACCGCTCAGCGTGCGAAGCCATTCCCGACGGGCTCTG
TACCCTGTGACGCCCAGCCGCACCACCAACAAGGAGAACGAAGATGTCCCATTGGATGCCTACCGAAGTAATCTG
ACGAGGCAGGCTCTCGCCAACCACGCAAAGCGGAACCTTTCTACACCCAAAGCGATTACGATCGTCGAACCTCAA
CCAGTCTCCCAACGCAAACACATCAGGCAAGGGAGTCGCAAACCCCCTCAAACACCATTGTCTGCTCTGTCACCT
CTAGACAACAGAGGGGTGGGAGGTCTGTCATCAAGCAGCGCTTACGCCCACGGTTACACTTCCCCACCTCCACAT
CCCTCTTCCACCGCGACTCCCAAACGCACCTGGATCGACACAGTCTTTAAACCGAAAGCACCCAACTACACGCTC
TACTCCCGTCGTGGCGTGCAAGAAACGCGCAATGAATGCCGCAGGCTGCTCATGGACCTCGACCTTCTCGTCTCC
ATCGAGGAGAACGAGCGGATGGGCGTCCTGAAATGCCGCTCGATTGAAATTCAGGACCCTTTCCGGGTACACAAC
GTGCCCAAAGCTATCCGGTTCCGAGTAGAAGGTCAGAGGGCACCTTACAATCTGGTGCAGTCGGGGATCACAATG
TCGTTGTCCTTCTATCATGAGAAGGGGTCCTTTGAGGCGTTTCAGGATATCTATCACTCGTTAAGGGCGAGATGG
GATATGGACAAGGTTGAGTCGGTGGCGGAAGGAGATGAAGATGAGATGGAGGGGATGACGAAGCTAGCGAGTGGT
TTGTCTGCACTTTCGACGAGGGCCATTGGGGGACGGCCTGCGAGTCAGGCGTATTGAGCGGACACTCGACTTTTG
GTATGCGATTTGTGGATTTTTCCCGGGATGTGGGATGATATTGTCTTGCCGATCCGTACAAGTTTCCGGGCTGCT
TAGTTTACCGTCTTGCCGACGACCAGTGTAGCGTGCTCTACCTCCGGCTACTAGTATTACTCTTCCAAGTATCTA
CATGTGCTGCTTGTCAATGTATAGCTAAGCCAGG
Length 3184