CopciAB_511083
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_511083 Strain Coprinopsis cinerea Okayama 7
Standard name IME2 Synonyms 511083
Uniprot id Functional description Serine/Threonine protein kinases, catalytic domain
Location scaffold_1:2730663..2734516 Strand -
Gene length (nt) 3854 Transcript length (nt) 3633
CDS length (nt) 2952 Protein length (aa) 983

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_CAA7265808 62.5 0 1197
Hypsizygus marmoreus strain 51987-8 Hypma_RDB28891 60 0 1141
Pleurotus ostreatus PC15 PleosPC15_2_1092313 56.5 0 1025
Pleurotus ostreatus PC9 PleosPC9_1_95881 56.2 0 1025
Pleurotus eryngii ATCC 90797 Pleery1_1389963 56.3 0 1018
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_197316 54.2 1.103E-304 993
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_51437 54.2 1.149E-304 993
Schizophyllum commune H4-8 Schco3_2489629 54.6 4.045E-304 989
Flammulina velutipes Flave_chr08AA01017 53.3 1.16E-304 970
Ganoderma sp. 10597 SS1 v1.0 Gansp1_147957 50.7 3.637E-291 925
Grifola frondosa Grifr_OBZ79720 49.9 3.754E-284 893
Lentinula edodes W1-26 v1.0 Lentinedodes1_1144 47.3 8.483E-274 863
Auricularia subglabra Aurde3_1_1328068 44 3.759E-236 754
Lentinula edodes NBRC 111202 Lenedo1_1033678 79.8 5.167E-182 595
Lentinula edodes B17 Lened_B_1_1_17972 51.4 1.278E-43 173

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 23.4589 1.5667 0.9045
oidia 28.7928 1.8009 1.0398
vegetative_mycelium 28.374 5.3154 3.0689
primordia 47.2041 3.7279 2.1523
hyphal_knot 35.0926 1.0771 0.6219
young_fruiting_body 64.6238 11.5307 6.6573
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 38.0322 4.5769 2.6425
Wheat bran 10.4399 4.292 2.478
Horse manure 26.593 12.0338 6.9477
Oak leaves 21.1346 11.9278 6.8865
Hay 19.2633 8.4081 4.8544
Corn stalk 21.0969 5.6852 3.2823
Pectine 42.6914 0.4807 0.2775
Microcrystalline cellulose 38.9184 7.9374 4.5827
Xylose 34.5283 9.8547 5.6896
Cellobiose 35.2044 6.2457 3.6059
Lignin 34.652 8.7779 5.0679
Apple peels 35.0017 4.9848 2.878
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 20.2007 1.2963 0.7484
Bsubtilis 17.6911 1.4687 0.8479
Ecoli 22.6859 1.7903 1.0336
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 13.6063 4.9909 2.8815
BS 4h 25.792 1.3091 0.7558
BS 8h 20.6157 6.4201 3.7066
BS 12h 17.2525 2.3458 1.3543
Oidia 0 h 25.5437 2.3774 1.3726
Oidia 18 h 25.5572 3.8311 2.2119
Sclerotia 44.2502 12.6506 7.3038
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 23.4028 4.12 2.3787
DM 36h 19.9743 1.1582 0.6687
DM 60h 23.1244 0.6639 0.3833
DM 84h 17.7894 3.0102 1.738
DM 108h 20.6299 3.1103 1.7957
DM 132h 18.4576 2.6653 1.5388
DM 156hAE 22.9362 0.8573 0.495
ELI1hAE 25.9171 6.0419 3.4883
ELI2hAE 23.9111 2.4161 1.3949
LI2hAE 21.3103 3.4732 2.0053
LI6hAE 22.3336 3.2042 1.8499
LI12hAE 23.8046 1.2056 0.6961
LI18hAE 27.84 1.4315 0.8265
LI 24hAE 21.3081 6.0587 3.498
DM 156hAM 17.5114 4.676 2.6997
ELI1hAM 21.4364 3.3874 1.9557
ELI2hAM 15.9089 2.3365 1.349
LI2hAM 23.681 1.7681 1.0208
LI6hAM 19.2867 1.7133 0.9891
LI12hAM 22.9721 1.8187 1.05
LI18hAM 38.3761 9.8765 5.7022
LI 24hAM 23.9511 7.3262 4.2298
LI 24hHK 21.477 5.2588 3.0362
L/D 6h 39.9476 3.1097 1.7954
L/D 12h 42.2545 3.3408 1.9288
L/D 18h 59.8019 15.2651 8.8133
L/D 24h 68.6725 5.076 2.9307
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 13.8685 4.3946 2.5372
Hyphal knots 25.7812 6.8847 3.9749
Primordium 1 36.7025 3.5787 2.0662
Primordium 2 27.1881 2.5454 1.4696
Young Fruiting body cap 82.5988 2.0916 1.2076
Younf fruiting body gill 30.2042 12.4207 7.1711
Young fruiting body stipe 75.6703 20.7811 11.9979
Mature fruiting body cap_gill 15.3039 0.3714 0.2144
Mature fruiting body stipe 27.8144 9.3801 5.4156
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 12.2945 3.1651 1.8274
NH4NO3 20.2048 3.3205 1.9171
Proline 18.7228 3.519 2.0317
Tryptophan 18.8197 6.6048 3.8133
Isoleucin 22.0585 5.2677 3.0413
Arginine 13.4863 2.047 1.1818
Metionine 14.3344 0.762 0.4399
NaNO3 15.1685 0.8601 0.4966
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 12.2945 3.1651 1.8274
Citrus peel 7.1122 1.2179 0.7031
Poplar leaves 14.5693 2.4929 1.4393
Typha leaves 14.1091 1.5525 0.8963
Overwintered Salix leaves 16.654 2.5149 1.452
Reed flowering 13.7391 0.7077 0.4086
Tigernut 9.7212 2.113 1.2199
Energy cane 13.8719 1.2429 0.7176
Guar gum 18.494 10.3934 6.0006
Apple peels 14.6394 3.0452 1.7582
Cellobiose 20.2424 1.179 0.6807
Corn stalk 18.8668 2.7587 1.5927
Horse manure 12.962 4.7693 2.7535
Lignin 10.1935 6.6347 3.8306
Microcrystalline cellulose 15.0032 1.1266 0.6504
Oak leaves 15.8236 3.9919 2.3047
Pectin esterified 9.7116 2.4448 1.4115
Poplar sawdust 21.9576 3.9238 2.2654
Wheat bran 8.2651 1.9594 1.1313
Chlamydomonas reinhardtii 15.9882 1.3906 0.8029
Vertatryl alcohol 24.0443 3.5677 2.0598
Furfural 12.9449 0.63 0.3637
Autoclaved mycelium 15.0534 0.5962 0.3442
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 25.7313 4.2778 2.4698
Ribose 25.3407 0.6103 0.3524
Mannose 28.1404 0.6744 0.4769
Fructose 28.9402 2.9071 1.6784
Arabinose 31.7247 3.603 2.0802
Xylose 31.0198 1.4761 0.8522
Galacturonic acid 26.2972 1.1473 0.6624
Rhamnogalacturonan 30.0711 1.171 0.6761
Pectin esterified 23.8991 1.0853 0.6266
Polygalacturonic acid 27.3565 2.2314 1.2883
Sodium acetate 25.9009 2.7616 1.5944
No nitrogen 32.0194 4.3387 2.505
BSA 29.0132 1.995 1.1518
Glutamine 31.2329 1.4066 0.8121
No phosphate 24.6001 1.1188 0.6459
No carbon 24.5259 3.2919 2.3277
No sulphur 33.1906 5.8641 3.3856
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 12.2945 3.1651 1.8274
Amylose 14.864 2.6146 1.5095
Fucose 16.1628 1.6022 0.925
Galactose 15.9339 0.8679 0.5011
Lactose 26.2563 3.6226 2.0915
Maltose 25.9378 4.1619 2.4029
Mannitol 28.7906 5.6507 3.2624
Rhamnose 19.2986 4.1741 2.4099
Sorbitol 20.6248 1.9044 1.0995
Trehalose 18.454 8.5893 4.9591
Glycerol 18.3704 3.7188 2.147
Glucuronic acid 23.0262 0.9748 0.5628
Arabinan 12.9768 6.0385 3.4863
Galactan 14.3265 3.1689 1.8296
Galactomannan 10.8309 2.5366 1.4645
Glucan 15.0188 2.3808 1.3745
Xylan 16.7046 1.3252 0.7651
Xyloglucan 19.6706 2.6095 1.5066
Arabinogalactan 18.1732 0.4463 0.2577
Pectin 7.1104 2.7948 1.6136
Rhamnogalacturonan 6.0571 2.7284 1.5752
Polygalacturonic acid 17.0002 2.1429 1.2372
Mannan 16.6691 1.9836 1.1453
Amylopectin 11.7905 1.0761 0.6213
Inulin 20.1246 1.7982 1.0382
BSA 13.6742 2.5067 1.4472
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 23.1244 0.6639 0.3833
2h WAT 16.6802 2.0282 1.171
4h WAT 17.7931 2.6755 1.5447
8h WAT 22.084 1.7107 0.9877
16h WAT 22.0751 0.8183 0.4724
24h WAT 22.0697 2.6635 1.5378
WAT hyphal knot -30h 29.9437 4.3412 2.5064
WAT hyphal knot -22h 26.6775 2.5514 1.473
WAT hyphal knot -15h 23.3008 3.8965 2.2496
WAT hyphal knot -7.5h 22.0054 4.5093 2.6034
WAT hyphal knot 23.3728 0.7027 0.4057
WAT hyphal knot +7.5h 19.1316 2.7554 1.5908
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 13.9279 5.8265 3.3639
Straw 3h 12.137 4.7868 2.7637
Straw 6h 9.5586 5.2329 3.0212
Straw 12h 16.0757 3.0435 1.7572
Straw 24h 13.958 5.0653 2.9244
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 9.7347 1.1353 0.6554
Frost (-20C, 30min) 16.2039 1.4112 0.8148
Heat shock (47C, 2h) 23.9172 0.9727 0.5616
High CO2 16.7374 1.2176 0.703
Drought (4% agar, 12h) 16.5775 3.1943 1.8442
Oxidative (1mM H2O2, 3h) 11.2507 1.5524 0.8963
Acidic (pH4, 3h) 10.4716 4.1688 2.4068
Alkaline (pH9, 3h) 9.0988 1.2759 0.7367
Osmotic (sorbitol 2h) 7.2879 1.247 0.72
CongoRed (3h) 10.0321 1.073 0.6195
Cobalt chloride control 17.8126 0.9796 0.5656
Cobalt chloride 2mM 16.5576 1.9023 1.0983
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 10.9356 8.842 5.1049
Cold stimulation 16.5273 4.2557 2.457
Scratched surface 17.31 3.7977 2.1926
Ca2+, 200mM, 24h 14.708 1.586 0.9157
Cu2+, 2mM, 6h 12.89 3.3037 1.9074
Voriconazole 14.8132 2.3567 1.3606
Trichoderma interaction, early 21.3268 5.6094 3.2386
Trichoderma interaction 60h 16.6903 1.4929 0.8619
Cobalt chloride 2mM repeat 26.6199 4.7749 2.7568
Hypoxia 17.9403 3.2379 1.8694
Hypoxia control 16.9544 0.9036 0.5217
Protoplastation control 16.9699 2.7911 1.9736
Protoplastation 3.5h 24.0398 0.0701 0.0496
Protoplastation 1.5h 14.4966 2.933 2.0739

General data

Systematic name IME2
Protein id CopciAB_511083.T0
Description Serine/Threonine protein kinases, catalytic domain

Annotation summary

0 200 400 600 800 983

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd07830 STKc_MAK_like - 49 392
Pfam PF00069 Protein kinase domain IPR000719 94 392

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

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

GO

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

KEGG

KEGG Orthology
K12765

EggNOG

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

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_511083 across fungi.

Arrow shows the origin of gene family containing CopciAB_511083.

Protein

Sequence id CopciAB_511083.T0
Sequence >CopciAB_511083.T0
MYNNTNANPTRNRQPPLRETITVVGIPSVSIDNDRLVVGSSQTSSTRSYTPIKVLGDGSFGTVWLCDWHTTLPPN
TPLSPMQCGQGARPEWAGKRLVAVKRMKKRWEGGWDECQKLKELESLRAIPFHPNIIPLYDFFLLPTSKELYFVF
ESMEGNLYHLIKARKGRPLAGGLVSSIFQQITLGLDHIHTHGYFHRDMKPENVLVTTVGLFDYTPVSPIAPPNAP
KERDVVTIIKLADFGLARETKSRPPYTEYVSTRWYRAPEVLLLSREYSNPVDLWALGTIMAELVNLRPLFPGSDQ
VDQVARVCEVLGDPAEDYRDNGGNVVGGGQWPHGVSLARDVGFQFPRIEPKDIFSLFDASVPRSLIQCIRDLLRW
DPAKRLTSKQCLDHLYLRETIHRNNIPMPSGLRAASVSQTSIPMMSSHLNGSSSHPSLSSHTPRNVPPSHSNSAH
HVRPPPVPSHFPEVPPPQNSQPTPLPSVPHQPIPLHAQNGRRPHPIVGWTGPSPQPASDYPMDTSPSEPYANGHA
NNGHSEHHPPAGHSMPPPKSLKLGPFGKKSSRWALGIFGSEKSHQLPPVDEVTTTALGTRKRSQSSSTDGKSVRD
LSPERPQDLREVQKQQKKEAERINREAEKERRKLAEKMAREQARAVMSKRNRMLREAVGEDIDWSGGNQERVVDK
GTKQASSGPIRQKSMGNLGNSTLHAASGKYSEPPAPPVSFDRYRDWRGTGERVAKARRREYDDDHSMSSSDVHSL
SRVSSISFATVDSDPGPSRLRHHSSFHHAASSRTSRSSLRTSFDDFSPSARSSNSFSLEGSSSLAHEFGAHLNVN
PHISGSVSPPPLHMLSLSPTLSPPLSPNPPWIQVQDIKENGLGGQSPPYITLQNRQFSPSPHSPLDIHNYLQQPP
SPFNNPSAPAQPPTTGQTPRSANSAINPIFKVPLPPPPLPSLPLPAGQPLSSTSLTNKLPPFSQLEAVAGGEISP
TSPMFADP
Length 983

Coding

Sequence id CopciAB_511083.T0
Sequence >CopciAB_511083.T0
ATGTACAACAACACAAATGCCAATCCCACACGCAATAGGCAGCCCCCACTTAGAGAGACTATCACCGTCGTCGGC
ATCCCCAGCGTCTCTATCGACAATGATCGTCTCGTCGTTGGCTCCTCCCAGACCAGCTCTACACGGTCCTATACA
CCCATCAAAGTCCTGGGGGATGGCTCTTTTGGCACCGTCTGGCTCTGCGACTGGCATACAACCTTGCCCCCAAAC
ACACCCCTGTCCCCGATGCAATGCGGCCAAGGCGCTCGACCAGAATGGGCGGGGAAAAGGCTCGTGGCCGTCAAG
CGTATGAAGAAGCGGTGGGAAGGAGGCTGGGACGAGTGTCAGAAATTGAAGGAACTCGAGTCGTTACGCGCAATT
CCTTTTCATCCAAACATCATTCCTCTCTACGACTTTTTCCTGTTGCCGACATCCAAAGAACTTTATTTCGTCTTC
GAGTCCATGGAGGGCAACCTGTATCACCTCATCAAGGCGCGCAAAGGCCGACCGCTTGCTGGAGGGCTTGTGTCC
TCAATTTTCCAACAAATTACGCTGGGACTCGACCACATTCATACACATGGCTACTTTCATCGAGATATGAAGCCG
GAGAACGTTCTCGTCACGACTGTCGGTCTTTTTGATTACACGCCGGTTTCCCCAATCGCGCCCCCAAATGCACCA
AAGGAGAGGGATGTCGTTACCATTATCAAACTGGCTGATTTTGGTCTCGCAAGGGAGACGAAGAGCCGTCCACCA
TACACCGAATACGTGTCGACGCGATGGTATCGGGCCCCGGAGGTCCTCCTCCTCAGCCGCGAGTACTCCAATCCA
GTCGACTTGTGGGCATTGGGAACGATCATGGCCGAACTAGTCAACCTCAGGCCACTTTTCCCCGGTTCAGATCAA
GTGGATCAAGTTGCTAGAGTTTGCGAGGTATTAGGAGATCCAGCGGAGGACTATAGAGACAATGGTGGGAATGTT
GTTGGAGGCGGTCAGTGGCCACACGGGGTTTCCTTAGCGAGAGACGTCGGATTCCAATTTCCAAGAATTGAGCCA
AAGGATATTTTCTCGCTCTTCGACGCATCCGTGCCGCGCTCTTTAATCCAATGCATTCGTGATCTACTTCGGTGG
GATCCTGCCAAACGACTGACCAGCAAGCAATGTCTTGACCACCTGTATCTCCGCGAAACAATCCATCGCAACAAC
ATTCCAATGCCTTCAGGACTTAGGGCGGCCTCCGTGTCACAAACCTCAATCCCGATGATGTCGTCCCACCTCAAC
GGCTCTTCCTCGCACCCATCATTATCCTCGCACACTCCACGCAATGTACCTCCTTCACATTCAAATTCCGCACAT
CATGTCCGCCCTCCACCCGTACCGTCGCACTTCCCGGAAGTCCCGCCTCCACAGAACTCACAACCTACACCCTTA
CCTTCCGTTCCACATCAGCCGATTCCTCTACATGCTCAGAATGGTCGCCGACCACACCCTATTGTTGGGTGGACA
GGACCCTCACCTCAACCTGCATCGGACTATCCCATGGACACATCACCATCGGAACCTTATGCTAATGGTCACGCT
AATAACGGACACTCAGAGCATCATCCACCAGCCGGGCATTCCATGCCCCCACCCAAGTCACTCAAACTTGGTCCG
TTCGGGAAAAAATCGAGCAGATGGGCGCTTGGAATCTTTGGGAGTGAAAAGTCGCACCAATTACCTCCTGTGGAC
GAAGTCACTACGACTGCGCTTGGAACACGCAAACGTTCACAGTCGTCGAGTACAGATGGCAAATCTGTGCGCGAC
CTGTCTCCTGAACGACCCCAGGATCTTCGAGAGGTTCAGAAGCAACAGAAGAAGGAAGCCGAGCGTATCAACCGC
GAGGCTGAGAAGGAGCGTCGTAAACTTGCAGAGAAGATGGCCCGAGAACAAGCTCGGGCAGTCATGTCCAAACGT
AACCGGATGCTTCGGGAAGCCGTTGGAGAGGATATCGACTGGTCTGGTGGAAATCAGGAGCGTGTGGTCGACAAG
GGGACCAAGCAAGCATCGTCTGGTCCTATCCGGCAGAAAAGCATGGGGAACCTCGGCAATTCTACCCTCCATGCA
GCTTCTGGAAAATACTCTGAGCCCCCAGCTCCTCCTGTCAGCTTTGACCGGTACCGTGATTGGAGGGGAACAGGT
GAGCGTGTCGCGAAAGCTCGCAGACGCGAGTACGACGACGATCATTCGATGTCTTCGTCGGATGTTCACAGTCTC
AGTCGGGTATCTTCAATATCTTTCGCTACTGTGGATAGCGATCCGGGCCCATCACGCCTACGGCACCACTCGAGC
TTCCACCATGCCGCCAGCTCACGGACATCTCGGTCATCATTGCGCACTTCATTTGATGATTTTTCCCCCTCTGCT
CGGTCATCTAATTCCTTCTCCCTTGAAGGGTCCTCATCTCTTGCTCATGAATTCGGTGCTCATCTCAACGTCAAC
CCTCACATATCCGGGAGCGTGTCCCCACCGCCACTTCACATGCTGTCCCTCTCCCCCACATTATCCCCGCCGCTT
TCACCCAACCCACCCTGGATTCAGGTGCAAGACATCAAAGAGAACGGGTTAGGTGGACAGTCCCCACCGTATATT
ACTCTACAGAATCGTCAATTCAGCCCCAGCCCGCACAGTCCTTTGGACATACACAACTACCTGCAGCAACCACCC
AGCCCTTTCAATAACCCTTCCGCACCTGCTCAACCGCCAACCACGGGGCAGACTCCGCGATCCGCAAACTCGGCC
ATAAACCCAATATTCAAAGTCCCCTTACCTCCCCCTCCACTACCTTCATTACCGCTCCCTGCCGGCCAACCTCTG
AGTTCTACATCCCTGACTAATAAGTTACCGCCCTTTTCTCAGTTGGAGGCTGTTGCAGGGGGCGAAATATCTCCG
ACTTCGCCCATGTTTGCGGACCCTTGA
Length 2952

Transcript

Sequence id CopciAB_511083.T0
Sequence >CopciAB_511083.T0
CCTTTTCTCTGCTGTCCTTCTTACACACATGTCCCTCTGACTGCCGGTCTCGACGACGAAGACGACGACGACAAC
CACAGGACGAACTGGCCGATGCCAGCCGTGTCATGTACAACAACACAAATGCCAATCCCACACGCAATAGGCAGC
CCCCACTTAGAGAGACTATCACCGTCGTCGGCATCCCCAGCGTCTCTATCGACAATGATCGTCTCGTCGTTGGCT
CCTCCCAGACCAGCTCTACACGGTCCTATACACCCATCAAAGTCCTGGGGGATGGCTCTTTTGGCACCGTCTGGC
TCTGCGACTGGCATACAACCTTGCCCCCAAACACACCCCTGTCCCCGATGCAATGCGGCCAAGGCGCTCGACCAG
AATGGGCGGGGAAAAGGCTCGTGGCCGTCAAGCGTATGAAGAAGCGGTGGGAAGGAGGCTGGGACGAGTGTCAGA
AATTGAAGGAACTCGAGTCGTTACGCGCAATTCCTTTTCATCCAAACATCATTCCTCTCTACGACTTTTTCCTGT
TGCCGACATCCAAAGAACTTTATTTCGTCTTCGAGTCCATGGAGGGCAACCTGTATCACCTCATCAAGGCGCGCA
AAGGCCGACCGCTTGCTGGAGGGCTTGTGTCCTCAATTTTCCAACAAATTACGCTGGGACTCGACCACATTCATA
CACATGGCTACTTTCATCGAGATATGAAGCCGGAGAACGTTCTCGTCACGACTGTCGGTCTTTTTGATTACACGC
CGGTTTCCCCAATCGCGCCCCCAAATGCACCAAAGGAGAGGGATGTCGTTACCATTATCAAACTGGCTGATTTTG
GTCTCGCAAGGGAGACGAAGAGCCGTCCACCATACACCGAATACGTGTCGACGCGATGGTATCGGGCCCCGGAGG
TCCTCCTCCTCAGCCGCGAGTACTCCAATCCAGTCGACTTGTGGGCATTGGGAACGATCATGGCCGAACTAGTCA
ACCTCAGGCCACTTTTCCCCGGTTCAGATCAAGTGGATCAAGTTGCTAGAGTTTGCGAGGTATTAGGAGATCCAG
CGGAGGACTATAGAGACAATGGTGGGAATGTTGTTGGAGGCGGTCAGTGGCCACACGGGGTTTCCTTAGCGAGAG
ACGTCGGATTCCAATTTCCAAGAATTGAGCCAAAGGATATTTTCTCGCTCTTCGACGCATCCGTGCCGCGCTCTT
TAATCCAATGCATTCGTGATCTACTTCGGTGGGATCCTGCCAAACGACTGACCAGCAAGCAATGTCTTGACCACC
TGTATCTCCGCGAAACAATCCATCGCAACAACATTCCAATGCCTTCAGGACTTAGGGCGGCCTCCGTGTCACAAA
CCTCAATCCCGATGATGTCGTCCCACCTCAACGGCTCTTCCTCGCACCCATCATTATCCTCGCACACTCCACGCA
ATGTACCTCCTTCACATTCAAATTCCGCACATCATGTCCGCCCTCCACCCGTACCGTCGCACTTCCCGGAAGTCC
CGCCTCCACAGAACTCACAACCTACACCCTTACCTTCCGTTCCACATCAGCCGATTCCTCTACATGCTCAGAATG
GTCGCCGACCACACCCTATTGTTGGGTGGACAGGACCCTCACCTCAACCTGCATCGGACTATCCCATGGACACAT
CACCATCGGAACCTTATGCTAATGGTCACGCTAATAACGGACACTCAGAGCATCATCCACCAGCCGGGCATTCCA
TGCCCCCACCCAAGTCACTCAAACTTGGTCCGTTCGGGAAAAAATCGAGCAGATGGGCGCTTGGAATCTTTGGGA
GTGAAAAGTCGCACCAATTACCTCCTGTGGACGAAGTCACTACGACTGCGCTTGGAACACGCAAACGTTCACAGT
CGTCGAGTACAGATGGCAAATCTGTGCGCGACCTGTCTCCTGAACGACCCCAGGATCTTCGAGAGGTTCAGAAGC
AACAGAAGAAGGAAGCCGAGCGTATCAACCGCGAGGCTGAGAAGGAGCGTCGTAAACTTGCAGAGAAGATGGCCC
GAGAACAAGCTCGGGCAGTCATGTCCAAACGTAACCGGATGCTTCGGGAAGCCGTTGGAGAGGATATCGACTGGT
CTGGTGGAAATCAGGAGCGTGTGGTCGACAAGGGGACCAAGCAAGCATCGTCTGGTCCTATCCGGCAGAAAAGCA
TGGGGAACCTCGGCAATTCTACCCTCCATGCAGCTTCTGGAAAATACTCTGAGCCCCCAGCTCCTCCTGTCAGCT
TTGACCGGTACCGTGATTGGAGGGGAACAGGTGAGCGTGTCGCGAAAGCTCGCAGACGCGAGTACGACGACGATC
ATTCGATGTCTTCGTCGGATGTTCACAGTCTCAGTCGGGTATCTTCAATATCTTTCGCTACTGTGGATAGCGATC
CGGGCCCATCACGCCTACGGCACCACTCGAGCTTCCACCATGCCGCCAGCTCACGGACATCTCGGTCATCATTGC
GCACTTCATTTGATGATTTTTCCCCCTCTGCTCGGTCATCTAATTCCTTCTCCCTTGAAGGGTCCTCATCTCTTG
CTCATGAATTCGGTGCTCATCTCAACGTCAACCCTCACATATCCGGGAGCGTGTCCCCACCGCCACTTCACATGC
TGTCCCTCTCCCCCACATTATCCCCGCCGCTTTCACCCAACCCACCCTGGATTCAGGTGCAAGACATCAAAGAGA
ACGGGTTAGGTGGACAGTCCCCACCGTATATTACTCTACAGAATCGTCAATTCAGCCCCAGCCCGCACAGTCCTT
TGGACATACACAACTACCTGCAGCAACCACCCAGCCCTTTCAATAACCCTTCCGCACCTGCTCAACCGCCAACCA
CGGGGCAGACTCCGCGATCCGCAAACTCGGCCATAAACCCAATATTCAAAGTCCCCTTACCTCCCCCTCCACTAC
CTTCATTACCGCTCCCTGCCGGCCAACCTCTGAGTTCTACATCCCTGACTAATAAGTTACCGCCCTTTTCTCAGT
TGGAGGCTGTTGCAGGGGGCGAAATATCTCCGACTTCGCCCATGTTTGCGGACCCTTGATCCTTTTCTCTTTGGC
ATTGGTTGTTTATTTTGGGTTTTATCTTTTTTATTATTTTTCTTTCTTTTGGTTCTTCTGCCACGCGACCTATCA
TAGACGTTTGTTGTCTTGCTGCCACTGCCCGTCGCCCTTCCACCTCCTGCCTACGGACCACACTCGTTTGATTTT
CTCCTCGTTTGTGATATAGCCACTTCACTCCTTTCATATTCCCTTCGAATGTCCTTGTGCTCTCATTGTTCGCTC
ATTGTCTGTTCCATCACCCTATTTTTTTTTTTTTTTTTTGCAAGCAGCTCAACACGTCACTCATTGTTCGGCAGC
TCCCCGACGCCCAGAAGGTTGCAGTCCCCCCAAGCACAGCAAGCAACACTTTATAATGAACCATCGACTCTATTC
TCTTTCGCACTTCGCAGCATAATCCCTTTTTGTTTTGCCGTTACATACCTTACTTGTTCACCTAGTGCACTATTT
CATAGCCGGAAGCTTGGTATAGTAGACAGCCCCGTTGTATTTTTATGCTCACTGGCTTGTATTTTAAGCAAGTCT
CGGGTAGGACAATCCAAAAAGACTCGAAACACT
Length 3633

Gene

Sequence id CopciAB_511083.T0
Sequence >CopciAB_511083.T0
CCTTTTCTCTGCTGTCCTTCTTACACACATGTCCCTCTGACTGCCGGTCTCGACGACGAAGACGACGACGACAAC
CACAGGACGAACTGGCCGATGCCAGCCGTGTCATGTACAACAACACAAATGCCAATCCCACACGCAATAGGCAGC
CCCCACTTAGAGAGACTATCACCGTCGTCGGCATCCCCAGCGTCTCTATCGACAATGATCGTCTCGTCGTTGGCT
CCTCCCAGACCAGTATGTTCTCCTCAATATCTACTCACATTACCCTCTAACCGGCCACTCAAGGCTCTACACGGT
CCTATACACCCATCAAAGTCCTGGGGGATGGCTCTTTTGGCACCGTCTGGCTCTGCGACTGGCATACAACCTTGC
CCCCAAACACACCCCTGTCCCCGATGCAATGCGGCCAAGGCGCTCGACCAGAATGGGCGGGGAAAAGGCTCGTGG
CCGTCAAGCGTATGAAGAAGCGGTGGGAAGGAGGCTGGGACGAGTGTCAGAAATTGAAGGAACTCGAGGTGAGTC
CCCAATTATTTTTGACGCCCACGACCCCCTCTTCTGAATCTCTTCCAGTCGTTACGCGCAATTCCTTTTCATCCA
AACATCATTCCTCTCTACGACTTTTTCCTGTTGCCGACATCCAAAGAACTTTATTTCGTCTTCGAGTCCATGGAG
GGCAACCTGTATCACCTCATCAAGGCGCGCAAAGGCCGACCGCTTGCTGGAGGGCTTGTGTCCTCAATTTTCCAA
CAAATTACGCTGGGACTCGACCACATTCATACACATGGCTACTTTCATCGAGATATGAAGCCGGAGAACGTTCTC
GTCACGACTGTCGGTCTTTTTGATTACACGCCGGTTTCCCCAATCGCGCCCCCAAATGCACCAAAGGAGAGGGAT
GTCGTTACCATTATCAAACTGGCTGATTTTGGTCTCGCAAGGGAGACGAAGAGCCGTCCACCATACACCGAATAC
GTGTCGACGCGATGGTATCGGGCCCCGGAGGTCCTCCTCCTCAGCCGCGAGTACTCCAATCCAGTCGACTTGTGG
GCATTGGGAACGATCATGGCCGAACTAGTCAACCTCAGGCCACTTTTCCCCGGTTCAGATCAAGTGGATCAAGTT
GCTAGAGTTTGCGAGGTATTAGGAGATCCAGCGGAGGACTATAGAGACAATGGTGGGAATGTTGTTGGAGGCGGT
CAGTGGCCACACGGGGTTTCCTTAGCGAGAGACGTCGGATTCCAATTTCCAAGAGTCAGTCATAGTTTCATTCAT
ACGTTCTTGGGAAGAAAGCTTATCACGCTGCTTTTCTAGATTGAGCCAAAGGATATTTTCTCGCTCTTCGACGCA
TCCGTGCCGCGCTCTTTAATCCAATGCATTCGTGATCTACTTCGGTGGGATCCTGCCAAACGACTGACCAGCAAG
CAATGTCTTGACCACCTGTATCTCCGCGAAACAATCCATCGCAACAACATTCCAATGCCTTCAGGACTTAGGGCG
GCCTCCGTGTCACAAACCTCAATCCCGATGATGTCGTCCCACCTCAACGGCTCTTCCTCGCACCCATCATTATCC
TCGCACACTCCACGCAATGTACCTCCTTCACATTCAAATTCCGCACATCATGTCCGCCCTCCACCCGTACCGTCG
CACTTCCCGGAAGTCCCGCCTCCACAGAACTCACAACCTACACCCTTACCTTCCGTTCCACATCAGCCGATTCCT
CTACATGCTCAGAATGGTCGCCGACCACACCCTATTGTTGGGTGGACAGGACCCTCACCTCAACCTGCATCGGAC
TATCCCATGGACACATCACCATCGGAACCTTATGCTAATGGTCACGCTAATAACGGACACTCAGAGCATCATCCA
CCAGCCGGGCATTCCATGCCCCCACCCAAGTCACTCAAACTTGGTCCGTTCGGGAAAAAATCGAGCAGATGGGCG
CTTGGAATCTTTGGGAGTGAAAAGTCGCACCAATTACCTCCTGTGGACGAAGTCACTACGACTGCGCTTGGAACA
CGCAAACGTTCACAGTCGTCGAGTACAGATGGCAAATCTGTGCGCGACCTGTCTCCTGAACGACCCCAGGATCTT
CGAGAGGTTCAGAAGCAACAGAAGAAGGAAGCCGAGCGTATCAACCGCGAGGCTGAGAAGGAGCGTCGTAAACTT
GCAGAGAAGATGGCCCGAGAACAAGCTCGGGCAGTCATGTCCAAACGTAACCGGATGCTTCGGGAAGCCGTTGGA
GAGGATATCGACTGGTCTGGTGGAAATCAGGAGCGTGTGGTCGACAAGGGGACCAAGCAAGCATCGTCTGGTCCT
ATCCGGCAGAAAAGCATGGGGAACCTCGGCAATTCTACCCTCCATGCAGCTTCTGGAAAATACTCTGAGCCCCCA
GCTCCTCCTGTCAGCTTTGACCGGTACCGTGATTGGAGGGGAACAGGTGAGCGTGTCGCGAAAGCTCGCAGACGC
GAGTACGACGACGATCATTCGATGTCTTCGTCGGATGTTCACAGTCTCAGTCGGGTATCTTCAATATCTTTCGCT
ACTGTGGATAGCGATCCGGGCCCATCACGCCTACGGCACCACTCGAGCTTCCACCATGCCGCCAGCTCACGGACA
TCTCGGTCATCATTGCGCACTTCATTTGATGATTTTTCCCCCTCTGCTCGGTCATCTAATTCCTTCTCCCTTGAA
GGGTCCTCATCTCTTGCTCATGAATTCGGTGCTCATCTCAACGTCAACCCTCACATATCCGGGAGCGTGTCCCCA
CCGCCACTTCACATGCTGTCCCTCTCCCCCACATTATCCCCGCCGCTTTCACCCAACCCACCCTGGATTCAGGTG
CAAGACATCAAAGAGAACGGGTTAGGTGGACAGTCCCCACCGTATATTACTCTACAGAATCGTCAATTCAGCCCC
AGCCCGCACAGTCCTTTGGACATACACAACTACCTGCAGCAACCACCCAGCCCTTTCAATAACCCTTCCGCACCT
GCTCAACCGCCAACCACGGGGCAGACTCCGCGATCCGCAAACTCGGCCATAAACCCAATATTCAAAGTCGTAAGT
CTCGATCCTGATGTTATGTTGTTCTACCGTTGTCTGACCTATTCGACAGCCCTTACCTCCCCCTCCACTACCTTC
ATTACCGCTCCCTGCCGGCCAACCTCTGAGTTCTACATCCCTGACTAATAAGTTACCGCCCTTTTCTCAGTTGGA
GGCTGTTGCAGGGGGCGAAATATCTCCGACTTCGCCCATGTTTGCGGACCCTTGATCCTTTTCTCTTTGGCATTG
GTTGTTTATTTTGGGTTTTATCTTTTTTATTATTTTTCTTTCTTTTGGTTCTTCTGCCACGCGACCTATCATAGA
CGTTTGTTGTCTTGCTGCCACTGCCCGTCGCCCTTCCACCTCCTGCCTACGGACCACACTCGTTTGATTTTCTCC
TCGTTTGTGATATAGCCACTTCACTCCTTTCATATTCCCTTCGAATGTCCTTGTGCTCTCATTGTTCGCTCATTG
TCTGTTCCATCACCCTATTTTTTTTTTTTTTTTTTGCAAGCAGCTCAACACGTCACTCATTGTTCGGCAGCTCCC
CGACGCCCAGAAGGTTGCAGTCCCCCCAAGCACAGCAAGCAACACTTTATAATGAACCATCGACTCTATTCTCTT
TCGCACTTCGCAGCATAATCCCTTTTTGTTTTGCCGTTACATACCTTACTTGTTCACCTAGTGCACTATTTCATA
GCCGGAAGCTTGGTATAGTAGACAGCCCCGTTGTATTTTTATGCTCACTGGCTTGTATTTTAAGCAAGTCTCGGG
TAGGACAATCCAAAAAGACTCGAAACACT
Length 3854