CopciAB_460253
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_460253 Strain Coprinopsis cinerea Okayama 7
Standard name AKL1 Synonyms 460253
Uniprot id Functional description Protein tyrosine kinase
Location scaffold_1:1401384..1405849 Strand +
Gene length (nt) 4466 Transcript length (nt) 4264
CDS length (nt) 3912 Protein length (aa) 1303

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_CAA7264818 45.6 1.68E-304 1020
Lentinula edodes NBRC 111202 Lenedo1_1164473 47.7 4.567E-304 972
Lentinula edodes W1-26 v1.0 Lentinedodes1_483 47.6 2.194E-304 970
Hypsizygus marmoreus strain 51987-8 Hypma_RDB29204 44.7 2.339E-294 938
Pleurotus ostreatus PC9 PleosPC9_1_53073 43.4 2.857E-285 911
Pleurotus ostreatus PC15 PleosPC15_2_166468 43.1 7.21E-283 904
Schizophyllum commune H4-8 Schco3_2744124 43.6 2.643E-278 891
Pleurotus eryngii ATCC 90797 Pleery1_1485541 42.9 2.63E-276 885
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_113930 42.6 6.615E-268 860
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_124351 42.9 1.597E-266 856
Flammulina velutipes Flave_chr08AA00430 41.9 4.426E-265 852
Ganoderma sp. 10597 SS1 v1.0 Gansp1_148486 39.6 3.058E-257 829
Grifola frondosa Grifr_OBZ79644 40 1.544E-255 824
Lentinula edodes B17 Lened_B_1_1_16156 65.3 4.283E-209 687
Auricularia subglabra Aurde3_1_1410795 34.9 1.539E-186 621

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 133.6147 15.2984 8.8325
oidia 102.1047 9.8235 5.6716
vegetative_mycelium 101.0404 8.0086 4.6238
primordia 80.2738 5.5691 3.2153
hyphal_knot 106.5169 6.7897 3.92
young_fruiting_body 49.3298 4.0601 2.3441
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 108.3182 8.9679 5.1776
Wheat bran 57.3488 19.1496 11.0561
Horse manure 87.1216 22.813 13.1711
Oak leaves 100.3155 20.9679 12.1058
Hay 78.0392 10.0472 5.8008
Corn stalk 93.6779 4.0519 2.3394
Pectine 97.4937 4.2545 2.4564
Microcrystalline cellulose 90.1264 16.975 9.8005
Xylose 89.022 9.6554 5.5746
Cellobiose 93.5995 15.1879 8.7688
Lignin 91.6567 12.9156 7.4568
Apple peels 123.8787 7.5283 4.3465
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 67.8953 2.714 1.5669
Bsubtilis 69.1154 5.6344 3.253
Ecoli 67.614 2.7601 1.5935
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 27.6834 8.4915 4.9026
BS 4h 27.5123 2.3345 1.3478
BS 8h 20.9401 4.2565 2.4575
BS 12h 21.8393 1.4595 0.8426
Oidia 0 h 23.0037 10.2554 5.921
Oidia 18 h 29.6666 5.0925 2.9402
Sclerotia 35.5576 4.1171 2.377
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 28.5702 2.6582 1.5347
DM 36h 25.8689 1.3529 0.7811
DM 60h 33.5702 2.1177 1.2227
DM 84h 27.5265 2.0976 1.211
DM 108h 30.5052 0.9726 0.5615
DM 132h 28.405 4.183 2.4151
DM 156hAE 49.873 6.1374 3.5434
ELI1hAE 40.2898 4.6937 2.7099
ELI2hAE 26.7822 2.9841 1.7229
LI2hAE 37.0175 0.996 0.575
LI6hAE 41.093 2.4206 1.3975
LI12hAE 36.6939 4.1137 2.375
LI18hAE 30.3579 2.8822 1.6641
LI 24hAE 44.624 2.564 1.4803
DM 156hAM 31.6475 2.9091 1.6796
ELI1hAM 28.7458 5.524 3.1893
ELI2hAM 24.3516 0.4793 0.2767
LI2hAM 30.7781 7.7646 4.4829
LI6hAM 34.4769 4.2711 2.4659
LI12hAM 25.5204 6.0237 3.4778
LI18hAM 28.5037 7.316 4.2239
LI 24hAM 38.9636 4.1523 2.3973
LI 24hHK 35.2306 4.2531 2.4555
L/D 6h 42.0864 5.27 3.0426
L/D 12h 48.5524 11.6077 6.7017
L/D 18h 47.8082 5.6098 3.2388
L/D 24h 48.1005 2.4738 1.4282
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 44.4489 3.0587 1.7659
Hyphal knots 66.9184 14.8904 8.597
Primordium 1 69.3556 14.5965 8.4273
Primordium 2 57.8627 15.0568 8.6931
Young Fruiting body cap 60.2533 2.5017 1.4444
Younf fruiting body gill 34.5048 3.424 1.9768
Young fruiting body stipe 97.8307 17.0465 9.8418
Mature fruiting body cap_gill 127.2327 19.1402 11.0506
Mature fruiting body stipe 70.305 24.6936 14.2569
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 117.7657 8.4252 4.8643
NH4NO3 93.8018 2.4874 1.4361
Proline 89.7232 1.4312 0.8263
Tryptophan 81.9551 9.2392 5.3342
Isoleucin 92.8018 4.6315 2.674
Arginine 97.3604 5.5509 3.2048
Metionine 83.6223 6.5405 3.7762
NaNO3 82.6486 5.7985 3.3478
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 117.7657 8.4252 4.8643
Citrus peel 46.2803 2.2211 1.2823
Poplar leaves 93.8073 17.5257 10.1185
Typha leaves 83.9418 10.2902 5.9411
Overwintered Salix leaves 80.32 5.9739 3.449
Reed flowering 87.3742 9.6001 5.5426
Tigernut 60.5703 4.757 2.7465
Energy cane 97.2446 9.4971 5.4832
Guar gum 93.3769 27.0916 15.6413
Apple peels 76.1854 12.8819 7.4373
Cellobiose 95.8818 8.1061 4.6801
Corn stalk 81.9562 11.4548 6.6135
Horse manure 79.4745 3.8253 2.2085
Lignin 53.2127 18.22 10.5193
Microcrystalline cellulose 71.5916 5.474 3.1604
Oak leaves 76.6029 10.9644 6.3303
Pectin esterified 47.7556 12.363 7.1378
Poplar sawdust 75.6263 16.0783 9.2828
Wheat bran 48.556 5.9613 3.4417
Chlamydomonas reinhardtii 97.9663 8.3143 4.8003
Vertatryl alcohol 64.4533 6.9833 4.0318
Furfural 60.9477 8.7435 5.0481
Autoclaved mycelium 74.7839 1.6099 0.9295
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 85.5723 13.2767 7.6653
Ribose 89.594 8.6921 5.0184
Mannose 92.2456 6.8227 4.8244
Fructose 93.9192 2.7275 1.5747
Arabinose 99.3733 9.2947 5.3663
Xylose 102.1048 1.7325 1.0003
Galacturonic acid 91.2923 4.0103 2.3154
Rhamnogalacturonan 85.2028 4.7848 2.7625
Pectin esterified 85.7617 7.8674 4.5422
Polygalacturonic acid 90.0544 9.5183 5.4954
Sodium acetate 91.8812 3.3029 1.9069
No nitrogen 96.7285 12.0014 6.929
BSA 89.739 5.5901 3.2275
Glutamine 91.8993 11.713 6.7625
No phosphate 81.7128 11.1671 6.4473
No carbon 88.2952 0.9698 0.6858
No sulphur 98.3368 10.6569 6.1528
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 117.7657 8.4252 4.8643
Amylose 96.8174 7.0221 4.0542
Fucose 92.079 4.2016 2.4258
Galactose 95.7199 7.275 4.2002
Lactose 76.8957 3.6787 2.1239
Maltose 91.1372 4.5535 2.6289
Mannitol 83.44 3.4815 2.01
Rhamnose 91.0395 3.3078 1.9098
Sorbitol 79.9869 6.2722 3.6212
Trehalose 90.796 12.0779 6.9732
Glycerol 90.0768 16.2316 9.3713
Glucuronic acid 107.4785 9.3555 5.4014
Arabinan 76.0205 14.964 8.6395
Galactan 98.1207 1.4185 0.8189
Galactomannan 91.3814 12.5683 7.2563
Glucan 88.4445 8.5534 4.9383
Xylan 81.3259 13.4377 7.7583
Xyloglucan 106.2063 11.5559 6.6718
Arabinogalactan 106.479 11.7261 6.7701
Pectin 52.0419 24.3191 14.0406
Rhamnogalacturonan 68.4122 22.4147 12.9411
Polygalacturonic acid 86.7393 5.6617 3.2688
Mannan 95.5961 3.7811 2.183
Amylopectin 64.8792 4.3755 2.5262
Inulin 90.608 1.6502 0.9527
BSA 84.0167 8.9259 5.1534
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 33.5702 2.1177 1.2227
2h WAT 23.3884 1.7592 1.0157
4h WAT 23.2261 1.3555 0.7826
8h WAT 22.6778 4.3534 2.5135
16h WAT 28.6031 3.4673 2.0018
24h WAT 28.6388 2.5281 1.4596
WAT hyphal knot -30h 24.5618 0.4762 0.2749
WAT hyphal knot -22h 29.8237 1.5374 0.8876
WAT hyphal knot -15h 32.1522 2.6429 1.5259
WAT hyphal knot -7.5h 30.3638 3.1168 1.7995
WAT hyphal knot 33.2213 4.5167 2.6077
WAT hyphal knot +7.5h 38.1711 8.2328 4.7532
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 67.3979 26.4726 15.2839
Straw 3h 59.5978 12.7737 7.3749
Straw 6h 56.6536 4.0526 2.3397
Straw 12h 72.1885 5.9792 3.4521
Straw 24h 68.0562 13.3476 7.7062
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 24.8474 0.8617 0.4975
Frost (-20C, 30min) 22.6253 3.0113 1.7386
Heat shock (47C, 2h) 31.16 2.2814 1.3172
High CO2 23.7973 3.8619 2.2297
Drought (4% agar, 12h) 22.7398 3.043 1.7569
Oxidative (1mM H2O2, 3h) 55.2786 6.936 4.0045
Acidic (pH4, 3h) 24.5022 3.1407 1.8133
Alkaline (pH9, 3h) 23.6386 1.5697 0.9063
Osmotic (sorbitol 2h) 17.0318 1.9542 1.1283
CongoRed (3h) 19.3621 3.6967 2.1343
Cobalt chloride control 26.185 2.0228 1.1679
Cobalt chloride 2mM 25.1139 1.5977 0.9224
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 20.5405 7.168 4.1384
Cold stimulation 23.2366 7.546 4.3567
Scratched surface 28.1554 2.2026 1.2717
Ca2+, 200mM, 24h 24.045 0.9645 0.5569
Cu2+, 2mM, 6h 31.1239 7.9893 4.6126
Voriconazole 22.4886 3.1171 1.7997
Trichoderma interaction, early 25.8431 6.249 3.6079
Trichoderma interaction 60h 34.6746 19.0749 11.0129
Cobalt chloride 2mM repeat 40.16 8.6403 4.9885
Hypoxia 25.6163 6.0422 3.4885
Hypoxia control 23.938 3.9815 2.2987
Protoplastation control 22.5787 1.0413 0.7363
Protoplastation 3.5h 19.5333 2.4015 1.6981
Protoplastation 1.5h 24.5721 6.8874 4.8701

General data

Systematic name AKL1
Protein id CopciAB_460253.T0
Description Protein tyrosine kinase

Annotation summary

0 300 600 900 1200 1303

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd14037 STKc_NAK_like - 29 306
Pfam PF00069 Protein kinase domain IPR000719 33 300

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR000719 Protein kinase domain
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
K08286
K08853

EggNOG

COG category Description
T Protein tyrosine kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_460253 across fungi.

Arrow shows the origin of gene family containing CopciAB_460253.

Protein

Sequence id CopciAB_460253.T0
Sequence >CopciAB_460253.T0
MATQQAYQVYAQQNKGTLVPGQTISVNKYTVQVERYLSQGGFAHVYLVRTPTPVYNTTHHVLKRIAVANEAMLSE
VKREVDVMRVLKGHPNIVHLIDAAWHRLPNGTFEVFILMEYCPGGGIIDMMNRRLRERLTEAEILQIFVDVCEGV
AFMHNSRPPLLHRDLKVENILQSSPTSYKLCDFGSASTVQRPPTNTQEIRALEADLGRHTTMQYRAPEMIDLYSK
RPIDEKSDVWALGVLLYKLCYYTTPFEEHGSLAILNVQYRIPPYPQYSNQMNMLIASMLREHGSQRPTVFELLRH
VHHLRGTKSPFTYNIPVPQPVVPRHHQIPPKPAPSPIPGPQHHTGSRQVANGLRSAPVVTSGSPPKGQGVQAREK
VLEAIAPMRRGRPVQPKEGSSSRQPSPQKHAPPKPVLPVQPIQPAKPAVKESNWLDKEEASLKTANAQAEARERA
NALFDEAWRVSSATATKESDSKASSGFENDFADKLWRAPNPNMSLSPAKVSPKPTSHGHSASAVIKPLSHTGSDA
LRNGRGKDAFEGLGLITSIGKPAPTLAEARKLRTGLAIMSSQPNQYGSTKPAELSVKPTTDGGSTHPTPSPRPSY
LGPTTGHFQSTSRSTTPNPEPWRGSAPAPSSAHASKDGTPIESRFPSLEELDAQFSATSLYPASAQANDRFASRS
TPTVAPSLPPRPSANVPKEDPERPSRFNAPPSAPPTLDSLEKKYEATSVRNDWKSSPSTRSAVESRTESSPAKLP
SGSATMRFAMEELKSTQSSSGTSQSTKLSSNRPPSPSKHSRTAPAPDWLTGDGDVTENTIEKATTGPVVRDTPAK
RASVILKNDFKIQEPVTAQYDTTPVIRPEKSLHPEESPTVARFTKNFPAIDTASANELLIQNEPLTDNWSPIVAS
KPPPQLPRRPSKKELEAAESASSADDDEGPEDLGGLTSPPKKMGSLRASRHKGRQSSVHELVDLWGGKGPAKDRP
RDEPSSPLKAASAEKPVTRPKPRPTSLLPPQRTPSFSMRSVSGGARISPIQRVPSPQPSPSLPEKSPPLHSPPIT
TSPSSGTGRSRPQSMFIFPSKSTDALPSPSQPTGMGPPPEEGTQRPARRQTSISNMVQRYEAIGGKVIAPQQAAP
SPVTRKPSLNLNKSSVPPNQVETGRIKVLPVPDKVPAIAPKDEFRPAWISGEAARTRTTSTGPLKASLDIPRTTV
KPQRVSPIERKPTGSPKKNLVGLPSITTTTNAVVFPKRRPTLPSEDVLSPPASNSDDRSVSPERPYQGVGKLIDQ
WQRKSEESEGFHGRPPIKRAGLVQGNRG
Length 1303

Coding

Sequence id CopciAB_460253.T0
Sequence >CopciAB_460253.T0
ATGGCAACCCAGCAGGCATATCAGGTATATGCCCAGCAGAACAAGGGGACACTGGTGCCAGGGCAGACCATCTCC
GTGAACAAGTATACTGTGCAGGTCGAGCGGTATTTATCGCAGGGTGGCTTCGCTCACGTTTATCTCGTACGGACG
CCGACACCGGTCTACAACACGACTCACCATGTCCTCAAACGAATCGCCGTTGCCAACGAAGCCATGCTCAGCGAG
GTCAAGAGGGAAGTAGACGTTATGCGGGTACTCAAAGGCCATCCCAACATCGTTCACCTCATCGATGCAGCATGG
CACCGCTTGCCTAACGGCACATTTGAGGTTTTCATCTTAATGGAATATTGTCCAGGTGGTGGAATCATCGACATG
ATGAACCGGCGACTGCGGGAGCGACTCACAGAAGCTGAGATTTTGCAAATATTCGTCGACGTATGTGAAGGCGTG
GCATTCATGCACAACTCCCGGCCACCGCTATTACATCGGGATCTAAAAGTCGAGAATATCCTCCAGTCTTCTCCG
ACTTCGTACAAGCTTTGCGATTTCGGTTCCGCTAGCACGGTCCAAAGACCCCCGACGAATACGCAGGAAATCAGA
GCACTGGAAGCTGACCTCGGAAGGCATACGACGATGCAATACAGAGCTCCTGAAATGATCGACCTGTACTCAAAA
CGTCCAATCGACGAGAAGAGTGATGTGTGGGCATTGGGAGTCTTGCTGTACAAGCTCTGCTACTACACAACCCCC
TTCGAGGAGCATGGGTCATTAGCCATCCTGAACGTGCAGTACCGCATCCCCCCGTATCCTCAATATTCAAATCAA
ATGAACATGCTTATCGCCTCGATGCTTCGAGAGCATGGATCCCAGCGACCGACCGTGTTCGAACTTCTGAGACAC
GTACATCATCTTCGCGGAACCAAATCACCATTCACGTACAACATACCTGTTCCTCAGCCTGTGGTTCCGCGACAT
CACCAAATCCCCCCGAAACCTGCACCATCGCCTATACCAGGACCCCAACACCACACCGGTTCTCGCCAAGTTGCG
AATGGCCTCCGATCGGCACCCGTCGTAACATCAGGGTCCCCGCCAAAAGGTCAGGGAGTGCAAGCCAGGGAGAAG
GTGTTGGAGGCGATCGCTCCTATGCGCCGAGGCAGACCGGTACAGCCAAAAGAAGGTTCATCTTCCAGGCAGCCT
AGTCCACAGAAGCACGCGCCACCTAAGCCTGTCCTGCCTGTCCAGCCAATTCAGCCAGCGAAACCTGCTGTCAAA
GAATCAAATTGGCTTGACAAGGAGGAAGCATCTCTGAAGACTGCGAACGCTCAAGCGGAAGCACGCGAGAGAGCT
AATGCGCTCTTTGACGAAGCATGGCGTGTGTCTAGCGCTACAGCCACCAAAGAATCAGATTCTAAAGCATCGTCG
GGTTTCGAGAACGACTTTGCGGACAAGTTGTGGCGTGCCCCCAATCCAAATATGAGCCTATCTCCCGCGAAAGTC
AGCCCCAAACCCACCTCGCATGGCCACTCGGCAAGCGCTGTCATCAAGCCGCTTTCGCATACAGGAAGCGACGCG
CTGCGTAATGGACGGGGTAAGGACGCATTCGAGGGATTGGGCCTCATCACTTCCATCGGTAAACCCGCACCTACT
CTTGCCGAAGCGCGAAAACTTCGAACAGGCTTAGCCATCATGAGTTCGCAACCGAATCAGTATGGCAGTACCAAG
CCTGCTGAGTTGTCGGTCAAACCTACTACGGACGGGGGGTCGACGCATCCAACTCCATCGCCTCGCCCTTCGTAT
CTTGGCCCCACGACAGGCCACTTCCAATCGACTTCTAGGAGCACCACTCCAAATCCAGAACCTTGGCGGGGATCT
GCACCTGCTCCCAGCTCGGCCCATGCCAGCAAGGACGGGACGCCAATCGAGTCACGGTTCCCTTCATTGGAAGAG
CTAGATGCTCAGTTCTCGGCCACTTCATTGTACCCAGCGTCTGCGCAGGCTAACGACCGATTCGCCAGCCGATCA
ACGCCTACCGTTGCGCCTTCGCTACCCCCTCGCCCGAGTGCAAATGTGCCCAAGGAAGATCCTGAACGTCCTTCT
CGTTTCAACGCTCCGCCGTCCGCTCCTCCGACTTTGGATTCTCTGGAGAAGAAATATGAAGCGACCTCTGTCAGG
AACGACTGGAAGTCATCACCATCGACACGCAGTGCGGTTGAGAGCAGGACGGAATCCTCGCCAGCTAAGCTCCCA
AGCGGTTCGGCGACAATGAGGTTCGCTATGGAGGAATTGAAGTCTACCCAGTCATCTTCGGGCACGTCGCAATCT
ACCAAATTGTCGTCGAACCGACCACCCTCTCCCTCGAAGCATTCACGAACCGCACCTGCGCCTGATTGGCTCACT
GGAGACGGCGATGTTACCGAAAACACCATTGAGAAGGCCACCACTGGACCTGTTGTTCGCGATACGCCAGCCAAG
AGAGCTTCCGTCATCTTGAAAAATGACTTCAAGATCCAAGAACCTGTCACTGCGCAGTACGATACAACGCCAGTG
ATACGCCCAGAAAAGTCCCTTCATCCAGAAGAATCACCCACTGTCGCACGGTTCACGAAGAATTTCCCTGCCATT
GACACTGCGTCTGCGAATGAGCTCTTGATCCAGAACGAGCCGTTGACGGATAATTGGAGCCCAATTGTTGCGAGC
AAACCTCCGCCCCAACTTCCCCGCAGGCCGTCCAAAAAGGAACTCGAAGCCGCAGAGTCTGCTTCGAGTGCTGAC
GATGATGAGGGGCCGGAGGACCTTGGTGGTTTGACCAGCCCGCCCAAGAAGATGGGCAGTCTACGAGCTTCGCGA
CACAAGGGGCGGCAAAGCTCTGTACATGAGCTTGTTGATCTGTGGGGAGGCAAAGGGCCTGCTAAAGACAGACCT
CGCGATGAACCTTCTTCGCCATTGAAGGCGGCATCTGCGGAGAAACCTGTTACTAGACCAAAGCCTCGACCAACA
TCCTTACTGCCGCCTCAGCGTACTCCTTCGTTCAGCATGCGATCTGTCAGTGGTGGTGCAAGGATATCACCCATC
CAGCGAGTTCCTTCACCGCAGCCGTCGCCCAGCCTTCCGGAAAAGTCGCCACCGCTCCACTCCCCTCCCATTACC
ACGTCTCCCTCCAGCGGTACCGGTCGATCCCGCCCTCAGTCTATGTTCATCTTTCCTTCCAAATCCACCGATGCA
TTACCGAGCCCATCTCAACCTACGGGGATGGGACCTCCGCCTGAGGAAGGCACGCAGCGCCCAGCCCGTCGCCAA
ACGTCGATATCGAACATGGTGCAACGATATGAGGCCATTGGCGGTAAAGTGATTGCCCCTCAGCAAGCCGCTCCA
TCACCCGTTACTCGTAAACCGAGTCTTAACCTCAATAAGAGCTCTGTGCCCCCCAATCAAGTCGAAACTGGGCGT
ATCAAGGTCTTACCTGTGCCTGACAAGGTACCTGCGATTGCACCGAAGGACGAATTCAGACCTGCTTGGATATCC
GGGGAGGCGGCTCGAACACGCACAACCTCGACTGGTCCTCTGAAAGCCAGTCTGGACATCCCTCGCACGACGGTC
AAACCCCAGCGGGTGTCACCTATCGAACGTAAGCCAACCGGGTCACCCAAGAAGAACCTCGTTGGTCTGCCTTCG
ATTACCACAACCACGAATGCTGTCGTTTTCCCGAAGCGCAGACCGACGTTGCCGTCGGAAGATGTCCTGTCACCT
CCTGCTTCGAACAGCGATGATCGATCAGTATCTCCTGAAAGGCCATATCAAGGTGTAGGGAAGCTCATTGATCAA
TGGCAGCGCAAATCCGAAGAGAGCGAGGGCTTCCATGGCAGGCCGCCTATAAAACGAGCCGGCCTCGTTCAAGGC
AATCGTGGATAG
Length 3912

Transcript

Sequence id CopciAB_460253.T0
Sequence >CopciAB_460253.T0
GTGTTTACATGATACTTTACTAGGCTCACTCAGGCTTGCTGCGCCTGTTGAGTCTTTACAATCACACCCAGCTCC
TAGACGATACCCACCGATGGCAACCCAGCAGGCATATCAGGTATATGCCCAGCAGAACAAGGGGACACTGGTGCC
AGGGCAGACCATCTCCGTGAACAAGTATACTGTGCAGGTCGAGCGGTATTTATCGCAGGGTGGCTTCGCTCACGT
TTATCTCGTACGGACGCCGACACCGGTCTACAACACGACTCACCATGTCCTCAAACGAATCGCCGTTGCCAACGA
AGCCATGCTCAGCGAGGTCAAGAGGGAAGTAGACGTTATGCGGGTACTCAAAGGCCATCCCAACATCGTTCACCT
CATCGATGCAGCATGGCACCGCTTGCCTAACGGCACATTTGAGGTTTTCATCTTAATGGAATATTGTCCAGGTGG
TGGAATCATCGACATGATGAACCGGCGACTGCGGGAGCGACTCACAGAAGCTGAGATTTTGCAAATATTCGTCGA
CGTATGTGAAGGCGTGGCATTCATGCACAACTCCCGGCCACCGCTATTACATCGGGATCTAAAAGTCGAGAATAT
CCTCCAGTCTTCTCCGACTTCGTACAAGCTTTGCGATTTCGGTTCCGCTAGCACGGTCCAAAGACCCCCGACGAA
TACGCAGGAAATCAGAGCACTGGAAGCTGACCTCGGAAGGCATACGACGATGCAATACAGAGCTCCTGAAATGAT
CGACCTGTACTCAAAACGTCCAATCGACGAGAAGAGTGATGTGTGGGCATTGGGAGTCTTGCTGTACAAGCTCTG
CTACTACACAACCCCCTTCGAGGAGCATGGGTCATTAGCCATCCTGAACGTGCAGTACCGCATCCCCCCGTATCC
TCAATATTCAAATCAAATGAACATGCTTATCGCCTCGATGCTTCGAGAGCATGGATCCCAGCGACCGACCGTGTT
CGAACTTCTGAGACACGTACATCATCTTCGCGGAACCAAATCACCATTCACGTACAACATACCTGTTCCTCAGCC
TGTGGTTCCGCGACATCACCAAATCCCCCCGAAACCTGCACCATCGCCTATACCAGGACCCCAACACCACACCGG
TTCTCGCCAAGTTGCGAATGGCCTCCGATCGGCACCCGTCGTAACATCAGGGTCCCCGCCAAAAGGTCAGGGAGT
GCAAGCCAGGGAGAAGGTGTTGGAGGCGATCGCTCCTATGCGCCGAGGCAGACCGGTACAGCCAAAAGAAGGTTC
ATCTTCCAGGCAGCCTAGTCCACAGAAGCACGCGCCACCTAAGCCTGTCCTGCCTGTCCAGCCAATTCAGCCAGC
GAAACCTGCTGTCAAAGAATCAAATTGGCTTGACAAGGAGGAAGCATCTCTGAAGACTGCGAACGCTCAAGCGGA
AGCACGCGAGAGAGCTAATGCGCTCTTTGACGAAGCATGGCGTGTGTCTAGCGCTACAGCCACCAAAGAATCAGA
TTCTAAAGCATCGTCGGGTTTCGAGAACGACTTTGCGGACAAGTTGTGGCGTGCCCCCAATCCAAATATGAGCCT
ATCTCCCGCGAAAGTCAGCCCCAAACCCACCTCGCATGGCCACTCGGCAAGCGCTGTCATCAAGCCGCTTTCGCA
TACAGGAAGCGACGCGCTGCGTAATGGACGGGGTAAGGACGCATTCGAGGGATTGGGCCTCATCACTTCCATCGG
TAAACCCGCACCTACTCTTGCCGAAGCGCGAAAACTTCGAACAGGCTTAGCCATCATGAGTTCGCAACCGAATCA
GTATGGCAGTACCAAGCCTGCTGAGTTGTCGGTCAAACCTACTACGGACGGGGGGTCGACGCATCCAACTCCATC
GCCTCGCCCTTCGTATCTTGGCCCCACGACAGGCCACTTCCAATCGACTTCTAGGAGCACCACTCCAAATCCAGA
ACCTTGGCGGGGATCTGCACCTGCTCCCAGCTCGGCCCATGCCAGCAAGGACGGGACGCCAATCGAGTCACGGTT
CCCTTCATTGGAAGAGCTAGATGCTCAGTTCTCGGCCACTTCATTGTACCCAGCGTCTGCGCAGGCTAACGACCG
ATTCGCCAGCCGATCAACGCCTACCGTTGCGCCTTCGCTACCCCCTCGCCCGAGTGCAAATGTGCCCAAGGAAGA
TCCTGAACGTCCTTCTCGTTTCAACGCTCCGCCGTCCGCTCCTCCGACTTTGGATTCTCTGGAGAAGAAATATGA
AGCGACCTCTGTCAGGAACGACTGGAAGTCATCACCATCGACACGCAGTGCGGTTGAGAGCAGGACGGAATCCTC
GCCAGCTAAGCTCCCAAGCGGTTCGGCGACAATGAGGTTCGCTATGGAGGAATTGAAGTCTACCCAGTCATCTTC
GGGCACGTCGCAATCTACCAAATTGTCGTCGAACCGACCACCCTCTCCCTCGAAGCATTCACGAACCGCACCTGC
GCCTGATTGGCTCACTGGAGACGGCGATGTTACCGAAAACACCATTGAGAAGGCCACCACTGGACCTGTTGTTCG
CGATACGCCAGCCAAGAGAGCTTCCGTCATCTTGAAAAATGACTTCAAGATCCAAGAACCTGTCACTGCGCAGTA
CGATACAACGCCAGTGATACGCCCAGAAAAGTCCCTTCATCCAGAAGAATCACCCACTGTCGCACGGTTCACGAA
GAATTTCCCTGCCATTGACACTGCGTCTGCGAATGAGCTCTTGATCCAGAACGAGCCGTTGACGGATAATTGGAG
CCCAATTGTTGCGAGCAAACCTCCGCCCCAACTTCCCCGCAGGCCGTCCAAAAAGGAACTCGAAGCCGCAGAGTC
TGCTTCGAGTGCTGACGATGATGAGGGGCCGGAGGACCTTGGTGGTTTGACCAGCCCGCCCAAGAAGATGGGCAG
TCTACGAGCTTCGCGACACAAGGGGCGGCAAAGCTCTGTACATGAGCTTGTTGATCTGTGGGGAGGCAAAGGGCC
TGCTAAAGACAGACCTCGCGATGAACCTTCTTCGCCATTGAAGGCGGCATCTGCGGAGAAACCTGTTACTAGACC
AAAGCCTCGACCAACATCCTTACTGCCGCCTCAGCGTACTCCTTCGTTCAGCATGCGATCTGTCAGTGGTGGTGC
AAGGATATCACCCATCCAGCGAGTTCCTTCACCGCAGCCGTCGCCCAGCCTTCCGGAAAAGTCGCCACCGCTCCA
CTCCCCTCCCATTACCACGTCTCCCTCCAGCGGTACCGGTCGATCCCGCCCTCAGTCTATGTTCATCTTTCCTTC
CAAATCCACCGATGCATTACCGAGCCCATCTCAACCTACGGGGATGGGACCTCCGCCTGAGGAAGGCACGCAGCG
CCCAGCCCGTCGCCAAACGTCGATATCGAACATGGTGCAACGATATGAGGCCATTGGCGGTAAAGTGATTGCCCC
TCAGCAAGCCGCTCCATCACCCGTTACTCGTAAACCGAGTCTTAACCTCAATAAGAGCTCTGTGCCCCCCAATCA
AGTCGAAACTGGGCGTATCAAGGTCTTACCTGTGCCTGACAAGGTACCTGCGATTGCACCGAAGGACGAATTCAG
ACCTGCTTGGATATCCGGGGAGGCGGCTCGAACACGCACAACCTCGACTGGTCCTCTGAAAGCCAGTCTGGACAT
CCCTCGCACGACGGTCAAACCCCAGCGGGTGTCACCTATCGAACGTAAGCCAACCGGGTCACCCAAGAAGAACCT
CGTTGGTCTGCCTTCGATTACCACAACCACGAATGCTGTCGTTTTCCCGAAGCGCAGACCGACGTTGCCGTCGGA
AGATGTCCTGTCACCTCCTGCTTCGAACAGCGATGATCGATCAGTATCTCCTGAAAGGCCATATCAAGGTGTAGG
GAAGCTCATTGATCAATGGCAGCGCAAATCCGAAGAGAGCGAGGGCTTCCATGGCAGGCCGCCTATAAAACGAGC
CGGCCTCGTTCAAGGCAATCGTGGATAGGAAAAAGGGGTTGGAAACGGATGTCCCTTTCGGTGATGTTGTGTCTT
TTCGATTCTTTTAACTTTTATCTGCTCTTTCTCTTCGTTTCTTAGTCCAGTAATGTTCTCTTTTTTCGTTGCTAA
TGCTTTTTTAATAAATATCAAGGACTCCGCCCATACAATATGATACAGGTCGAATTATCTATCTGCCACATGAGA
AGGATAGTAGTTAGTAGTTTGTATGATAGGTTACATATTTGTATACTGTCATTTCCCTCCGAAA
Length 4264

Gene

Sequence id CopciAB_460253.T0
Sequence >CopciAB_460253.T0
GTGTTTACATGATACTTTACTAGGCTCACTCAGGCTTGCTGCGCCTGTTGAGTCTTTACAATCACACCCAGCTCC
TAGACGATACCCACCGATGGCAACCCAGCAGGCATATCAGGTATATGCCCAGCAGAACAAGGGGACACTGGTGCC
AGGGCAGACCATCTCCGTGAACAAGTATACTGTGCAGGTCGAGCGGTATTTATCGCAGGGTATGTCCAGCTCAAG
TACGGGAGAATCAGTGAATGAACACAGACCGCAGGTGGCTTCGCTCACGTTTATCTCGTACGGACGCCGACACCG
GTCTACAACACGACTCACCATGTCCTCAAACGAATCGCCGTTGCCAACGAAGCCATGCTCAGCGAGGTCAAGAGG
GAAGTAGACGTTATGGTGCGTCGAGCGTTCCTTTGCCTTGCTGTCGCTAATGTTTGCCTGTAGCGGGTACTCAAA
GGCCATCCCAACATCGTTCACCTCATCGATGCAGCATGGCACCGCTTGCCTAACGGCACATTTGAGGTTTTCATC
TTAATGGAATATTGTCCAGGTGGGGTGGAGTGCATCATGCTATACAATCCAGCTCAATCGCGCGTTAGGTGGTGG
AATCATCGACATGATGAACCGGCGACTGCGGGAGCGACTCACAGAAGCTGAGATTTTGCAAATATTCGTCGACGT
ATGTGAAGGCGTGGCATTCATGCACAACTCCCGGCCACCGCTATTACATCGGGATCTAAAAGTCGAGAATATCCT
CCAGTCTTCTCCGACTTCGTACAAGCTTTGCGATTTCGGTTCCGCTAGCACGGTCCAAAGACCCCCGACGAATAC
GCAGGAAATCAGAGCACTGGAAGCTGACCTCGGAAGGCATACGACGATGCAATACAGAGCTCCTGAAATGATCGA
CCTGTACTCAAAACGTCCAATCGACGAGAAGAGTGATGTGTGGGCATTGGGAGTCTTGCTGTACAAGCTCTGCTA
CTACACAACCCCCTTCGAGGAGCATGGGTCATTAGCCATCCTGAACGTGCAGTACCGCATCCCCCCGTATCCTCA
ATATTCAAATCAAATGAACATGCTTATCGGTAAGTGGTAGGCACCTTGTATACGAATGCTAACTAAACGATTATG
TTCGGACAGCCTCGATGCTTCGAGAGCATGGATCCCAGCGACCGACCGTGTTCGAACTTCTGAGACACGTACATC
ATCTTCGCGGAACCAAATCACCATTCACGTACAACATACCTGTTCCTCAGCCTGTGGTTCCGCGACATCACCAAA
TCCCCCCGAAACCTGCACCATCGCCTATACCAGGACCCCAACACCACACCGGTTCTCGCCAAGTTGCGAATGGCC
TCCGATCGGCACCCGTCGTAACATCAGGGTCCCCGCCAAAAGGTCAGGGAGTGCAAGCCAGGGAGAAGGTGTTGG
AGGCGATCGCTCCTATGCGCCGAGGCAGACCGGTACAGCCAAAAGAAGGTTCATCTTCCAGGCAGCCTAGTCCAC
AGAAGCACGCGCCACCTAAGCCTGTCCTGCCTGTCCAGCCAATTCAGCCAGCGAAACCTGCTGTCAAAGAATCAA
ATTGGCTTGACAAGGAGGAAGCATCTCTGAAGACTGCGAACGCTCAAGCGGAAGCACGCGAGAGAGCTAATGCGC
TCTTTGACGAAGCATGGCGTGTGTCTAGCGCTACAGCCACCAAAGAATCAGATTCTAAAGCATCGTCGGGTTTCG
AGAACGACTTTGCGGACAAGTTGTGGCGTGCCCCCAATCCAAATATGAGCCTATCTCCCGCGAAAGTCAGCCCCA
AACCCACCTCGCATGGCCACTCGGCAAGCGCTGTCATCAAGCCGCTTTCGCATACAGGAAGCGACGCGCTGCGTA
ATGGACGGGGTAAGGACGCATTCGAGGGATTGGGCCTCATCACTTCCATCGGTAAACCCGCACCTACTCTTGCCG
AAGCGCGAAAACTTCGAACAGGCTTAGCCATCATGAGTTCGCAACCGAATCAGTATGGCAGTACCAAGCCTGCTG
AGTTGTCGGTCAAACCTACTACGGACGGGGGGTCGACGCATCCAACTCCATCGCCTCGCCCTTCGTATCTTGGCC
CCACGACAGGCCACTTCCAATCGACTTCTAGGAGCACCACTCCAAATCCAGAACCTTGGCGGGGATCTGCACCTG
CTCCCAGCTCGGCCCATGCCAGCAAGGACGGGACGCCAATCGAGTCACGGTTCCCTTCATTGGAAGAGCTAGATG
CTCAGTTCTCGGCCACTTCATTGTACCCAGCGTCTGCGCAGGCTAACGACCGATTCGCCAGCCGATCAACGCCTA
CCGTTGCGCCTTCGCTACCCCCTCGCCCGAGTGCAAATGTGCCCAAGGAAGATCCTGAACGTCCTTCTCGTTTCA
ACGCTCCGCCGTCCGCTCCTCCGACTTTGGATTCTCTGGAGAAGAAATATGAAGCGACCTCTGTCAGGAACGACT
GGAAGTCATCACCATCGACACGCAGTGCGGTTGAGAGCAGGACGGAATCCTCGCCAGCTAAGCTCCCAAGCGGTT
CGGCGACAATGAGGTTCGCTATGGAGGAATTGAAGTCTACCCAGTCATCTTCGGGCACGTCGCAATCTACCAAAT
TGTCGTCGAACCGACCACCCTCTCCCTCGAAGCATTCACGAACCGCACCTGCGCCTGATTGGCTCACTGGAGACG
GCGATGTTACCGAAAACACCATTGAGAAGGCCACCACTGGACCTGTTGTTCGCGATACGCCAGCCAAGAGAGCTT
CCGTCATCTTGAAAAATGACTTCAAGATCCAAGAACCTGTCACTGCGCAGTACGATACAACGCCAGTGATACGCC
CAGAAAAGTCCCTTCATCCAGAAGAATCACCCACTGTCGCACGGTTCACGAAGAATTTCCCTGCCATTGACACTG
CGTCTGCGAATGAGCTCTTGATCCAGAACGAGCCGTTGACGGATAATTGGAGCCCAATTGTTGCGAGCAAACCTC
CGCCCCAACTTCCCCGCAGGCCGTCCAAAAAGGAACTCGAAGCCGCAGAGTCTGCTTCGAGTGCTGACGATGATG
AGGGGCCGGAGGACCTTGGTGGTTTGACCAGCCCGCCCAAGAAGATGGGCAGTCTACGAGCTTCGCGACACAAGG
GGCGGCAAAGCTCTGTACATGAGCTTGTTGATCTGTGGGGAGGCAAAGGGCCTGCTAAAGACAGACCTCGCGATG
AACCTTCTTCGCCATTGAAGGCGGCATCTGCGGAGAAACCTGTTACTAGACCAAAGCCTCGACCAACATCCTTAC
TGCCGCCTCAGCGTACTCCTTCGTTCAGCATGCGATCTGTCAGTGGTGGTGCAAGGATATCACCCATCCAGCGAG
TTCCTTCACCGCAGCCGTCGCCCAGCCTTCCGGAAAAGTCGCCACCGCTCCACTCCCCTCCCATTACCACGTCTC
CCTCCAGCGGTACCGGTCGATCCCGCCCTCAGTCTATGTTCATCTTTCCTTCCAAATCCACCGATGCATTACCGA
GCCCATCTCAACCTACGGGGATGGGACCTCCGCCTGAGGAAGGCACGCAGCGCCCAGCCCGTCGCCAAACGTCGA
TATCGAACATGGTGCAACGATATGAGGCCATTGGCGGTAAAGTGATTGCCCCTCAGCAAGCCGCTCCATCACCCG
TTACTCGTAAACCGAGTCTTAACCTCAATAAGAGCTCTGTGCCCCCCAATCAAGTCGAAACTGGGCGTATCAAGG
TCTTACCTGTGCCTGACAAGGTACCTGCGATTGCACCGAAGGACGAATTCAGACCTGCTTGGATATCCGGGGAGG
CGGCTCGAACACGCACAACCTCGACTGGTCCTCTGAAAGCCAGTCTGGACATCCCTCGCACGACGGTCAAACCCC
AGCGGGTGTCACCTATCGAACGTAAGCCAACCGGGTCACCCAAGAAGAACCTCGTTGGTCTGCCTTCGATTACCA
CAACCACGAATGCTGTCGTTTTCCCGAAGCGCAGACCGACGTTGCCGTCGGAAGATGTCCTGTCACCTCCTGCTT
CGAACAGCGATGATCGATCAGTATCTCCTGAAAGGCCATATCAAGGTGTAGGGAAGCTCATTGATCAATGGCAGC
GCAAATCCGAAGAGAGCGAGGGCTTCCATGGCAGGCCGCCTATAAAACGAGCCGGCCTCGTTCAAGGCAATCGTG
GATAGGAAAAAGGGGTTGGAAACGGATGTCCCTTTCGGTGATGTTGTGTCTTTTCGATTCTTTTAACTTTTATCT
GCTCTTTCTCTTCGTTTCTTAGTCCAGTAATGTTCTCTTTTTTCGTTGCTAATGCTTTTTTAATAAATATCAAGG
ACTCCGCCCATACAATATGATACAGGTCGAATTATCTATCTGCCACATGAGAAGGATAGTAGTTAGTAGTTTGTA
TGATAGGTTACATATTTGTATACTGTCATTTCCCTCCGAAA
Length 4466