CopciAB_501262
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_501262 Strain Coprinopsis cinerea Okayama 7
Standard name SKY1 Synonyms 501262
Uniprot id Functional description CMGC SRPK protein kinase
Location scaffold_2:3804686..3807753 Strand +
Gene length (nt) 3068 Transcript length (nt) 2803
CDS length (nt) 2052 Protein length (aa) 683

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Neurospora crassa NCU09202
Saccharomyces cerevisiae YMR216C_SKY1
Schizosaccharomyces pombe dsk1

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7261090 71.1 0 1003
Pleurotus eryngii ATCC 90797 Pleery1_1448990 61.6 6.743E-302 929
Pleurotus ostreatus PC15 PleosPC15_2_172231 62 3.981E-291 915
Pleurotus ostreatus PC9 PleosPC9_1_90889 61.9 8.639E-297 914
Hypsizygus marmoreus strain 51987-8 Hypma_RDB19263 60.3 9.157E-291 897
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_217668 67.9 6.837E-289 891
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_54166 67.8 7.124E-289 891
Ganoderma sp. 10597 SS1 v1.0 Gansp1_123672 63.4 2.43E-285 881
Schizophyllum commune H4-8 Schco3_2645675 64.5 7.666E-274 848
Flammulina velutipes Flave_chr02AA00254 68 2.288E-248 774
Lentinula edodes B17 Lened_B_1_1_16948 60.5 1.012E-217 685
Lentinula edodes NBRC 111202 Lenedo1_1216814 60.5 1.279E-217 685
Lentinula edodes W1-26 v1.0 Lentinedodes1_21363 60.5 1.27E-217 685
Auricularia subglabra Aurde3_1_1278856 58.3 2.844E-213 673
Grifola frondosa Grifr_OBZ75126 46.4 2.337E-198 629

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 34.0892 5.2508 3.0315
oidia 26.3613 2.8779 1.6615
vegetative_mycelium 27.0526 0.2412 0.1392
primordia 46.6402 1.5486 0.8941
hyphal_knot 28.6329 1.9732 1.1393
young_fruiting_body 114.143 9.4614 5.4626
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 22.7568 7.2067 4.1608
Wheat bran 11.4984 1.4355 0.8288
Horse manure 20.189 6.3622 3.6732
Oak leaves 23.9017 8.8649 5.1182
Hay 13.4535 3.1743 1.8327
Corn stalk 14.6797 2.4526 1.416
Pectine 24.8498 1.7794 1.0273
Microcrystalline cellulose 31.4902 5.2599 3.0368
Xylose 32.8611 2.3266 1.3432
Cellobiose 28.1185 3.3541 1.9365
Lignin 34.5433 8.9979 5.1949
Apple peels 24.8779 0.9635 0.5562
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 18.9134 1.7187 0.9923
Bsubtilis 19.9975 2.1611 1.2477
Ecoli 5.9276 0.5874 0.3392
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 114.4551 4.5558 2.6303
BS 4h 133.1392 32.6824 18.8692
BS 8h 78.0428 6.7244 3.8823
BS 12h 63.2135 16.8323 9.7181
Oidia 0 h 27.9776 8.6269 4.9807
Oidia 18 h 89.141 17.2222 9.9432
Sclerotia 29.7223 7.2852 4.2061
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 66.8886 6.4189 3.706
DM 36h 64.2174 14.2867 8.2484
DM 60h 74.2402 16.3289 9.4275
DM 84h 60.1371 6.5659 3.7908
DM 108h 52.8299 1.7328 1.0004
DM 132h 48.228 2.7453 1.585
DM 156hAE 125.7407 53.2651 30.7526
ELI1hAE 46.4645 4.287 2.4751
ELI2hAE 45.9319 2.209 1.2754
LI2hAE 56.5113 14.9336 8.6219
LI6hAE 83.2216 10.9726 6.3351
LI12hAE 33.5545 2.8959 1.672
LI18hAE 34.8861 7.5836 4.3784
LI 24hAE 106.3577 10.2858 5.9385
DM 156hAM 44.947 4.4354 2.5608
ELI1hAM 26.4329 4.2226 2.4379
ELI2hAM 28.3211 6.6797 3.8565
LI2hAM 25.5736 5.0774 2.9314
LI6hAM 44.847 3.2049 1.8503
LI12hAM 30.732 5.7992 3.3481
LI18hAM 31.9927 3.3912 1.9579
LI 24hAM 59.5103 5.9737 3.4489
LI 24hHK 58.3348 10.5879 6.1129
L/D 6h 59.1367 9.8949 5.7128
L/D 12h 57.3547 11.6602 6.732
L/D 18h 93.7029 8.8742 5.1235
L/D 24h 88.5013 17.7356 10.2396
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 23.0005 5.8131 3.3562
Hyphal knots 26.9621 7.8641 4.5403
Primordium 1 25.6976 3.8983 2.2507
Primordium 2 26.194 3.3691 1.9451
Young Fruiting body cap 47.4954 17.9571 10.3675
Younf fruiting body gill 46.1285 20.0311 11.565
Young fruiting body stipe 72.5585 16.0365 9.2587
Mature fruiting body cap_gill 78.0589 24.0924 13.9098
Mature fruiting body stipe 71.7558 8.0946 4.6734
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 20.5467 3.3185 1.9159
NH4NO3 20.1568 1.5247 0.8803
Proline 35.8062 9.3516 5.3991
Tryptophan 73.5342 23.5533 13.5985
Isoleucin 55.6869 12.7138 7.3403
Arginine 23.3191 2.0231 1.168
Metionine 26.4869 1.9539 1.1281
NaNO3 21.7909 1.7973 1.0377
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 20.5467 3.3185 1.9159
Citrus peel 11.37 3.4892 2.0145
Poplar leaves 20.1264 2.1548 1.2441
Typha leaves 18.6425 3.601 2.079
Overwintered Salix leaves 20.9064 1.4635 0.845
Reed flowering 18.6445 4.2092 2.4302
Tigernut 19.2974 2.3305 1.3455
Energy cane 19.4777 3.5596 2.0552
Guar gum 19.0983 8.3981 4.8486
Apple peels 30.2992 2.7683 1.5983
Cellobiose 27.2175 2.4878 1.4364
Corn stalk 29.2933 4.3351 2.5029
Horse manure 32.1455 14.0508 8.1122
Lignin 14.4895 2.0203 1.1664
Microcrystalline cellulose 24.7353 1.7071 0.9856
Oak leaves 20.7148 1.7701 1.022
Pectin esterified 26.4551 7.2608 4.192
Poplar sawdust 27.3504 7.4671 4.3112
Wheat bran 29.3534 7.6094 4.3933
Chlamydomonas reinhardtii 20.4023 2.4901 1.4377
Vertatryl alcohol 18.8276 2.9703 1.7149
Furfural 78.3422 29.6537 17.1205
Autoclaved mycelium 19.906 0.6372 0.3679
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 33.8102 0.3218 0.1858
Ribose 33.7559 6.2263 3.5948
Mannose 37.4766 0.5495 0.3886
Fructose 33.5643 0.7456 0.4305
Arabinose 35.4692 1.3456 0.7769
Xylose 38.3719 4.0892 2.3609
Galacturonic acid 32.8163 6.6475 3.8379
Rhamnogalacturonan 31.9428 3.3624 1.9413
Pectin esterified 32.3642 3.8497 2.2226
Polygalacturonic acid 28.4558 1.068 0.6166
Sodium acetate 41.336 2.8091 1.6218
No nitrogen 87.0856 5.2898 3.0541
BSA 32.23 3.8173 2.2039
Glutamine 30.0107 6.3686 3.6769
No phosphate 45.7428 2.4093 1.391
No carbon 34.7217 0.9121 0.6449
No sulphur 38.738 0.7513 0.4338
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 20.5467 3.3185 1.9159
Amylose 22.8301 1.4793 0.8541
Fucose 22.0425 1.7106 0.9876
Galactose 21.536 0.7202 0.4158
Lactose 22.1626 2.1062 1.216
Maltose 23.7036 1.3439 0.7759
Mannitol 22.5326 3.7556 2.1683
Rhamnose 23.1964 1.7304 0.999
Sorbitol 22.9788 2.4321 1.4041
Trehalose 25.2508 0.7975 0.4604
Glycerol 21.321 2.8013 1.6173
Glucuronic acid 22.4768 0.9671 0.5584
Arabinan 19.9621 4.5388 2.6205
Galactan 26.657 3.0559 1.7643
Galactomannan 19.225 2.9082 1.6791
Glucan 21.6843 3.4531 1.9937
Xylan 22.1068 1.236 0.7136
Xyloglucan 21.0671 3.5298 2.0379
Arabinogalactan 23.5974 1.6256 0.9386
Pectin 21.5541 7.2939 4.2112
Rhamnogalacturonan 23.4697 5.4802 3.164
Polygalacturonic acid 19.6402 2.2258 1.2851
Mannan 20.373 3.1081 1.7945
Amylopectin 16.799 3.4242 1.977
Inulin 22.0503 3.5498 2.0495
BSA 20.4523 1.6447 0.9496
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 74.2402 16.3289 9.4275
2h WAT 62.7258 11.1253 6.4232
4h WAT 60.2484 9.6241 5.5565
8h WAT 30.9161 7.1149 4.1078
16h WAT 42.5375 9.6935 5.5965
24h WAT 43.5959 10.8872 6.2857
WAT hyphal knot -30h 23.4235 3.4731 2.0052
WAT hyphal knot -22h 28.8174 6.0641 3.5011
WAT hyphal knot -15h 33.2765 5.538 3.1973
WAT hyphal knot -7.5h 34.243 4.4125 2.5475
WAT hyphal knot 41.6434 6.1129 3.5293
WAT hyphal knot +7.5h 60.4517 13.9994 8.0825
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 25.6871 2.0429 1.1794
Straw 3h 11.2832 3.5689 2.0605
Straw 6h 13.2728 2.9855 1.7237
Straw 12h 19.3613 0.7904 0.4563
Straw 24h 15.9156 5.0973 2.9429
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 69.332 6.802 3.9271
Frost (-20C, 30min) 61.6674 5.3152 3.0687
Heat shock (47C, 2h) 206.8851 11.2852 6.5155
High CO2 41.3346 6.0037 3.4662
Drought (4% agar, 12h) 62.4919 4.2383 2.447
Oxidative (1mM H2O2, 3h) 43.3598 6.4886 3.7462
Acidic (pH4, 3h) 71.9637 9.9017 5.7167
Alkaline (pH9, 3h) 53.1294 0.8559 0.4942
Osmotic (sorbitol 2h) 41.7646 3.0687 1.7717
CongoRed (3h) 37.982 6.36 3.6719
Cobalt chloride control 40.1611 5.2064 3.0059
Cobalt chloride 2mM 31.2623 8.8267 5.0961
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 26.8599 13.9626 8.0613
Cold stimulation 30.8926 11.5805 6.686
Scratched surface 24.3152 2.5136 1.4512
Ca2+, 200mM, 24h 21.377 5.688 3.284
Cu2+, 2mM, 6h 35.8197 10.8839 6.2839
Voriconazole 23.3949 1.088 0.6281
Trichoderma interaction, early 27.6279 6.4454 3.7212
Trichoderma interaction 60h 37.4557 18.6979 10.7952
Cobalt chloride 2mM repeat 36.2107 2.8332 1.6357
Hypoxia 34.288 11.8938 6.8669
Hypoxia control 48.4609 10.3895 5.9984
Protoplastation control 44.7867 6.9158 4.8902
Protoplastation 3.5h 38.8573 4.2328 2.993
Protoplastation 1.5h 34.6809 7.8655 5.5618

General data

Systematic name SKY1
Protein id CopciAB_501262.T0
Description CMGC SRPK protein kinase

Annotation summary

0 200 400 600 683

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd14136 STKc_SRPK - 31 541
Pfam PF00069 Protein kinase domain IPR000719 123 203
Pfam PF00069 Protein kinase domain IPR000719 375 541

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
K08832

EggNOG

COG category Description
T CMGC SRPK protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_501262 across fungi.

Arrow shows the origin of gene family containing CopciAB_501262.

Protein

Sequence id CopciAB_501262.T0
Sequence >CopciAB_501262.T0
MSHGSYSSYSASIMTEDEEDWEDYVKGGYHPVKIGDEFSDGRYVVVRKLGWGHFSTVWLARDTKMNRHVALKIVK
SAPRYTETALDEIKLLQRLITSSTPPVAPTPENPNPPPSPSHTHPGKSHVIQFLDHFRHKGPNGTHVCMVFEVLG
ENLLGLIKRHQSKGVPMHLVKQIAKQILLGLDYMHRCCGVIHTDLKPENVLICIDDVENVILAELEASSAAASTP
PTRLVGVPPSKGRGGNQTPRSESVFITGSQPLPSPSSSFGTSPMLDKWAFGMSRIEGDDNSNGIVEKKGLSTVKR
AVSTDLVAEVNNVSLETQASYVGRMPGAPGPSLLTDTKPVPIPGAPSPEPPADGAPRSVMSVDQRSDSSSAIDLS
EKITVKIADLGNATWVEHHFTDDIQTRQYRCPEVILGAKWGTSADIWSVACVLFELITGGDYLFDPASGSRYSKD
DDHIAQIMELLGELPRSIAFSGKYSSEFFNRKGELRHINKLRYWPLDSVLHDKYLFPKHEADALAAFLLPMLRLH
PDRRAKASELIHHNWLEGTVVQGEIDVIKRAEAEEAARKKAKADQQRQASQKHKRDDSKLVQAGGMQLLDEDEAD
AMKPIEAGAVVADGEADGEQKDAKPVQQLQHQPPVLNPPPIPHGASGLTRTAPANVAKQVSPPPAANNRQPSAGK
KTSKSGRS
Length 683

Coding

Sequence id CopciAB_501262.T0
Sequence >CopciAB_501262.T0
ATGTCTCACGGTTCCTATTCTTCATACTCTGCCTCCATCATGACTGAAGACGAAGAAGATTGGGAGGACTATGTC
AAGGGAGGCTACCACCCAGTCAAGATTGGCGACGAGTTTTCCGATGGACGCTACGTCGTCGTCAGAAAGCTCGGT
TGGGGTCACTTTTCCACCGTCTGGCTCGCCAGAGACACAAAGATGAATCGCCATGTTGCCCTCAAAATCGTGAAA
TCAGCCCCGCGATATACAGAGACCGCCCTGGACGAAATCAAGCTCCTGCAGCGTCTGATCACGTCCTCGACTCCA
CCCGTCGCGCCCACCCCAGAGAATCCAAATCCACCCCCGTCTCCCTCTCATACCCACCCCGGGAAATCGCACGTC
ATTCAATTCCTGGATCACTTCCGACACAAGGGGCCCAATGGAACCCACGTCTGCATGGTTTTCGAGGTTCTGGGC
GAGAACCTCCTTGGTCTCATTAAACGACACCAGAGCAAGGGCGTTCCGATGCATCTCGTTAAGCAAATCGCGAAA
CAAATCCTCCTCGGTCTCGACTACATGCATCGTTGTTGCGGCGTCATCCACACAGATCTTAAGCCCGAGAACGTC
CTCATCTGCATCGACGACGTCGAAAACGTCATCTTAGCCGAGCTTGAAGCCTCTTCTGCAGCAGCCAGCACGCCA
CCCACGAGGCTAGTCGGTGTTCCTCCTTCGAAAGGACGTGGAGGCAACCAAACTCCAAGATCCGAATCCGTTTTC
ATCACCGGCTCACAGCCCCTTCCCTCGCCTTCCTCATCCTTTGGCACGAGCCCAATGCTAGACAAATGGGCATTT
GGTATGAGCAGGATTGAGGGAGACGACAACAGCAATGGCATCGTGGAGAAGAAGGGCCTGTCAACGGTGAAACGG
GCTGTCTCGACGGATTTGGTCGCCGAAGTCAACAACGTCTCACTAGAAACCCAGGCTAGCTACGTTGGACGCATG
CCTGGCGCTCCCGGACCTTCCCTGCTCACCGACACCAAACCTGTTCCTATTCCTGGCGCCCCATCCCCCGAACCT
CCAGCAGACGGGGCCCCTCGCTCTGTGATGTCGGTCGATCAACGATCCGACTCTTCCAGTGCCATCGACTTGTCA
GAGAAGATCACTGTTAAGATCGCGGATTTGGGAAATGCCACGTGGGTCGAACATCACTTCACCGACGATATCCAA
ACTCGACAATACCGCTGTCCCGAAGTCATCCTAGGCGCCAAGTGGGGCACTAGTGCAGATATTTGGAGTGTAGCT
TGCGTGCTCTTCGAATTGATCACTGGCGGTGATTATCTATTTGATCCCGCCTCTGGTTCGAGGTACAGCAAGGAT
GACGACCACATCGCTCAGATCATGGAGCTGCTCGGCGAGCTACCAAGGAGTATAGCCTTTTCCGGCAAATACTCC
TCCGAATTCTTCAACCGGAAAGGTGAGCTACGGCATATCAACAAACTCCGATATTGGCCTCTCGACTCTGTGCTG
CACGACAAGTACCTGTTCCCTAAACACGAAGCCGACGCACTCGCGGCATTCCTCCTCCCGATGCTCCGCCTCCAC
CCCGATCGACGCGCCAAAGCCTCCGAGTTGATCCACCACAACTGGCTCGAGGGCACCGTCGTACAAGGCGAGATC
GACGTGATTAAGAGGGCTGAAGCGGAGGAAGCAGCACGGAAGAAGGCGAAGGCCGATCAGCAGCGCCAGGCGTCG
CAGAAACACAAGCGGGACGATTCGAAACTCGTCCAGGCGGGAGGGATGCAGCTGTTGGACGAGGACGAGGCGGAT
GCGATGAAGCCTATCGAAGCTGGGGCTGTGGTGGCTGATGGCGAGGCTGATGGCGAGCAGAAGGATGCGAAACCG
GTTCAGCAGTTGCAGCATCAGCCGCCGGTGTTGAACCCTCCTCCGATCCCGCATGGCGCGTCGGGGCTGACGAGG
ACTGCGCCTGCGAATGTTGCGAAACAGGTTTCCCCTCCTCCTGCCGCGAATAATCGACAGCCGTCTGCTGGTAAG
AAGACGTCCAAATCCGGCCGGAGTTAA
Length 2052

Transcript

Sequence id CopciAB_501262.T0
Sequence >CopciAB_501262.T0
ATCGTTCCTCATCGTCGCGTACGACGAGCTCGCCCGGTTCCACACCTTTTCGCACCTCTCGCCACCGGGGCCCAC
GGCGACCACACGACTAACGGCAACCAGCTGCGGATTTCGTCTCCAATTGGGTGGCTAAACTAGGCAACCAGGGCT
TATCTTTGACCGCCTCCAGATACTCGACCCTTATCTCGGGAAGCCACAGGACAGCAACAGATTACGGATTGGTTA
GAATTATCATAAACGATGTCTCACGGTTCCTATTCTTCATACTCTGCCTCCATCATGACTGAAGACGAAGAAGAT
TGGGAGGACTATGTCAAGGGAGGCTACCACCCAGTCAAGATTGGCGACGAGTTTTCCGATGGACGCTACGTCGTC
GTCAGAAAGCTCGGTTGGGGTCACTTTTCCACCGTCTGGCTCGCCAGAGACACAAAGATGAATCGCCATGTTGCC
CTCAAAATCGTGAAATCAGCCCCGCGATATACAGAGACCGCCCTGGACGAAATCAAGCTCCTGCAGCGTCTGATC
ACGTCCTCGACTCCACCCGTCGCGCCCACCCCAGAGAATCCAAATCCACCCCCGTCTCCCTCTCATACCCACCCC
GGGAAATCGCACGTCATTCAATTCCTGGATCACTTCCGACACAAGGGGCCCAATGGAACCCACGTCTGCATGGTT
TTCGAGGTTCTGGGCGAGAACCTCCTTGGTCTCATTAAACGACACCAGAGCAAGGGCGTTCCGATGCATCTCGTT
AAGCAAATCGCGAAACAAATCCTCCTCGGTCTCGACTACATGCATCGTTGTTGCGGCGTCATCCACACAGATCTT
AAGCCCGAGAACGTCCTCATCTGCATCGACGACGTCGAAAACGTCATCTTAGCCGAGCTTGAAGCCTCTTCTGCA
GCAGCCAGCACGCCACCCACGAGGCTAGTCGGTGTTCCTCCTTCGAAAGGACGTGGAGGCAACCAAACTCCAAGA
TCCGAATCCGTTTTCATCACCGGCTCACAGCCCCTTCCCTCGCCTTCCTCATCCTTTGGCACGAGCCCAATGCTA
GACAAATGGGCATTTGGTATGAGCAGGATTGAGGGAGACGACAACAGCAATGGCATCGTGGAGAAGAAGGGCCTG
TCAACGGTGAAACGGGCTGTCTCGACGGATTTGGTCGCCGAAGTCAACAACGTCTCACTAGAAACCCAGGCTAGC
TACGTTGGACGCATGCCTGGCGCTCCCGGACCTTCCCTGCTCACCGACACCAAACCTGTTCCTATTCCTGGCGCC
CCATCCCCCGAACCTCCAGCAGACGGGGCCCCTCGCTCTGTGATGTCGGTCGATCAACGATCCGACTCTTCCAGT
GCCATCGACTTGTCAGAGAAGATCACTGTTAAGATCGCGGATTTGGGAAATGCCACGTGGGTCGAACATCACTTC
ACCGACGATATCCAAACTCGACAATACCGCTGTCCCGAAGTCATCCTAGGCGCCAAGTGGGGCACTAGTGCAGAT
ATTTGGAGTGTAGCTTGCGTGCTCTTCGAATTGATCACTGGCGGTGATTATCTATTTGATCCCGCCTCTGGTTCG
AGGTACAGCAAGGATGACGACCACATCGCTCAGATCATGGAGCTGCTCGGCGAGCTACCAAGGAGTATAGCCTTT
TCCGGCAAATACTCCTCCGAATTCTTCAACCGGAAAGGTGAGCTACGGCATATCAACAAACTCCGATATTGGCCT
CTCGACTCTGTGCTGCACGACAAGTACCTGTTCCCTAAACACGAAGCCGACGCACTCGCGGCATTCCTCCTCCCG
ATGCTCCGCCTCCACCCCGATCGACGCGCCAAAGCCTCCGAGTTGATCCACCACAACTGGCTCGAGGGCACCGTC
GTACAAGGCGAGATCGACGTGATTAAGAGGGCTGAAGCGGAGGAAGCAGCACGGAAGAAGGCGAAGGCCGATCAG
CAGCGCCAGGCGTCGCAGAAACACAAGCGGGACGATTCGAAACTCGTCCAGGCGGGAGGGATGCAGCTGTTGGAC
GAGGACGAGGCGGATGCGATGAAGCCTATCGAAGCTGGGGCTGTGGTGGCTGATGGCGAGGCTGATGGCGAGCAG
AAGGATGCGAAACCGGTTCAGCAGTTGCAGCATCAGCCGCCGGTGTTGAACCCTCCTCCGATCCCGCATGGCGCG
TCGGGGCTGACGAGGACTGCGCCTGCGAATGTTGCGAAACAGGTTTCCCCTCCTCCTGCCGCGAATAATCGACAG
CCGTCTGCTGGTAAGAAGACGTCCAAATCCGGCCGGAGTTAAGCATTGGGCATCGGTTTGAATTTTTTTTTTTTT
TTTTTCTTTGTTTTTTTTTGGTTCGTATACTATAGAGATGCGTGTGGCGAAGGGTGGACCAGGGGGTGTCCTGTC
GTCGACGCTAAAGAAGTTACCATTGTTTTTTTGTTGTGCAATTCAATCAGCGCTTTCTCTGTTCCCTAGTACTCT
TGTTCTTTTTCATCCTCGATGATTCGCTTACGATGTATACGCATGCATGATTGATTACTACTTACTCCTTTTCTC
TTCTCCCCCCTTACTACGACTACTACTACGCCCAACCGCTACGATACGAGTTACGCTTGATTGTGTTTTTGTTTT
GTTTGTTTTTCAGCCAATTTCATACCTTCTCGTTCACTCGCTGTCATCATGATGCTGCGACTCTCTCTCTGATTA
TATCCTGGTAGATGATTCTCTATCCGATCACATGTTATATTTGTTGTATATTTGTTGTTTGTTTGTTACAAGTAG
TGCCATAAAGTTGAACACTCTCTTCAAA
Length 2803

Gene

Sequence id CopciAB_501262.T0
Sequence >CopciAB_501262.T0
ATCGTTCCTCATCGTCGCGTACGACGAGCTCGCCCGGTTCCACACCTTTTCGCACCTCTCGCCACCGGGGCCCAC
GGCGACCACACGACTAACGGCAACCAGCTGCGGATTTCGTCTCCAATTGGGTGGCTAAACTAGGCAACCAGGGCT
TATCTTTGACCGCCTCCAGATACTCGACCCTTATCTCGGGAAGCCACAGGACAGCAACAGATTACGGATTGGTTA
GAATTATCATAAACGATGTCTCACGGTTCCTATTCTTCATACTCTGCCTCCATCATGACTGAAGACGAAGAAGAT
TGGGAGGACTATGTCAAGGGAGGCTACCACCCAGTCAAGATTGGCGACGAGTTTTCCGATGGACGCTACGTCGTC
GTCAGAAAGCTCGGTTGGGGTCACTTTTCCACCGTCTGGCTCGCCAGAGACACAAAGTGAGTTTCACGAGACCAC
AAGGTTGACCCACATTCTCTGACATTCCCGGGTGGCTAGGATGAATCGCCATGTTGCCCTCAAAATCGTGAAATC
AGCCCCGCGATATACAGAGACCGCCCTGGACGAAATCAAGCTCCTGCAGCGTCTGATCACGTCCTCGACTCCACC
CGTCGCGCCCACCCCAGAGAATCCAAATCCACCCCCGTCTCCCTCTCATACCCACCCCGGGAAATCGCACGTCAT
TCAATTCCTGGATCACTTCCGACACAAGGGGCCCAATGGAACCCACGTCTGCATGGTTTTCGAGGTTCTGGGCGA
GAACCTCCTTGGTCTCATTAAACGACACCAGAGCAAGGGCGTTCCGATGCATCTCGTTAAGCAAATCGCGAAACA
AATCCTCCTCGGTCTCGACTACATGCATCGTTGTTGCGGCGTCATCCACACAGGTGCGAAAATCTCGTGCCACTG
GGTCTTAATGCCACTCACAGAGAACCTTCTAGATCTTAAGCCCGAGAACGTCCTCATCTGCATCGACGACGTCGA
AAACGTCATCTTAGCCGAGCTTGAAGCCTCTTCTGCAGCAGCCAGCACGCCACCCACGAGGCTAGTCGGTGTTCC
TCCTTCGAAAGGACGTGGAGGCAACCAAACTCCAAGATCCGAATCCGTTTTCATCACCGGCTCACAGCCCCTTCC
CTCGCCTTCCTCATCCTTTGGCACGAGCCCAATGCTAGACAAATGGGCATTTGGTATGAGCAGGATTGAGGGAGA
CGACAACAGCAATGGCATCGTGGAGAAGAAGGGCCTGTCAACGGTGAAACGGGCTGTCTCGACGGATTTGGTCGC
CGAAGTCAACAACGTCTCACTAGAAACCCAGGCTAGCTACGTTGGACGCATGCCTGGCGCTCCCGGACCTTCCCT
GCTCACCGACACCAAACCTGTTCCTATTCCTGGCGCCCCATCCCCCGAACCTCCAGCAGACGGGGCCCCTCGCTC
TGTGATGTCGGTCGATCAACGATCCGACTCTTCCAGTGCCATCGACTTGTCAGAGAAGATCACTGTTAAGATCGC
GGATTTGGGAAATGGTATGCCTCTTCTTTTAGTTGCCTCAACATGTTTTTGAGCGATTTTTAGCCACGTGGGTCG
AACATCACTTCACCGACGATATCCAAACTCGACAATACCGCTGTCCCGAAGTCATCCTAGGCGCCAAGTGGGGCA
CTAGTGCAGATATTTGGAGTGTAGCTTGCGTGGTACGTTTTTTGGTTATCTGAGATCGCCTCGAGTGTGCTGACT
CTTCTTTAGCTCTTCGAATTGATCACTGGCGGTGATTATCTATTTGATCCCGCCTCTGGTTCGAGGTACAGCAAG
GATGACGACCACATCGCTCAGATCATGGAGCTGCTCGGCGAGCTACCAAGGAGTATAGCCTTTTCCGGCAAATAC
TCCTCCGAATTCTTCAACCGGAAAGGTACGGCGTCGCACCAACTCCTATTCATTCTTCAGGTTCTAATGCGACGC
AGGTGAGCTACGGCATATCAACAAACTCCGATATTGGCCTCTCGACTCTGTGCTGCACGACAAGTACCTGTTCCC
TAAACACGAAGCCGACGCACTCGCGGCATTCCTCCTCCCGATGCTCCGCCTCCACCCCGATCGACGCGCCAAAGC
CTCCGAGTTGATCCACCACAACTGGCTCGAGGGCACCGTCGTACAAGGCGAGATCGACGTGATTAAGAGGGCTGA
AGCGGAGGAAGCAGCACGGAAGAAGGCGAAGGCCGATCAGCAGCGCCAGGCGTCGCAGAAACACAAGCGGGACGA
TTCGAAACTCGTCCAGGCGGGAGGGATGCAGCTGTTGGACGAGGACGAGGCGGATGCGATGAAGCCTATCGAAGC
TGGGGCTGTGGTGGCTGATGGCGAGGCTGATGGCGAGCAGAAGGATGCGAAACCGGTTCAGCAGTTGCAGCATCA
GCCGCCGGTGTTGAACCCTCCTCCGATCCCGCATGGCGCGTCGGGGCTGACGAGGACTGCGCCTGCGAATGTTGC
GAAACAGGTTTCCCCTCCTCCTGCCGCGAATAATCGACAGCCGTCTGCTGGTAAGAAGACGTCCAAATCCGGCCG
GAGTTAAGCATTGGGCATCGGTTTGAATTTTTTTTTTTTTTTTTTCTTTGTTTTTTTTTGGTTCGTATACTATAG
AGATGCGTGTGGCGAAGGGTGGACCAGGGGGTGTCCTGTCGTCGACGCTAAAGAAGTTACCATTGTTTTTTTGTT
GTGCAATTCAATCAGCGCTTTCTCTGTTCCCTAGTACTCTTGTTCTTTTTCATCCTCGATGATTCGCTTACGATG
TATACGCATGCATGATTGATTACTACTTACTCCTTTTCTCTTCTCCCCCCTTACTACGACTACTACTACGCCCAA
CCGCTACGATACGAGTTACGCTTGATTGTGTTTTTGTTTTGTTTGTTTTTCAGCCAATTTCATACCTTCTCGTTC
ACTCGCTGTCATCATGATGCTGCGACTCTCTCTCTGATTATATCCTGGTAGATGATTCTCTATCCGATCACATGT
TATATTTGTTGTATATTTGTTGTTTGTTTGTTACAAGTAGTGCCATAAAGTTGAACACTCTCTTCAAA
Length 3068