CopciAB_466150
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_466150 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 466150
Uniprot id Functional description other FunK1 protein kinase
Location scaffold_12:371521..374845 Strand -
Gene length (nt) 3325 Transcript length (nt) 2887
CDS length (nt) 2664 Protein length (aa) 887

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
0

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 92.8641 10.0131 5.7811
oidia 127.7045 5.2847 3.0511
vegetative_mycelium 110.8499 10.7337 6.1971
primordia 86.8141 2.088 1.2055
hyphal_knot 106.4905 6.1152 3.5306
young_fruiting_body 41.8619 4.8105 2.7774
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 155.2506 4.935 2.8492
Wheat bran 125.1114 17.4173 10.0559
Horse manure 106.3376 40.1449 23.1777
Oak leaves 102.4714 20.3343 11.74
Hay 126.0094 16.4232 9.4819
Corn stalk 116.8254 17.9973 10.3907
Pectine 126.0799 6.4512 3.7246
Microcrystalline cellulose 115.9272 8.4328 4.8687
Xylose 147.355 10.4751 6.0478
Cellobiose 155.9761 10.9045 6.2957
Lignin 102.5957 15.6757 9.0504
Apple peels 129.5649 8.6889 5.0166
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 125.8251 1.1032 0.6369
Bsubtilis 107.6939 7.7152 4.4544
Ecoli 115.2564 4.0259 2.3243
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 15.6698 3.6494 2.107
BS 4h 19.8332 0.511 0.295
BS 8h 16.1066 2.8365 1.6377
BS 12h 15.1196 0.594 0.3429
Oidia 0 h 22.3721 2.8233 1.63
Oidia 18 h 20.0911 0.9964 0.5753
Sclerotia 10.8892 1.0948 0.6321
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 25.4625 4.929 2.8457
DM 36h 25.0617 1.6505 0.9529
DM 60h 21.5517 3.1804 1.8362
DM 84h 21.7204 1.2955 0.7479
DM 108h 20.2394 0.2944 0.17
DM 132h 18.9257 2.889 1.6679
DM 156hAE 23.4324 0.2186 0.1262
ELI1hAE 21.9523 4.0629 2.3457
ELI2hAE 24.9884 1.9518 1.1269
LI2hAE 20.4231 5.2708 3.0431
LI6hAE 18.4632 1.4538 0.8393
LI12hAE 17.5874 6.2401 3.6027
LI18hAE 14.7795 5.1492 2.9729
LI 24hAE 26.1363 2.6897 1.5529
DM 156hAM 24.6103 1.0494 0.6059
ELI1hAM 23.3316 3.9617 2.2873
ELI2hAM 22.6905 1.2968 0.7487
LI2hAM 24.2508 3.1991 1.847
LI6hAM 24.459 10.5736 6.1047
LI12hAM 17.4899 5.9422 3.4307
LI18hAM 14.7659 4.1935 2.4211
LI 24hAM 23.3043 1.9802 1.1433
LI 24hHK 28.4009 3.448 1.9907
L/D 6h 28.6786 3.3613 1.9407
L/D 12h 28.8379 3.9494 2.2802
L/D 18h 29.4314 4.861 2.8065
L/D 24h 22.7968 1.3571 0.7835
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 81.9822 6.2843 3.6283
Hyphal knots 74.5654 20.0214 11.5594
Primordium 1 83.1313 7.3611 4.2499
Primordium 2 79.2157 14.0058 8.0862
Young Fruiting body cap 61.3416 17.6632 10.1979
Younf fruiting body gill 42.0194 13.6019 7.8531
Young fruiting body stipe 70.3515 4.2003 2.425
Mature fruiting body cap_gill 19.2894 1.0906 0.6297
Mature fruiting body stipe 52.5756 2.8786 1.6619
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 89.4328 2.5448 1.4693
NH4NO3 127.1421 9.6422 5.5669
Proline 104.7244 8.1865 4.7265
Tryptophan 90.0191 16.0487 9.2657
Isoleucin 98.9672 12.1229 6.9991
Arginine 98.8721 3.711 2.1426
Metionine 103.365 6.955 4.0155
NaNO3 87.8686 4.1426 2.3917
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 89.4328 2.5448 1.4693
Citrus peel 80.1722 2.4441 1.4111
Poplar leaves 82.497 2.7657 1.5968
Typha leaves 92.3981 11.3264 6.5393
Overwintered Salix leaves 91.6036 9.5759 5.5286
Reed flowering 79.3119 16.8653 9.7372
Tigernut 77.1357 5.2053 3.0053
Energy cane 84.1529 6.7814 3.9152
Guar gum 94.4537 10.6432 6.1449
Apple peels 86.8578 20.9951 12.1215
Cellobiose 102.5961 4.3066 2.4864
Corn stalk 104.3107 6.8283 3.9423
Horse manure 85.2396 12.6951 7.3295
Lignin 74.9068 15.2428 8.8004
Microcrystalline cellulose 84.7476 12.8916 7.443
Oak leaves 95.7429 10.0083 5.7783
Pectin esterified 90.5907 5.3838 3.1083
Poplar sawdust 89.5289 19.1045 11.03
Wheat bran 83.7507 21.2818 12.2871
Chlamydomonas reinhardtii 88.1115 6.3689 3.6771
Vertatryl alcohol 125.1562 10.8458 6.2618
Furfural 142.2436 28.3782 16.3842
Autoclaved mycelium 82.9009 3.1945 1.8444
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 163.5312 8.0382 4.6408
Ribose 168.5781 7.9529 4.5916
Mannose 168.5708 3.1358 2.2173
Fructose 148.9575 16.0981 9.2942
Arabinose 165.297 19.8245 11.4457
Xylose 164.4772 4.4162 2.5497
Galacturonic acid 151.4613 4.7779 2.7585
Rhamnogalacturonan 148.5304 10.3466 5.9736
Pectin esterified 139.6365 14.1613 8.176
Polygalacturonic acid 148.6273 2.4311 1.4036
Sodium acetate 161.3598 8.5153 4.9163
No nitrogen 148.0928 5.378 3.105
BSA 145.3175 9.9499 5.7446
Glutamine 149.1372 7.3061 4.2182
No phosphate 176.702 7.2812 4.2038
No carbon 161.4337 9.0081 6.3697
No sulphur 166.5423 12.279 7.0893
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 89.4328 2.5448 1.4693
Amylose 91.7578 4.0641 2.3464
Fucose 95.1228 6.1555 3.5539
Galactose 90.6573 1.0269 0.5929
Lactose 94.0153 5.5083 3.1802
Maltose 90.2009 5.5948 3.2302
Mannitol 91.1178 7.2319 4.1753
Rhamnose 87.3172 4.8718 2.8128
Sorbitol 97.3221 4.559 2.6322
Trehalose 91.1381 4.9083 2.8338
Glycerol 85.7577 11.9906 6.9228
Glucuronic acid 107.8517 3.8185 2.2046
Arabinan 87.5978 15.5436 8.9741
Galactan 88.8681 3.884 2.2424
Galactomannan 91.8928 9.7364 5.6213
Glucan 88.2715 6.6996 3.868
Xylan 106.3136 2.022 1.1674
Xyloglucan 114.4266 5.8104 3.3546
Arabinogalactan 104.4899 4.4131 2.5479
Pectin 65.8479 11.2697 6.5065
Rhamnogalacturonan 57.6761 2.5998 1.501
Polygalacturonic acid 98.3919 8.7728 5.065
Mannan 98.7857 6.5148 3.7613
Amylopectin 71.8033 7.5901 4.3822
Inulin 84.3196 7.5499 4.3589
BSA 81.334 6.0331 3.4832
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 21.5517 3.1804 1.8362
2h WAT 20.2113 2.216 1.2794
4h WAT 17.4482 1.4649 0.8457
8h WAT 18.3426 3.3451 1.9313
16h WAT 15.7824 1.8783 1.0844
24h WAT 13.432 2.9102 1.6802
WAT hyphal knot -30h 20.9971 2.0684 1.1942
WAT hyphal knot -22h 20.1697 2.3561 1.3603
WAT hyphal knot -15h 19.2048 4.3771 2.5271
WAT hyphal knot -7.5h 16.8944 3.7397 2.1591
WAT hyphal knot 16.8302 3.3708 1.9461
WAT hyphal knot +7.5h 18.133 1.727 0.9971
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 68.4953 25.0329 14.4527
Straw 3h 69.281 7.8584 4.5371
Straw 6h 66.485 20.8642 12.0459
Straw 12h 95.2769 5.3643 3.0971
Straw 24h 86.9076 13.0983 7.5623
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 14.2051 0.1709 0.0987
Frost (-20C, 30min) 19.9489 0.6118 0.3532
Heat shock (47C, 2h) 55.7698 7.2512 4.1865
High CO2 16.5036 0.4487 0.2591
Drought (4% agar, 12h) 20.6731 4.4533 2.5711
Oxidative (1mM H2O2, 3h) 15.0532 2.46 1.4203
Acidic (pH4, 3h) 11.6675 3.378 1.9503
Alkaline (pH9, 3h) 15.7211 2.4734 1.428
Osmotic (sorbitol 2h) 16.1187 1.4495 0.8369
CongoRed (3h) 15.4661 3.5314 2.0388
Cobalt chloride control 14.3716 1.664 0.9607
Cobalt chloride 2mM 18.8831 2.3978 1.3844
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 17.5719 5.5017 3.1764
Cold stimulation 22.998 5.6244 3.2472
Scratched surface 27.0593 4.1035 2.3691
Ca2+, 200mM, 24h 17.1237 1.046 0.6039
Cu2+, 2mM, 6h 26.4113 11.1595 6.443
Voriconazole 19.2361 0.9807 0.5662
Trichoderma interaction, early 21.8737 1.0274 0.5931
Trichoderma interaction 60h 8.1657 6.3047 3.64
Cobalt chloride 2mM repeat 20.6323 3.832 2.2124
Hypoxia 16.1535 2.4233 1.3991
Hypoxia control 15.9617 2.5259 1.4583
Protoplastation control 11.1364 0.3871 0.2738
Protoplastation 3.5h 23.2293 14.2083 10.0468
Protoplastation 1.5h 18.1692 8.4101 5.9468

General data

Systematic name -
Protein id CopciAB_466150.T0
Description other FunK1 protein kinase

Annotation summary

0 200 400 600 800 887

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 189 552
Pfam PF17667 Fungal protein kinase IPR040976 656 696

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR040976 Fungal-type protein kinase
IPR011009 Protein kinase-like domain superfamily
IPR008266 Tyrosine-protein kinase, active site

GO

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

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
H other FunK1 protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_466150 across fungi.

Arrow shows the origin of gene family containing CopciAB_466150.

Protein

Sequence id CopciAB_466150.T0
Sequence >CopciAB_466150.T0
MTTSFAPTKAQDVRDAVESDVRHNIRVCERQAFVDRLFPMKPDVVQKIIQDLEDTGWYSPTSGWKGLPQEPGGAE
GEYYHPYTQILDAIDSAALSHGERDIDHVPGKWLDRHDITPKCNVKNTSKLRPDLNNLILHPDRDAPEKFVECLK
DVHEAEIELEETCTTVEGDSKPASKRTKATVPRSESERQKSAESLTVSWLRTRGVVEIKTRYWLNDIWPTTLQLC
TYLRQILREQHDRRFVFGFIFFHRSLAIWHSDRSGLLGVKQVINIDDNLELFVQVMSSFALMGAERLGFDPNMKM
VVPGCAPAFSYALPFDRIPKHRHKLHWQITIKGVTYQTVEILSVARSEIMCGRAPLVWRAVQLDKLESPKPSQEL
VIIKQGWRPDMGGPSELGIYDILKVPCPEKSGAAQCVVGEDVAGSHTEKDLRRGLSSERFVIAAHQPDTYPEPRD
EKILLHMGSVKPDDDDRYMPRIQHRLVNPVNGLPLKMFGDLLELLDVIIDVLKAYQHAYYEKGVCHRDISLGNIV
IECEKRLGRLIDFDHAKNLPDYISRTVSSLRNEFAEHMAELHQFRERNELPRLSDNLALLLLYLAKINLSDDDES
LEDWEDPKATARRTNLSADQVTKRLRLDKIKGEIKISDVIPLLGDDPYLPPNFGNRRSVHTFCTGTVPFMAHDIG
RETVRTAKHDMESMLWVLVYIGITRDGLGGKSRPEPKEARGELHDAAVRRFFLFESNRPQATHIDTKKAFLRSQE
AILDDHVFRYFHADLKPLKSLIVKWKDIIHKASNGNLVYAHYAPVAFLQAAMDVRAEFAAHPVVIAQSEQGKHRR
EAQKRKMNSILRRGIDLVRSAIDEEDHDGSTTPTNECPPHPALDMSPSGKDRGGPNPLLAVR
Length 887

Coding

Sequence id CopciAB_466150.T0
Sequence >CopciAB_466150.T0
ATGACAACCAGCTTTGCTCCAACGAAGGCACAGGATGTCAGAGACGCTGTAGAGAGCGACGTTCGACACAACATA
CGCGTCTGCGAGCGACAGGCGTTTGTCGACCGGCTTTTCCCTATGAAGCCTGACGTGGTTCAAAAGATCATCCAG
GATCTCGAAGATACTGGGTGGTATTCGCCGACGTCAGGCTGGAAGGGTCTTCCTCAGGAGCCAGGGGGGGCAGAG
GGCGAGTACTATCATCCCTATACCCAAATCCTTGACGCGATCGACTCCGCGGCCTTGTCGCATGGCGAAAGGGAT
ATTGACCACGTCCCAGGCAAGTGGTTGGATCGTCACGACATCACACCAAAGTGCAATGTCAAGAACACCAGTAAG
CTACGCCCGGATTTGAACAATCTTATCCTGCATCCTGACAGAGATGCGCCCGAAAAATTCGTCGAGTGTCTGAAG
GATGTTCATGAAGCCGAAATCGAACTTGAAGAGACCTGTACCACAGTCGAGGGTGACAGTAAACCGGCATCGAAG
CGCACCAAAGCAACAGTGCCACGGTCTGAATCCGAAAGGCAAAAGTCTGCAGAGTCGCTGACCGTCTCCTGGCTC
AGGACCCGCGGGGTCGTTGAAATCAAAACTCGATACTGGCTTAACGACATCTGGCCGACGACGCTCCAATTGTGT
ACCTATCTTCGACAAATCCTCCGAGAGCAACACGACCGTCGATTCGTTTTCGGATTCATCTTCTTCCACCGTTCG
CTGGCGATCTGGCACAGCGACCGTTCTGGTCTCCTTGGAGTTAAACAAGTTATCAACATCGACGACAATCTGGAG
CTGTTCGTTCAGGTCATGTCCAGCTTTGCGTTGATGGGTGCAGAGCGTCTGGGGTTTGATCCAAACATGAAGATG
GTCGTGCCTGGCTGTGCCCCTGCCTTCAGCTACGCTCTGCCCTTCGACCGGATCCCCAAGCATCGCCATAAGCTC
CACTGGCAAATCACGATCAAAGGCGTGACTTACCAAACCGTCGAGATCTTGAGCGTGGCTCGGTCTGAAATCATG
TGTGGCCGAGCACCACTTGTATGGCGGGCGGTACAGCTCGATAAGCTTGAGTCCCCTAAGCCGAGTCAGGAACTG
GTGATCATCAAGCAAGGGTGGCGACCGGACATGGGGGGCCCGAGTGAGCTGGGAATCTACGACATCCTCAAAGTC
CCCTGCCCCGAGAAGAGCGGTGCCGCCCAATGTGTTGTGGGTGAGGATGTCGCAGGCTCTCACACTGAAAAAGAT
CTGCGTCGTGGACTCTCGTCGGAGCGGTTTGTTATCGCTGCGCACCAGCCGGATACATATCCTGAACCCAGAGAC
GAGAAAATTCTGCTACACATGGGCAGCGTTAAACCGGACGACGATGACAGGTACATGCCACGTATCCAGCATCGG
CTGGTCAACCCGGTGAATGGTCTTCCACTCAAAATGTTTGGTGATTTGCTTGAACTACTCGACGTTATCATCGAC
GTGCTCAAAGCTTATCAACACGCGTACTATGAAAAGGGTGTGTGTCATCGAGACATTAGCTTGGGGAACATTGTC
ATCGAATGTGAAAAGCGCTTGGGGAGGCTCATCGACTTTGACCACGCCAAGAATCTGCCTGATTATATCTCGAGA
ACGGTTTCGTCCCTCCGGAACGAATTTGCTGAGCACATGGCGGAGCTTCACCAGTTTCGTGAACGGAATGAGCTT
CCTCGTCTGTCTGACAACCTCGCACTGTTGCTCCTATACCTGGCCAAAATCAATCTCTCTGATGATGATGAGTCG
CTGGAAGACTGGGAGGACCCAAAGGCAACTGCTAGACGGACCAACCTATCTGCGGACCAAGTGACTAAAAGGCTT
CGGCTCGACAAGATCAAAGGCGAAATCAAAATATCCGATGTGATCCCACTTTTAGGCGACGATCCATATCTCCCT
CCTAACTTCGGCAACAGACGTTCGGTGCATACGTTCTGCACGGGCACGGTGCCGTTCATGGCACATGACATTGGC
AGAGAAACTGTCCGCACTGCTAAGCACGACATGGAGTCTATGCTATGGGTCTTGGTGTACATCGGCATCACGCGC
GATGGCCTTGGGGGAAAGAGTCGTCCTGAGCCCAAGGAAGCACGAGGAGAGCTGCACGATGCCGCGGTCCGTCGC
TTCTTCCTTTTTGAATCGAATAGACCACAGGCAACACACATTGACACCAAGAAGGCCTTCCTTCGGTCACAGGAA
GCCATCCTCGACGATCACGTCTTCCGTTATTTCCACGCCGATCTGAAGCCTTTGAAAAGCCTTATCGTCAAATGG
AAAGACATCATCCACAAAGCTTCGAACGGGAACTTGGTTTACGCACATTATGCTCCCGTGGCCTTCCTTCAAGCT
GCGATGGACGTGAGGGCCGAGTTTGCCGCTCACCCGGTCGTCATTGCTCAGTCTGAGCAGGGGAAACATCGCCGC
GAGGCCCAAAAGCGTAAAATGAACAGCATCCTCCGCAGAGGAATTGACCTCGTGCGGAGTGCGATTGATGAAGAG
GACCACGATGGCAGCACGACCCCTACTAACGAGTGCCCGCCGCACCCTGCTCTAGATATGAGTCCTAGTGGAAAG
GACAGGGGCGGTCCTAATCCTCTCCTTGCTGTGCGTTAA
Length 2664

Transcript

Sequence id CopciAB_466150.T0
Sequence >CopciAB_466150.T0
AGGAATCTTCACACAACAATGCGACACTCGTCCTCGATCGGACACTAACATCAAACCACAGATGACAACCAGCTT
TGCTCCAACGAAGGCACAGGATGTCAGAGACGCTGTAGAGAGCGACGTTCGACACAACATACGCGTCTGCGAGCG
ACAGGCGTTTGTCGACCGGCTTTTCCCTATGAAGCCTGACGTGGTTCAAAAGATCATCCAGGATCTCGAAGATAC
TGGGTGGTATTCGCCGACGTCAGGCTGGAAGGGTCTTCCTCAGGAGCCAGGGGGGGCAGAGGGCGAGTACTATCA
TCCCTATACCCAAATCCTTGACGCGATCGACTCCGCGGCCTTGTCGCATGGCGAAAGGGATATTGACCACGTCCC
AGGCAAGTGGTTGGATCGTCACGACATCACACCAAAGTGCAATGTCAAGAACACCAGTAAGCTACGCCCGGATTT
GAACAATCTTATCCTGCATCCTGACAGAGATGCGCCCGAAAAATTCGTCGAGTGTCTGAAGGATGTTCATGAAGC
CGAAATCGAACTTGAAGAGACCTGTACCACAGTCGAGGGTGACAGTAAACCGGCATCGAAGCGCACCAAAGCAAC
AGTGCCACGGTCTGAATCCGAAAGGCAAAAGTCTGCAGAGTCGCTGACCGTCTCCTGGCTCAGGACCCGCGGGGT
CGTTGAAATCAAAACTCGATACTGGCTTAACGACATCTGGCCGACGACGCTCCAATTGTGTACCTATCTTCGACA
AATCCTCCGAGAGCAACACGACCGTCGATTCGTTTTCGGATTCATCTTCTTCCACCGTTCGCTGGCGATCTGGCA
CAGCGACCGTTCTGGTCTCCTTGGAGTTAAACAAGTTATCAACATCGACGACAATCTGGAGCTGTTCGTTCAGGT
CATGTCCAGCTTTGCGTTGATGGGTGCAGAGCGTCTGGGGTTTGATCCAAACATGAAGATGGTCGTGCCTGGCTG
TGCCCCTGCCTTCAGCTACGCTCTGCCCTTCGACCGGATCCCCAAGCATCGCCATAAGCTCCACTGGCAAATCAC
GATCAAAGGCGTGACTTACCAAACCGTCGAGATCTTGAGCGTGGCTCGGTCTGAAATCATGTGTGGCCGAGCACC
ACTTGTATGGCGGGCGGTACAGCTCGATAAGCTTGAGTCCCCTAAGCCGAGTCAGGAACTGGTGATCATCAAGCA
AGGGTGGCGACCGGACATGGGGGGCCCGAGTGAGCTGGGAATCTACGACATCCTCAAAGTCCCCTGCCCCGAGAA
GAGCGGTGCCGCCCAATGTGTTGTGGGTGAGGATGTCGCAGGCTCTCACACTGAAAAAGATCTGCGTCGTGGACT
CTCGTCGGAGCGGTTTGTTATCGCTGCGCACCAGCCGGATACATATCCTGAACCCAGAGACGAGAAAATTCTGCT
ACACATGGGCAGCGTTAAACCGGACGACGATGACAGGTACATGCCACGTATCCAGCATCGGCTGGTCAACCCGGT
GAATGGTCTTCCACTCAAAATGTTTGGTGATTTGCTTGAACTACTCGACGTTATCATCGACGTGCTCAAAGCTTA
TCAACACGCGTACTATGAAAAGGGTGTGTGTCATCGAGACATTAGCTTGGGGAACATTGTCATCGAATGTGAAAA
GCGCTTGGGGAGGCTCATCGACTTTGACCACGCCAAGAATCTGCCTGATTATATCTCGAGAACGGTTTCGTCCCT
CCGGAACGAATTTGCTGAGCACATGGCGGAGCTTCACCAGTTTCGTGAACGGAATGAGCTTCCTCGTCTGTCTGA
CAACCTCGCACTGTTGCTCCTATACCTGGCCAAAATCAATCTCTCTGATGATGATGAGTCGCTGGAAGACTGGGA
GGACCCAAAGGCAACTGCTAGACGGACCAACCTATCTGCGGACCAAGTGACTAAAAGGCTTCGGCTCGACAAGAT
CAAAGGCGAAATCAAAATATCCGATGTGATCCCACTTTTAGGCGACGATCCATATCTCCCTCCTAACTTCGGCAA
CAGACGTTCGGTGCATACGTTCTGCACGGGCACGGTGCCGTTCATGGCACATGACATTGGCAGAGAAACTGTCCG
CACTGCTAAGCACGACATGGAGTCTATGCTATGGGTCTTGGTGTACATCGGCATCACGCGCGATGGCCTTGGGGG
AAAGAGTCGTCCTGAGCCCAAGGAAGCACGAGGAGAGCTGCACGATGCCGCGGTCCGTCGCTTCTTCCTTTTTGA
ATCGAATAGACCACAGGCAACACACATTGACACCAAGAAGGCCTTCCTTCGGTCACAGGAAGCCATCCTCGACGA
TCACGTCTTCCGTTATTTCCACGCCGATCTGAAGCCTTTGAAAAGCCTTATCGTCAAATGGAAAGACATCATCCA
CAAAGCTTCGAACGGGAACTTGGTTTACGCACATTATGCTCCCGTGGCCTTCCTTCAAGCTGCGATGGACGTGAG
GGCCGAGTTTGCCGCTCACCCGGTCGTCATTGCTCAGTCTGAGCAGGGGAAACATCGCCGCGAGGCCCAAAAGCG
TAAAATGAACAGCATCCTCCGCAGAGGAATTGACCTCGTGCGGAGTGCGATTGATGAAGAGGACCACGATGGCAG
CACGACCCCTACTAACGAGTGCCCGCCGCACCCTGCTCTAGATATGAGTCCTAGTGGAAAGGACAGGGGCGGTCC
TAATCCTCTCCTTGCTGTGCGTTAAGTTATGGATCCCTCGTTCGTCATCCTCGTTCGTCCTCAGCCTTCGCGGAA
CTTATGCGACAATGGCATGTATGTACTTGGATTACATTTAGAGTACTCTCCTCCATTTCTAAACTCTGAGTTGTA
TAGGTATAACTGCAATCACAAGTGTGTCGACCACGCA
Length 2887

Gene

Sequence id CopciAB_466150.T0
Sequence >CopciAB_466150.T0
AGGAATCTTCACACAACAATGCGACACTCGTCCTCGATCGGACACTAACATCAAACCACAGATGACAACCAGCTT
TGCTCCAACGAAGGCACAGGATGTCAGAGACGCTGTAGAGAGCGACGTTCGACACAACATACGCGTCTGCGAGCG
ACAGGCGTTTGTCGACCGGCTTTTCCCTATGAAGCCTGACGTGGTTCAAAAGATCATCCAGGATCTCGAAGATAC
TGGGTGGTATTCGCCGACGTCAGGCTGGAAGGGTCTTCCTCAGGAGCCAGGGGGGGCAGAGGGCGAGTACTATCA
TCCCTATACCCAAATCCTTGACGCGATCGACTCCGCGGCCTTGTCGCATGGCGAAAGGGATATTGACCACGTCCC
AGGCAAGTGGTTGGATCGTCACGACATCACACCAAAGTGCAATGTCAAGAACACCAGTAAGCTACGCCCGGATTT
GAACAATCTTATCCTGCATCCTGACAGAGATGCGCCCGAAAAATTCGTCGAGTGTCTGAAGGTCAGCATGCGTGT
CGTTGAAGCTGCCGAGCTGTGCTTGTTGACTGACTCGCCTCGAACGAACAGGATGTTCATGAAGCCGAAATCGAA
CTTGAAGAGACCTGTACCACAGTCGAGGGTGACAGTAAACCGGCATCGAAGCGCACCAAAGCAACAGTGCCACGG
TCTGAATCCGAAAGGGTAAGATGAACCTGCCCTCTGTTGAGATAAAGGACTGACCGTTCCCATAGCAAAAGTCTG
CAGAGTCGCTGACCGTCTCCTGGCTCAGGACCCGCGGGGTCGTTGAAATCAAAACTCGATACTGGCTTAACGACA
TCTGGCCGACGACGCTCCAATTGTGTACCTATCTTCGACAAATCCTCCGAGAGCAACACGACCGTCGATTCGTTT
TCGGATTCATCTTCTTCCACCGTTCGCTGGCGATCTGGCACAGCGACCGTTCTGGTCTCCTTGGAGTTAAACAAG
TTATCAACATCGACGACGTATGTGACGATGCTTGTCGTGGGTTTCAATCACTGATTTCCTTCACTCTTAGAATCT
GGAGCTGTTCGTTCAGGTCATGTCCAGCTTTGCGTTGATGGGTGCAGAGCGTCTGGGGTTTGATCCAAACATGAA
GATGGTCGTGCCTGGCTGTGCCCCTGCCTTCAGCTACGCTCTGCCCTTCGACCGGATCCCCAAGCATCGCCATAA
GCTCCACTGGCAAATCACGATCAAAGGCGTGACTTACCAAACCGTCGAGATCTTGAGCGTGGCTCGGTCTGAAAT
CATGTGTGGCCGAGCACCACTTGTATGGCGGGCGGTACAGCTCGATAAGCTTGAGTCCCCTAAGCCGGTAAGATC
GACATTGTCGTTCACGACATCTTTCTTTAGCTGACCAGCTCCAGAGTCAGGAACTGGTGATCATCAAGCAAGGGT
GGCGACCGGACATGGGGGGCCCGAGTGAGCTGGGAATCTACGACATCCTCAAAGTCCCCTGCCCCGAGAAGAGCG
GTGCCGCCCAATGTGTTGTGGGTGAGGATGTCGCAGGCTCTCACACTGAAAAAGATCTGCGTCGTGGACTCTCGT
CGGAGCGGTTTGTTATCGCTGCGCACCAGCCGGATACATATCCTGAACCCAGAGACGAGAAAATTCTGCTACACA
TGGGCAGCGTTAAACCGGACGACGATGACAGGTACATGCCACGTATCCAGCATCGGCTGGTCAACCCGGTGAATG
GTCTTCCACTCAAAATGTTTGGTGATTTGCTTGAACTACTCGACGTTATCATCGACGTGCTCAAAGGTATGTGAT
TTACCCTAGAATGTGAACCTGATGTGTCCTGACATCGCTGTGAACAGCTTATCAACACGCGTACTATGAAAAGGG
TGTGTGTCATCGAGACATTAGCTTGGGGAACATTGTCATCGAATGTGAAAAGCGCTTGGGGAGGCTCATCGACTT
TGACCACGCCAAGAATCTGCCTGATTATATCTCGAGAACGGTTTCGTCCCTCCGGAACGAATTTGCTGAGCACAT
GGCGGAGCTTCACCAGTTTCGTGAACGGAATGAGCTTCCTCGTCTGTCTGACAACCTCGCACTGTTGCTCCTATA
CCTGGCCAAAATCAATCTCTCTGATGATGATGAGTCGCTGGAAGACTGGGAGGACCCAAAGGCAACTGCTAGACG
GACCAACCTATCTGCGGACCAAGTGACTAAAAGGCTTCGGGTACGCCAGTCGCTCATAATCAATACCTGTGCTCT
GACCTCGGTCCCACCAGCTCGACAAGATCAAAGGCGAAATCAAAATATCCGATGTGATCCCACTTTTAGGCGACG
ATGTAAGTATCTTTTCATTCTACTGCTGCAATGCTGGGAAGGCTTACTGTCTGGTAGCCATATCTCCCTCCTAAC
TTCGGCAACAGACGTTCGGTGCATACGTTCTGCACGGTGACTCATCACATCGCTATATTCTTGTCTATTCAAGAC
TAACACTGTTCTTTAGGGCACGGTGCCGTTCATGGCACATGACATTGGCAGAGAAACTGTCCGCACTGCTAAGCA
CGACATGGAGTCTATGCTATGGGTCTTGGTGTACATCGGCATCACGCGCGATGGCCTTGGGGGAAAGAGTCGTCC
TGAGCCCAAGGAAGCACGAGGAGAGCTGCACGATGCCGCGGTCCGTCGCTTCTTCCTTTTTGAATCGAATAGACC
ACAGGCAACACACATTGACACCAAGAAGGCCTTCCTTCGGTCACAGGAAGCCATCCTCGACGATCACGTCTTCCG
TTATTTCCACGCCGATCTGAAGCCTTTGAAAAGCCTTATCGTCAAATGGAAAGACATCATCCACAAAGCTTCGAA
CGGGAACTTGGTTTACGCACATTATGCTCCCGTGGCCTTCCTTCAAGCTGCGATGGACGTGAGGGCCGAGTTTGC
CGCTCACCCGGTCGTCATTGCTCAGTCTGAGCAGGGGAAACATCGCCGCGAGGCCCAAAAGCGTAAAATGAACAG
CATCCTCCGCAGAGGAATTGACCTCGTGCGGAGTGCGATTGATGAAGAGGACCACGATGGCAGCACGACCCCTAC
TAACGAGTGCCCGCCGCACCCTGCTCTAGATATGAGTCCTAGTGGAAAGGACAGGGGCGGTCCTAATCCTCTCCT
TGCTGTGCGTTAAGTTATGGATCCCTCGTTCGTCATCCTCGTTCGTCCTCAGCCTTCGCGGAACTTATGCGACAA
TGGCATGTATGTACTTGGATTACATTTAGAGTACTCTCCTCCATTTCTAAACTCTGAGTTGTATAGGTATAACTG
CAATCACAAGTGTGTCGACCACGCA
Length 3325