CopciAB_407805
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_407805 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 407805
Uniprot id Functional description other FunK1 protein kinase
Location scaffold_8:2326216..2329044 Strand +
Gene length (nt) 2829 Transcript length (nt) 2564
CDS length (nt) 2256 Protein length (aa) 751

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Schizophyllum commune H4-8 Schco3_2743998 24.8 2.241E-29 126

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 15.2596 2.0153 1.1635
oidia 16.6971 1.2427 0.7174
vegetative_mycelium 16.3629 1.353 0.7812
primordia 20.248 0.7914 0.4569
hyphal_knot 14.6937 1.6359 0.9445
young_fruiting_body 6.0273 2.5131 1.451
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 14.3727 3.93 2.269
Wheat bran 12.8856 2.0457 1.1811
Horse manure 14.3062 2.4445 1.4113
Oak leaves 12.7354 2.5978 1.4998
Hay 11.9767 1.0556 0.6094
Corn stalk 17.1232 0.7444 0.4298
Pectine 17.4209 3.9823 2.2992
Microcrystalline cellulose 17.1871 2.0732 1.197
Xylose 24.3379 8.2146 4.7427
Cellobiose 14.4932 4.2379 2.4468
Lignin 13.2872 10.0823 5.821
Apple peels 12.116 1.1936 0.6891
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 11.2622 0.3147 0.1817
Bsubtilis 12.2628 0.9038 0.5218
Ecoli 9.9782 0.7744 0.4471
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 4.3037 0.7893 0.4557
BS 4h 4.9105 1.9701 1.1374
BS 8h 5.8936 1.1178 0.6454
BS 12h 3.5375 0.0888 0.0513
Oidia 0 h 79.8667 1.3383 0.7726
Oidia 18 h 8.5022 0.4523 0.2611
Sclerotia 7.4102 1.4608 0.8434
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 3.2708 1.0352 0.5977
DM 36h 4.5162 0.6673 0.3852
DM 60h 5.2742 0.6969 0.4024
DM 84h 3.8571 0.307 0.1772
DM 108h 5.4528 1.0099 0.5831
DM 132h 3.5043 1.3403 0.7738
DM 156hAE 4.5724 1.3191 0.7616
ELI1hAE 4.0441 0.8204 0.4736
ELI2hAE 3.848 1.2607 0.7279
LI2hAE 4.8496 0.8733 0.5042
LI6hAE 3.5037 0.5788 0.3342
LI12hAE 7.0915 0.3961 0.2287
LI18hAE 6.5231 3.6294 2.0954
LI 24hAE 7.0265 1.567 0.9047
DM 156hAM 4.045 0.5762 0.3327
ELI1hAM 3.753 1.721 0.9936
ELI2hAM 3.4319 0.151 0.0872
LI2hAM 3.5506 0.668 0.3857
LI6hAM 3.0697 0.576 0.3325
LI12hAM 4.705 1.4195 0.8196
LI18hAM 5.415 1.2589 0.7268
LI 24hAM 3.3124 0.8173 0.4719
LI 24hHK 3.7702 0.9368 0.5408
L/D 6h 6.7231 1.0959 0.6327
L/D 12h 6.0313 0.911 0.526
L/D 18h 8.6565 0.3106 0.1793
L/D 24h 7.1868 0.9945 0.5742
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 10.7978 1.8889 1.0906
Hyphal knots 15.9403 4.1689 2.4069
Primordium 1 13.1896 0.8876 0.5125
Primordium 2 9.102 1.0182 0.5879
Young Fruiting body cap 3.2236 1.0233 0.5908
Younf fruiting body gill 7.7557 3.3135 1.913
Young fruiting body stipe 3.8085 1.3177 0.7608
Mature fruiting body cap_gill 3.7661 0.874 0.5046
Mature fruiting body stipe 4.0031 1.1437 0.6603
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 7.2972 1.2474 0.7202
NH4NO3 8.1064 1.3345 0.7705
Proline 8.3476 2.087 1.2049
Tryptophan 7.8243 4.4589 2.5743
Isoleucin 10.3919 4.9512 2.8586
Arginine 7.7766 0.2787 0.1609
Metionine 6.8808 0.6103 0.3523
NaNO3 6.7604 1.1937 0.6892
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 7.2972 1.2474 0.7202
Citrus peel 6.5361 1.872 1.0808
Poplar leaves 4.844 0.4491 0.2593
Typha leaves 4.7687 0.6842 0.395
Overwintered Salix leaves 5.9158 0.884 0.5104
Reed flowering 5.5351 1.3088 0.7556
Tigernut 3.8941 0.7339 0.4237
Energy cane 6.052 1.3033 0.7524
Guar gum 6.5764 2.0136 1.1625
Apple peels 5.5018 0.9066 0.5234
Cellobiose 6.8113 1.307 0.7546
Corn stalk 6.5713 0.7172 0.4141
Horse manure 6.6122 1.2774 0.7375
Lignin 12.0366 2.5295 1.4604
Microcrystalline cellulose 6.0027 1.3809 0.7972
Oak leaves 6.2082 0.7182 0.4146
Pectin esterified 6.3063 1.123 0.6484
Poplar sawdust 5.8711 1.2512 0.7224
Wheat bran 5.7288 1.371 0.7916
Chlamydomonas reinhardtii 5.6562 0.1853 0.107
Vertatryl alcohol 22.9297 2.6404 1.5244
Furfural 8.1688 1.9696 1.1372
Autoclaved mycelium 6.6835 0.6248 0.3607
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 8.4388 0.9968 0.5755
Ribose 12.0771 1.4235 0.8219
Mannose 10.2567 1.5544 1.0991
Fructose 8.7635 1.4284 0.8247
Arabinose 10.5276 0.8647 0.4992
Xylose 10.1383 0.5794 0.3345
Galacturonic acid 11.5102 1.0076 0.5817
Rhamnogalacturonan 10.6659 1.1866 0.6851
Pectin esterified 11.7501 1.5229 0.8793
Polygalacturonic acid 10.7183 2.6261 1.5162
Sodium acetate 10.7463 1.6227 0.9368
No nitrogen 11.1874 0.7342 0.4239
BSA 12.368 0.6374 0.368
Glutamine 12.2285 0.7009 0.4047
No phosphate 9.5378 0.5891 0.3401
No carbon 14.3891 3.4615 2.4477
No sulphur 11.3912 0.4651 0.2685
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 7.2972 1.2474 0.7202
Amylose 5.9979 1.3258 0.7655
Fucose 6.4222 0.5752 0.3321
Galactose 7.6852 0.3896 0.2249
Lactose 8.6006 0.1935 0.1117
Maltose 8.0918 0.399 0.2304
Mannitol 7.8417 0.2283 0.1318
Rhamnose 6.2352 1.4355 0.8288
Sorbitol 6.5147 0.4735 0.2734
Trehalose 8.0849 0.3829 0.2211
Glycerol 7.732 1.0295 0.5944
Glucuronic acid 7.7486 0.7875 0.4547
Arabinan 4.9253 2.3525 1.3582
Galactan 6.1826 0.594 0.343
Galactomannan 5.3566 2.1369 1.2337
Glucan 6.789 1.7196 0.9928
Xylan 7.5797 0.7192 0.4152
Xyloglucan 7.0824 0.5653 0.3264
Arabinogalactan 6.6574 0.6748 0.3896
Pectin 3.8082 1.1709 0.676
Rhamnogalacturonan 3.8193 1.6992 0.9811
Polygalacturonic acid 8.4805 0.6612 0.3817
Mannan 7.1771 1.9112 1.1034
Amylopectin 4.7017 0.8549 0.4936
Inulin 6.1509 0.4482 0.2587
BSA 5.9391 1.1041 0.6374
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 5.2742 0.6969 0.4024
2h WAT 4.0863 1.4406 0.8317
4h WAT 4.5597 0.5925 0.3421
8h WAT 5.6636 2.4921 1.4388
16h WAT 3.1837 1.1895 0.6868
24h WAT 3.8968 0.5922 0.3419
WAT hyphal knot -30h 4.0455 0.895 0.5167
WAT hyphal knot -22h 4.2583 1.6312 0.9418
WAT hyphal knot -15h 5.1138 1.0652 0.615
WAT hyphal knot -7.5h 4.1079 1.0802 0.6237
WAT hyphal knot 5.675 0.7483 0.432
WAT hyphal knot +7.5h 3.9681 1.0031 0.5792
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 5.6941 2.2643 1.3073
Straw 3h 4.5844 0.9773 0.5643
Straw 6h 6.4538 1.5027 0.8676
Straw 12h 5.3256 1.1527 0.6655
Straw 24h 4.2464 0.9489 0.5478
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 2.4094 0.7298 0.4214
Frost (-20C, 30min) 6.1728 0.974 0.5623
Heat shock (47C, 2h) 33.0128 0.7545 0.4356
High CO2 4.6007 1.704 0.9838
Drought (4% agar, 12h) 6.8826 1.4291 0.8251
Oxidative (1mM H2O2, 3h) 4.3267 0.2263 0.1307
Acidic (pH4, 3h) 4.9719 1.219 0.7038
Alkaline (pH9, 3h) 4.0263 1.0084 0.5822
Osmotic (sorbitol 2h) 4.0306 0.6705 0.3871
CongoRed (3h) 3.0275 0.9049 0.5224
Cobalt chloride control 6.3104 1.3879 0.8013
Cobalt chloride 2mM 5.3671 1.7304 0.9991
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 3.5516 3.6108 2.0847
Cold stimulation 3.9712 1.1295 0.6521
Scratched surface 5.1931 0.7799 0.4503
Ca2+, 200mM, 24h 4.0485 1.1814 0.6821
Cu2+, 2mM, 6h 2.4357 1.3537 0.7816
Voriconazole 7.2721 3.8575 2.2271
Trichoderma interaction, early 5.1535 0.9167 0.5293
Trichoderma interaction 60h 4.2756 6.9964 4.0394
Cobalt chloride 2mM repeat 6.1418 0.6264 0.3617
Hypoxia 5.0994 2.0398 1.1777
Hypoxia control 4.046 2.5212 1.4556
Protoplastation control 5.1302 0.8006 0.5661
Protoplastation 3.5h 3.7759 0.1432 0.1013
Protoplastation 1.5h 3.4802 4.7125 3.3322

General data

Systematic name -
Protein id CopciAB_407805.T0
Description other FunK1 protein kinase

Annotation summary

0 200 400 600 751

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 133 509

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR011009 Protein kinase-like domain superfamily
IPR000719 Protein kinase domain
IPR040976 Fungal-type protein kinase

GO

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

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
G other FunK1 protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_407805 across fungi.

Arrow shows the origin of gene family containing CopciAB_407805.

Protein

Sequence id CopciAB_407805.T0
Sequence >CopciAB_407805.T0
MMPLTSTVNIEQFVPDHLPNNNADAFDAVIAALKNERVLVSARQTKGQRSSKLGYGFGLLKSLFSSRPPNPNEVL
ESLRTICQVVNKTLETLGILVPGGKRLSMRANGNSGLLADACFTKETEGPLSPLEVVVPIAALPRNESEKKGKNH
LMKRMVTTMNEDPRRLFTYGITIHHDQMTLYRVTRSHMVQSSPFSMTESADVLTRVLLSLVTATDEELGYDPLVT
MLPDGSYIYQLPPEGGRSTPLFYQTLELITHYPSTSLGDRNARVWRVKRVVSPTNRERVGGEQDRVLKDLWVDQG
ARTEADIQEDLFEDISAVAKDENWRKKPIFQDFFERDVESLAEALQGDNFKRYFSCIIAKHVLSPSPDKRRCFFV
YESVCTPLHDIATFGEVIDILRQSVTALRLMFCAGWVHRDVSTGNILALKTGSSSSWQVKLSDLEYSRRFPDTNL
SGGEQIMGTPYFMACEIHFGKHLFPSDPETVWTKRYPRRPVIHGYQHDLEGIWWIILWFSTMRIDQEDLSREFGR
LHFQQPMDDHCIGRRCLLFTDQDHLAGLPTLVDSLPSELLDSNFLDELQRLKYQIHGEYIIRNAEGKQDDISTYS
YVISQSFTRFFERLEESRAMWDDLKLSTTAELRHECDVETQPYRAPRKRRADDDEGSDREEEGVRVERKAAEKRK
MKDDRPKQDRPRKRARFDASVPEVQTPIRRSGPVTRSMTRAAQNIGPITRAAARRMREAAASKNKTTTTTVRKSR
R
Length 751

Coding

Sequence id CopciAB_407805.T0
Sequence >CopciAB_407805.T0
ATGATGCCACTCACGAGCACTGTTAACATCGAACAATTCGTCCCTGATCACCTACCCAACAACAACGCCGACGCG
TTCGACGCTGTTATCGCGGCTCTCAAGAATGAGAGAGTCCTTGTTTCTGCCCGCCAGACAAAGGGACAGCGTTCC
TCAAAGCTTGGATACGGCTTTGGATTGCTGAAGTCCTTGTTTTCATCTCGCCCTCCTAATCCAAACGAGGTCCTC
GAGTCTTTGCGAACGATATGCCAGGTCGTCAACAAAACTTTGGAAACTCTCGGAATTCTCGTGCCAGGTGGCAAA
AGACTGTCGATGCGAGCCAACGGCAACAGTGGGCTTCTGGCCGACGCCTGCTTCACAAAGGAAACGGAAGGGCCG
CTGAGCCCTCTCGAGGTCGTCGTTCCTATTGCTGCGCTTCCTCGAAATGAGAGTGAAAAAAAGGGAAAGAACCAC
CTCATGAAGCGTATGGTTACCACCATGAACGAAGACCCGCGCAGATTATTCACGTACGGGATCACCATTCACCAT
GACCAGATGACTTTGTATCGCGTCACTCGCTCGCATATGGTCCAATCTTCTCCGTTCAGCATGACTGAGTCCGCG
GACGTCTTAACTCGAGTGCTACTCTCCCTTGTCACTGCGACCGACGAGGAGCTTGGATACGACCCTTTGGTGACA
ATGCTCCCAGACGGGAGCTACATCTACCAGTTACCACCCGAGGGAGGACGATCGACCCCTCTCTTTTATCAGACC
TTGGAGCTGATCACCCACTACCCATCGACGAGTCTCGGAGACCGCAACGCTCGGGTATGGAGGGTTAAGCGGGTT
GTCTCTCCAACGAACCGGGAGCGCGTGGGTGGAGAGCAGGACAGAGTTCTCAAGGACTTGTGGGTCGATCAAGGG
GCGCGCACCGAAGCGGATATTCAGGAGGATCTTTTTGAAGATATCTCGGCCGTAGCGAAAGACGAAAACTGGCGC
AAGAAGCCGATCTTCCAGGATTTCTTCGAGCGCGATGTCGAGTCTCTGGCCGAAGCCCTGCAAGGCGATAACTTC
AAACGCTACTTTTCGTGCATCATTGCCAAACACGTCCTCTCACCCTCTCCCGATAAGCGCCGGTGCTTCTTCGTG
TACGAATCCGTCTGCACTCCACTCCATGATATTGCAACCTTTGGCGAAGTAATCGATATTCTCAGGCAGTCCGTG
ACCGCACTTCGACTCATGTTCTGCGCTGGCTGGGTCCACCGGGATGTCAGCACGGGAAATATACTAGCCCTTAAA
ACGGGCTCGAGCTCCTCATGGCAAGTTAAGCTTTCCGACCTTGAATATTCAAGGCGATTCCCAGATACAAACCTC
TCCGGCGGCGAGCAGATAATGGGGACTCCATATTTCATGGCATGTGAAATCCACTTCGGGAAGCATCTGTTCCCA
TCGGATCCCGAAACCGTGTGGACCAAACGATATCCTCGAAGACCTGTAATCCATGGGTACCAACACGACCTAGAG
GGTATCTGGTGGATAATCCTCTGGTTCTCTACGATGCGGATTGACCAAGAAGACCTCTCCCGCGAGTTCGGTCGC
CTGCACTTCCAGCAGCCGATGGACGACCACTGCATTGGTCGACGTTGTTTACTCTTCACGGATCAAGACCACCTC
GCAGGACTTCCGACACTAGTCGACTCCCTTCCTTCCGAGCTCCTAGACTCCAACTTCCTCGACGAACTCCAGAGA
CTCAAGTATCAGATCCACGGCGAATACATCATTCGCAACGCCGAGGGGAAACAGGACGATATCAGTACCTACTCG
TATGTTATCAGCCAGTCTTTCACTCGTTTCTTCGAACGTCTCGAGGAGTCTCGCGCCATGTGGGATGACCTTAAG
CTATCGACCACTGCCGAATTGCGACACGAATGCGATGTGGAGACACAACCGTACCGCGCCCCGCGAAAGCGAAGG
GCAGATGATGATGAGGGCTCCGATAGGGAAGAGGAGGGTGTCCGGGTCGAACGGAAGGCTGCTGAGAAGAGGAAA
ATGAAGGACGATCGACCAAAGCAAGATCGACCGAGGAAGAGGGCCCGCTTTGATGCCTCTGTCCCAGAGGTCCAA
ACCCCGATCCGAAGGTCAGGACCGGTGACGAGGTCCATGACCCGCGCGGCTCAAAACATTGGCCCCATCACGAGA
GCTGCTGCTCGCCGTATGCGTGAGGCTGCCGCATCAAAAAACAAGACGACCACCACCACTGTCAGGAAATCGCGC
CGTTAA
Length 2256

Transcript

Sequence id CopciAB_407805.T0
Sequence >CopciAB_407805.T0
AAACCATCACCATCCTCAAAGAATTTCCGTCTTGTCGCAGATTCCCTCCACCTCAAACCATTACGGGGCACCTAA
ATATGATGCCACTCACGAGCACTGTTAACATCGAACAATTCGTCCCTGATCACCTACCCAACAACAACGCCGACG
CGTTCGACGCTGTTATCGCGGCTCTCAAGAATGAGAGAGTCCTTGTTTCTGCCCGCCAGACAAAGGGACAGCGTT
CCTCAAAGCTTGGATACGGCTTTGGATTGCTGAAGTCCTTGTTTTCATCTCGCCCTCCTAATCCAAACGAGGTCC
TCGAGTCTTTGCGAACGATATGCCAGGTCGTCAACAAAACTTTGGAAACTCTCGGAATTCTCGTGCCAGGTGGCA
AAAGACTGTCGATGCGAGCCAACGGCAACAGTGGGCTTCTGGCCGACGCCTGCTTCACAAAGGAAACGGAAGGGC
CGCTGAGCCCTCTCGAGGTCGTCGTTCCTATTGCTGCGCTTCCTCGAAATGAGAGTGAAAAAAAGGGAAAGAACC
ACCTCATGAAGCGTATGGTTACCACCATGAACGAAGACCCGCGCAGATTATTCACGTACGGGATCACCATTCACC
ATGACCAGATGACTTTGTATCGCGTCACTCGCTCGCATATGGTCCAATCTTCTCCGTTCAGCATGACTGAGTCCG
CGGACGTCTTAACTCGAGTGCTACTCTCCCTTGTCACTGCGACCGACGAGGAGCTTGGATACGACCCTTTGGTGA
CAATGCTCCCAGACGGGAGCTACATCTACCAGTTACCACCCGAGGGAGGACGATCGACCCCTCTCTTTTATCAGA
CCTTGGAGCTGATCACCCACTACCCATCGACGAGTCTCGGAGACCGCAACGCTCGGGTATGGAGGGTTAAGCGGG
TTGTCTCTCCAACGAACCGGGAGCGCGTGGGTGGAGAGCAGGACAGAGTTCTCAAGGACTTGTGGGTCGATCAAG
GGGCGCGCACCGAAGCGGATATTCAGGAGGATCTTTTTGAAGATATCTCGGCCGTAGCGAAAGACGAAAACTGGC
GCAAGAAGCCGATCTTCCAGGATTTCTTCGAGCGCGATGTCGAGTCTCTGGCCGAAGCCCTGCAAGGCGATAACT
TCAAACGCTACTTTTCGTGCATCATTGCCAAACACGTCCTCTCACCCTCTCCCGATAAGCGCCGGTGCTTCTTCG
TGTACGAATCCGTCTGCACTCCACTCCATGATATTGCAACCTTTGGCGAAGTAATCGATATTCTCAGGCAGTCCG
TGACCGCACTTCGACTCATGTTCTGCGCTGGCTGGGTCCACCGGGATGTCAGCACGGGAAATATACTAGCCCTTA
AAACGGGCTCGAGCTCCTCATGGCAAGTTAAGCTTTCCGACCTTGAATATTCAAGGCGATTCCCAGATACAAACC
TCTCCGGCGGCGAGCAGATAATGGGGACTCCATATTTCATGGCATGTGAAATCCACTTCGGGAAGCATCTGTTCC
CATCGGATCCCGAAACCGTGTGGACCAAACGATATCCTCGAAGACCTGTAATCCATGGGTACCAACACGACCTAG
AGGGTATCTGGTGGATAATCCTCTGGTTCTCTACGATGCGGATTGACCAAGAAGACCTCTCCCGCGAGTTCGGTC
GCCTGCACTTCCAGCAGCCGATGGACGACCACTGCATTGGTCGACGTTGTTTACTCTTCACGGATCAAGACCACC
TCGCAGGACTTCCGACACTAGTCGACTCCCTTCCTTCCGAGCTCCTAGACTCCAACTTCCTCGACGAACTCCAGA
GACTCAAGTATCAGATCCACGGCGAATACATCATTCGCAACGCCGAGGGGAAACAGGACGATATCAGTACCTACT
CGTATGTTATCAGCCAGTCTTTCACTCGTTTCTTCGAACGTCTCGAGGAGTCTCGCGCCATGTGGGATGACCTTA
AGCTATCGACCACTGCCGAATTGCGACACGAATGCGATGTGGAGACACAACCGTACCGCGCCCCGCGAAAGCGAA
GGGCAGATGATGATGAGGGCTCCGATAGGGAAGAGGAGGGTGTCCGGGTCGAACGGAAGGCTGCTGAGAAGAGGA
AAATGAAGGACGATCGACCAAAGCAAGATCGACCGAGGAAGAGGGCCCGCTTTGATGCCTCTGTCCCAGAGGTCC
AAACCCCGATCCGAAGGTCAGGACCGGTGACGAGGTCCATGACCCGCGCGGCTCAAAACATTGGCCCCATCACGA
GAGCTGCTGCTCGCCGTATGCGTGAGGCTGCCGCATCAAAAAACAAGACGACCACCACCACTGTCAGGAAATCGC
GCCGTTAACCGTTCGCATCTCTGATGCTTACTTCGTGGTCGGCCAGTATTCTAACTATATTTCTTCTGTATTCAC
TCTGTATACTTACGATACCCTATCCTGTCCTAACCTTGCCGTTGGTGTTTACATTCTCTTTGATCCATTTTCTCG
CGATCCCGATGATACCTTGTACTGATTGGCTTATACCTATCTCTTTCACGATGCCCAATTTATTCTAGAGCTTCC
GCGTGATACCCCTC
Length 2564

Gene

Sequence id CopciAB_407805.T0
Sequence >CopciAB_407805.T0
AAACCATCACCATCCTCAAAGAATTTCCGTCTTGTCGCAGATTCCCTCCACCTCAAACCATTACGGGGCACCTAA
ATATGATGCCACTCACGAGCACTGTTAACATCGAACAATTCGTCCCTGATCACCTACCCAACAACAACGCCGACG
CGTTCGACGCTGTTATCGCGGCTCTCAAGAATGAGAGAGTCCTTGTTTCTGCCCGCCAGACAAAGGGACAGCGTT
CCTCAAAGCTTGGATACGGCTTTGGATTGCTGAAGTCCTTGTTTTCATCTCGCCCTCCTAATCCAAACGAGGTCC
TCGAGTCTTTGCGAACGATATGCCAGGTCGTCAACAAAACTTTGGAAACTCTCGGAATTCTCGTGCCAGGTGGCA
AAAGACTGTCGATGCGAGCCAACGGCAACAGTGGGCTTCTGGCCGACGCCTGCTTCACAAAGGAAACGGAAGGGC
CGCTGAGCCCTCTCGAGGTCGTCGTTCCTATTGCTGCGCTTCCTCGAAATGAGAGTGAAAAAAAGGTATGGCGGA
CTGGAATCACAATCCACGTCGCGGACTCATGTCGGGTTTAGGGAAAGAACCACCTCATGAAGCGTATGGTTACCA
CCATGAACGAAGACCCGCGCAGATTATTCACGTACGGGGTGAGTGTGGTCTATTCAATGTCATCTGGTCGGGCTA
ATCCATTATTATAGATCACCATTCACCATGACCAGATGACTTTGTATCGCGTCACTCGCTCGCATATGGTCCAAT
CTTCTCCGTTCAGCATGACTGAGGTGAGAACTTCGCTCCACAAACTTGGTGGCCTGCTACTCACGGCTGTTGTAT
AGTCCGCGGACGTCTTAACTCGAGTGCTACTCTCCCTTGTCACTGCGACCGACGAGGAGCTTGGATACGACCCTT
TGGTGACAATGCTCCCAGACGGGAGCTACATCTACCAGTTACCACCCGAGGGAGGACGATCGACCCCTCTCTTTT
ATCAGACCTTGGAGCTGATCACCCACTACCCATCGACGAGTCTCGGAGACCGCAACGCTCGGGTATGGAGGGTTA
AGCGGGTTGTCTCTCCAACGAACCGGGAGCGCGTGGGTGGAGAGCAGGACAGAGTTCTCAAGGACTTGTGGGTCG
ATCAAGGGGCGCGCACCGAAGCGGATATTCAGGAGGATCTTTTTGAAGATATCTCGGCCGTAGCGAAAGACGAAA
ACTGGCGCAAGAAGCCGATCTTCCAGGATTTCTTCGAGCGCGATGTCGAGTCTCTGGCCGAAGCCCTGCAAGGCG
ATAACTTCAAACGCTACTTTTCGTGCATCATTGCCAAACACGTCCTCTCACCCTCTCCCGATAAGCGCCGGTGCT
TCTTCGTGTACGAATCCGTCTGCACTCCACTCCATGATATTGCAACCTTTGGCGAAGTAATCGATATTCTCAGGC
AGTCCGTGACCGGTTCGTACGTTACTACTCAGTGTCAGAGCGGCTTACTAACGCGTTCCCTTCAGCACTTCGACT
CATGTTCTGCGCTGGCTGGGTCCACCGGGATGTCAGCACGGGAAATATACTAGCCCTTAAAACGGGCTCGAGCTC
CTCATGGCAAGTTAAGCTTTCCGACCTTGAATATTCAAGGCGATTCCCAGATACAAACCTCTCCGGCGGCGAGCA
GATAATGGTGCGTGCTACGACGTCTGCTCCGTTCTCGTGCTGTATTGACAATCAATATTCCAGGGGACTCCATAT
TTCATGGCATGTGAAATCCACTTCGGGAAGCATCTGTTCCCATCGGATCCCGAAACCGTGTGGACCAAACGATAT
CCTCGAAGACCTGTAATCCATGGGTACCAACACGACCTAGAGGGTATCTGGTGGATAATCCTCTGGTTCTCTACG
ATGCGGATTGACCAAGAAGACCTCTCCCGCGAGTTCGGTCGCCTGCACTTCCAGCAGCCGATGGACGACCACTGC
ATTGGTCGACGTTGTTTACTCTTCACGGATCAAGACCACCTCGCAGGACTTCCGACACTAGTCGACTCCCTTCCT
TCCGAGCTCCTAGACTCCAACTTCCTCGACGAACTCCAGAGACTCAAGTATCAGATCCACGGCGAATACATCATT
CGCAACGCCGAGGGGAAACAGGACGATATCAGTACCTACTCGTATGTTATCAGCCAGTCTTTCACTCGTTTCTTC
GAACGTCTCGAGGAGTCTCGCGCCATGTGGGATGACCTTAAGCTATCGACCACTGCCGAATTGCGACACGAATGC
GATGTGGAGACACAACCGTACCGCGCCCCGCGAAAGCGAAGGGCAGATGATGATGAGGGCTCCGATAGGGAAGAG
GAGGGTGTCCGGGTCGAACGGAAGGCTGCTGAGAAGAGGAAAATGAAGGACGATCGACCAAAGCAAGATCGACCG
AGGAAGAGGGCCCGCTTTGATGCCTCTGTCCCAGAGGTCCAAACCCCGATCCGAAGGTCAGGACCGGTGACGAGG
TCCATGACCCGCGCGGCTCAAAACATTGGCCCCATCACGAGAGCTGCTGCTCGCCGTATGCGTGAGGCTGCCGCA
TCAAAAAACAAGACGACCACCACCACTGTCAGGAAATCGCGCCGTTAACCGTTCGCATCTCTGATGCTTACTTCG
TGGTCGGCCAGTATTCTAACTATATTTCTTCTGTATTCACTCTGTATACTTACGATACCCTATCCTGTCCTAACC
TTGCCGTTGGTGTTTACATTCTCTTTGATCCATTTTCTCGCGATCCCGATGATACCTTGTACTGATTGGCTTATA
CCTATCTCTTTCACGATGCCCAATTTATTCTAGAGCTTCCGCGTGATACCCCTC
Length 2829