CopciAB_466770
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_466770 Strain Coprinopsis cinerea Okayama 7
Standard name MPS1 Synonyms 466770
Uniprot id Functional description Belongs to the protein kinase superfamily
Location scaffold_7:1693557..1697830 Strand -
Gene length (nt) 4274 Transcript length (nt) 3836
CDS length (nt) 3030 Protein length (aa) 1009

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_CAA7261490 57.5 0 1051
Hypsizygus marmoreus strain 51987-8 Hypma_RDB17945 50.7 1.891E-278 878
Lentinula edodes W1-26 v1.0 Lentinedodes1_23002 47.1 1.067E-238 762
Lentinula edodes B17 Lened_B_1_1_8718 53.2 1.31E-205 665
Flammulina velutipes Flave_chr05AA00444 42.7 1.804E-202 656
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_59067 61.6 3.446E-186 608
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_224326 61.6 7.239E-186 607
Schizophyllum commune H4-8 Schco3_2615147 51 5.319E-167 552
Ganoderma sp. 10597 SS1 v1.0 Gansp1_127850 62.7 2.049E-166 550
Pleurotus eryngii ATCC 90797 Pleery1_1481621 70.4 3.804E-150 502
Lentinula edodes NBRC 111202 Lenedo1_1050818 70.2 1.831E-148 497
Pleurotus ostreatus PC15 PleosPC15_2_32199 73.5 8.969E-139 468
Auricularia subglabra Aurde3_1_1213330 33.2 3.946E-133 452
Pleurotus ostreatus PC9 PleosPC9_1_87255 72.7 2.167E-125 428

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 42.1782 8.3121 4.799
oidia 59.1689 14.0022 8.0842
vegetative_mycelium 55.5235 13.6351 7.8722
primordia 78.0478 3.0582 1.7657
hyphal_knot 33.3188 2.1042 1.2149
young_fruiting_body 36.3533 6.6124 3.8176
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 25.9353 3.6843 2.1271
Wheat bran 21.5033 8.9031 5.1402
Horse manure 47.0123 15.1088 8.7231
Oak leaves 66.0248 23.3116 13.459
Hay 40.0688 6.748 3.8959
Corn stalk 47.7632 7.7526 4.476
Pectine 54.237 4.1518 2.397
Microcrystalline cellulose 29.1111 6.2314 3.5977
Xylose 26.4899 3.0912 1.7847
Cellobiose 21.0049 5.2011 3.0029
Lignin 40.7902 14.5447 8.3974
Apple peels 48.5911 1.7519 1.0114
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 63.1005 0.6799 0.3926
Bsubtilis 47.4031 4.9134 2.8367
Ecoli 37.7771 5.3766 3.1042
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 3.0011 2.2391 1.2927
BS 4h 5.3097 0.9983 0.5764
BS 8h 19.247 0.3943 0.2277
BS 12h 16.8487 2.6009 1.5016
Oidia 0 h 1.8816 0.7113 0.4107
Oidia 18 h 25.1682 4.3861 2.5323
Sclerotia 9.6455 0.689 0.3978
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 27.6206 4.4824 2.5879
DM 36h 40.6777 5.7537 3.3219
DM 60h 39.1777 3.7597 2.1707
DM 84h 30.2893 1.0534 0.6082
DM 108h 31.7477 3.3111 1.9117
DM 132h 28.6976 5.2521 3.0323
DM 156hAE 25.7143 1.7429 1.0063
ELI1hAE 34.454 6.1639 3.5587
ELI2hAE 41.5843 11.9562 6.9029
LI2hAE 43.7719 4.8397 2.7942
LI6hAE 46.2057 4.7358 2.7342
LI12hAE 35.4027 2.2709 1.3111
LI18hAE 30.8882 2.2668 1.3087
LI 24hAE 30.2555 7.5348 4.3502
DM 156hAM 23.7906 6.0266 3.4795
ELI1hAM 35.4513 4.2807 2.4715
ELI2hAM 33.8426 3.0074 1.7363
LI2hAM 40.2288 13.2916 7.6739
LI6hAM 37.9894 3.0396 1.7549
LI12hAM 23.24 7.4267 4.2878
LI18hAM 26.2129 3.7553 2.1681
LI 24hAM 19.7079 4.8928 2.8249
LI 24hHK 23.6079 4.9481 2.8568
L/D 6h 19.5491 2.281 1.317
L/D 12h 21.8109 7.0513 4.0711
L/D 18h 36.1205 2.9515 1.704
L/D 24h 49.0964 11.0559 6.3831
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 12.5559 4.1387 2.3895
Hyphal knots 21.6956 9.6769 5.587
Primordium 1 30.9803 13.6703 7.8926
Primordium 2 20.8578 2.3587 1.3618
Young Fruiting body cap 7.7993 6.3998 3.6949
Younf fruiting body gill 45.1358 21.993 12.6977
Young fruiting body stipe 12.6309 6.6281 3.8267
Mature fruiting body cap_gill 7.9632 2.3802 1.3742
Mature fruiting body stipe 4.3091 0.9459 0.5461
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 36.0949 1.3886 0.8017
NH4NO3 47.1169 4.1597 2.4016
Proline 45.2899 1.9126 1.1042
Tryptophan 38.752 10.8255 6.2501
Isoleucin 46.5043 2.2182 1.2807
Arginine 56.1586 5.2464 3.029
Metionine 40.7315 3.0025 1.7335
NaNO3 45.2235 6.2408 3.6031
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 36.0949 1.3886 0.8017
Citrus peel 26.7593 3.3978 1.9617
Poplar leaves 39.7685 6.222 3.5923
Typha leaves 36.9435 2.2881 1.321
Overwintered Salix leaves 41.7437 5.0171 2.8966
Reed flowering 33.4495 6.8623 3.9619
Tigernut 31.1754 5.9592 3.4405
Energy cane 32.3762 3.4489 1.9912
Guar gum 40.5163 20.1523 11.635
Apple peels 47.8238 10.5661 6.1003
Cellobiose 60.4089 4.8016 2.7722
Corn stalk 46.4058 6.8784 3.9713
Horse manure 42.0972 13.1011 7.5639
Lignin 24.9913 7.9983 4.6178
Microcrystalline cellulose 47.5172 7.0325 4.0602
Oak leaves 40.1295 13.3365 7.6998
Pectin esterified 30.6379 2.7797 1.6049
Poplar sawdust 41.7077 11.9038 6.8727
Wheat bran 21.9124 4.2965 2.4806
Chlamydomonas reinhardtii 38.2903 5.8083 3.3534
Vertatryl alcohol 18.6331 4.2961 2.4804
Furfural 31.4716 4.724 2.7274
Autoclaved mycelium 45.2243 2.1205 1.2243
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 58.3342 3.8514 2.2236
Ribose 66.8883 3.3704 1.9459
Mannose 73.7848 1.119 0.7913
Fructose 62.7471 1.0478 0.6049
Arabinose 62.9638 3.4951 2.0179
Xylose 69.5255 6.993 4.0374
Galacturonic acid 64.8548 8.3513 4.8216
Rhamnogalacturonan 62.2527 4.2019 2.426
Pectin esterified 58.5464 6.2691 3.6195
Polygalacturonic acid 56.317 8.3092 4.7973
Sodium acetate 72.6284 2.7258 1.5737
No nitrogen 65.9144 7.0487 4.0696
BSA 64.7371 2.2905 1.3224
Glutamine 64.659 7.8524 4.5336
No phosphate 72.8085 6.7526 3.8986
No carbon 61.8544 2.048 1.4482
No sulphur 79.5906 16.4909 9.521
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 36.0949 1.3886 0.8017
Amylose 37.2301 4.9205 2.8408
Fucose 35.3924 0.7994 0.4615
Galactose 36.8175 2.0291 1.1715
Lactose 46.5964 5.7237 3.3046
Maltose 41.8421 2.9422 1.6987
Mannitol 47.0201 7.6162 4.3972
Rhamnose 37.7509 4.6726 2.6977
Sorbitol 40.2766 2.0979 1.2112
Trehalose 38.3632 4.112 2.3741
Glycerol 36.9406 0.9429 0.5444
Glucuronic acid 42.7049 8.8276 5.0966
Arabinan 32.3444 8.8615 5.1162
Galactan 43.1569 9.5023 5.4862
Galactomannan 33.0681 5.821 3.3607
Glucan 34.4507 2.5913 1.4961
Xylan 43.3231 3.9159 2.2608
Xyloglucan 48.0449 4.4475 2.5678
Arabinogalactan 45.7797 2.5481 1.4711
Pectin 12.2907 5.3967 3.1158
Rhamnogalacturonan 13.465 5.2647 3.0396
Polygalacturonic acid 30.8642 5.8396 3.3715
Mannan 36.0301 2.6997 1.5587
Amylopectin 26.8477 0.4187 0.2418
Inulin 43.2403 2.1474 1.2398
BSA 44.4807 9.2062 5.3152
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 39.1777 3.7597 2.1707
2h WAT 36.8879 0.3657 0.2112
4h WAT 34.5638 4.2061 2.4284
8h WAT 35.7858 9.8979 5.7145
16h WAT 30.6497 4.5546 2.6296
24h WAT 30.4652 3.1713 1.831
WAT hyphal knot -30h 51.348 9.2903 5.3638
WAT hyphal knot -22h 50.9935 6.1142 3.5301
WAT hyphal knot -15h 31.0653 2.9788 1.7198
WAT hyphal knot -7.5h 34.5674 4.4352 2.5607
WAT hyphal knot 36.9747 7.8064 4.507
WAT hyphal knot +7.5h 31.735 6.6592 3.8447
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 40.494 18.2913 10.5605
Straw 3h 29.0981 6.6046 3.8132
Straw 6h 24.4509 11.9059 6.8739
Straw 12h 44.959 6.7754 3.9118
Straw 24h 42.104 10.9961 6.3486
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 41.5405 5.0763 2.9308
Frost (-20C, 30min) 33.6361 5.2578 3.0356
Heat shock (47C, 2h) 24.76 3.3327 1.9242
High CO2 25.4697 4.4536 2.5713
Drought (4% agar, 12h) 28.6121 6.4238 3.7088
Oxidative (1mM H2O2, 3h) 20.5098 3.654 2.1097
Acidic (pH4, 3h) 26.9065 3.6039 2.0807
Alkaline (pH9, 3h) 37.1336 3.1488 1.8179
Osmotic (sorbitol 2h) 19.6338 3.4506 1.9922
CongoRed (3h) 27.8427 5.0555 2.9188
Cobalt chloride control 29.8135 4.7754 2.7571
Cobalt chloride 2mM 19.5266 3.9603 2.2865
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 16.9512 2.3408 1.3515
Cold stimulation 22.1712 3.7042 2.1386
Scratched surface 51.2334 5.1719 2.986
Ca2+, 200mM, 24h 17.1389 2.5783 1.4886
Cu2+, 2mM, 6h 28.4741 4.9899 2.8809
Voriconazole 22.1827 3.2467 1.8745
Trichoderma interaction, early 37.8426 3.6864 2.1284
Trichoderma interaction 60h 17.81 5.4728 3.1597
Cobalt chloride 2mM repeat 33.363 3.316 1.9145
Hypoxia 18.0649 1.9657 1.1349
Hypoxia control 15.3796 3.5066 2.0246
Protoplastation control 17.2633 1.5581 1.1017
Protoplastation 3.5h 8.2943 0.4703 0.3325
Protoplastation 1.5h 23.2015 2.8914 2.0445

General data

Systematic name MPS1
Protein id CopciAB_466770.T0
Description Belongs to the protein kinase superfamily

Annotation summary

0 300 600 900 1009

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd14131 PKc_Mps1 IPR027084 640 936
Pfam PF00069 Protein kinase domain IPR000719 642 936

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR008271 Serine/threonine-protein kinase, active site
IPR027084 Protein kinase Mps1 family, catalytic domain
IPR017441 Protein kinase, ATP binding site
IPR000719 Protein kinase domain
IPR011009 Protein kinase-like domain superfamily

GO

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

KEGG

KEGG Orthology
K08866

EggNOG

COG category Description
D Belongs to the protein kinase superfamily

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_466770 across fungi.

Arrow shows the origin of gene family containing CopciAB_466770.

Protein

Sequence id CopciAB_466770.T0
Sequence >CopciAB_466770.T0
MSTSPSISPPRTPNDNRPTASTSNSPSSDDSSIIDDLSFDYVYDDNGNVVRLSRKSNSTSPPTDQESLPDSALDN
DSPAGSPLNRQSLSRSESAQSILQGTSAAATDPKPARPFQRVASTPSYLLPTAAATSRAAVTRGGPRRIIEDSHN
RERQEPIVRSRQTFDYATRDSYAHQEEKENILAEMDERPQLVNRRNSPPLIARSTASRFSSARISYSTIGGSLNG
RPLADVPVQRTARQPPTGLTRPGRLMKSSLTSLKYSTSNQDRLSDVVESSDYEHKQQGLPEPNPYAPPASDTEPE
DEPLEPSAIPLRSSLNPRQRKELNINAQAASLAQSGSNRPRRSASLSDALYPHDDYQLQVAAPPTHGHSRPGTSL
GLNAESGPRRVYPEERERQELEAHKKLRREHEDDRQSPSPTHGHPQHQRLVANGHRRRDSDTLRGLAPPNSAGTV
GSPTVMDMPNGRPSPTGHRFPHGRSSPAATVRGRQSPQTVKGRVSPPATKGRVSPANAGNRLGVSRDAGKHRRSP
TAPEPPTTSGQIGGHEQPPGSKTWGGSEREDEFDPASSGEKDREKERERQLEAQRERRERREQQQQQQPPPQPPP
QQLQPYAQVPQAIAQPAAPAPQPPIPAPNQLNRHIVVNKKAYARIDIIGKGGSSRVFRVLNHANELYAIKRVSLD
KTDAETMSGYMNEIALLKRLEGNSRIIRLIDSEVKPGPGGSKGHLLLVMECGEIDLAKLLQEQMKEPLNMVWVSY
YWQQMLQAVHVIHEEKIVHSDLKPANFVLVKGQLKLIDFGIANAIANDTTNIQRDHQIGTVNYMSPEAIELPDGM
RRLKVGRPSDVWSLGIILYQMVYGHPPFQHLSVYQKMKAIPDLSHVIEYPEYTVPSIPAKTSSNGTVEPPKRLEH
LKRRVRADVIRGIKSCLCRNPKERATIPELLEQPWLGLTGNEPEPVRPRIEDMLGEKETLINPYYMAQLMQYCVK
LAREDKPMDAETLQKDAERLVLELKSVQRQAQGS
Length 1009

Coding

Sequence id CopciAB_466770.T0
Sequence >CopciAB_466770.T0
ATGTCCACTTCGCCCTCAATTTCCCCGCCTCGCACACCAAACGACAACCGGCCTACCGCTTCAACCTCAAACTCC
CCAAGTTCAGATGATTCTTCAATAATTGACGACCTTTCTTTCGACTATGTCTACGACGACAATGGCAACGTCGTC
CGTCTGTCCAGAAAATCAAACTCGACATCTCCCCCAACCGACCAAGAAAGTTTGCCAGATTCAGCCCTCGACAAC
GACAGTCCTGCAGGCTCACCTCTCAACCGCCAATCACTATCTCGCTCGGAAAGCGCCCAGTCAATACTTCAGGGT
ACATCCGCAGCGGCTACCGACCCAAAACCTGCAAGACCCTTTCAACGCGTCGCGTCAACCCCATCGTATCTTCTT
CCAACAGCTGCAGCGACCAGTCGAGCAGCTGTAACGCGCGGAGGTCCTCGCCGTATTATTGAAGACAGTCATAAT
CGGGAACGACAGGAGCCAATCGTCCGATCGAGGCAAACTTTTGACTATGCCACGCGCGATTCATACGCGCACCAA
GAGGAGAAAGAGAATATCCTCGCTGAGATGGACGAAAGGCCTCAACTCGTCAACAGACGGAATTCCCCTCCACTT
ATCGCCCGCTCCACAGCTTCACGGTTCTCCTCGGCACGGATATCGTACTCGACTATCGGTGGAAGTCTCAATGGT
CGCCCTTTAGCTGACGTCCCCGTTCAGCGGACCGCACGGCAGCCACCGACCGGTCTAACGCGACCTGGTCGCCTC
ATGAAATCGTCGTTGACCTCGCTCAAATACAGCACGTCCAACCAAGACCGCTTGAGCGACGTGGTCGAGAGTTCC
GATTATGAGCACAAGCAACAAGGCCTACCCGAACCAAATCCCTACGCGCCGCCTGCTTCCGATACGGAGCCGGAG
GACGAGCCTCTGGAACCTTCCGCCATTCCCCTTCGCTCTTCGCTCAACCCACGGCAACGCAAAGAACTCAACATC
AATGCCCAAGCTGCAAGCCTGGCTCAATCTGGCAGCAACCGTCCAAGGAGATCAGCTAGTCTCAGTGATGCACTA
TACCCCCACGACGACTACCAACTCCAAGTGGCCGCTCCACCTACACACGGACATTCCCGCCCAGGGACCAGCCTT
GGTTTGAACGCCGAATCAGGTCCAAGGCGCGTCTATCCTGAGGAGAGAGAACGACAGGAATTAGAGGCCCACAAG
AAACTCCGCAGAGAACACGAGGACGATCGACAATCACCCTCACCAACACACGGCCATCCCCAACATCAAAGGCTT
GTCGCCAATGGCCATCGTAGACGCGACTCGGATACGCTTCGTGGTTTGGCTCCTCCCAATTCTGCAGGCACTGTT
GGATCCCCTACCGTGATGGATATGCCCAATGGTCGACCATCGCCCACGGGGCATCGTTTCCCCCATGGGCGCTCG
TCTCCAGCAGCAACCGTTCGTGGAAGACAGTCTCCCCAAACAGTCAAAGGACGCGTCTCTCCGCCAGCCACCAAA
GGTCGCGTGTCCCCCGCCAATGCCGGTAATCGCCTAGGTGTCAGTAGGGATGCGGGAAAGCATCGTCGCAGCCCG
ACCGCCCCCGAACCTCCAACGACGAGTGGCCAAATCGGTGGCCATGAACAACCGCCTGGTTCCAAGACATGGGGT
GGCAGTGAGCGCGAGGACGAGTTTGATCCTGCCAGCTCCGGGGAGAAGGATCGGGAAAAGGAGCGGGAACGGCAA
TTGGAAGCCCAACGGGAGAGGAGGGAGCGCAGGGAACAACAGCAGCAGCAGCAACCACCCCCTCAACCTCCACCA
CAACAACTCCAACCCTACGCACAAGTGCCTCAGGCTATTGCCCAGCCCGCTGCACCTGCACCACAACCACCGATA
CCGGCTCCCAATCAGCTCAACCGTCACATTGTGGTCAACAAAAAGGCTTACGCTCGCATTGACATCATTGGCAAG
GGAGGGTCGTCACGCGTATTCCGGGTTTTGAACCACGCCAACGAACTATACGCGATTAAACGCGTCTCTCTGGAC
AAGACGGATGCTGAGACGATGAGTGGCTACATGAACGAAATCGCACTTCTCAAGCGACTCGAAGGCAATAGCCGT
ATCATTCGGTTGATCGACAGCGAAGTCAAACCTGGTCCTGGGGGAAGCAAGGGGCATCTACTGTTGGTGATGGAG
TGCGGCGAGATCGATTTGGCCAAGCTTCTCCAGGAACAGATGAAGGAGCCATTGAACATGGTTTGGGTTTCGTAC
TACTGGCAACAGATGCTGCAAGCCGTCCATGTCATTCACGAAGAGAAGATTGTTCATTCCGACTTGAAGCCTGCA
AACTTTGTGTTGGTCAAAGGCCAGCTCAAGTTGATTGACTTTGGTATCGCGAACGCGATTGCGAATGACACTACC
AATATTCAACGTGACCACCAGATCGGTACGGTCAACTACATGAGTCCCGAAGCTATAGAGCTTCCAGACGGTATG
CGTCGACTGAAGGTCGGCCGTCCGTCTGACGTTTGGTCGTTGGGTATCATCTTGTACCAGATGGTGTACGGACAC
CCACCCTTCCAACATCTTTCCGTGTATCAGAAGATGAAGGCTATTCCCGACCTCAGCCATGTCATCGAATATCCC
GAATACACAGTCCCATCGATCCCAGCCAAGACCAGCAGCAATGGAACCGTGGAACCTCCCAAACGACTGGAGCAC
CTCAAGCGACGCGTGCGAGCAGACGTGATCAGGGGCATCAAGAGTTGTCTTTGCCGCAACCCCAAGGAGCGCGCG
ACGATCCCCGAGTTGTTGGAGCAGCCTTGGCTGGGTTTGACCGGTAATGAACCTGAACCTGTGCGTCCCAGGATT
GAAGATATGCTAGGCGAAAAGGAGACTTTGATCAATCCATACTACATGGCTCAGCTCATGCAGTATTGTGTCAAG
CTCGCCCGGGAAGACAAGCCAATGGACGCCGAAACTTTGCAGAAGGATGCCGAGCGCCTTGTTCTTGAGCTCAAA
TCTGTACAGCGACAAGCTCAAGGTTCATAG
Length 3030

Transcript

Sequence id CopciAB_466770.T0
Sequence >CopciAB_466770.T0
AGTGGTTTACTTTCTTTTGCTCTGTTTTCTTCCTCGCTGTCGCTCTGCTTTCGTCGCTATCGATTTCGCTTTCGC
TGTCATGTCCACTTCGCCCTCAATTTCCCCGCCTCGCACACCAAACGACAACCGGCCTACCGCTTCAACCTCAAA
CTCCCCAAGTTCAGATGATTCTTCAATAATTGACGACCTTTCTTTCGACTATGTCTACGACGACAATGGCAACGT
CGTCCGTCTGTCCAGAAAATCAAACTCGACATCTCCCCCAACCGACCAAGAAAGTTTGCCAGATTCAGCCCTCGA
CAACGACAGTCCTGCAGGCTCACCTCTCAACCGCCAATCACTATCTCGCTCGGAAAGCGCCCAGTCAATACTTCA
GGGTACATCCGCAGCGGCTACCGACCCAAAACCTGCAAGACCCTTTCAACGCGTCGCGTCAACCCCATCGTATCT
TCTTCCAACAGCTGCAGCGACCAGTCGAGCAGCTGTAACGCGCGGAGGTCCTCGCCGTATTATTGAAGACAGTCA
TAATCGGGAACGACAGGAGCCAATCGTCCGATCGAGGCAAACTTTTGACTATGCCACGCGCGATTCATACGCGCA
CCAAGAGGAGAAAGAGAATATCCTCGCTGAGATGGACGAAAGGCCTCAACTCGTCAACAGACGGAATTCCCCTCC
ACTTATCGCCCGCTCCACAGCTTCACGGTTCTCCTCGGCACGGATATCGTACTCGACTATCGGTGGAAGTCTCAA
TGGTCGCCCTTTAGCTGACGTCCCCGTTCAGCGGACCGCACGGCAGCCACCGACCGGTCTAACGCGACCTGGTCG
CCTCATGAAATCGTCGTTGACCTCGCTCAAATACAGCACGTCCAACCAAGACCGCTTGAGCGACGTGGTCGAGAG
TTCCGATTATGAGCACAAGCAACAAGGCCTACCCGAACCAAATCCCTACGCGCCGCCTGCTTCCGATACGGAGCC
GGAGGACGAGCCTCTGGAACCTTCCGCCATTCCCCTTCGCTCTTCGCTCAACCCACGGCAACGCAAAGAACTCAA
CATCAATGCCCAAGCTGCAAGCCTGGCTCAATCTGGCAGCAACCGTCCAAGGAGATCAGCTAGTCTCAGTGATGC
ACTATACCCCCACGACGACTACCAACTCCAAGTGGCCGCTCCACCTACACACGGACATTCCCGCCCAGGGACCAG
CCTTGGTTTGAACGCCGAATCAGGTCCAAGGCGCGTCTATCCTGAGGAGAGAGAACGACAGGAATTAGAGGCCCA
CAAGAAACTCCGCAGAGAACACGAGGACGATCGACAATCACCCTCACCAACACACGGCCATCCCCAACATCAAAG
GCTTGTCGCCAATGGCCATCGTAGACGCGACTCGGATACGCTTCGTGGTTTGGCTCCTCCCAATTCTGCAGGCAC
TGTTGGATCCCCTACCGTGATGGATATGCCCAATGGTCGACCATCGCCCACGGGGCATCGTTTCCCCCATGGGCG
CTCGTCTCCAGCAGCAACCGTTCGTGGAAGACAGTCTCCCCAAACAGTCAAAGGACGCGTCTCTCCGCCAGCCAC
CAAAGGTCGCGTGTCCCCCGCCAATGCCGGTAATCGCCTAGGTGTCAGTAGGGATGCGGGAAAGCATCGTCGCAG
CCCGACCGCCCCCGAACCTCCAACGACGAGTGGCCAAATCGGTGGCCATGAACAACCGCCTGGTTCCAAGACATG
GGGTGGCAGTGAGCGCGAGGACGAGTTTGATCCTGCCAGCTCCGGGGAGAAGGATCGGGAAAAGGAGCGGGAACG
GCAATTGGAAGCCCAACGGGAGAGGAGGGAGCGCAGGGAACAACAGCAGCAGCAGCAACCACCCCCTCAACCTCC
ACCACAACAACTCCAACCCTACGCACAAGTGCCTCAGGCTATTGCCCAGCCCGCTGCACCTGCACCACAACCACC
GATACCGGCTCCCAATCAGCTCAACCGTCACATTGTGGTCAACAAAAAGGCTTACGCTCGCATTGACATCATTGG
CAAGGGAGGGTCGTCACGCGTATTCCGGGTTTTGAACCACGCCAACGAACTATACGCGATTAAACGCGTCTCTCT
GGACAAGACGGATGCTGAGACGATGAGTGGCTACATGAACGAAATCGCACTTCTCAAGCGACTCGAAGGCAATAG
CCGTATCATTCGGTTGATCGACAGCGAAGTCAAACCTGGTCCTGGGGGAAGCAAGGGGCATCTACTGTTGGTGAT
GGAGTGCGGCGAGATCGATTTGGCCAAGCTTCTCCAGGAACAGATGAAGGAGCCATTGAACATGGTTTGGGTTTC
GTACTACTGGCAACAGATGCTGCAAGCCGTCCATGTCATTCACGAAGAGAAGATTGTTCATTCCGACTTGAAGCC
TGCAAACTTTGTGTTGGTCAAAGGCCAGCTCAAGTTGATTGACTTTGGTATCGCGAACGCGATTGCGAATGACAC
TACCAATATTCAACGTGACCACCAGATCGGTACGGTCAACTACATGAGTCCCGAAGCTATAGAGCTTCCAGACGG
TATGCGTCGACTGAAGGTCGGCCGTCCGTCTGACGTTTGGTCGTTGGGTATCATCTTGTACCAGATGGTGTACGG
ACACCCACCCTTCCAACATCTTTCCGTGTATCAGAAGATGAAGGCTATTCCCGACCTCAGCCATGTCATCGAATA
TCCCGAATACACAGTCCCATCGATCCCAGCCAAGACCAGCAGCAATGGAACCGTGGAACCTCCCAAACGACTGGA
GCACCTCAAGCGACGCGTGCGAGCAGACGTGATCAGGGGCATCAAGAGTTGTCTTTGCCGCAACCCCAAGGAGCG
CGCGACGATCCCCGAGTTGTTGGAGCAGCCTTGGCTGGGTTTGACCGGTAATGAACCTGAACCTGTGCGTCCCAG
GATTGAAGATATGCTAGGCGAAAAGGAGACTTTGATCAATCCATACTACATGGCTCAGCTCATGCAGTATTGTGT
CAAGCTCGCCCGGGAAGACAAGCCAATGGACGCCGAAACTTTGCAGAAGGATGCCGAGCGCCTTGTTCTTGAGCT
CAAATCTGTACAGCGACAAGCTCAAGGTTCATAGTCGCGGCCGCCACCACGCCAACTCTTTCTCTCTCGCATTTA
CCACTCGCCATTTCATCTCATCTGCACTAGACTCTGGCATCCCCCATTTCTGTAGGCTCTGTTTCTCTATGGTCG
GACATGTCTTGATTTGACTTTCATTCGCTCGCCATTCTCGTTCGTTTTCCAACACGTTTCGGCCTTGGGTCAAGT
TTACACGCTGGATATCGGTCTCGAAAAAAATCGTCCCTTCGTCATTTTTATCGCCCTCCATGAAATATGCATTCC
TGCCTTGGTCGCAGTTGTACCACCTGTCCTTTATTGTATGAATTTGTTCGTTCGTTTCTCTCGTCTCCTCGCATT
TGTACAAGAACCAATCACCTTTTTTCATTTGTGTTTTTTCTTTCAGCTCCAGGTGTTCGGTTGCCCTCTTCAGCC
TTCACTCATCGACCGACGCTTGTAATCGTTACTCGACGCCAGCACCCTTTTTGAACGATTTCGTTCAACTCAACC
CCTATCCTAATCATTCCCGTACTCCTATCCAACATGAACTTTCATTCTTTTCATAGGTCGTATATCTTATAGTCT
TTATTCCTCTCCTTGTCTCGCTTTCTCTTTTTCTCGTCTCGTTTTCAAGCTCTGGTGTTATTTTTTTCTCTTTTG
TCGTGGTCTGAAATAGGCATTTACCTGCATTACTTATTATCCAGTTTGTACCATACGTTGATTCTATGAGCATCC
GTTTCCTCCTC
Length 3836

Gene

Sequence id CopciAB_466770.T0
Sequence >CopciAB_466770.T0
AGTGGTTTACTTTCTTTTGCTCTGTTTTCTTCCTCGCTGTCGCTCTGCTTTCGTCGCTATCGATTTCGCTTTCGC
TGTCATGTCCACTTCGCCCTCAATTTCCCCGCCTCGCACACCAAACGACAACCGGCCTACCGCTTCAACCTCAAA
CTCCCCAAGTTCAGATGATTCTTCAATAATTGACGACCTTTCTTTCGACTATGTCTACGACGACAATGGCAACGT
CGTCCGTCTGTCCAGAAAATCAAACTCGACATCTCCCCCAACCGACCAAGAAAGTTTGCCAGATTCAGCCCTCGA
CAACGACAGTCCTGCAGGCTCACCTCTCAACCGCCAATCACTATCTCGCTCGGAAAGCGCCCAGTCAATACTTCA
GGGTACATCCGCAGCGGCTACCGACCCAAAACCTGCAAGACCCTTTCAACGCGTCGCGTCAACCCCATCGTATCT
TCTTCCAACAGCTGCAGCGACCAGTCGAGCAGCTGTAACGCGCGGAGGTCCTCGCCGTATTATTGAAGACAGTCA
TAATCGGGAACGACAGGAGCCAATCGTCCGATCGAGGCAAACTTTTGACTATGCCACGCGCGATTCATACGCGCA
CCAAGAGGAGAAAGAGAATATCCTCGCTGAGATGGACGAAAGGCCTCAACTCGTCAACAGACGGAATTCCCCTCC
ACTTATCGCCCGCTCCACAGCTTCACGGTTCTCCTCGGCACGGATATCGTACTCGACTATCGGTGGAAGTCTCAA
TGGTCGCCCTTTAGCTGACGTCCCCGTTCAGCGGACCGCACGGCAGCCACCGACCGGTCTAACGCGACCTGGTCG
CCTCATGAAATCGTCGTTGACCTCGCTCAAATACAGCACGTCCAACCAAGACCGCTTGAGCGACGTGGTCGAGAG
TTCCGATTATGAGCACAAGCAACAAGGCCTACCCGAACCAAATCCCTACGCGCCGCCTGCTTCCGATACGGAGCC
GGAGGACGAGCCTCTGGAACCTTCCGCCATTCCCCTTCGCTCTTCGCTCAACCCACGGCAACGCAAAGAACTCAA
CATCAATGCCCAAGCTGCAAGCCTGGCTCAATCTGGCAGCAACCGTCCAAGGAGATCAGCTAGTCTCAGTGATGC
ACTATGTATGTTGTTCACGCTTCTGTTCAACCGTGATATTTGTTGACCTTTCCTTTAGACCCCCACGACGACTAC
CAACTCCAAGTGGCCGCTCCACCTACACACGGACATTCCCGCCCAGGGACCAGCCTTGGTACGTGACCGTCCAGC
TTCTTTGTGTAAGCACGCTTATTCCTTTGTGACAGGTTTGAACGCCGAATCAGGTCCAAGGCGCGTCTATCCTGA
GGAGAGAGAACGACAGGAATTAGAGGCCCACAAGAGTATGTGCAGTTCAACTTCTCACGCGTGTCTCTTGTACTT
ACAGCACCTTTCACATTTCAGAACTCCGCAGAGAACACGAGGACGATCGACAATCACCCTCACCAACACACGGCC
ATCCCCAACATCAAAGGCTTGTCGCCAATGGCCATCGTAGACGCGACTCGGATACGCTTCGTGGTTTGGCTCCTC
CCAATTCTGCAGGCACTGTTGGATCCCCTACCGTGATGGATATGCCCAATGGTCGACCATCGCCCACGGGGCATC
GTTTCCCCCATGGGCGCTCGTCTCCAGCAGCAACCGTTCGTGGAAGACAGTCTCCCCAAACAGTCAAAGGACGCG
TCTCTCCGCCAGCCACCAAAGGTCGCGTGTCCCCCGCCAATGCCGGTAATCGCCTAGGTGTCAGTAGGGATGCGG
GAAAGCATCGTCGCAGCCCGACCGCCCCCGAACCTCCAACGACGAGTGGCCAAATCGGTGGCCATGAACAACCGC
CTGGTTCCAAGACATGGGGTGGCAGTGAGCGCGAGGACGAGTTTGATCCTGCCAGCTCCGGGGAGAAGGATCGGG
AAAAGGAGCGGGAACGGCAATTGGAAGCCCAACGGGAGAGGAGGGAGCGCAGGGAACAACAGCAGCAGCAGCAAC
CACCCCCTCAACCTCCACCACAACAACTCCAACCCTACGCACAAGTGCCTCAGGCTATTGCCCAGCCCGCTGCAC
CTGCACCACAACCACCGATACCGGCTCCCAATCAGCTCAACCGTCACATTGTGGTATGTCTACACAATCTAGTCT
TCAATTTTCCGCGCTAATTTAATTCTTAGGTCAACAAAAAGGCTTACGCTCGCATTGACATCATTGGCAAGGGAG
GGTCGTCACGCGTATTCCGGGTTTTGAACCACGCCAACGAACTATACGCGATTAAACGCGTCTCTCTGGACAAGA
CGGATGCTGAGACGATGAGTGGCTACATGAACGAAATCGCACTTCTCAAGCGACTCGAAGGCAATAGCCGTATCA
TTCGGTTGATCGACAGCGAAGTCAAACCTGGTCCTGGGGGAAGCAAGGGGCATCTACTGTTGGTGATGGAGTGCG
GCGAGATCGATTTGGCCAAGCTTCTCCAGGAACAGATGAAGGAGCCATTGAACATGGTTTGGGTTTCGTACTACT
GGCAACAGGTACGTGTCAATCGTTCGGATGAAAAGTACATTGTCTGATACCTGTGGGCATTAGATGCTGCAAGCC
GTCCATGTCATTCACGAAGAGAAGATTGTTCATTCCGACTTGAAGCCTGCAAACTTTGTGTTGGTCAAAGGCCAG
CTCAAGTTGATTGACTTTGGTATCGCGAACGCGATTGCGAATGACACTACCAATATTCAACGTGACCACCAGGTG
TGTTATACTAGTGTTGGTTCATTGCGGCATATACTGACGTTACTTGTAGATCGGTACGGTCAACTACATGAGTCC
CGAAGCTATAGAGCTTCCAGACGGTATGCGTCGACTGAAGGTCGGCCGTCCGTCTGACGTTTGGTCGTTGGGTAT
CATCTTGTACCAGATGGTGTACGGACACCCACCCTTCCAACATCTTTCCGTGTATCAGAAGATGAAGGCTATTCC
CGACCTCAGCCATGTCATCGAATATCCCGAATACACAGTCCCATCGATCCCAGCCAAGACCAGCAGCAATGGAAC
CGTGGAACCTCCCAAACGACTGGAGCACCTCAAGCGACGCGTGCGAGCAGACGTGATCAGGGGCATCAAGAGTTG
TCTTTGCCGCAACCCCAAGGAGCGCGCGACGATCCCCGAGTTGTTGGAGCAGCCTTGGCTGGGTTTGACCGGTAA
TGAACCTGAACGTGAGATACCTTTTGATTCCGCTGAGTGAGAGTGGTACTAAATGAATTTCTCTCCAGCTGTGCG
TCCCAGGATTGAAGATATGCTAGGCGAAAAGGAGACTTTGATCAATCCATACTACATGGCTCAGCTCATGCAGTA
TTGTGTCAAGCTCGCCCGGGAAGACAAGCCAATGGACGCCGAAACTTTGCAGAAGGATGCCGAGGTTCGTGAACT
CGTTGTGCCAATGCTAGCCGACAACTGACCGACCCCTGTTTTGTAGCGCCTTGTTCTTGAGCTCAAATCTGTACA
GCGACAAGCTCAAGGTTCATAGTCGCGGCCGCCACCACGCCAACTCTTTCTCTCTCGCATTTACCACTCGCCATT
TCATCTCATCTGCACTAGACTCTGGCATCCCCCATTTCTGTAGGCTCTGTTTCTCTATGGTCGGACATGTCTTGA
TTTGACTTTCATTCGCTCGCCATTCTCGTTCGTTTTCCAACACGTTTCGGCCTTGGGTCAAGTTTACACGCTGGA
TATCGGTCTCGAAAAAAATCGTCCCTTCGTCATTTTTATCGCCCTCCATGAAATATGCATTCCTGCCTTGGTCGC
AGTTGTACCACCTGTCCTTTATTGTATGAATTTGTTCGTTCGTTTCTCTCGTCTCCTCGCATTTGTACAAGAACC
AATCACCTTTTTTCATTTGTGTTTTTTCTTTCAGCTCCAGGTGTTCGGTTGCCCTCTTCAGCCTTCACTCATCGA
CCGACGCTTGTAATCGTTACTCGACGCCAGCACCCTTTTTGAACGATTTCGTTCAACTCAACCCCTATCCTAATC
ATTCCCGTACTCCTATCCAACATGAACTTTCATTCTTTTCATAGGTCGTATATCTTATAGTCTTTATTCCTCTCC
TTGTCTCGCTTTCTCTTTTTCTCGTCTCGTTTTCAAGCTCTGGTGTTATTTTTTTCTCTTTTGTCGTGGTCTGAA
ATAGGCATTTACCTGCATTACTTATTATCCAGTTTGTACCATACGTTGATTCTATGAGCATCCGTTTCCTCCTC
Length 4274