CopciAB_366999
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_366999 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 366999
Uniprot id Functional description other FunK1 protein kinase
Location scaffold_3:3515066..3518533 Strand +
Gene length (nt) 3468 Transcript length (nt) 3090
CDS length (nt) 2700 Protein length (aa) 899

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_CAA7260578 32.1 3.677E-92 325
Flammulina velutipes Flave_chr01AA00176 29.9 6.109E-88 312
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_117400 30.3 2.048E-85 304
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_132622 32.9 9.201E-84 299
Lentinula edodes NBRC 111202 Lenedo1_1267414 25.2 6.874E-37 151
Lentinula edodes W1-26 v1.0 Lentinedodes1_12491 25.2 6.821E-37 151
Lentinula edodes B17 Lened_B_1_1_5271 25.4 6.257E-34 141

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 120.7028 10.6118 6.1267
oidia 149.4228 22.9379 13.2432
vegetative_mycelium 158.5574 9.6204 5.5544
primordia 96.2361 4.9603 2.8639
hyphal_knot 148.357 3.2444 1.8731
young_fruiting_body 33.1085 4.7052 2.7166
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 134.7307 5.5428 3.2002
Wheat bran 141.9214 25.543 14.7472
Horse manure 166.6374 39.5852 22.8545
Oak leaves 207.1661 10.5238 6.0759
Hay 162.663 23.9213 13.811
Corn stalk 198.2724 3.3516 1.9351
Pectine 169.9756 8.3816 4.8391
Microcrystalline cellulose 205.6353 29.5795 17.0778
Xylose 161.9587 10.1819 5.8785
Cellobiose 142.4486 9.5411 5.5086
Lignin 145.7831 26.1385 15.0911
Apple peels 164.833 7.7659 4.4837
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 143.4192 6.041 3.4878
Bsubtilis 153.3893 3.4562 1.9954
Ecoli 131.0033 11.5201 6.6511
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 5.7346 1.5555 0.898
BS 4h 2.7011 0.6429 0.3712
BS 8h 6.8755 1.5286 0.8825
BS 12h 8.5794 1.1409 0.6587
Oidia 0 h 15.2321 3.5487 2.0489
Oidia 18 h 25.7868 2.1187 1.2232
Sclerotia 43.7893 3.5895 2.0724
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 66.9591 8.3102 4.7979
DM 36h 68.5061 8.7902 5.075
DM 60h 68.54 6.5578 3.7861
DM 84h 55.8588 0.4904 0.2831
DM 108h 54.0134 1.6708 0.9646
DM 132h 52.3779 7.062 4.0773
DM 156hAE 62.1954 5.7384 3.3131
ELI1hAE 50.641 7.9959 4.6164
ELI2hAE 51.1149 7.8899 4.5552
LI2hAE 57.5892 9.575 5.5281
LI6hAE 56.7172 5.9814 3.4533
LI12hAE 50.3897 5.1361 2.9653
LI18hAE 40.7251 1.5141 0.8742
LI 24hAE 50.9777 14.859 8.5789
DM 156hAM 48.7061 7.3816 4.2618
ELI1hAM 43.627 8.4776 4.8945
ELI2hAM 51.9365 6.5785 3.7981
LI2hAM 51.3534 8.1055 4.6797
LI6hAM 59.2717 8.1389 4.699
LI12hAM 53.2242 14.1645 8.1779
LI18hAM 47.8478 5.8243 3.3627
LI 24hAM 43.0052 9.3968 5.4253
LI 24hHK 38.5364 8.6224 4.9782
L/D 6h 51.4071 5.2429 3.027
L/D 12h 51.8401 15.5338 8.9685
L/D 18h 70.3553 18.0392 10.415
L/D 24h 82.2211 9.2184 5.3223
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 64.9987 12.1557 7.0181
Hyphal knots 98.9541 23.3116 13.4589
Primordium 1 101.996 21.1326 12.2009
Primordium 2 79.0068 20.8224 12.0218
Young Fruiting body cap 44.5696 20.4504 11.8071
Younf fruiting body gill 30.0454 15.8261 9.1372
Young fruiting body stipe 82.1254 10.5387 6.0845
Mature fruiting body cap_gill 17.3308 0.7003 0.4043
Mature fruiting body stipe 53.3986 14.9927 8.6561
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 183.5761 20.9342 12.0864
NH4NO3 160.4213 8.8395 5.1035
Proline 153.587 8.9419 5.1626
Tryptophan 140.7314 20.3612 11.7556
Isoleucin 149.2558 6.7394 3.891
Arginine 190.2294 7.0138 4.0494
Metionine 155.8464 5.1201 2.9561
NaNO3 170.6037 5.9411 3.4301
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 183.5761 20.9342 12.0864
Citrus peel 134.2178 19.7946 11.4284
Poplar leaves 165.2689 7.5792 4.3758
Typha leaves 151.7611 7.2295 4.1739
Overwintered Salix leaves 163.945 8.1635 4.7132
Reed flowering 172.3316 11.5935 6.6935
Tigernut 140.0753 9.2016 5.3126
Energy cane 155.6182 4.9411 2.8527
Guar gum 145.7576 14.41 8.3196
Apple peels 182.442 9.4961 5.4826
Cellobiose 185.5169 5.6529 3.2637
Corn stalk 182.5208 3.1093 1.7951
Horse manure 154.3384 21.6978 12.5272
Lignin 141.0327 30.0654 17.3582
Microcrystalline cellulose 161.4444 23.4865 13.5599
Oak leaves 170.2405 14.317 8.2659
Pectin esterified 128.4096 13.445 7.7625
Poplar sawdust 139.4729 23.5335 13.5871
Wheat bran 135.6651 8.1006 4.6769
Chlamydomonas reinhardtii 156.2401 22.2221 12.83
Vertatryl alcohol 120.3322 12.5509 7.2463
Furfural 115.6915 13.4476 7.764
Autoclaved mycelium 158.2542 5.5234 3.1889
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 170.6408 2.2436 1.2953
Ribose 194.7691 10.3857 5.9962
Mannose 198.4736 12.4424 8.7981
Fructose 182.415 2.7817 1.606
Arabinose 184.9728 10.176 5.8751
Xylose 191.7182 4.4863 2.5902
Galacturonic acid 193.7812 16.5113 9.5328
Rhamnogalacturonan 186.2726 2.7526 1.5892
Pectin esterified 184.345 7.3083 4.2194
Polygalacturonic acid 181.7743 4.3791 2.5283
Sodium acetate 201.6962 10.2984 5.9458
No nitrogen 165.2224 8.8234 5.0942
BSA 185.6022 6.2371 3.601
Glutamine 176.9977 3.7602 2.1709
No phosphate 180.4369 7.8461 4.53
No carbon 185.8405 8.6782 6.1364
No sulphur 196.8648 19.3707 11.1837
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 183.5761 20.9342 12.0864
Amylose 133.3421 7.4709 4.3133
Fucose 138.7379 5.8081 3.3533
Galactose 142.6406 8.7452 5.049
Lactose 157.9956 5.3397 3.0829
Maltose 158.7285 11.6657 6.7352
Mannitol 155.5381 4.8846 2.8201
Rhamnose 153.2437 12.6918 7.3276
Sorbitol 146.3273 9.4974 5.4833
Trehalose 157.5537 5.4014 3.1185
Glycerol 149.1267 20.7737 11.9937
Glucuronic acid 148.7347 13.7807 7.9563
Arabinan 133.093 4.4394 2.5631
Galactan 159.0759 11.4415 6.6057
Galactomannan 169.5192 31.2121 18.0203
Glucan 167.5396 20.5183 11.8462
Xylan 148.0828 8.8558 5.1129
Xyloglucan 172.2441 22.0978 12.7582
Arabinogalactan 154.232 2.6982 1.5578
Pectin 87.9581 27.2784 15.7492
Rhamnogalacturonan 95.646 19.9998 11.5469
Polygalacturonic acid 147.8112 8.9788 5.1839
Mannan 149.9725 5.1974 3.0007
Amylopectin 137.7173 9.2353 5.332
Inulin 160.432 9.3453 5.3955
BSA 155.2945 12.1571 7.0189
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 68.54 6.5578 3.7861
2h WAT 50.1133 8.1791 4.7222
4h WAT 48.6406 8.7481 5.0507
8h WAT 45.9012 6.0612 3.4995
16h WAT 42.1529 3.9659 2.2897
24h WAT 46.0628 1.4553 0.8402
WAT hyphal knot -30h 65.7698 2.6345 1.521
WAT hyphal knot -22h 64.0222 3.1597 1.8243
WAT hyphal knot -15h 62.188 7.8193 4.5145
WAT hyphal knot -7.5h 42.7095 2.07 1.1951
WAT hyphal knot 49.8145 4.2161 2.4342
WAT hyphal knot +7.5h 46.7408 6.6551 3.8423
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 153.0542 28.8771 16.6722
Straw 3h 132.93 9.1464 5.2807
Straw 6h 127.3832 27.9237 16.1217
Straw 12h 158.314 15.1969 8.7739
Straw 24h 140.7563 20.0825 11.5947
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 43.4094 5.0256 2.9015
Frost (-20C, 30min) 37.4501 4.251 2.4543
Heat shock (47C, 2h) 31.303 1.8717 1.0806
High CO2 40.8893 5.2402 3.0255
Drought (4% agar, 12h) 30.096 1.7589 1.0155
Oxidative (1mM H2O2, 3h) 33.8958 3.1115 1.7964
Acidic (pH4, 3h) 31.7927 5.8548 3.3803
Alkaline (pH9, 3h) 35.2528 3.1834 1.8379
Osmotic (sorbitol 2h) 30.1024 3.6583 2.1121
CongoRed (3h) 31.4601 3.5832 2.0687
Cobalt chloride control 36.0968 2.308 1.3325
Cobalt chloride 2mM 34.138 2.7037 1.561
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 40.4961 11.3365 6.5451
Cold stimulation 47.7136 14.0056 8.0861
Scratched surface 52.3957 3.3069 1.9092
Ca2+, 200mM, 24h 43.4112 6.7916 3.9211
Cu2+, 2mM, 6h 48.7676 13.7059 7.9131
Voriconazole 40.399 9.0622 5.2321
Trichoderma interaction, early 53.0629 5.7131 3.2984
Trichoderma interaction 60h 28.227 9.0719 5.2377
Cobalt chloride 2mM repeat 64.0964 10.9679 6.3323
Hypoxia 39.6518 8.4682 4.8891
Hypoxia control 35.0514 5.3509 3.0893
Protoplastation control 34.0179 5.8464 4.134
Protoplastation 3.5h 20.6964 0.7565 0.5349
Protoplastation 1.5h 35.9307 12.9423 9.1516

General data

Systematic name -
Protein id CopciAB_366999.T0
Description other FunK1 protein kinase

Annotation summary

0 200 400 600 800 899

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 192 661

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

GO

Go id Term Ontology
No records

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
S other FunK1 protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_366999 across fungi.

Arrow shows the origin of gene family containing CopciAB_366999.

Protein

Sequence id CopciAB_366999.T0
Sequence >CopciAB_366999.T0
MAATPGRVVAVNPDGTPRIDHGHAGTANQTDQRPKIGAAMTYETLKCSHETFVEKYWPPLRERSRFEEIISELKN
DGVLVHIPEGDVWRFKWCPNTPSDARRRYDQRKRRGERVPANPPDEKTLFDGIGDFGLAILTVLKRLGIKVNSSR
IASCPDTHLDSEIWGANFRIDSCTTKVDFKVKDGRLILGEGKRLHVTDILVPMEFKISRKDQRSNRLQIASAANH
IMNDDVRRMFILGITIEDSQVSLWYFSRSHSIVADSFSFIREPYRFVELLVALFCASDKDLGLDPHIELFGEPGS
KKYLYELPPNATRPESQYFLTEAIVDEYRSHRIAGRSTRVWKVVQVTSKEDLTPIPGAKPVILKDAWINEDADTE
EDIQEKLFRDIDTFVAGDWRSNPLLKHFPEPALEAFGEVVKNYRDYFSPIAQGHSGKASKSVVSDANPVPRDFFL
EPEKMENQKSNSSSRTGSVNPSVSHPSGSRSSTLTVPTATVSGSMHSAASNREPPRRKFTSKRRCFFIYQYLCQR
ISDLPTLADALEVLRQAHLALMLMFCARWIHRDISHGNILAFQNADGSWRVKVSDLEYAKMFPPPDGYQAGTDPK
TGTPFFMAYELQKGLSLYSPASSGEPPPIGTRSPSGSREYPVIHNYQHDVESLWWMALWLVMMRTDHQDSYYIGL
RIFQGSLTPSPEREMYVLKGLPEGLRQQLHPSARCLFDLLQEWLTLMFLAYQRRSPAQLSDPESYAYGCATPIQL
FAHLKEHIPALATIELKDPSWMEGTDIPDAEASKPRRVQPPRRSTRLADKSRSGSQSGAGSRSAGSRSADRVTAG
SRSGGTRSADRASAGSGSADRVTTRSRSAGSSSADRATTGSSRSAEQNSSRHRSANPRSTGSRSNTRIHSIPEE
Length 899

Coding

Sequence id CopciAB_366999.T0
Sequence >CopciAB_366999.T0
ATGGCAGCGACCCCTGGGCGGGTTGTCGCGGTAAATCCCGACGGGACACCACGGATTGACCACGGGCATGCAGGA
ACTGCGAACCAGACAGACCAGCGACCAAAGATTGGAGCGGCCATGACCTATGAGACACTAAAATGCTCTCACGAA
ACATTTGTCGAGAAGTACTGGCCACCACTTCGCGAACGGAGCCGTTTCGAAGAAATCATTTCCGAACTAAAGAAT
GATGGAGTCCTCGTTCACATACCAGAGGGAGATGTGTGGCGGTTCAAATGGTGTCCGAATACACCCTCGGACGCA
AGGCGGAGGTATGATCAACGCAAGCGAAGGGGGGAACGTGTTCCCGCTAATCCTCCGGATGAAAAAACACTCTTC
GATGGAATTGGCGATTTTGGCCTTGCCATTCTCACAGTTTTGAAGCGCTTGGGTATCAAAGTAAACTCCTCCCGC
ATTGCGTCCTGTCCCGACACACATCTCGATTCCGAGATCTGGGGCGCAAACTTCAGGATCGACTCCTGTACCACA
AAGGTGGATTTCAAAGTTAAAGACGGGCGGCTCATTCTCGGTGAGGGCAAGCGCCTCCATGTCACAGACATCCTT
GTGCCCATGGAGTTCAAGATTTCCCGGAAGGATCAACGTTCCAATCGGTTACAAATCGCTTCCGCTGCCAACCAC
ATAATGAACGACGATGTACGGCGAATGTTTATCCTTGGTATAACCATCGAGGACTCGCAGGTGTCGCTCTGGTAC
TTCTCTCGCTCTCATTCCATAGTGGCGGATTCATTCAGCTTTATCCGCGAGCCGTATCGCTTTGTGGAACTACTA
GTGGCACTTTTCTGTGCCTCTGACAAGGATCTCGGTTTAGATCCTCACATCGAACTCTTTGGCGAACCGGGATCG
AAGAAATATCTTTACGAACTTCCACCAAACGCCACCAGACCGGAATCCCAATATTTCTTGACCGAAGCAATTGTC
GACGAGTACCGCTCCCACCGGATCGCGGGACGTTCAACGCGGGTGTGGAAGGTCGTACAAGTAACCTCGAAGGAA
GACTTGACCCCAATACCCGGTGCAAAGCCAGTAATCTTGAAAGACGCCTGGATCAACGAGGACGCTGACACGGAG
GAGGACATTCAGGAGAAGCTATTCCGTGACATCGACACTTTCGTCGCTGGCGATTGGCGGTCTAATCCTTTATTG
AAACACTTCCCTGAACCCGCTCTGGAAGCCTTCGGCGAAGTCGTCAAGAACTACAGGGATTACTTCTCTCCTATC
GCTCAGGGTCACTCGGGGAAAGCCAGCAAATCAGTTGTGAGCGATGCCAATCCTGTCCCCCGTGACTTCTTCCTT
GAGCCGGAGAAGATGGAAAACCAGAAATCCAACTCGTCTTCACGCACAGGTTCCGTGAACCCATCCGTCTCCCAT
CCCTCAGGTTCCCGCTCCTCGACCCTAACCGTACCCACTGCTACTGTCTCCGGAAGTATGCACTCTGCCGCATCT
AACAGGGAACCACCTCGAAGGAAATTCACGAGCAAACGTCGCTGTTTCTTCATTTACCAGTACCTGTGCCAGCGC
ATTAGCGATCTCCCTACCCTTGCGGACGCATTGGAAGTCCTTCGTCAGGCGCATCTTGCCCTCATGCTTATGTTC
TGTGCTCGTTGGATCCATCGTGACATTAGTCATGGTAACATTCTGGCGTTCCAGAACGCTGATGGCTCCTGGCGA
GTCAAGGTGTCTGATTTGGAGTATGCCAAGATGTTTCCGCCCCCAGACGGGTACCAGGCGGGCACAGACCCGAAG
ACGGGAACGCCCTTTTTCATGGCTTATGAGCTCCAAAAGGGCTTGTCACTTTATTCGCCAGCCTCCAGTGGGGAG
CCGCCACCGATTGGAACGAGGTCCCCAAGTGGATCCCGAGAATACCCCGTTATCCACAACTATCAGCACGACGTG
GAATCTCTGTGGTGGATGGCGCTCTGGCTCGTAATGATGCGGACCGATCACCAGGATTCTTACTACATCGGCCTG
AGAATATTCCAGGGCTCATTGACCCCGTCGCCAGAGAGAGAGATGTATGTCCTCAAGGGCCTCCCTGAAGGCCTT
CGACAACAACTGCACCCCTCTGCCCGCTGTCTTTTCGACCTGCTTCAAGAATGGTTGACCCTGATGTTTCTTGCC
TACCAAAGACGATCGCCAGCTCAACTTTCGGATCCCGAGTCTTACGCCTACGGTTGTGCCACCCCGATCCAGCTC
TTCGCTCACCTCAAGGAACATATTCCCGCATTGGCAACAATCGAGCTCAAGGATCCGTCGTGGATGGAAGGTACC
GATATCCCTGATGCCGAAGCCTCCAAACCACGTCGAGTTCAACCGCCCCGCCGCTCCACGAGACTCGCCGACAAG
TCCCGTAGCGGTAGCCAGAGCGGTGCCGGTAGCAGGAGTGCAGGTAGCCGGAGTGCTGACCGTGTCACCGCGGGC
AGCAGGAGTGGAGGCACTAGGAGCGCCGACCGTGCCAGCGCAGGAAGTGGGAGTGCTGACCGTGTCACCACACGC
AGCAGGAGTGCAGGCAGCAGTAGCGCTGACCGCGCCACCACAGGCAGTAGTAGGAGTGCAGAACAGAACAGCAGT
CGCCACAGGAGTGCGAATCCGCGCAGCACCGGTAGCAGGAGCAACACTCGGATCCATTCCATTCCTGAAGAGTGA
Length 2700

Transcript

Sequence id CopciAB_366999.T0
Sequence >CopciAB_366999.T0
ACTTGAACCACAACCACAGTCAAACGGTTTTTTTATTTTTATTTTTTTGCCGCCGTCTCAGGAGGCAACGAAGCG
GTCGGCTGAAGGAACGTTGCTGAGGGAAGTGTTTGCACCCTTCTGGAGAAGAACAGAAGAAGGGTTCTCCAATGG
CAGCGACCCCTGGGCGGGTTGTCGCGGTAAATCCCGACGGGACACCACGGATTGACCACGGGCATGCAGGAACTG
CGAACCAGACAGACCAGCGACCAAAGATTGGAGCGGCCATGACCTATGAGACACTAAAATGCTCTCACGAAACAT
TTGTCGAGAAGTACTGGCCACCACTTCGCGAACGGAGCCGTTTCGAAGAAATCATTTCCGAACTAAAGAATGATG
GAGTCCTCGTTCACATACCAGAGGGAGATGTGTGGCGGTTCAAATGGTGTCCGAATACACCCTCGGACGCAAGGC
GGAGGTATGATCAACGCAAGCGAAGGGGGGAACGTGTTCCCGCTAATCCTCCGGATGAAAAAACACTCTTCGATG
GAATTGGCGATTTTGGCCTTGCCATTCTCACAGTTTTGAAGCGCTTGGGTATCAAAGTAAACTCCTCCCGCATTG
CGTCCTGTCCCGACACACATCTCGATTCCGAGATCTGGGGCGCAAACTTCAGGATCGACTCCTGTACCACAAAGG
TGGATTTCAAAGTTAAAGACGGGCGGCTCATTCTCGGTGAGGGCAAGCGCCTCCATGTCACAGACATCCTTGTGC
CCATGGAGTTCAAGATTTCCCGGAAGGATCAACGTTCCAATCGGTTACAAATCGCTTCCGCTGCCAACCACATAA
TGAACGACGATGTACGGCGAATGTTTATCCTTGGTATAACCATCGAGGACTCGCAGGTGTCGCTCTGGTACTTCT
CTCGCTCTCATTCCATAGTGGCGGATTCATTCAGCTTTATCCGCGAGCCGTATCGCTTTGTGGAACTACTAGTGG
CACTTTTCTGTGCCTCTGACAAGGATCTCGGTTTAGATCCTCACATCGAACTCTTTGGCGAACCGGGATCGAAGA
AATATCTTTACGAACTTCCACCAAACGCCACCAGACCGGAATCCCAATATTTCTTGACCGAAGCAATTGTCGACG
AGTACCGCTCCCACCGGATCGCGGGACGTTCAACGCGGGTGTGGAAGGTCGTACAAGTAACCTCGAAGGAAGACT
TGACCCCAATACCCGGTGCAAAGCCAGTAATCTTGAAAGACGCCTGGATCAACGAGGACGCTGACACGGAGGAGG
ACATTCAGGAGAAGCTATTCCGTGACATCGACACTTTCGTCGCTGGCGATTGGCGGTCTAATCCTTTATTGAAAC
ACTTCCCTGAACCCGCTCTGGAAGCCTTCGGCGAAGTCGTCAAGAACTACAGGGATTACTTCTCTCCTATCGCTC
AGGGTCACTCGGGGAAAGCCAGCAAATCAGTTGTGAGCGATGCCAATCCTGTCCCCCGTGACTTCTTCCTTGAGC
CGGAGAAGATGGAAAACCAGAAATCCAACTCGTCTTCACGCACAGGTTCCGTGAACCCATCCGTCTCCCATCCCT
CAGGTTCCCGCTCCTCGACCCTAACCGTACCCACTGCTACTGTCTCCGGAAGTATGCACTCTGCCGCATCTAACA
GGGAACCACCTCGAAGGAAATTCACGAGCAAACGTCGCTGTTTCTTCATTTACCAGTACCTGTGCCAGCGCATTA
GCGATCTCCCTACCCTTGCGGACGCATTGGAAGTCCTTCGTCAGGCGCATCTTGCCCTCATGCTTATGTTCTGTG
CTCGTTGGATCCATCGTGACATTAGTCATGGTAACATTCTGGCGTTCCAGAACGCTGATGGCTCCTGGCGAGTCA
AGGTGTCTGATTTGGAGTATGCCAAGATGTTTCCGCCCCCAGACGGGTACCAGGCGGGCACAGACCCGAAGACGG
GAACGCCCTTTTTCATGGCTTATGAGCTCCAAAAGGGCTTGTCACTTTATTCGCCAGCCTCCAGTGGGGAGCCGC
CACCGATTGGAACGAGGTCCCCAAGTGGATCCCGAGAATACCCCGTTATCCACAACTATCAGCACGACGTGGAAT
CTCTGTGGTGGATGGCGCTCTGGCTCGTAATGATGCGGACCGATCACCAGGATTCTTACTACATCGGCCTGAGAA
TATTCCAGGGCTCATTGACCCCGTCGCCAGAGAGAGAGATGTATGTCCTCAAGGGCCTCCCTGAAGGCCTTCGAC
AACAACTGCACCCCTCTGCCCGCTGTCTTTTCGACCTGCTTCAAGAATGGTTGACCCTGATGTTTCTTGCCTACC
AAAGACGATCGCCAGCTCAACTTTCGGATCCCGAGTCTTACGCCTACGGTTGTGCCACCCCGATCCAGCTCTTCG
CTCACCTCAAGGAACATATTCCCGCATTGGCAACAATCGAGCTCAAGGATCCGTCGTGGATGGAAGGTACCGATA
TCCCTGATGCCGAAGCCTCCAAACCACGTCGAGTTCAACCGCCCCGCCGCTCCACGAGACTCGCCGACAAGTCCC
GTAGCGGTAGCCAGAGCGGTGCCGGTAGCAGGAGTGCAGGTAGCCGGAGTGCTGACCGTGTCACCGCGGGCAGCA
GGAGTGGAGGCACTAGGAGCGCCGACCGTGCCAGCGCAGGAAGTGGGAGTGCTGACCGTGTCACCACACGCAGCA
GGAGTGCAGGCAGCAGTAGCGCTGACCGCGCCACCACAGGCAGTAGTAGGAGTGCAGAACAGAACAGCAGTCGCC
ACAGGAGTGCGAATCCGCGCAGCACCGGTAGCAGGAGCAACACTCGGATCCATTCCATTCCTGAAGAGTGATAGA
ACGCTCGTTCCCATCAACCCCCAAATCATTTTTTGTGTTTACTTATTTCTAAGCTCGCTTCCGCTATCCATCTTT
CGCTATCATCTTGCTTTCGTGTTTTGTTTTTTTGTTGGTTGGCTTTCTTTTGCCATCGTTACCCGCTCTCTTCAG
AATATTGCCCATCAATAATAATAGTTAAGTCCCGTAACAATAGCATCTAGTATCGTTGAATTGGACCTTCAATTA
TGATCCTCTGCTCAA
Length 3090

Gene

Sequence id CopciAB_366999.T0
Sequence >CopciAB_366999.T0
ACTTGAACCACAACCACAGTCAAACGGTTTTTTTATTTTTATTTTTTTGCCGCCGTCTCAGGAGGCAACGAAGCG
GTCGGCTGAAGGAACGTTGCTGAGGGAAGGTACGTTGGCCGCCCAAATTCTAGTTCGAAAACGGCTGATAATCTT
GTCTTGTAAATCAGTGTTTGCACCCTTCTGGAGAAGAACAGAAGAAGGGTTCTCCAATGGCAGCGACCCCTGGGC
GGGTTGTCGCGGTAAATCCGTATGTCTGAATCTCTTGTGATGCTGTCGATTCCCCTAACAATGTCACCGACAGCG
ACGGGACACCACGGATTGACCACGGGCATGCAGGAACTGCGAACCAGACAGACCAGCGACCAAAGATTGGAGCGG
CCATGACCTATGAGACACTAAAATGCTCTCACGAAACATTTGTCGAGAAGTACTGGCCACCACTTCGCGAACGGA
GCCGTTTCGAAGAAATCATTTCCGAACTAAAGAATGATGGAGTCCTCGTTCACATACCAGAGGGAGATGTGTGGC
GGTTCAAATGGTGTCCGAATACACCCTCGGACGCAAGGCGGAGGTATGATCAACGCAAGCGAAGGGGGGAACGTG
TTCCCGCTAATCCTCCGGATGAAAAAACACTCTTCGATGGAATTGGCGATTTTGGCCTTGCCATTCTCACAGTTT
TGAAGCGCTTGGGTATCAAAGTAAACTCCTCCCGCATTGCGTCCTGTCCCGACACACATCTCGATTCCGAGATCT
GGGGCGCAAACTTCAGGATCGACTCCTGTACCACAAAGGTGGATTTCAAAGTTAAAGACGGGCGGCTCATTCTCG
GTGAGGGCAAGCGCCTCCATGTCACAGACATCCTTGTGCCCATGGAGTTCAAGATTTCCCGGAAGGATCAACGTT
CCGTGAGTCCTCTTCGCTTCCTTCACTCCTGCATGTTGTTTAACGACTCCTCTCAAGAATCGGTTACAAATCGCT
TCCGCTGCCAACCACATAATGAACGACGATGTACGGCGAATGTTTATCCTTGGTGTAAGTTTTCGCTCATATTGT
ACGGGTGATGTCTCATCATCTATTCCGTTTCAGATAACCATCGAGGACTCGCAGGTGTCGCTCTGGTACTTCTCT
CGCTCTCATTCCATAGTGGCGGATTCATTCAGCTTTATCCGCGTAACGTCACTCTTACCTTTTTCGCTGCGCCGA
TTCTGAACTCTTTGCAGGAGCCGTATCGCTTTGTGGAACTACTAGTGGCACTTTTCTGTGCCTCTGACAAGGATC
TCGGTTTAGATCCTCACATCGAACTCTTTGGCGAACCGGGATCGAAGAAATATCTTTACGAACTTCCACCAAACG
CCACCAGACCGGAATCCCAATATTTCTTGACCGAAGCAATTGTCGACGAGTACCGCTCCCACCGGATCGCGGGAC
GTTCAACGCGGGTGTGGAAGGTCGTACAAGTAACCTCGAAGGAAGACTTGACCCCAATACCCGGTGCAAAGCCAG
TAATCTTGAAAGACGCCTGGATCAACGAGGACGCTGACACGGAGGAGGACATTCAGGAGAAGCTATTCCGTGACA
TCGACACTTTCGTCGCTGGCGATTGGCGGTCTAATCCTTTATTGAAACACTTCCCTGAACCCGCTCTGGAAGCCT
TCGGCGAAGTCGTCAAGAACTACAGGGATTACTTCTCTCCTATCGCTCAGGGTCACTCGGGGAAAGCCAGCAAAT
CAGTTGTGAGCGATGCCAATCCTGTCCCCCGTGACTTCTTCCTTGAGCCGGAGAAGATGGAAAACCAGAAATCCA
ACTCGTCTTCACGCACAGGTTCCGTGAACCCATCCGTCTCCCATCCCTCAGGTTCCCGCTCCTCGACCCTAACCG
TACCCACTGCTACTGTCTCCGGAAGTATGCACTCTGCCGCATCTAACAGGGAACCACCTCGAAGGAAATTCACGA
GCAAACGTCGCTGTTTCTTCATTTACCAGTACCTGTGCCAGCGCATTAGCGATCTCCCTACCCTTGCGGACGCAT
TGGAAGTCCTTCGTCAGGCGCATCTTGGTGAGTCTCCAATGATTTTTTCGAGATTGAGACTGACTGTTATCGCCC
GATAGCCCTCATGCTTATGTTCTGTGCTCGTTGGATCCATCGTGACATTAGTCATGGTAACATTCTGGCGTTCCA
GAACGCTGATGGCTCCTGGCGAGTCAAGGTGTCTGATTTGGAGTATGCCAAGATGTTTCCGCCCCCAGACGGGTA
CCAGGCGGGCACAGACCCGAAGACGGTATGGTCCCATCTGCAATCCTCGCCCCTGTATCCGCCTGATGGTTTTCT
AGGGAACGCCCTTTTTCATGGCTTATGAGCTCCAAAAGGGCTTGTCACTTTATTCGCCAGCCTCCAGTGGGGAGC
CGCCACCGATTGGAACGAGGTCCCCAAGTGGATCCCGAGAATACCCCGTTATCCACAACTATCAGCACGACGTGG
AATCTCTGTGGTGGATGGCGCTCTGGCTCGTAATGATGCGGACCGATCACCAGGATTCTTACTACATCGGCCTGA
GAATATTCCAGGGCTCATTGACCCCGTCGCCAGAGAGAGAGATGTATGTCCTCAAGGGCCTCCCTGAAGGCCTTC
GACAACAACTGCACCCCTCTGCCCGCTGTCTTTTCGACCTGCTTCAAGAATGGTTGACCCTGATGTTTCTTGCCT
ACCAAAGACGATCGCCAGCTCAACTTTCGGATCCCGAGTCTTACGCCTACGGTTGTGCCACCCCGATCCAGCTCT
TCGCTCACCTCAAGGAACATATTCCCGCATTGGCAACAATCGAGCTCAAGGATCCGTCGTGGATGGAAGGTACCG
ATATCCCTGATGCCGAAGCCTCCAAACCACGTCGAGTTCAACCGCCCCGCCGCTCCACGAGACTCGCCGACAAGT
CCCGTAGCGGTAGCCAGAGCGGTGCCGGTAGCAGGAGTGCAGGTAGCCGGAGTGCTGACCGTGTCACCGCGGGCA
GCAGGAGTGGAGGCACTAGGAGCGCCGACCGTGCCAGCGCAGGAAGTGGGAGTGCTGACCGTGTCACCACACGCA
GCAGGAGTGCAGGCAGCAGTAGCGCTGACCGCGCCACCACAGGCAGTAGTAGGAGTGCAGAACAGAACAGCAGTC
GCCACAGGAGTGCGAATCCGCGCAGCACCGGTAGCAGGAGCAACACTCGGATCCATTCCATTCCTGAAGAGTGAT
AGAACGCTCGTTCCCATCAACCCCCAAATCATTTTTTGTGTTTACTTATTTCTAAGCTCGCTTCCGCTATCCATC
TTTCGCTATCATCTTGCTTTCGTGTTTTGTTTTTTTGTTGGTTGGCTTTCTTTTGCCATCGTTACCCGCTCTCTT
CAGAATATTGCCCATCAATAATAATAGTTAAGTCCCGTAACAATAGCATCTAGTATCGTTGAATTGGACCTTCAA
TTATGATCCTCTGCTCAA
Length 3468