CopciAB_494847
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_494847 Strain Coprinopsis cinerea Okayama 7
Standard name BCK1 Synonyms 494847
Uniprot id Functional description Ste ste11 protein kinase
Location scaffold_1:2879041..2884150 Strand +
Gene length (nt) 5110 Transcript length (nt) 4741
CDS length (nt) 4281 Protein length (aa) 1426

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB28565 48.5 0 1153
Agrocybe aegerita Agrae_CAA7258651 45.8 0 1070
Lentinula edodes NBRC 111202 Lenedo1_1257545 40.2 1.2E-279 900
Lentinula edodes W1-26 v1.0 Lentinedodes1_984 40.1 2.608E-279 899
Pleurotus eryngii ATCC 90797 Pleery1_1390042 73.3 2.068E-190 636
Schizophyllum commune H4-8 Schco3_2488103 75 2.345E-189 633
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_62685 70.9 1.552E-186 624
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_32645 70.9 7.524E-186 622
Ganoderma sp. 10597 SS1 v1.0 Gansp1_39415 69 8.482E-171 577
Auricularia subglabra Aurde3_1_1302452 52 8.55E-148 508
Grifola frondosa Grifr_OBZ79438 68.5 2.115E-132 460
Pleurotus ostreatus PC15 PleosPC15_2_1062865 83.4 3.639E-130 453
Pleurotus ostreatus PC9 PleosPC9_1_85800 83.3 1.578E-129 451

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 191.0939 11.0062 6.3544
oidia 169.4391 20.7078 11.9557
vegetative_mycelium 191.8199 29.0873 16.7936
primordia 96.3664 1.4169 0.818
hyphal_knot 164.9007 1.4072 0.8124
young_fruiting_body 200.4886 31.3417 18.0952
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 178.8184 4.345 2.5086
Wheat bran 81.5166 26.9802 15.577
Horse manure 144.4412 33.4261 19.2986
Oak leaves 165.875 21.6831 12.5187
Hay 138.6654 30.3981 17.5503
Corn stalk 154.2409 1.1228 0.6483
Pectine 175.9102 4.6425 2.6803
Microcrystalline cellulose 141.9373 29.5277 17.0478
Xylose 148.0417 27.1313 15.6643
Cellobiose 139.2986 16.7959 9.6971
Lignin 141.3895 27.7824 16.0402
Apple peels 235.7229 25.7226 14.8509
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 231.4142 5.3374 3.0816
Bsubtilis 176.9558 6.5599 3.7874
Ecoli 182.5234 7.2318 4.1753
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 164.803 31.1705 17.9963
BS 4h 80.4374 12.9492 7.4763
BS 8h 47.6999 1.2677 0.7319
BS 12h 44.4799 2.537 1.4647
Oidia 0 h 81.5763 25.9597 14.9878
Oidia 18 h 55.8525 7.8506 4.5325
Sclerotia 53.1547 17.8259 10.2918
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 47.6397 4.2208 2.4369
DM 36h 58.7224 4.3135 2.4904
DM 60h 72.8215 5.6267 3.2486
DM 84h 66.3412 8.6316 4.9835
DM 108h 74.5587 12.8713 7.4312
DM 132h 77.5004 16.703 9.6435
DM 156hAE 83.7041 5.2047 3.005
ELI1hAE 75.4729 6.0176 3.4743
ELI2hAE 72.4659 5.442 3.142
LI2hAE 69.4063 5.8962 3.4042
LI6hAE 71.2353 3.7791 2.1819
LI12hAE 56.9621 10.043 5.7983
LI18hAE 68.4094 6.5986 3.8097
LI 24hAE 93.7111 9.8006 5.6584
DM 156hAM 69.5256 6.7126 3.8755
ELI1hAM 59.7919 5.4386 3.14
ELI2hAM 54.9576 4.9158 2.8381
LI2hAM 51.8437 6.3345 3.6572
LI6hAM 73.9498 9.752 5.6303
LI12hAM 60.1803 3.412 1.9699
LI18hAM 73.8147 13.0259 7.5205
LI 24hAM 76.9158 6.952 4.0137
LI 24hHK 82.3184 9.2096 5.3172
L/D 6h 98.5657 8.4189 4.8607
L/D 12h 96.2483 10.2254 5.9036
L/D 18h 96.5414 5.7901 3.3429
L/D 24h 113.2897 5.2373 3.0238
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 71.1084 4.8316 2.7895
Hyphal knots 124.5428 15.8506 9.1513
Primordium 1 122.9088 12.9932 7.5016
Primordium 2 101.1911 5.0744 2.9297
Young Fruiting body cap 112.0648 23.5629 13.604
Younf fruiting body gill 86.1169 26.211 15.1329
Young fruiting body stipe 141.0306 37.1201 21.4313
Mature fruiting body cap_gill 286.4497 54.616 31.5326
Mature fruiting body stipe 223.6174 6.281 3.6263
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 175.8568 11.4791 6.6275
NH4NO3 209.8869 15.7111 9.0708
Proline 198.4941 22.3791 12.9206
Tryptophan 189.2468 10.3736 5.9892
Isoleucin 231.0335 10.1977 5.8877
Arginine 225.3281 13.7044 7.9122
Metionine 174.9279 22.4873 12.983
NaNO3 167.1091 2.6389 1.5236
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 175.8568 11.4791 6.6275
Citrus peel 119.5787 9.7589 5.6343
Poplar leaves 146.9883 32.5544 18.7953
Typha leaves 144.0036 26.7122 15.4223
Overwintered Salix leaves 155.8124 17.3482 10.016
Reed flowering 158.1561 24.6808 14.2494
Tigernut 110.9507 11.3362 6.5449
Energy cane 161.0808 3.9863 2.3015
Guar gum 159.0107 48.7859 28.1666
Apple peels 148.9867 6.0434 3.4892
Cellobiose 220.9423 2.3422 1.3523
Corn stalk 143.1666 8.9651 5.176
Horse manure 148.5472 1.5181 0.8765
Lignin 172.1363 47.2434 27.276
Microcrystalline cellulose 168.4037 6.3545 3.6688
Oak leaves 133.7168 22.6756 13.0918
Pectin esterified 89.1487 19.681 11.3629
Poplar sawdust 160.0719 17.7181 10.2296
Wheat bran 81.1634 18.5144 10.6893
Chlamydomonas reinhardtii 161.1772 5.8009 3.3492
Vertatryl alcohol 131.8856 13.5868 7.8444
Furfural 92.2195 4.4944 2.5949
Autoclaved mycelium 187.0591 10.1559 5.8635
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 166.8249 16.8065 9.7032
Ribose 193.2764 9.6513 5.5722
Mannose 193.9309 15.6745 11.0835
Fructose 201.0765 12.3885 7.1525
Arabinose 212.4387 2.5002 1.4435
Xylose 208.0237 15.8915 9.175
Galacturonic acid 184.4686 20.5169 11.8454
Rhamnogalacturonan 182.9221 10.7627 6.2139
Pectin esterified 190.2523 5.7358 3.3116
Polygalacturonic acid 190.9967 18.6453 10.7649
Sodium acetate 211.7449 4.2858 2.4744
No nitrogen 207.7623 6.1666 3.5603
BSA 205.6341 9.0506 5.2254
Glutamine 202.8598 9.3411 5.3931
No phosphate 156.1436 9.8446 5.6838
No carbon 202.8939 5.4454 3.8505
No sulphur 209.7185 13.5126 7.8015
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 175.8568 11.4791 6.6275
Amylose 151.3744 9.7759 5.6441
Fucose 143.1581 12.9694 7.4879
Galactose 155.1395 1.7785 1.0268
Lactose 165.9635 5.0037 2.8889
Maltose 167.6579 12.9647 7.4852
Mannitol 186.0579 5.8114 3.3552
Rhamnose 166.9017 16.8131 9.7071
Sorbitol 160.9212 8.6139 4.9732
Trehalose 161.2016 18.4299 10.6405
Glycerol 172.7359 8.7849 5.0719
Glucuronic acid 164.4865 3.808 2.1985
Arabinan 134.7932 25.0458 14.4602
Galactan 141.5601 7.9921 4.6143
Galactomannan 129.5821 17.1008 9.8732
Glucan 157.2768 8.3918 4.845
Xylan 135.875 6.7909 3.9207
Xyloglucan 159.6093 23.3522 13.4824
Arabinogalactan 183.9295 20.7335 11.9705
Pectin 94.8582 39.4478 22.7752
Rhamnogalacturonan 112.7941 33.8944 19.5689
Polygalacturonic acid 167.3172 19.9974 11.5455
Mannan 144.5173 7.2415 4.1809
Amylopectin 111.017 5.3218 3.0726
Inulin 161.6113 8.3075 4.7963
BSA 202.3088 13.0366 7.5267
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 72.8215 5.6267 3.2486
2h WAT 50.0545 10.2435 5.9141
4h WAT 60.407 7.0727 4.0835
8h WAT 52.0734 2.2869 1.3204
16h WAT 53.0266 7.732 4.4641
24h WAT 50.6303 5.8041 3.351
WAT hyphal knot -30h 49.1345 1.8375 1.0609
WAT hyphal knot -22h 57.8624 5.4216 3.1302
WAT hyphal knot -15h 59.8594 7.6969 4.4438
WAT hyphal knot -7.5h 55.6519 4.9591 2.8631
WAT hyphal knot 59.5436 2.5676 1.4824
WAT hyphal knot +7.5h 62.3563 6.1791 3.5675
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 161.2605 34.4292 19.8777
Straw 3h 111.3667 7.5708 4.371
Straw 6h 109.19 17.1682 9.9121
Straw 12h 128.5129 4.4421 2.5647
Straw 24h 113.4198 26.8819 15.5203
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 46.8454 5.1276 2.9604
Frost (-20C, 30min) 51.5813 4.8884 2.8223
Heat shock (47C, 2h) 67.5234 8.0134 4.6265
High CO2 60.377 8.4531 4.8804
Drought (4% agar, 12h) 56.2782 4.8029 2.7729
Oxidative (1mM H2O2, 3h) 43.463 5.6276 3.2491
Acidic (pH4, 3h) 42.0494 6.3602 3.6721
Alkaline (pH9, 3h) 37.5858 8.7225 5.0359
Osmotic (sorbitol 2h) 43.2999 1.9962 1.1525
CongoRed (3h) 55.2432 10.7169 6.1874
Cobalt chloride control 53.4529 3.4141 1.9711
Cobalt chloride 2mM 56.8475 6.1127 3.5292
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 42.1988 8.6336 4.9846
Cold stimulation 48.7952 14.7475 8.5145
Scratched surface 52.8298 6.3203 3.6491
Ca2+, 200mM, 24h 33.8066 5.2944 3.0567
Cu2+, 2mM, 6h 38.1507 0.9252 0.5342
Voriconazole 62.8787 2.0792 1.2004
Trichoderma interaction, early 48.9531 7.1942 4.1535
Trichoderma interaction 60h 34.7668 13.0337 7.525
Cobalt chloride 2mM repeat 49.6994 15.1798 8.7641
Hypoxia 59.6226 3.8365 2.215
Hypoxia control 43.3329 9.6446 5.5683
Protoplastation control 47.8895 6.8685 4.8568
Protoplastation 3.5h 65.6746 24.3377 17.2094
Protoplastation 1.5h 44.9589 3.0081 2.1271

General data

Systematic name BCK1
Protein id CopciAB_494847.T0
Description Ste ste11 protein kinase

Annotation summary

0 400 800 1200 1426

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF00069 Protein kinase domain IPR000719 1148 1412

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
IPR008271 Serine/threonine-protein kinase, active site
IPR000719 Protein kinase domain
IPR017441 Protein kinase, ATP binding site

GO

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

KEGG

KEGG Orthology
K11229

EggNOG

COG category Description
T Ste ste11 protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_494847 across fungi.

Arrow shows the origin of gene family containing CopciAB_494847.

Protein

Sequence id CopciAB_494847.T0
Sequence >CopciAB_494847.T0
MSEDVRNGKIHGRKYFVANRGSDSENDSDDDNDKPPIFNSYHYSAPYHSKPPPTDPYDHHPPALRTDLGSSYVQD
HNHRPSLSSPSSLSSHAADESTPPPPTPGVSLPLASPPTIPAKPVHPLHEALPINDRHYPDVHQTSARGGTVTNM
LTNLRNWRHGSTPRTPVEASAARRPRTSPSVSTPDSAVSSNSNLPNPDKILICVTTEADPERLNIVDVSGAKDAT
SIRESILSKTNLLDGLNRYSIYLTEIGASVIGDPLNDERLLDLVQRQGDSRGTLKFFVSRSTKEQIPPPPQQMPP
PFPFPYVEQPTHPAILPLRPRRRPRSRQGSVSSVSSEQPAELGYDADLDNPDDSRKSSRQQNHSSRSHLTGPGIS
PPSPGPLRRPPNGPLPIAPLGPPSASHSNYPHPPSPISQGHVSKPPTPPTFFHDRPHLPSASRSTYIDKYGQVLP
APPPPPPLSSPRRGDFLDEPNSSLSPLAHIRSGSDAGAEREQLLIASEQAEAASQQRRRRDASLTRLRAEPSRDN
LSLLSRNRKPTPTDPNDWTFINPPDTNIPVTEPLRSGEPIWPTKTLASSRGHRSQMFARVPKQPPQSLPSSSTES
RSSSSRSASKPIYLPKAVHSKPPDSYPKGTSSTVPLKSLGKGKSMDNLRQFSYNSSKAPTIKPPHPQLPSRPPVV
REPVYLAAGSFGVPKSYEPPRAIRPLPVQGSHYPQSPDANSRSGFPSYGKPSPYMPTPLSTNLTSPNRDMYGRDH
PPRPLSASDNHTTSPTYSQRSNQSPSYGGTMSPSRSYGIGGPRTLLHHSGHSDRSSDVPSGPETSNSTPPRTPIS
PVSCKSSPAGKMPLVIEPSSPASDSGNATYISNVSSVDSEKTIREDDKTQLAALLNNMNALMSSDRLPVSASETS
MAVNDLSSSDESDYEGSGGTWIKPYQDRPPSARPELTKLRTDLPSTPDPADKVREERPNPSASQSQGYQNGGPSS
QYQLPPPQRFPPGNQQHRDHRVSGFADGDDDWAPRPPPEDVYDRLEEFFPEHDLDKLVIEANSGGNSPTNPEPTT
AIPTPVSANATVIMPQHPHRRHKKSIRIVAQEQKRKMNDQTSRVDPAPYGQNAMLRKRNTKMWGSKLEEVTTMQV
RTSSTIPESPSSAGSPPTFKWVRGELIGKGTYGRVYLALNATTGEMIAVKQVELPQTPSDRNDSRQNTVVQALKL
ESETLKDLDHPHIVQYLGFEETPANLSIFLEYVPGGSIGSCLHKHGKFSENVTKSFTGQILSGLEYLHSKGILHR
DLKADNILVEMTGICKISDFGISKRTDDLHGGAFTAMQGTVFWMAPEVINTQKKGYNFKIDIWSVGCVVLEMWGG
RRPWTGQEMVTVMFKLYEAKLPPPVPDDVVLSELGDDFRRKCFAINPDERPPAAELRLHPYLELPPGWTFTSFTS
D
Length 1426

Coding

Sequence id CopciAB_494847.T0
Sequence >CopciAB_494847.T0
ATGTCGGAGGACGTCAGAAATGGCAAGATACACGGCCGCAAGTACTTCGTCGCAAACCGGGGCTCCGACTCTGAA
AACGACAGCGACGACGACAATGACAAGCCTCCGATCTTCAACTCTTACCACTATTCGGCTCCTTATCACTCAAAG
CCTCCTCCAACCGACCCCTACGACCACCATCCACCAGCTTTGAGAACAGATCTGGGTTCCAGCTACGTGCAGGAT
CATAACCACAGGCCATCCCTGTCGTCCCCGTCCAGCCTGAGTTCACATGCGGCCGATGAGTCCACCCCACCGCCC
CCAACCCCAGGCGTTTCCCTGCCACTTGCTTCACCGCCGACCATTCCAGCCAAACCCGTCCACCCACTTCACGAA
GCCCTTCCCATCAACGATCGACACTATCCCGATGTTCACCAGACCTCTGCTCGCGGCGGGACCGTTACAAACATG
TTGACAAACCTCCGCAACTGGCGGCACGGGAGCACTCCCCGAACGCCCGTCGAAGCCAGTGCTGCCCGTAGACCG
AGAACGTCGCCCTCCGTTTCGACCCCGGATTCCGCAGTGTCCTCGAATTCGAACCTTCCAAATCCTGACAAGATC
CTAATCTGTGTGACCACCGAAGCCGATCCAGAAAGGTTGAATATTGTCGATGTCAGTGGGGCAAAGGATGCCACC
TCTATCAGAGAATCCATCCTTTCAAAGACAAACCTTCTCGATGGCCTCAACCGCTATTCCATCTATTTGACGGAG
ATAGGGGCTTCCGTGATTGGGGATCCTCTAAATGACGAGCGGTTGTTGGATTTGGTTCAACGACAAGGTGATTCG
AGAGGCACCCTCAAATTCTTTGTTTCGCGGTCAACGAAGGAGCAAATACCTCCACCACCTCAACAAATGCCCCCA
CCCTTCCCCTTCCCATACGTGGAACAGCCCACTCACCCTGCAATTCTCCCCCTTCGCCCCCGACGCCGCCCAAGG
TCTCGACAAGGGAGCGTGTCGTCGGTTTCAAGCGAGCAACCGGCTGAGCTGGGGTACGATGCGGACCTCGACAAT
CCCGACGACTCTCGTAAAAGCTCAAGGCAGCAAAACCATTCAAGTCGTTCCCATCTCACGGGCCCCGGCATCTCC
CCACCTTCCCCGGGGCCACTCCGGCGACCTCCAAATGGACCTTTGCCAATAGCACCTTTGGGGCCACCTTCAGCA
TCCCACAGTAATTATCCTCACCCTCCTTCGCCCATATCCCAAGGCCATGTGTCCAAACCTCCGACACCGCCTACA
TTCTTCCATGACCGCCCTCATCTTCCTTCAGCTTCTCGATCGACTTACATCGATAAATACGGTCAGGTATTGCCC
GCTCCCCCTCCTCCGCCTCCGTTGAGCTCCCCACGGCGAGGGGACTTCTTGGATGAACCCAATTCATCACTGTCA
CCCCTGGCACATATACGTTCTGGCTCAGACGCTGGGGCCGAGCGCGAACAGCTGCTCATTGCCTCAGAACAAGCT
GAGGCCGCCAGTCAGCAGCGCCGAAGGAGAGATGCTTCCTTAACCCGTCTCAGAGCGGAGCCATCCAGGGACAAT
CTCAGTTTGCTGTCTCGAAATCGCAAGCCTACGCCGACGGATCCTAATGACTGGACTTTTATCAACCCACCAGAC
ACAAACATTCCCGTCACAGAGCCACTTCGTTCTGGTGAACCCATTTGGCCGACCAAAACGTTGGCTTCATCTCGT
GGTCACCGCTCCCAAATGTTTGCCAGAGTACCTAAGCAGCCACCTCAGTCTCTCCCCTCATCCAGCACAGAATCC
AGGTCATCGTCATCTCGGTCTGCAAGCAAACCGATATACTTGCCGAAAGCTGTCCACTCTAAACCTCCTGATTCT
TACCCTAAGGGAACTTCGTCTACAGTGCCGTTGAAATCCCTTGGGAAAGGGAAAAGTATGGACAACCTGCGGCAG
TTTTCTTACAACAGTAGCAAGGCCCCGACCATCAAGCCTCCACACCCTCAATTGCCCTCTCGCCCTCCTGTAGTC
CGTGAGCCCGTTTACTTGGCAGCGGGTTCTTTTGGGGTACCAAAGTCGTACGAACCCCCTCGTGCCATCCGGCCT
TTGCCAGTGCAAGGCTCACATTATCCACAATCTCCGGATGCCAACAGTCGATCTGGGTTCCCGTCTTACGGCAAA
CCCTCGCCTTATATGCCCACCCCTTTGTCGACCAACCTCACGTCACCTAACCGTGATATGTATGGCCGTGATCAT
CCTCCTCGCCCGCTCTCGGCATCTGACAATCATACTACATCACCCACATATTCTCAGCGAAGCAACCAATCTCCG
TCATACGGGGGTACGATGTCTCCAAGCCGCTCTTATGGAATCGGTGGACCTCGAACCCTGCTGCACCATAGCGGA
CATTCTGACAGGTCTTCAGACGTTCCAAGCGGACCTGAAACTTCCAATTCCACCCCTCCACGGACGCCTATCAGT
CCAGTCAGCTGCAAGTCCAGTCCTGCTGGAAAGATGCCTCTCGTCATTGAACCTTCATCGCCCGCGTCGGACAGC
GGTAACGCTACGTACATCTCGAATGTTAGCAGTGTCGATTCGGAGAAGACAATCCGAGAGGACGACAAGACGCAG
TTGGCAGCGTTGTTGAATAACATGAACGCGCTTATGTCTAGTGATCGCCTACCGGTGTCAGCGAGCGAGACTTCG
ATGGCTGTTAACGATTTGTCGTCCTCAGACGAATCGGATTATGAAGGTAGCGGTGGTACCTGGATCAAACCCTAC
CAGGACCGTCCTCCATCAGCCCGTCCAGAACTTACCAAGCTGCGAACCGACCTCCCATCGACACCAGACCCGGCA
GACAAAGTTCGAGAGGAACGGCCAAATCCTTCCGCATCACAATCGCAAGGCTACCAGAACGGCGGACCCTCGTCC
CAATACCAGCTCCCTCCACCACAGAGGTTCCCTCCGGGCAATCAGCAACATAGGGACCATCGCGTTAGTGGGTTT
GCTGACGGCGATGACGACTGGGCCCCTCGACCTCCGCCCGAAGATGTTTACGACCGTCTAGAAGAGTTCTTCCCC
GAACATGATCTCGACAAGCTAGTCATCGAAGCAAATTCTGGTGGCAATTCGCCCACGAATCCAGAGCCGACGACT
GCGATCCCTACTCCAGTGTCTGCCAATGCTACCGTAATAATGCCACAGCATCCTCATAGGCGACACAAGAAGAGT
ATTCGCATTGTTGCTCAAGAGCAGAAGAGGAAGATGAATGACCAAACGTCCCGGGTGGATCCAGCGCCGTATGGT
CAGAACGCGATGCTGAGGAAGAGGAATACGAAGATGTGGGGTAGCAAGTTGGAAGAAGTGACCACGATGCAAGTG
AGGACATCGTCTACGATTCCCGAATCACCGTCCAGTGCAGGCTCGCCTCCCACATTCAAGTGGGTACGAGGAGAG
TTGATTGGCAAAGGCACCTACGGTCGGGTGTATCTTGCCCTCAACGCGACCACGGGAGAGATGATCGCAGTCAAG
CAAGTGGAGCTTCCACAAACGCCGAGTGATCGAAATGATTCGCGTCAGAATACAGTTGTGCAGGCGTTGAAGTTG
GAAAGTGAGACGCTGAAAGATTTAGACCATCCCCATATTGTCCAGTATTTGGGCTTCGAGGAGACACCGGCGAAC
TTGAGCATCTTTCTGGAATATGTGCCTGGTGGCTCTATTGGAAGTTGCCTTCATAAACATGGCAAATTCTCAGAG
AACGTTACGAAGTCTTTCACTGGTCAAATTCTGAGCGGGCTCGAGTATTTGCATTCTAAAGGGATTCTTCACCGA
GATCTCAAGGCAGACAACATACTTGTGGAAATGACAGGAATATGCAAAATATCTGATTTCGGTATCTCGAAACGA
ACGGACGATCTGCATGGAGGTGCCTTTACTGCTATGCAGGGAACCGTATTTTGGATGGCTCCAGAGGTAATTAAT
ACGCAGAAGAAGGGCTACAATTTCAAGATCGATATCTGGAGTGTCGGTTGTGTAGTGCTGGAAATGTGGGGTGGG
CGAAGACCTTGGACTGGACAGGAGATGGTAACGGTCATGTTCAAGCTGTACGAGGCCAAGCTACCGCCTCCCGTT
CCTGACGATGTTGTGTTGTCTGAGTTGGGAGATGATTTCAGGCGGAAGTGTTTCGCTATCAATCCCGATGAACGA
CCACCCGCGGCAGAGCTTCGCCTTCACCCATACCTCGAGCTTCCACCGGGCTGGACTTTTACTTCGTTTACCTCC
GATTAG
Length 4281

Transcript

Sequence id CopciAB_494847.T0
Sequence >CopciAB_494847.T0
GGCGTCAACGACGACGGCAACTCCAATCAACCCGTCCTCGTTGTCGACACCCGTCCAGCTCATTGTCCAACGTCC
TGTGGCACGACACGAATCCGCTTTCCTCTCTTTCTTCTTGACCATCACCACCACTGGACACAACGTCCACCGCAA
CGGCCTCACATTCCCCACGGCGGTCTTGACAGCTCCTTGTCCCTATGTCGGAGGACGTCAGAAATGGCAAGATAC
ACGGCCGCAAGTACTTCGTCGCAAACCGGGGCTCCGACTCTGAAAACGACAGCGACGACGACAATGACAAGCCTC
CGATCTTCAACTCTTACCACTATTCGGCTCCTTATCACTCAAAGCCTCCTCCAACCGACCCCTACGACCACCATC
CACCAGCTTTGAGAACAGATCTGGGTTCCAGCTACGTGCAGGATCATAACCACAGGCCATCCCTGTCGTCCCCGT
CCAGCCTGAGTTCACATGCGGCCGATGAGTCCACCCCACCGCCCCCAACCCCAGGCGTTTCCCTGCCACTTGCTT
CACCGCCGACCATTCCAGCCAAACCCGTCCACCCACTTCACGAAGCCCTTCCCATCAACGATCGACACTATCCCG
ATGTTCACCAGACCTCTGCTCGCGGCGGGACCGTTACAAACATGTTGACAAACCTCCGCAACTGGCGGCACGGGA
GCACTCCCCGAACGCCCGTCGAAGCCAGTGCTGCCCGTAGACCGAGAACGTCGCCCTCCGTTTCGACCCCGGATT
CCGCAGTGTCCTCGAATTCGAACCTTCCAAATCCTGACAAGATCCTAATCTGTGTGACCACCGAAGCCGATCCAG
AAAGGTTGAATATTGTCGATGTCAGTGGGGCAAAGGATGCCACCTCTATCAGAGAATCCATCCTTTCAAAGACAA
ACCTTCTCGATGGCCTCAACCGCTATTCCATCTATTTGACGGAGATAGGGGCTTCCGTGATTGGGGATCCTCTAA
ATGACGAGCGGTTGTTGGATTTGGTTCAACGACAAGGTGATTCGAGAGGCACCCTCAAATTCTTTGTTTCGCGGT
CAACGAAGGAGCAAATACCTCCACCACCTCAACAAATGCCCCCACCCTTCCCCTTCCCATACGTGGAACAGCCCA
CTCACCCTGCAATTCTCCCCCTTCGCCCCCGACGCCGCCCAAGGTCTCGACAAGGGAGCGTGTCGTCGGTTTCAA
GCGAGCAACCGGCTGAGCTGGGGTACGATGCGGACCTCGACAATCCCGACGACTCTCGTAAAAGCTCAAGGCAGC
AAAACCATTCAAGTCGTTCCCATCTCACGGGCCCCGGCATCTCCCCACCTTCCCCGGGGCCACTCCGGCGACCTC
CAAATGGACCTTTGCCAATAGCACCTTTGGGGCCACCTTCAGCATCCCACAGTAATTATCCTCACCCTCCTTCGC
CCATATCCCAAGGCCATGTGTCCAAACCTCCGACACCGCCTACATTCTTCCATGACCGCCCTCATCTTCCTTCAG
CTTCTCGATCGACTTACATCGATAAATACGGTCAGGTATTGCCCGCTCCCCCTCCTCCGCCTCCGTTGAGCTCCC
CACGGCGAGGGGACTTCTTGGATGAACCCAATTCATCACTGTCACCCCTGGCACATATACGTTCTGGCTCAGACG
CTGGGGCCGAGCGCGAACAGCTGCTCATTGCCTCAGAACAAGCTGAGGCCGCCAGTCAGCAGCGCCGAAGGAGAG
ATGCTTCCTTAACCCGTCTCAGAGCGGAGCCATCCAGGGACAATCTCAGTTTGCTGTCTCGAAATCGCAAGCCTA
CGCCGACGGATCCTAATGACTGGACTTTTATCAACCCACCAGACACAAACATTCCCGTCACAGAGCCACTTCGTT
CTGGTGAACCCATTTGGCCGACCAAAACGTTGGCTTCATCTCGTGGTCACCGCTCCCAAATGTTTGCCAGAGTAC
CTAAGCAGCCACCTCAGTCTCTCCCCTCATCCAGCACAGAATCCAGGTCATCGTCATCTCGGTCTGCAAGCAAAC
CGATATACTTGCCGAAAGCTGTCCACTCTAAACCTCCTGATTCTTACCCTAAGGGAACTTCGTCTACAGTGCCGT
TGAAATCCCTTGGGAAAGGGAAAAGTATGGACAACCTGCGGCAGTTTTCTTACAACAGTAGCAAGGCCCCGACCA
TCAAGCCTCCACACCCTCAATTGCCCTCTCGCCCTCCTGTAGTCCGTGAGCCCGTTTACTTGGCAGCGGGTTCTT
TTGGGGTACCAAAGTCGTACGAACCCCCTCGTGCCATCCGGCCTTTGCCAGTGCAAGGCTCACATTATCCACAAT
CTCCGGATGCCAACAGTCGATCTGGGTTCCCGTCTTACGGCAAACCCTCGCCTTATATGCCCACCCCTTTGTCGA
CCAACCTCACGTCACCTAACCGTGATATGTATGGCCGTGATCATCCTCCTCGCCCGCTCTCGGCATCTGACAATC
ATACTACATCACCCACATATTCTCAGCGAAGCAACCAATCTCCGTCATACGGGGGTACGATGTCTCCAAGCCGCT
CTTATGGAATCGGTGGACCTCGAACCCTGCTGCACCATAGCGGACATTCTGACAGGTCTTCAGACGTTCCAAGCG
GACCTGAAACTTCCAATTCCACCCCTCCACGGACGCCTATCAGTCCAGTCAGCTGCAAGTCCAGTCCTGCTGGAA
AGATGCCTCTCGTCATTGAACCTTCATCGCCCGCGTCGGACAGCGGTAACGCTACGTACATCTCGAATGTTAGCA
GTGTCGATTCGGAGAAGACAATCCGAGAGGACGACAAGACGCAGTTGGCAGCGTTGTTGAATAACATGAACGCGC
TTATGTCTAGTGATCGCCTACCGGTGTCAGCGAGCGAGACTTCGATGGCTGTTAACGATTTGTCGTCCTCAGACG
AATCGGATTATGAAGGTAGCGGTGGTACCTGGATCAAACCCTACCAGGACCGTCCTCCATCAGCCCGTCCAGAAC
TTACCAAGCTGCGAACCGACCTCCCATCGACACCAGACCCGGCAGACAAAGTTCGAGAGGAACGGCCAAATCCTT
CCGCATCACAATCGCAAGGCTACCAGAACGGCGGACCCTCGTCCCAATACCAGCTCCCTCCACCACAGAGGTTCC
CTCCGGGCAATCAGCAACATAGGGACCATCGCGTTAGTGGGTTTGCTGACGGCGATGACGACTGGGCCCCTCGAC
CTCCGCCCGAAGATGTTTACGACCGTCTAGAAGAGTTCTTCCCCGAACATGATCTCGACAAGCTAGTCATCGAAG
CAAATTCTGGTGGCAATTCGCCCACGAATCCAGAGCCGACGACTGCGATCCCTACTCCAGTGTCTGCCAATGCTA
CCGTAATAATGCCACAGCATCCTCATAGGCGACACAAGAAGAGTATTCGCATTGTTGCTCAAGAGCAGAAGAGGA
AGATGAATGACCAAACGTCCCGGGTGGATCCAGCGCCGTATGGTCAGAACGCGATGCTGAGGAAGAGGAATACGA
AGATGTGGGGTAGCAAGTTGGAAGAAGTGACCACGATGCAAGTGAGGACATCGTCTACGATTCCCGAATCACCGT
CCAGTGCAGGCTCGCCTCCCACATTCAAGTGGGTACGAGGAGAGTTGATTGGCAAAGGCACCTACGGTCGGGTGT
ATCTTGCCCTCAACGCGACCACGGGAGAGATGATCGCAGTCAAGCAAGTGGAGCTTCCACAAACGCCGAGTGATC
GAAATGATTCGCGTCAGAATACAGTTGTGCAGGCGTTGAAGTTGGAAAGTGAGACGCTGAAAGATTTAGACCATC
CCCATATTGTCCAGTATTTGGGCTTCGAGGAGACACCGGCGAACTTGAGCATCTTTCTGGAATATGTGCCTGGTG
GCTCTATTGGAAGTTGCCTTCATAAACATGGCAAATTCTCAGAGAACGTTACGAAGTCTTTCACTGGTCAAATTC
TGAGCGGGCTCGAGTATTTGCATTCTAAAGGGATTCTTCACCGAGATCTCAAGGCAGACAACATACTTGTGGAAA
TGACAGGAATATGCAAAATATCTGATTTCGGTATCTCGAAACGAACGGACGATCTGCATGGAGGTGCCTTTACTG
CTATGCAGGGAACCGTATTTTGGATGGCTCCAGAGGTAATTAATACGCAGAAGAAGGGCTACAATTTCAAGATCG
ATATCTGGAGTGTCGGTTGTGTAGTGCTGGAAATGTGGGGTGGGCGAAGACCTTGGACTGGACAGGAGATGGTAA
CGGTCATGTTCAAGCTGTACGAGGCCAAGCTACCGCCTCCCGTTCCTGACGATGTTGTGTTGTCTGAGTTGGGAG
ATGATTTCAGGCGGAAGTGTTTCGCTATCAATCCCGATGAACGACCACCCGCGGCAGAGCTTCGCCTTCACCCAT
ACCTCGAGCTTCCACCGGGCTGGACTTTTACTTCGTTTACCTCCGATTAGTTTTCGCACCCTTTTTCGCTCACTG
CAATCTTCACTTACATGTATCATTTTTCTCCCACAATATCTTTTCCCATTTTGCCATTGTTTTCAAAAGTTTTCC
TCGCTCCTGACACTCGCAACAGCCCTTATAACCACTCTGCTTTCCAGTTTTCTTCCATTTACAATTCGTCCCTTC
CCAGTTGGCATTACTATCGGATCTCTACCTACCAGTCTCGCAATGCTGTCGTACTAATCGCAAAGCCAAAATTGC
ATTTGAGTTTGTTTTG
Length 4741

Gene

Sequence id CopciAB_494847.T0
Sequence >CopciAB_494847.T0
GGCGTCAACGACGACGGCAACTCCAATCAACCCGTCCTCGTTGTCGACACCCGTCCAGCTCATTGTCCAACGTCC
TGTGGCACGACACGAATCCGCTTTCCTCTCTTTCTTCTTGACCATCACCACCACTGGACACAACGTCCACCGCAA
CGGCCTCACATTCCCCACGGCGGTCTTGACAGCTCCTTGTCCCTATGTCGGAGGACGTCAGAAATGGCAAGATAC
ACGGCCGCAAGTACTTCGTCGCAAACCGGGGCTCCGACTCTGAAAACGACAGCGACGACGACAATGACAAGCCTC
CGATCTTCAACTCTTACCACTATTCGGCTCCTTATCACTCAAAGCCTCCTCCAACCGACCCCTACGACCACCATC
CACCAGCTTTGAGAACAGATCTGGGTTCCAGCTACGTGCAGGATCATAACCACAGGCCATCCCTGTCGTCCCCGT
CCAGCCTGAGTTCACATGCGGCCGATGAGTCCACCCCACCGCCCCCAACCCCAGGCGTTTCCCTGCCACTTGCTT
CACCGCCGACCATTCCAGCCAAACCCGTCCACCCACTTCACGAAGCCCTTCCCATCAACGATCGACACTATCCCG
ATGTTCACCAGACCTCTGCTCGCGGCGGGACCGTTACAAACATGTTGACAAACCTCCGCAACTGGCGGCACGGGA
GCACTCCCCGAACGCCCGTCGAAGCCAGTGCTGCCCGTAGACCGAGAACGGTGAGCTTTTAACCATTCCTTACGT
TTTTGACATTGCTCATGTGCCACGATAGTCGCCCTCCGTTTCGACCCCGGATTCCGCAGTGTCCTCGAATTCGAA
CCTTCCAAATCCTGACAAGATCCTAATCTGTGTGACCACCGAAGCCGATCCAGAAAGGTTGAATATTGTCGATGT
CAGTGGGGCAAAGGATGCCACCTCTATCAGAGAATCCATCCTTTCAAAGGTACCGTATTCTTTCTCAGCAGTGTC
TTCCTCAATCCTTACGCGGCACCAGACAAACCTTCTCGATGGCCTCAACCGCTATTCCATCTATTTGACGGAGAT
AGGGGCTTCCGTGATTGGGGATCCTCTAAATGACGAGCGGTTGTTGGATTTGGTTCAACGACAAGGTGATTCGAG
AGGCACCCTCAAATTCTTTGTTTCGCGGTCAACGAAGGAGCAAATACCTCCACCACCTCAACAAATGCCCCCACC
CTTCCCCTTCCCATACGTGGAACAGCCCACTCACCCTGCAATTCTCCCCCTTCGCCCCCGACGCCGCCCAAGGTC
TCGACAAGGGAGCGTGTCGTCGGTTTCAAGCGAGCAACCGGCTGAGCTGGGGTACGATGCGGACCTCGACAATCC
CGACGACTCTCGTAAAAGCTCAAGGCAGCAAAACCATTCAAGTCGTTCCCATCTCACGGGCCCCGGCATCTCCCC
ACCTTCCCCGGGGCCACTCCGGCGACCTCCAAATGGACCTTTGCCAATAGCACCTTTGGGGCCACCTTCAGCATC
CCACAGTAATTATCCTCACCCTCCTTCGCCCATATCCCAAGGCCATGTGTCCAAACCTCCGACACCGCCTACATT
CTTCCATGACCGCCCTCATCTTCCTTCAGCTTCTCGATCGACTTACATCGATAAATACGGTCAGGTATTGCCCGC
TCCCCCTCCTCCGCCTCCGTTGAGCTCCCCACGGCGAGGGGACTTCTTGGATGAACCCAATTCATCACTGTCACC
CCTGGCACATATACGTTCTGGCTCAGACGCTGGGGCCGAGCGCGAACAGCTGCTCATTGCCTCAGAACAAGCTGA
GGCCGCCAGTCAGCAGCGCCGAAGGAGAGATGCTTCCTTAACCCGTCTCAGAGCGGAGCCATCCAGGGACAATCT
CAGTTTGCTGTCTCGAAATCGCAAGCCTACGCCGACGGATCCTAATGACTGGACTTTTATCAACCCACCAGACAC
AAACATTCCCGTCACAGAGCCACTTCGTTCTGGTGAACCCATTTGGCCGACCAAAACGTTGGCTTCATCTCGTGG
TCACCGCTCCCAAATGTTTGCCAGAGTACCTAAGCAGCCACCTCAGTCTCTCCCCTCATCCAGCACAGAATCCAG
GTCATCGTCATCTCGGTCTGCAAGCAAACCGATATACTTGCCGAAAGCTGTCCACTCTAAACCTCCTGATTCTTA
CCCTAAGGGAACTTCGTCTACAGTGCCGTTGAAATCCCTTGGGAAAGGGAAAAGTATGGACAACCTGCGGCAGTT
TTCTTACAACAGTAGCAAGGCCCCGACCATCAAGCCTCCACACCCTCAATTGCCCTCTCGCCCTCCTGTAGTCCG
TGAGCCCGTTTACTTGGCAGCGGGTTCTTTTGGGGTACCAAAGTCGTACGAACCCCCTCGTGCCATCCGGCCTTT
GCCAGTGCAAGGCTCACATTATCCACAATCTCCGGATGCCAACAGTCGATCTGGGTTCCCGTCTTACGGCAAACC
CTCGCCTTATATGCCCACCCCTTTGTCGACCAACCTCACGTCACCTAACCGTGATATGTATGGCCGTGATCATCC
TCCTCGCCCGCTCTCGGCATCTGACAATCATACTACATCACCCACATATTCTCAGCGAAGCAACCAATCTCCGTC
ATACGGGGGTACGATGTCTCCAAGCCGCTCTTATGGAATCGGTGGACCTCGAACCCTGCTGCACCATAGCGGACA
TTCTGACAGGTCTTCAGACGTTCCAAGCGGACCTGAAACTTCCAATTCCACCCCTCCACGGACGCCTATCAGTCC
AGTCAGCTGCAAGTCCAGTCCTGCTGGAAAGATGCCTCTCGTCATTGAACCTTCATCGCCCGCGTCGGACAGCGG
TAACGCTACGTACATCTCGAATGTTAGCAGTGTCGATTCGGAGAAGACAATCCGAGAGGACGACAAGACGCAGTT
GGCAGCGTTGTTGAATAACATGAACGCGCTTATGTCTAGTGATCGCCTACCGGTGTCAGCGAGCGAGACTTCGAT
GGCTGTTAACGATTTGTCGTCCTCAGACGAATCGGATTATGAAGGTAGCGGTGGTACCTGGATCAAACCCTACCA
GGACCGTCCTCCATCAGCCCGTCCAGAACTTACCAAGCTGCGAACCGACCTCCCATCGACACCAGACCCGGCAGA
CAAAGTTCGAGAGGAACGGCCAAATCCTTCCGCATCACAATCGCAAGGCTACCAGAACGGCGGACCCTCGTCCCA
ATACCAGCTCCCTCCACCACAGAGGTTCCCTCCGGGCAATCAGCAACATAGGGACCATCGCGTTAGTGGGTTTGC
TGACGGCGATGACGACTGGGCCCCTCGACCTCCGCCCGAAGATGTTTACGACCGTCTAGAAGAGTTCTTCCCCGA
ACATGATCTCGACAAGCTAGTCATCGAAGCAAATTCTGGTGGCAATTCGCCCACGAATCCAGAGCCGACGACTGC
GATCCCTACTCCAGTGTCTGCCAATGCTACCGTAATAATGCCACAGCATCCTCATAGGCGACACAAGAAGAGTAT
TCGCATTGTTGCTCAAGAGCAGAAGAGGAAGATGAATGACCAAACGTCCCGGGTGGATCCAGCGCCGTATGGTCA
GAACGCGATGCTGAGGAAGAGGAATACGAAGATGTGGGGTAGCAAGTTGGAAGAAGTGACCACGATGCAAGTGAG
GACATCGTCTACGATTCCCGAATCACCGTCCAGTGCAGGCTCGCCTCGTAAGTCTCATGCAGAATTTACCCCAAA
TGGGCCTAACCGTTCCCTTTTTAGCCACATTCAAGTGGGTACGAGGAGAGTTGATTGGCAAAGGCACCTACGGTC
GGGTGTATCTTGCCCTCAACGCGACCACGGGAGAGATGATCGCAGTCAAGCAAGTGGAGCTTCCACAAACGCCGA
GTGATCGAAATGATTCGCGTCAGAATACAGTTGTGCAGGCGTTGAAGTTGGAAAGTGAGACGCTGAAAGATTTAG
ACCATCCCCATATTGTCCAGTATTTGGGCTTCGAGGAGACACCGGCGAACTTGAGCATGTAAGATATTTCCTTGG
AACACCTCTTTCGTCACGTCGCTCATCGCCTTTTCCTTTCAAGCTTTCTGGAATATGTGCCTGGTGGCTCTATTG
GAAGTTGCCTTCATAAACATGGCAAATTCTCAGAGAACGTTACGAAGTCTTTCACTGGTCAAATTCTGAGCGGGC
TCGAGTATTTGCATTCTAAAGGGATTCTTCACCGAGTACGTTTTCGATCCGTATTCTCGATCATTGGCGTTTGAC
ACTCCCCCTAGGATCTCAAGGCAGACAACATACTTGTGGAAATGACAGGAATATGCAAAATATCTGATTTCGGTA
TCTCGAAACGAACGGACGATCTGCATGGAGGTGCCTTTACTGCTATGCAGGGAACCGTATTTTGGATGGCTCCAG
AGGTAATTAATACGCAGAAGAAGGGCTACAATTTCAAGATCGATATCTGGAGTGTCGGTTGTGTAGTGCTGGAAA
TGTGGGGTGGGCGAAGACCTTGGACTGGACAGGAGATGGTAACGGTCATGTTCAAGGTATGCGATCGAGGTGACC
GAATTGAATCGATTCTGACGTTGCTGTACAGCTGTACGAGGCCAAGCTACCGCCTCCCGTTCCTGACGATGTTGT
GTTGTCTGAGTTGGGAGATGATTTCAGGCGGAAGTGTTTCGCTATGTAAGGGCTCTCTTTTCTCCCTGTTTAGCT
TCATGACTGATGGCGCTTGCAGCAATCCCGATGAACGACCACCCGCGGCAGAGCTTCGCCTTCACCCATACCTCG
AGCTTCCACCGGGCTGGACTTTTACTTCGTTTACCTCCGATTAGTTTTCGCACCCTTTTTCGCTCACTGCAATCT
TCACTTACATGTATCATTTTTCTCCCACAATATCTTTTCCCATTTTGCCATTGTTTTCAAAAGTTTTCCTCGCTC
CTGACACTCGCAACAGCCCTTATAACCACTCTGCTTTCCAGTTTTCTTCCATTTACAATTCGTCCCTTCCCAGTT
GGCATTACTATCGGATCTCTACCTACCAGTCTCGCAATGCTGTCGTACTAATCGCAAAGCCAAAATTGCATTTGA
GTTTGTTTTG
Length 5110