CopciAB_492829
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_492829 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 492829
Uniprot id Functional description Protein tyrosine kinase
Location scaffold_11:1680140..1683481 Strand -
Gene length (nt) 3342 Transcript length (nt) 3026
CDS length (nt) 2892 Protein length (aa) 963

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_RDB16495 54.2 1.274E-248 789
Lentinula edodes NBRC 111202 Lenedo1_857578 52.8 4.746E-238 758
Lentinula edodes W1-26 v1.0 Lentinedodes1_22802 52.8 4.709E-238 758
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_132261 44.3 2.033E-235 750
Agrocybe aegerita Agrae_CAA7270531 48.3 6.07E-235 749
Schizophyllum commune H4-8 Schco3_2593290 44 3.623E-220 706
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_180961 42.6 2.855E-217 697
Pleurotus ostreatus PC9 PleosPC9_1_89707 50.9 7.579E-216 693
Pleurotus eryngii ATCC 90797 Pleery1_1440847 50.5 4.406E-215 691
Pleurotus ostreatus PC15 PleosPC15_2_174746 51 1.812E-214 689
Ganoderma sp. 10597 SS1 v1.0 Gansp1_144154 51.6 4.542E-213 685
Grifola frondosa Grifr_OBZ66696 51 2.194E-212 683
Flammulina velutipes Flave_chr11AA00466 52 1.392E-193 628
Lentinula edodes B17 Lened_B_1_1_17792 66.8 8.371E-150 499
Auricularia subglabra Aurde3_1_1354547 38.7 9.456E-144 482

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 113.5026 5.413 3.1252
oidia 75.7754 7.4886 4.3236
vegetative_mycelium 78.5442 4.5141 2.6062
primordia 112.145 12.0114 6.9348
hyphal_knot 97.3339 1.0738 0.62
young_fruiting_body 185.6857 46.6361 26.9253
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 81.7261 0.672 0.388
Wheat bran 98.7329 8.7308 5.0407
Horse manure 83.8237 11.6298 6.7145
Oak leaves 72.159 6.6771 3.855
Hay 78.5765 4.1637 2.4039
Corn stalk 84.5341 9.1619 5.2896
Pectine 85.0074 6.0744 3.507
Microcrystalline cellulose 97.8866 3.4901 2.015
Xylose 87.3114 5.14 2.9676
Cellobiose 84.4352 4.8167 2.781
Lignin 87.5203 4.6219 2.6685
Apple peels 87.6859 2.9262 1.6895
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 63.3544 1.4503 0.8373
Bsubtilis 62.0822 2.3305 1.3455
Ecoli 59.9698 5.898 3.4052
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 42.3738 14.0881 8.1338
BS 4h 38.7254 7.2695 4.197
BS 8h 51.0191 9.769 5.6401
BS 12h 53.3173 6.0343 3.4839
Oidia 0 h 15.3399 4.7044 2.7161
Oidia 18 h 14.653 3.6506 2.1076
Sclerotia 67.9329 21.2046 12.2425
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 27.7729 6.6606 3.8455
DM 36h 22.5015 2.9988 1.7314
DM 60h 14.9849 1.548 0.8938
DM 84h 19.4854 3.0762 1.776
DM 108h 17.4738 4.0776 2.3542
DM 132h 18.0574 4.9692 2.8689
DM 156hAE 20.4644 2.1646 1.2497
ELI1hAE 30.3929 7.4247 4.2867
ELI2hAE 35.8762 7.6447 4.4137
LI2hAE 33.875 8.4281 4.866
LI6hAE 27.8696 1.2605 0.7277
LI12hAE 41.7255 7.6604 4.4227
LI18hAE 44.4485 13.3676 7.7178
LI 24hAE 26.1455 9.1834 5.302
DM 156hAM 22.9846 1.6967 0.9796
ELI1hAM 49.1825 10.2468 5.916
ELI2hAM 54.078 14.1628 8.1769
LI2hAM 40.3387 11.0197 6.3622
LI6hAM 35.0802 8.6921 5.0184
LI12hAM 51.4674 12.0138 6.9362
LI18hAM 51.6996 9.2474 5.339
LI 24hAM 23.1918 1.9556 1.1291
LI 24hHK 42.1973 27.6919 15.988
L/D 6h 24.3993 4.7801 2.7598
L/D 12h 19.7582 2.7422 1.5832
L/D 18h 16.7061 1.7299 0.9988
L/D 24h 23.5001 2.2088 1.2752
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 72.8911 2.8778 1.6615
Hyphal knots 57.9258 4.9431 2.8539
Primordium 1 67.6932 10.6384 6.1421
Primordium 2 62.0655 3.7947 2.1909
Young Fruiting body cap 117.8412 54.8935 31.6928
Younf fruiting body gill 107.9352 51.912 29.9714
Young fruiting body stipe 109.214 17.3313 10.0062
Mature fruiting body cap_gill 30.2331 3.7237 2.1499
Mature fruiting body stipe 35.4682 1.3748 0.7937
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 98.4619 9.1549 5.2856
NH4NO3 85.2398 2.9765 1.7185
Proline 86.8264 5.173 2.9866
Tryptophan 71.7857 5.2177 3.0124
Isoleucin 91.8211 1.7457 1.0079
Arginine 94.3534 7.21 4.1627
Metionine 98.1914 1.9034 1.0989
NaNO3 95.3024 6.033 3.4831
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 98.4619 9.1549 5.2856
Citrus peel 83.2922 15.8558 9.1544
Poplar leaves 69.9376 5.4826 3.1654
Typha leaves 72.6351 2.1228 1.2256
Overwintered Salix leaves 79.4187 1.9232 1.1104
Reed flowering 89.0024 9.4617 5.4627
Tigernut 75.0551 2.3455 1.3542
Energy cane 73.9445 2.3349 1.3481
Guar gum 75.937 4.3214 2.495
Apple peels 84.9881 14.2396 8.2213
Cellobiose 81.453 4.1463 2.3939
Corn stalk 77.9067 3.6626 2.1146
Horse manure 82.8984 16.1223 9.3082
Lignin 84.9592 31.2813 18.0603
Microcrystalline cellulose 73.119 9.4998 5.4847
Oak leaves 77.5983 3.6869 2.1286
Pectin esterified 69.8008 4.8432 2.7962
Poplar sawdust 68.161 2.8594 1.6509
Wheat bran 76.0078 5.0924 2.9401
Chlamydomonas reinhardtii 74.3669 2.4179 1.396
Vertatryl alcohol 97.4381 1.3678 0.7897
Furfural 78.1551 9.4596 5.4615
Autoclaved mycelium 82.5269 11.3462 6.5507
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 97.1395 4.2037 2.427
Ribose 83.7926 2.5482 1.4712
Mannose 98.5939 17.4328 12.3268
Fructose 92.9393 4.216 2.4341
Arabinose 89.6314 8.2998 4.7919
Xylose 94.3383 1.6409 0.9474
Galacturonic acid 89.3867 2.9298 1.6915
Rhamnogalacturonan 89.6412 4.4291 2.5571
Pectin esterified 87.0446 7.2292 4.1738
Polygalacturonic acid 87.717 2.5398 1.4663
Sodium acetate 82.624 2.7904 1.611
No nitrogen 90.6547 0.9228 0.5328
BSA 89.0142 2.9392 1.6969
Glutamine 88.294 3.2559 1.8798
No phosphate 85.603 5.1564 2.977
No carbon 77.0972 3.5041 2.4778
No sulphur 91.6011 4.4257 2.5552
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 98.4619 9.1549 5.2856
Amylose 72.7651 5.3925 3.1134
Fucose 72.583 0.5394 0.3114
Galactose 75.4614 3.5702 2.0612
Lactose 79.0969 2.9401 1.6975
Maltose 77.8929 4.1588 2.4011
Mannitol 81.1134 5.4996 3.1752
Rhamnose 81.6076 8.4039 4.852
Sorbitol 75.2871 2.5041 1.4457
Trehalose 83.2714 6.9659 4.0217
Glycerol 78.5092 5.1945 2.9991
Glucuronic acid 83.523 2.7341 1.5785
Arabinan 66.7141 4.2025 2.4263
Galactan 75.8817 1.7805 1.028
Galactomannan 80.5911 8.1903 4.7286
Glucan 81.4012 5.1738 2.9871
Xylan 77.8438 2.9612 1.7096
Xyloglucan 81.9935 5.5069 3.1794
Arabinogalactan 79.7479 5.9083 3.4112
Pectin 76.7904 16.3473 9.4381
Rhamnogalacturonan 120.334 33.9322 19.5908
Polygalacturonic acid 80.9358 7.5768 4.3745
Mannan 80.4342 3.4801 2.0092
Amylopectin 69.4068 8.7185 5.0336
Inulin 71.3431 5.4275 3.1336
BSA 96.2293 5.3809 3.1066
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 14.9849 1.548 0.8938
2h WAT 36.6305 3.6218 2.091
4h WAT 34.0377 10.9959 6.3485
8h WAT 31.8167 4.448 2.5681
16h WAT 34.9518 3.4782 2.0081
24h WAT 36.4795 6.1115 3.5285
WAT hyphal knot -30h 31.5391 4.0655 2.3472
WAT hyphal knot -22h 35.0387 2.9618 1.71
WAT hyphal knot -15h 39.6956 3.5492 2.0491
WAT hyphal knot -7.5h 39.438 1.3116 0.7572
WAT hyphal knot 33.4305 7.4843 4.321
WAT hyphal knot +7.5h 45.5559 4.197 2.4231
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 77.7407 6.4923 3.7483
Straw 3h 49.582 1.8507 1.0685
Straw 6h 53.0674 7.4349 4.2925
Straw 12h 66.7687 7.8593 4.5376
Straw 24h 65.6163 8.7513 5.0525
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 53.8358 18.3877 10.6162
Frost (-20C, 30min) 73.5541 0.656 0.3787
Heat shock (47C, 2h) 30.7363 0.6221 0.3591
High CO2 44.4815 10.3301 5.9641
Drought (4% agar, 12h) 83.4345 16.8285 9.716
Oxidative (1mM H2O2, 3h) 49.1755 13.8358 7.9881
Acidic (pH4, 3h) 46.1351 12.0996 6.9857
Alkaline (pH9, 3h) 65.7367 4.5746 2.6411
Osmotic (sorbitol 2h) 55.4731 13.5328 7.8132
CongoRed (3h) 59.9747 1.7223 0.9943
Cobalt chloride control 78.1521 11.6701 6.7377
Cobalt chloride 2mM 64.713 12.6972 7.3308
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 55.3408 20.186 11.6544
Cold stimulation 57.9847 18.7461 10.8231
Scratched surface 77.0344 19.6535 11.3469
Ca2+, 200mM, 24h 27.3914 2.9484 1.7023
Cu2+, 2mM, 6h 28.0178 4.2271 2.4405
Voriconazole 44.3888 1.7539 1.0126
Trichoderma interaction, early 48.4983 17.318 9.9985
Trichoderma interaction 60h 84.3298 31.4702 18.1694
Cobalt chloride 2mM repeat 32.9154 11.7042 6.7574
Hypoxia 38.9606 11.8736 6.8552
Hypoxia control 41.698 8.6583 4.9989
Protoplastation control 51.5642 1.9196 1.3574
Protoplastation 3.5h 25.9433 4.1606 2.942
Protoplastation 1.5h 19.578 0.7683 0.5433

General data

Systematic name -
Protein id CopciAB_492829.T0
Description Protein tyrosine kinase

Annotation summary

0 200 400 600 800 963

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF00069 Protein kinase domain IPR000719 66 350

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR000719 Protein kinase domain
IPR011009 Protein kinase-like domain superfamily
IPR008271 Serine/threonine-protein kinase, active site

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
T Protein tyrosine kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_492829 across fungi.

Arrow shows the origin of gene family containing CopciAB_492829.

Protein

Sequence id CopciAB_492829.T0
Sequence >CopciAB_492829.T0
MSLSWHQRKARLAALVLSHGDEDADGTAVDRLMHGQNAIGKTAKTAEIDSLRFQDKDLQVVGTLEYGQFGVIEVV
TCKLNNRVYVRKSIEKKFAMRTREQCSPQTERNILVAASLTESPWAPHLLAAYQMPTHLHLVMDYAEGGNLWDVL
ESSTGKISESDLKWWVPQAVSAIHWCHTQGFAHRDIKPHNFVLTKDSRVQLIDFGSAAPLLPPGPDGSQKLARKH
CLVPCGTCDYISPEILEAHEQALVALEMDDEDENPLVIEDPEGYGVETDWWSLGAMLYEMAYGVAPFFANEIRHT
YQRILNHEKCLRFEDGVSFELQDLLARLLTRAEKRLGRRNIMEITDHPFFRGTDWTSLSSQSAPPDLHLPQFTYS
IPQPTEAANHVPSPMDVDDKSESYSQGFAFSAFFQSSHGSVSHNASFLRHSITPRPPRPSPRDDPSSAFIGFSWG
PLIDAFPDQPLGVSQNSDQRHLSPIPSTGPATTPTFPVVTPGFLTADALATPLPSNRFADQHPFVTPVRPYTISN
SPMNTIRRTNTIRRTVGRREVSDREAMKQLVDCIGMSARKKVLESGRKPKILTSYNLSRSLRRRPSVRSFSLTDK
TTDGAPNTGATNSNGTRKELRFYPTVMPIPMTEYTDDGGTESDNPSQPTRTSRLPPLTLAPAMTNGRSNSRMLGD
SDSSETGGYGYINYPYYSNSECSESEGPPSPSPSPRPGSAMSFISTSRRSGTPTVTMSTFSSRLRSASGSNFNIS
GMGMLGVPSPSLGPGGPWGRPWEHERDRDRDRESGGIGIGIGKVEERDREKERTFMAMPRKVSAPPVIDDVQPVE
EVEFPRNATTKPRIASAIPPNKPLLSNSSLRRTSVATSTPSVHEHCSHSSGSRTHERRRAHQPPRTYQYDHEDTQ
HYSDEEDVDLLFQGISKSETDVGSLWDELEGRHERMMYDIRMLEERLELVSRTVGGGSGRIRR
Length 963

Coding

Sequence id CopciAB_492829.T0
Sequence >CopciAB_492829.T0
ATGTCTCTCTCATGGCACCAACGGAAAGCTCGACTAGCTGCGCTAGTTTTGAGTCATGGGGACGAAGACGCCGAT
GGAACAGCGGTCGACCGTCTTATGCACGGTCAGAACGCGATTGGCAAAACGGCCAAAACCGCAGAAATCGACTCT
TTAAGATTCCAAGATAAAGACCTGCAAGTTGTTGGCACACTTGAATACGGCCAATTCGGCGTCATAGAAGTGGTA
ACTTGCAAGCTCAATAACCGAGTTTACGTTCGCAAGTCTATCGAGAAAAAGTTCGCGATGCGGACGCGCGAACAG
TGCTCTCCGCAAACCGAGCGAAACATCCTTGTGGCGGCATCTCTGACTGAATCCCCTTGGGCGCCCCATCTCCTA
GCCGCATACCAAATGCCCACTCACCTCCACTTGGTCATGGACTATGCTGAAGGAGGAAACCTGTGGGACGTTCTC
GAGTCTAGCACCGGCAAAATATCCGAATCCGACCTCAAATGGTGGGTTCCTCAGGCGGTCAGCGCAATCCACTGG
TGCCATACTCAAGGGTTCGCTCATCGCGACATCAAACCCCATAACTTTGTCCTCACTAAGGACTCTCGCGTCCAG
CTGATCGACTTTGGATCGGCGGCTCCCTTGCTTCCCCCAGGGCCGGATGGGTCCCAGAAGCTGGCTCGAAAGCAC
TGCCTTGTACCCTGCGGAACTTGTGACTACATCTCGCCGGAAATCCTGGAAGCCCATGAACAGGCGCTCGTCGCG
CTTGAAATGGATGACGAGGACGAAAATCCCCTTGTGATAGAGGATCCCGAGGGGTATGGGGTCGAAACCGATTGG
TGGAGTCTCGGAGCCATGCTGTATGAAATGGCCTACGGTGTTGCACCTTTCTTCGCGAACGAAATCAGACACACC
TATCAGAGAATCCTGAACCACGAGAAATGTTTACGCTTCGAGGACGGCGTGTCGTTCGAGTTGCAAGACTTGCTG
GCACGCTTGCTAACGCGTGCCGAGAAACGCTTGGGACGCCGCAACATCATGGAAATAACCGATCATCCATTCTTT
CGTGGCACCGACTGGACGTCCCTTTCTTCCCAATCTGCGCCTCCCGACCTCCATCTGCCCCAATTCACATACTCC
ATACCCCAACCTACCGAAGCAGCGAACCACGTTCCTTCTCCGATGGATGTCGACGACAAATCAGAGTCGTATTCG
CAAGGCTTTGCGTTTTCCGCGTTTTTCCAATCATCCCACGGATCGGTTTCGCATAATGCCTCGTTCCTCCGACAT
AGCATCACCCCACGACCACCGCGACCTTCGCCCCGAGATGACCCTAGTTCGGCTTTCATTGGGTTTTCCTGGGGA
CCCTTGATCGACGCTTTTCCCGACCAGCCGCTGGGCGTTTCTCAAAACAGCGATCAGCGTCACCTTTCTCCAATT
CCGTCCACTGGTCCCGCCACTACACCCACCTTCCCCGTCGTCACGCCAGGGTTCCTCACAGCGGACGCTCTCGCC
ACTCCGCTTCCTTCGAACCGCTTCGCGGATCAGCATCCGTTCGTTACCCCTGTCCGCCCGTACACCATTTCCAAC
TCTCCTATGAACACTATCCGCCGAACCAACACCATCCGCCGCACGGTTGGAAGACGTGAAGTCTCGGATCGTGAA
GCGATGAAGCAACTCGTCGATTGTATCGGAATGAGCGCGCGGAAGAAGGTGTTGGAGAGCGGTCGTAAGCCCAAG
ATCCTTACCTCCTACAACCTCTCCAGATCACTCCGTCGTCGACCAAGCGTCAGATCTTTCTCTCTGACGGACAAA
ACCACCGACGGGGCACCAAACACAGGTGCTACGAATAGCAATGGTACACGCAAAGAGCTACGGTTCTATCCCACT
GTCATGCCGATACCCATGACGGAGTACACCGACGACGGCGGTACGGAAAGCGACAACCCCTCACAGCCTACCCGA
ACGTCCCGCCTCCCCCCTCTCACCCTCGCACCCGCCATGACCAACGGCCGCTCCAACAGCCGCATGCTCGGCGAC
TCCGACAGTTCAGAAACCGGCGGGTACGGGTACATCAACTACCCCTACTACTCCAACAGCGAGTGCTCTGAGTCC
GAGGGTCCGCCTAGTCCCAGTCCCAGTCCACGCCCCGGGTCGGCGATGTCGTTTATATCGACTTCGAGGAGGAGT
GGGACGCCTACGGTTACGATGAGCACGTTCTCGTCTAGATTGCGTTCTGCGAGTGGGTCGAATTTTAATATTAGT
GGGATGGGGATGTTGGGTGTTCCTTCGCCTTCGTTGGGTCCTGGTGGGCCGTGGGGTAGGCCGTGGGAGCATGAG
AGGGATAGGGACAGGGATAGGGAGAGTGGTGGGATTGGCATTGGCATTGGGAAGGTGGAGGAAAGGGATAGGGAG
AAAGAGAGGACGTTTATGGCGATGCCGAGGAAGGTTTCTGCCCCTCCCGTCATTGACGATGTGCAACCTGTGGAA
GAGGTGGAATTCCCAAGAAATGCAACGACCAAACCACGTATCGCATCCGCCATCCCGCCGAACAAGCCTCTCCTT
TCGAATTCTTCTCTGAGGAGGACGTCAGTTGCGACCTCCACACCCTCGGTACACGAACACTGTTCACATTCATCT
GGATCGCGAACGCACGAGCGACGACGGGCGCACCAACCGCCACGGACATACCAGTACGACCATGAAGATACCCAA
CATTATTCTGATGAGGAGGATGTGGATCTTCTGTTTCAGGGGATATCAAAGTCGGAGACGGATGTTGGTTCATTG
TGGGATGAATTGGAAGGGAGACATGAGAGGATGATGTATGATATCAGGATGTTGGAAGAGAGGTTGGAATTGGTT
TCGCGGACTGTTGGTGGTGGTAGCGGACGGATACGTAGGTGA
Length 2892

Transcript

Sequence id CopciAB_492829.T0
Sequence >CopciAB_492829.T0
GACCTACAACCGCGACGACGACCGCGACAGCGAGCCAGATTTCTCGAGTTTTGGACGGCGGAGACGGTATATGTG
TACCTGATGCATGTCTCTCTCATGGCACCAACGGAAAGCTCGACTAGCTGCGCTAGTTTTGAGTCATGGGGACGA
AGACGCCGATGGAACAGCGGTCGACCGTCTTATGCACGGTCAGAACGCGATTGGCAAAACGGCCAAAACCGCAGA
AATCGACTCTTTAAGATTCCAAGATAAAGACCTGCAAGTTGTTGGCACACTTGAATACGGCCAATTCGGCGTCAT
AGAAGTGGTAACTTGCAAGCTCAATAACCGAGTTTACGTTCGCAAGTCTATCGAGAAAAAGTTCGCGATGCGGAC
GCGCGAACAGTGCTCTCCGCAAACCGAGCGAAACATCCTTGTGGCGGCATCTCTGACTGAATCCCCTTGGGCGCC
CCATCTCCTAGCCGCATACCAAATGCCCACTCACCTCCACTTGGTCATGGACTATGCTGAAGGAGGAAACCTGTG
GGACGTTCTCGAGTCTAGCACCGGCAAAATATCCGAATCCGACCTCAAATGGTGGGTTCCTCAGGCGGTCAGCGC
AATCCACTGGTGCCATACTCAAGGGTTCGCTCATCGCGACATCAAACCCCATAACTTTGTCCTCACTAAGGACTC
TCGCGTCCAGCTGATCGACTTTGGATCGGCGGCTCCCTTGCTTCCCCCAGGGCCGGATGGGTCCCAGAAGCTGGC
TCGAAAGCACTGCCTTGTACCCTGCGGAACTTGTGACTACATCTCGCCGGAAATCCTGGAAGCCCATGAACAGGC
GCTCGTCGCGCTTGAAATGGATGACGAGGACGAAAATCCCCTTGTGATAGAGGATCCCGAGGGGTATGGGGTCGA
AACCGATTGGTGGAGTCTCGGAGCCATGCTGTATGAAATGGCCTACGGTGTTGCACCTTTCTTCGCGAACGAAAT
CAGACACACCTATCAGAGAATCCTGAACCACGAGAAATGTTTACGCTTCGAGGACGGCGTGTCGTTCGAGTTGCA
AGACTTGCTGGCACGCTTGCTAACGCGTGCCGAGAAACGCTTGGGACGCCGCAACATCATGGAAATAACCGATCA
TCCATTCTTTCGTGGCACCGACTGGACGTCCCTTTCTTCCCAATCTGCGCCTCCCGACCTCCATCTGCCCCAATT
CACATACTCCATACCCCAACCTACCGAAGCAGCGAACCACGTTCCTTCTCCGATGGATGTCGACGACAAATCAGA
GTCGTATTCGCAAGGCTTTGCGTTTTCCGCGTTTTTCCAATCATCCCACGGATCGGTTTCGCATAATGCCTCGTT
CCTCCGACATAGCATCACCCCACGACCACCGCGACCTTCGCCCCGAGATGACCCTAGTTCGGCTTTCATTGGGTT
TTCCTGGGGACCCTTGATCGACGCTTTTCCCGACCAGCCGCTGGGCGTTTCTCAAAACAGCGATCAGCGTCACCT
TTCTCCAATTCCGTCCACTGGTCCCGCCACTACACCCACCTTCCCCGTCGTCACGCCAGGGTTCCTCACAGCGGA
CGCTCTCGCCACTCCGCTTCCTTCGAACCGCTTCGCGGATCAGCATCCGTTCGTTACCCCTGTCCGCCCGTACAC
CATTTCCAACTCTCCTATGAACACTATCCGCCGAACCAACACCATCCGCCGCACGGTTGGAAGACGTGAAGTCTC
GGATCGTGAAGCGATGAAGCAACTCGTCGATTGTATCGGAATGAGCGCGCGGAAGAAGGTGTTGGAGAGCGGTCG
TAAGCCCAAGATCCTTACCTCCTACAACCTCTCCAGATCACTCCGTCGTCGACCAAGCGTCAGATCTTTCTCTCT
GACGGACAAAACCACCGACGGGGCACCAAACACAGGTGCTACGAATAGCAATGGTACACGCAAAGAGCTACGGTT
CTATCCCACTGTCATGCCGATACCCATGACGGAGTACACCGACGACGGCGGTACGGAAAGCGACAACCCCTCACA
GCCTACCCGAACGTCCCGCCTCCCCCCTCTCACCCTCGCACCCGCCATGACCAACGGCCGCTCCAACAGCCGCAT
GCTCGGCGACTCCGACAGTTCAGAAACCGGCGGGTACGGGTACATCAACTACCCCTACTACTCCAACAGCGAGTG
CTCTGAGTCCGAGGGTCCGCCTAGTCCCAGTCCCAGTCCACGCCCCGGGTCGGCGATGTCGTTTATATCGACTTC
GAGGAGGAGTGGGACGCCTACGGTTACGATGAGCACGTTCTCGTCTAGATTGCGTTCTGCGAGTGGGTCGAATTT
TAATATTAGTGGGATGGGGATGTTGGGTGTTCCTTCGCCTTCGTTGGGTCCTGGTGGGCCGTGGGGTAGGCCGTG
GGAGCATGAGAGGGATAGGGACAGGGATAGGGAGAGTGGTGGGATTGGCATTGGCATTGGGAAGGTGGAGGAAAG
GGATAGGGAGAAAGAGAGGACGTTTATGGCGATGCCGAGGAAGGTTTCTGCCCCTCCCGTCATTGACGATGTGCA
ACCTGTGGAAGAGGTGGAATTCCCAAGAAATGCAACGACCAAACCACGTATCGCATCCGCCATCCCGCCGAACAA
GCCTCTCCTTTCGAATTCTTCTCTGAGGAGGACGTCAGTTGCGACCTCCACACCCTCGGTACACGAACACTGTTC
ACATTCATCTGGATCGCGAACGCACGAGCGACGACGGGCGCACCAACCGCCACGGACATACCAGTACGACCATGA
AGATACCCAACATTATTCTGATGAGGAGGATGTGGATCTTCTGTTTCAGGGGATATCAAAGTCGGAGACGGATGT
TGGTTCATTGTGGGATGAATTGGAAGGGAGACATGAGAGGATGATGTATGATATCAGGATGTTGGAAGAGAGGTT
GGAATTGGTTTCGCGGACTGTTGGTGGTGGTAGCGGACGGATACGTAGGTGATTGCGGTATGTAGTTCTGATGTA
ATGTTATTTCTGTTTGGGCTGTTGAA
Length 3026

Gene

Sequence id CopciAB_492829.T0
Sequence >CopciAB_492829.T0
GACCTACAACCGCGACGACGACCGCGACAGCGAGCCAGATTTCTCGAGTTTTGGACGGCGGAGACGGTATATGTG
TACCTGATGCATGTCTCTCTCATGGCACCAACGGAAAGCTCGACTAGCTGCGCTAGTTTTGAGTCATGGGGACGA
AGACGCCGATGGAACAGCGGTCGACCGTCTTATGCACGGTCAGAACGCGATTGGCAAAACGGGTACGTCGTGGAC
TTCAATTCTCAGTTAATTGTAAAGCGATAGGCCTAGTTTCTGCAATCGTATTTGTAGACCAACAAATCGACAGGG
CGCGTCTGCCAAATGGCAGGTGCAACTGCCCAATGATGCATTGTGTGGTCCAATGTCACCAATGTCGTTGGAATG
GGTCTATCGATTTACCATTAGCTGCGTGAGTATCCAAATTGACCTTTCAACCACAGCCAAAACCGCAGAAATCGA
CTCTTTAAGATTCCAAGATAAAGACCTGCAAGTTGTTGGCACACTTGAATACGGCCAATTCGGCGTCGTAAGATT
TCAACCTAGATCCCTGAATTCTCGTTGATCTCTTCTTCAGATAGAAGTGGTAACTTGCAAGCTCAATAACCGAGT
TTACGTTCGCAAGTCTATCGAGAAAAAGTTCGCGATGCGGACGCGCGAACAGTGCTCTCCGCAAACCGAGCGAAA
CATCCTTGTGGCGGCATCTCTGACTGAATCCCCTTGGGCGCCCCATCTCCTAGCCGCATACCAAATGCCCACTCA
CCTCCACTTGGTCATGGACTATGCTGAAGGAGGAAACCTGTGGGACGTTCTCGAGTCTAGCACCGGCAAAATATC
CGAATCCGACCTCAAATGGTGGGTTCCTCAGGCGGTCAGCGCAATCCACTGGTGCCATACTCAAGGGTTCGCTCA
TCGCGACATCAAACCCCATAACTTTGTCCTCACTAAGGACTCTCGCGTCCAGCTGATCGACTTTGGATCGGCGGC
TCCCTTGCTTCCCCCAGGGCCGGATGGGTCCCAGAAGCTGGCTCGAAAGCACTGCCTTGTACCCTGCGGAACTTG
TGACTACATCTCGCCGGAAATCCTGGAAGCCCATGAACAGGCGCTCGTCGCGCTTGAAATGGATGACGAGGACGA
AAATCCCCTTGTGATAGAGGATCCCGAGGGGTATGGGGTCGAAACCGATTGGTGGAGTCTCGGAGCCATGCTGTA
TGAAATGGCCTACGGTGTTGCACCTTTCTTCGCGAACGAAATCAGACACACCTATCAGAGAATCCTGAACCACGA
GGTGAATACAATCTACCCTTCCACTCGATCTGTTTAACGCCATGTTGTAGAAATGTTTACGCTTCGAGGACGGCG
TGTCGTTCGAGTTGCAAGACTTGCTGGCACGCTTGCTAACGCGTGCCGAGAAACGCTTGGGACGCCGCAACATCA
TGGAAATAACCGATCATCCATTCTTTCGTGGCACCGACTGGACGTCCCTTTCTTCCCAATCTGCGCCTCCCGACC
TCCATCTGCCCCAATTCACATACTCCATACCCCAACCTACCGAAGCAGCGAACCACGTTCCTTCTCCGATGGATG
TCGACGACAAATCAGAGTCGTATTCGCAAGGCTTTGCGTTTTCCGCGTTTTTCCAATCATCCCACGGATCGGTTT
CGCATAATGCCTCGTTCCTCCGACATAGCATCACCCCACGACCACCGCGACCTTCGCCCCGAGATGACCCTAGTT
CGGCTTTCATTGGGTTTTCCTGGGGACCCTTGATCGACGCTTTTCCCGACCAGCCGCTGGGCGTTTCTCAAAACA
GCGATCAGCGTCACCTTTCTCCAATTCCGTCCACTGGTCCCGCCACTACACCCACCTTCCCCGTCGTCACGCCAG
GGTTCCTCACAGCGGACGCTCTCGCCACTCCGCTTCCTTCGAACCGCTTCGCGGATCAGCATCCGTTCGTTACCC
CTGTCCGCCCGTACACCATTTCCAACTCTCCTATGAACACTATCCGCCGAACCAACACCATCCGCCGCACGGTTG
GAAGACGTGAAGTCTCGGATCGTGAAGCGATGAAGCAACTCGTCGATTGTATCGGAATGAGCGCGCGGAAGAAGG
TGTTGGAGAGCGGTCGTAAGCCCAAGATCCTTACCTCCTACAACCTCTCCAGATCACTCCGTCGTCGACCAAGCG
TCAGATCTTTCTCTCTGACGGACAAAACCACCGACGGGGCACCAAACACAGGTGCTACGAATAGCAATGGTACAC
GCAAAGAGCTACGGTTCTATCCCACTGTCATGCCGATACCCATGACGGAGTACACCGACGACGGCGGTACGGAAA
GCGACAACCCCTCACAGCCTACCCGAACGTCCCGCCTCCCCCCTCTCACCCTCGCACCCGCCATGACCAACGGCC
GCTCCAACAGCCGCATGCTCGGCGACTCCGACAGTTCAGAAACCGGCGGGTACGGGTACATCAACTACCCCTACT
ACTCCAACAGCGAGTGCTCTGAGTCCGAGGGTCCGCCTAGTCCCAGTCCCAGTCCACGCCCCGGGTCGGCGATGT
CGTTTATATCGACTTCGAGGAGGAGTGGGACGCCTACGGTTACGATGAGCACGTTCTCGTCTAGATTGCGTTCTG
CGAGTGGGTCGAATTTTAATATTAGTGGGATGGGGATGTTGGGTGTTCCTTCGCCTTCGTTGGGTCCTGGTGGGC
CGTGGGGTAGGCCGTGGGAGCATGAGAGGGATAGGGACAGGGATAGGGAGAGTGGTGGGATTGGCATTGGCATTG
GGAAGGTGGAGGAAAGGGATAGGGAGAAAGAGAGGACGTTTATGGCGATGCCGAGGAAGGTTTCTGCCCCTCCCG
TCATTGACGATGTGCAACCTGTGGAAGAGGTGGAATTCCCAAGAAATGCAACGACCAAACCACGTATCGCATCCG
CCATCCCGCCGAACAAGCCTCTCCTTTCGAATTCTTCTCTGAGGAGGACGTCAGTTGCGACCTCCACACCCTCGG
TACACGAACACTGTTCACATTCATCTGGATCGCGAACGCACGAGCGACGACGGGCGCACCAACCGCCACGGACAT
ACCAGTACGACCATGAAGATACCCAACATTATTCTGATGAGGAGGATGTGGATCTTCTGTTTCAGGGGATATCAA
AGTCGGAGACGGATGTTGGTTCATTGTGGGATGAATTGGAAGGGAGACATGAGAGGATGATGTATGATATCAGGA
TGTTGGAAGAGAGGTTGGAATTGGTTTCGCGGACTGTTGGTGGTGGTAGCGGACGGATACGTAGGTGATTGCGGT
ATGTAGTTCTGATGTAATGTTATTTCTGTTTGGGCTGTTGAA
Length 3342