CopciAB_435970
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_435970 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 435970
Uniprot id Functional description Serine/Threonine protein kinases, catalytic domain
Location scaffold_3:11685..15994 Strand +
Gene length (nt) 4310 Transcript length (nt) 3883
CDS length (nt) 3060 Protein length (aa) 1019

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Schizosaccharomyces pombe fin1

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB23669 54.2 4.069E-304 956
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_118840 54.3 7.825E-290 911
Schizophyllum commune H4-8 Schco3_2514780 52.9 1.39E-287 905
Agrocybe aegerita Agrae_CAA7270881 49 7.218E-285 897
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_105305 54 1.176E-284 896
Pleurotus ostreatus PC15 PleosPC15_2_1110297 51.9 1.862E-268 849
Pleurotus eryngii ATCC 90797 Pleery1_1457070 49.4 1.225E-265 841
Lentinula edodes NBRC 111202 Lenedo1_1079546 48.9 6.338E-264 836
Lentinula edodes W1-26 v1.0 Lentinedodes1_22240 48.9 6.29E-264 836
Ganoderma sp. 10597 SS1 v1.0 Gansp1_135488 46.9 7.34E-249 792
Grifola frondosa Grifr_OBZ70768 64.8 3.317E-237 758
Flammulina velutipes Flave_chr11AA01372 57.8 5.518E-216 696
Pleurotus ostreatus PC9 PleosPC9_1_82625 83.2 6.554E-161 534
Auricularia subglabra Aurde3_1_1169002 55.6 3.614E-151 506
Lentinula edodes B17 Lened_B_1_1_11739 44.2 5.233E-115 397

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 106.72 10.1094 5.8366
oidia 61.3615 4.8601 2.806
vegetative_mycelium 52.9141 10.4605 6.0394
primordia 89.8429 7.8326 4.5221
hyphal_knot 69.3513 8.4966 4.9055
young_fruiting_body 30.3229 0.5132 0.2963
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 29.3229 6.0622 3.5
Wheat bran 24.9336 6.5558 3.785
Horse manure 51.1638 17.0053 9.818
Oak leaves 52.236 7.7054 4.4487
Hay 41.3281 2.8487 1.6447
Corn stalk 48.8597 10.1907 5.8836
Pectine 44.1258 2.3405 1.3513
Microcrystalline cellulose 26.0772 3.8329 2.213
Xylose 30.1616 6.5398 3.7757
Cellobiose 21.7655 3.1005 1.7901
Lignin 44.6539 13.2518 7.6509
Apple peels 38.4017 9.73 5.6176
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 20.8904 3.9948 2.3064
Bsubtilis 37.0904 3.7796 2.1822
Ecoli 18.337 1.7378 1.0033
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 59.5201 12.7822 7.3798
BS 4h 34.4084 7.2109 4.1632
BS 8h 32.7242 4.8596 2.8057
BS 12h 25.3034 5.9076 3.4107
Oidia 0 h 9.6358 0.1562 0.0902
Oidia 18 h 37.6147 8.8698 5.121
Sclerotia 27.995 6.9455 4.01
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 17.7221 2.7949 1.6136
DM 36h 26.944 3.6928 2.1321
DM 60h 24.0215 2.6759 1.5449
DM 84h 20.3597 2.3584 1.3616
DM 108h 20.8123 4.2754 2.4684
DM 132h 19.0551 3.4609 1.9981
DM 156hAE 34.8276 3.6941 2.1328
ELI1hAE 33.8078 8.7362 5.0438
ELI2hAE 30.2886 1.7826 1.0292
LI2hAE 34.2927 2.5272 1.4591
LI6hAE 41.1643 4.0492 2.3378
LI12hAE 27.6791 3.5793 2.0665
LI18hAE 25.2943 2.2045 1.2727
LI 24hAE 28.2028 2.7612 1.5942
DM 156hAM 19.3095 0.8876 0.5125
ELI1hAM 20.1893 3.0004 1.7323
ELI2hAM 20.3313 1.2068 0.6968
LI2hAM 23.2216 5.799 3.348
LI6hAM 24.0167 4.4329 2.5593
LI12hAM 17.5929 4.6976 2.7122
LI18hAM 21.5769 6.7587 3.9021
LI 24hAM 16.1455 3.1103 1.7957
LI 24hHK 16.8475 1.9438 1.1223
L/D 6h 17.8095 1.7007 0.9819
L/D 12h 22.4254 1.1765 0.6793
L/D 18h 33.8942 1.0994 0.6347
L/D 24h 36.6745 3.0328 1.751
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 28.5373 7.7769 4.49
Hyphal knots 35.708 8.531 4.9254
Primordium 1 42.4315 11.498 6.6384
Primordium 2 37.9353 5.1207 2.9564
Young Fruiting body cap 91.3512 50.2513 29.0126
Younf fruiting body gill 28.4602 15.9362 9.2008
Young fruiting body stipe 61.3123 10.4264 6.0197
Mature fruiting body cap_gill 124.1508 41.3917 23.8975
Mature fruiting body stipe 33.9739 7.4485 4.3004
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 46.0263 8.3171 4.8019
NH4NO3 50.5986 5.9898 3.4582
Proline 73.895 25.7292 14.8548
Tryptophan 47.9601 18.9868 10.9621
Isoleucin 61.7859 17.0474 9.8423
Arginine 98.6146 11.2903 6.5185
Metionine 64.0852 3.0714 1.7733
NaNO3 85.1599 12.0885 6.9793
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 46.0263 8.3171 4.8019
Citrus peel 58.5587 15.3218 8.8461
Poplar leaves 65.9785 8.9452 5.1645
Typha leaves 57.9538 1.812 1.0462
Overwintered Salix leaves 65.2503 6.0733 3.5064
Reed flowering 59.927 7.6402 4.4111
Tigernut 52.1428 7.1129 4.1067
Energy cane 47.5281 3.7214 2.1485
Guar gum 43.0974 7.8795 4.5492
Apple peels 63.7369 8.8741 5.1234
Cellobiose 65.9119 7.9518 4.591
Corn stalk 55.5608 4.0458 2.3359
Horse manure 54.5215 6.6398 3.8335
Lignin 51.2887 9.3559 5.4016
Microcrystalline cellulose 85.5186 10.6779 6.1649
Oak leaves 51.1453 8.4224 4.8627
Pectin esterified 49.74 9.054 5.2273
Poplar sawdust 43.3466 10.7361 6.1985
Wheat bran 38.8198 6.4654 3.7328
Chlamydomonas reinhardtii 53.7191 3.921 2.2638
Vertatryl alcohol 15.9776 0.9228 0.5328
Furfural 41.0667 2.0015 1.1556
Autoclaved mycelium 72.2857 2.1061 1.2159
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 58.7577 1.6473 0.951
Ribose 69.4966 3.9038 2.2539
Mannose 78.0292 0.5926 0.4191
Fructose 69.3386 9.2577 5.3449
Arabinose 63.7496 11.2353 6.4867
Xylose 71.4496 8.4069 4.8537
Galacturonic acid 67.9872 7.146 4.1258
Rhamnogalacturonan 67.0904 7.2548 4.1885
Pectin esterified 75.5345 2.3622 1.3638
Polygalacturonic acid 60.6877 8.2256 4.7491
Sodium acetate 73.199 7.37 4.2551
No nitrogen 68.2026 10.7223 6.1905
BSA 68.3247 7.3967 4.2705
Glutamine 65.6955 4.0819 2.3567
No phosphate 81.4107 9.0785 5.2415
No carbon 69.3188 4.1186 2.9123
No sulphur 68.6441 9.0028 5.1978
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 46.0263 8.3171 4.8019
Amylose 47.709 2.8918 1.6696
Fucose 47.9116 0.5709 0.3296
Galactose 54.7458 6.44 3.7182
Lactose 48.3252 1.7421 1.0058
Maltose 44.6349 2.7266 1.5742
Mannitol 54.3117 3.5694 2.0608
Rhamnose 61.9372 2.745 1.5848
Sorbitol 44.8325 8.308 4.7966
Trehalose 45.1263 7.1013 4.0999
Glycerol 61.2687 20.1367 11.6259
Glucuronic acid 41.1168 1.7855 1.0309
Arabinan 40.1252 8.089 4.6702
Galactan 60.2788 9.2145 5.32
Galactomannan 36.7265 14.538 8.3935
Glucan 47.4349 12.7349 7.3525
Xylan 45.5486 1.7672 1.0203
Xyloglucan 44.577 1.5686 0.9056
Arabinogalactan 41.5693 10.2637 5.9258
Pectin 20.2486 7.371 4.2557
Rhamnogalacturonan 37.8729 11.2309 6.4842
Polygalacturonic acid 41.5565 3.8714 2.2351
Mannan 46.5484 9.1198 5.2653
Amylopectin 58.0391 7.3893 4.2662
Inulin 88.7148 23.177 13.3812
BSA 68.3139 12.4688 7.1988
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 24.0215 2.6759 1.5449
2h WAT 19.481 1.2633 0.7294
4h WAT 17.9618 4.1037 2.3693
8h WAT 17.8953 6.9125 3.9909
16h WAT 21.0009 2.342 1.3521
24h WAT 20.5419 5.9711 3.4474
WAT hyphal knot -30h 24.2174 1.2869 0.743
WAT hyphal knot -22h 29.968 3.6327 2.0973
WAT hyphal knot -15h 27.1809 2.9381 1.6963
WAT hyphal knot -7.5h 23.7418 6.8633 3.9625
WAT hyphal knot 26.7102 4.5075 2.6024
WAT hyphal knot +7.5h 28.3844 5.0669 2.9254
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 70.7729 16.0642 9.2747
Straw 3h 69.8481 17.6594 10.1957
Straw 6h 56.1399 7.8152 4.5121
Straw 12h 55.6214 4.7716 2.7549
Straw 24h 51.8577 9.4046 5.4297
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 24.5171 5.1387 2.9668
Frost (-20C, 30min) 12.6251 1.0229 0.5906
Heat shock (47C, 2h) 15.1259 2.7795 1.6047
High CO2 14.2222 2.7946 1.6135
Drought (4% agar, 12h) 10.722 0.835 0.4821
Oxidative (1mM H2O2, 3h) 22.0209 5.0953 2.9418
Acidic (pH4, 3h) 24.3593 3.4347 1.983
Alkaline (pH9, 3h) 18.0858 0.9512 0.5492
Osmotic (sorbitol 2h) 26.1989 3.5092 2.0261
CongoRed (3h) 14.2835 1.0076 0.5817
Cobalt chloride control 15.1639 2.1234 1.226
Cobalt chloride 2mM 14.8427 2.4376 1.4073
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 19.9457 6.3481 3.6651
Cold stimulation 16.4696 3.3546 1.9368
Scratched surface 20.3123 2.7893 1.6104
Ca2+, 200mM, 24h 11.2285 3.3907 1.9576
Cu2+, 2mM, 6h 15.2879 5.0963 2.9424
Voriconazole 14.4014 2.9656 1.7122
Trichoderma interaction, early 19.9548 5.6584 3.2669
Trichoderma interaction 60h 17.3889 0.8383 0.484
Cobalt chloride 2mM repeat 27.099 3.6407 2.1019
Hypoxia 15.9004 2.608 1.5057
Hypoxia control 19.0761 1.0814 0.6243
Protoplastation control 18.8047 4.1304 2.9206
Protoplastation 3.5h 32.6949 15.2574 10.7886
Protoplastation 1.5h 31.3122 7.6662 5.4208

General data

Systematic name -
Protein id CopciAB_435970.T0
Description Serine/Threonine protein kinases, catalytic domain

Annotation summary

0 300 600 900 1019

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd08217 STKc_Nek2 - 7 292
Pfam PF00069 Protein kinase domain IPR000719 8 290

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR000719 Protein kinase domain
IPR017441 Protein kinase, ATP binding site
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
K20872

EggNOG

COG category Description
V Serine/Threonine protein kinases, catalytic domain

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_435970 across fungi.

Arrow shows the origin of gene family containing CopciAB_435970.

Protein

Sequence id CopciAB_435970.T0
Sequence >CopciAB_435970.T0
MSAFLEQYEPLDVIGNGSFGIIRKVRRKSDGLIFARKELNFERMSERDRKQIVAEVNILKDLHHEHIVRYHDRHV
DRDAGILYIIMEYCGGGDLSTVIKQAAKHNRPISEDLIWNYFMQILLALHHCHHPNGHGRSGSGSGSALTEGEGG
GSSRRPQILHRDLKPDNVFLDENNNVKLGDFGLSKALNQASFANTYVGTPYYMSPELMQEKAYDSKSDIWSLGCL
IYELCALKPPFHEAKTHNELSILIRNGRIPPLPRGYSQALFGVIKAMLNLNPAMRPSAAQLLQHERLELVFKVAE
TEKMLSTVKAHKNAMVAREREVLAREQIIAEKEQHLQHLFSQKDSEIAHLQRVVSQLQAQIHTIQSEPRITQHDL
EVATKHAVARREQELRILVQKREEEVAAAMAKREEEIMEAVRRREAEVCEAWAKREAEVRQEVEVSIKAVEERIQ
WISEKEAELIEEEERLEALREELEVREKRVEELANKKGRTKSPLEEIRNTMEPTPQRRNYDPPPSTIKRNRVDST
PRATTKQMFPAALETPITRPSYTDYLPSAMKGVVLTSTGETLATPSPNELATLFNASPKVGLNFGKIFDFGEGDD
DVTSPTNTTTRLSLGGAGSGLNGVGASGVNGGVQFPNGAGSESDEDDAPPSPTTRKERELRERAESRSSLGGGED
ATVTIAMNLGSATNGASVSTPTQASVASSSSSTATAAPPTRIRRPSIRRTSTSGGLPLPMPTSASNRRSLVITPS
ASGDSVASSSSSSSSGGSAGGFQPKPLPHPHLNSTRAAPLPPKGPASQTKASSSSSASVQQASKTGTVSSKAGSS
SSSSSVKGSAMGSKGTMNSKSSVPLPPPPKYDLADEENLPSPFLKRIERSATMPVLGSREREREVNGVGMNGVGR
ETKERDGGGSMRLTATTKKRPSTGNLLRTMAAANNITRKAASSSASSSGSSASGSGADTANEGVVNGGATSASTV
GTTPASSMNGGGPVLAEMVDAGSRASLLNARRAGEEARKGLVGR
Length 1019

Coding

Sequence id CopciAB_435970.T0
Sequence >CopciAB_435970.T0
ATGTCGGCGTTTTTGGAGCAGTATGAGCCGCTGGATGTGATTGGGAACGGGAGCTTTGGGATTATTAGGAAGGTT
AGGAGGAAGAGCGATGGGTTGATTTTTGCGAGGAAGGAACTCAACTTTGAACGGATGAGCGAGCGCGACCGCAAG
CAAATCGTCGCTGAAGTGAATATCCTTAAAGACCTCCACCACGAACATATTGTACGATATCACGACCGACACGTC
GACCGGGATGCGGGTATTTTGTATATTATTATGGAGTACTGCGGGGGTGGCGATTTGTCGACGGTCATCAAGCAG
GCGGCGAAGCATAATAGGCCTATTTCGGAGGACCTCATTTGGAATTATTTCATGCAGATTTTGCTGGCGCTGCAT
CATTGCCACCACCCGAATGGACACGGCAGGAGCGGAAGTGGGTCGGGGAGTGCTTTGACGGAGGGAGAGGGCGGT
GGCAGCTCGAGGAGACCCCAGATTTTGCATCGAGATTTGAAACCGGATAATGTTTTCCTGGACGAAAACAACAAT
GTCAAGCTGGGCGATTTCGGGCTGTCGAAAGCACTGAACCAAGCCTCGTTCGCGAATACCTACGTCGGGACGCCG
TACTACATGTCCCCGGAATTGATGCAGGAGAAAGCCTACGACTCCAAATCGGACATTTGGTCGTTAGGCTGCCTC
ATCTACGAACTCTGCGCTCTAAAACCACCATTCCACGAAGCCAAAACACATAACGAACTATCCATCCTTATTAGG
AATGGACGCATACCGCCGCTGCCTCGTGGGTACTCGCAGGCGTTGTTTGGGGTCATCAAGGCCATGTTGAATCTC
AATCCGGCTATGAGACCTTCCGCTGCGCAACTTCTTCAACATGAGCGGTTAGAGTTGGTATTCAAAGTGGCGGAG
ACCGAGAAAATGCTATCAACTGTCAAAGCACACAAGAACGCCATGGTCGCTCGAGAGCGCGAAGTCCTCGCACGG
GAACAGATCATCGCTGAGAAGGAGCAGCACCTCCAACACCTCTTCTCCCAAAAGGACTCGGAAATCGCCCACCTC
CAGCGCGTCGTCTCGCAGCTTCAAGCCCAGATCCATACCATCCAGAGCGAGCCGCGTATTACCCAGCACGACCTC
GAGGTGGCGACGAAACACGCGGTGGCGCGGCGCGAACAGGAGTTGAGGATATTGGTGCAGAAGAGGGAAGAGGAG
GTGGCGGCTGCGATGGCGAAACGCGAGGAGGAGATTATGGAGGCTGTGAGGAGGAGGGAGGCGGAGGTGTGTGAG
GCGTGGGCGAAGAGGGAGGCTGAGGTTAGGCAGGAGGTGGAGGTGTCGATTAAGGCGGTGGAGGAGAGGATACAG
TGGATATCGGAGAAGGAGGCGGAGCTTATAGAGGAGGAGGAGAGGCTTGAGGCGCTTAGAGAGGAGTTGGAGGTT
AGGGAGAAGAGGGTTGAGGAGTTGGCTAATAAGAAAGGACGGACGAAGTCGCCGTTAGAAGAGATTAGGAATACG
ATGGAGCCAACGCCGCAACGACGGAATTACGATCCACCGCCATCGACTATTAAACGAAACCGAGTCGACTCGACG
CCGAGAGCGACGACGAAACAGATGTTTCCCGCTGCACTCGAAACACCCATCACCCGGCCCTCGTACACCGACTAC
CTCCCTTCGGCGATGAAGGGAGTCGTACTCACCTCGACTGGCGAAACGCTCGCCACGCCCTCGCCCAACGAACTC
GCTACGTTATTCAACGCTTCGCCCAAAGTTGGCCTTAACTTTGGCAAGATCTTCGATTTTGGCGAGGGCGACGAC
GATGTGACGAGTCCTACCAACACGACCACGCGACTATCTCTCGGCGGTGCTGGCTCGGGTTTGAACGGCGTGGGT
GCGTCGGGGGTGAATGGAGGAGTGCAGTTCCCGAATGGAGCGGGCAGCGAGAGCGACGAGGACGATGCCCCGCCG
AGTCCGACGACGAGGAAGGAGAGGGAGTTGAGGGAGAGAGCGGAGAGTCGGAGTAGTTTGGGAGGAGGGGAGGAT
GCGACTGTTACGATTGCGATGAACCTTGGGTCTGCCACCAATGGCGCATCGGTATCGACACCGACACAGGCGTCA
GTAGCTTCGAGCTCCAGCTCGACGGCGACCGCTGCTCCCCCGACGAGGATACGACGCCCTTCGATTAGGAGGACG
TCTACCTCGGGTGGGTTGCCCCTCCCTATGCCTACGTCGGCTTCGAATCGGAGGTCGTTGGTGATTACGCCTTCG
GCGTCGGGTGATTCGGTGGCGTCTTCGTCGTCGTCGTCGTCGTCGGGTGGTTCGGCGGGTGGGTTCCAGCCTAAA
CCGCTCCCGCATCCGCACTTGAATTCGACGAGGGCGGCGCCGCTTCCCCCCAAGGGTCCAGCATCTCAAACGAAG
GCCTCGTCATCGTCGTCGGCGTCCGTGCAGCAAGCTTCGAAAACGGGTACGGTGTCGTCAAAGGCGGGTTCATCG
TCGTCGTCGTCGTCGGTGAAGGGTAGTGCGATGGGTTCGAAGGGTACGATGAATTCGAAGAGTTCGGTGCCGTTA
CCCCCGCCGCCCAAGTATGATTTGGCGGATGAGGAGAATTTACCGAGTCCGTTTTTGAAGAGGATTGAGAGGAGT
GCGACGATGCCGGTTTTGGGGTCTAGGGAGCGGGAGAGGGAGGTGAATGGCGTTGGGATGAACGGTGTAGGGAGG
GAGACAAAGGAACGAGATGGTGGGGGTTCGATGCGCCTGACGGCGACGACGAAGAAGAGGCCTAGTACGGGCAAT
TTGCTGAGGACGATGGCGGCTGCGAATAATATCACAAGGAAGGCGGCGTCTAGTTCGGCTAGTTCGTCGGGTTCG
TCTGCTTCTGGGTCGGGGGCGGATACGGCGAATGAAGGTGTGGTGAATGGGGGAGCGACGAGTGCGAGTACGGTT
GGGACGACGCCTGCTAGTTCGATGAATGGTGGTGGGCCGGTTCTGGCTGAGATGGTTGATGCGGGGTCGAGGGCT
AGTTTGCTTAATGCGAGGAGGGCGGGGGAGGAGGCGAGGAAGGGGTTGGTTGGGCGGTAG
Length 3060

Transcript

Sequence id CopciAB_435970.T0
Sequence >CopciAB_435970.T0
CGTCGATTTTCGGCGCGTGATCGCGTTTTGGCGCGCGACCACGTGATGGGGATCAAGTTGAACATGCAGCAGCGG
GAAACGGGGTTTTACATTCATTCGGTCATTCACTCCATCCATCTCCATTCACGCCGCGCGGTCGTTGCTCCTGCT
CGTTCCCTTCGCTTTTCAAGACTCGACGATTGACGATAGTGTTGTGGATTTGGAAGGGACGATAGGAGGGCTAGT
ACTAGGATGTCGGCGTTTTTGGAGCAGTATGAGCCGCTGGATGTGATTGGGAACGGGAGCTTTGGGATTATTAGG
AAGGTTAGGAGGAAGAGCGATGGGTTGATTTTTGCGAGGAAGGAACTCAACTTTGAACGGATGAGCGAGCGCGAC
CGCAAGCAAATCGTCGCTGAAGTGAATATCCTTAAAGACCTCCACCACGAACATATTGTACGATATCACGACCGA
CACGTCGACCGGGATGCGGGTATTTTGTATATTATTATGGAGTACTGCGGGGGTGGCGATTTGTCGACGGTCATC
AAGCAGGCGGCGAAGCATAATAGGCCTATTTCGGAGGACCTCATTTGGAATTATTTCATGCAGATTTTGCTGGCG
CTGCATCATTGCCACCACCCGAATGGACACGGCAGGAGCGGAAGTGGGTCGGGGAGTGCTTTGACGGAGGGAGAG
GGCGGTGGCAGCTCGAGGAGACCCCAGATTTTGCATCGAGATTTGAAACCGGATAATGTTTTCCTGGACGAAAAC
AACAATGTCAAGCTGGGCGATTTCGGGCTGTCGAAAGCACTGAACCAAGCCTCGTTCGCGAATACCTACGTCGGG
ACGCCGTACTACATGTCCCCGGAATTGATGCAGGAGAAAGCCTACGACTCCAAATCGGACATTTGGTCGTTAGGC
TGCCTCATCTACGAACTCTGCGCTCTAAAACCACCATTCCACGAAGCCAAAACACATAACGAACTATCCATCCTT
ATTAGGAATGGACGCATACCGCCGCTGCCTCGTGGGTACTCGCAGGCGTTGTTTGGGGTCATCAAGGCCATGTTG
AATCTCAATCCGGCTATGAGACCTTCCGCTGCGCAACTTCTTCAACATGAGCGGTTAGAGTTGGTATTCAAAGTG
GCGGAGACCGAGAAAATGCTATCAACTGTCAAAGCACACAAGAACGCCATGGTCGCTCGAGAGCGCGAAGTCCTC
GCACGGGAACAGATCATCGCTGAGAAGGAGCAGCACCTCCAACACCTCTTCTCCCAAAAGGACTCGGAAATCGCC
CACCTCCAGCGCGTCGTCTCGCAGCTTCAAGCCCAGATCCATACCATCCAGAGCGAGCCGCGTATTACCCAGCAC
GACCTCGAGGTGGCGACGAAACACGCGGTGGCGCGGCGCGAACAGGAGTTGAGGATATTGGTGCAGAAGAGGGAA
GAGGAGGTGGCGGCTGCGATGGCGAAACGCGAGGAGGAGATTATGGAGGCTGTGAGGAGGAGGGAGGCGGAGGTG
TGTGAGGCGTGGGCGAAGAGGGAGGCTGAGGTTAGGCAGGAGGTGGAGGTGTCGATTAAGGCGGTGGAGGAGAGG
ATACAGTGGATATCGGAGAAGGAGGCGGAGCTTATAGAGGAGGAGGAGAGGCTTGAGGCGCTTAGAGAGGAGTTG
GAGGTTAGGGAGAAGAGGGTTGAGGAGTTGGCTAATAAGAAAGGACGGACGAAGTCGCCGTTAGAAGAGATTAGG
AATACGATGGAGCCAACGCCGCAACGACGGAATTACGATCCACCGCCATCGACTATTAAACGAAACCGAGTCGAC
TCGACGCCGAGAGCGACGACGAAACAGATGTTTCCCGCTGCACTCGAAACACCCATCACCCGGCCCTCGTACACC
GACTACCTCCCTTCGGCGATGAAGGGAGTCGTACTCACCTCGACTGGCGAAACGCTCGCCACGCCCTCGCCCAAC
GAACTCGCTACGTTATTCAACGCTTCGCCCAAAGTTGGCCTTAACTTTGGCAAGATCTTCGATTTTGGCGAGGGC
GACGACGATGTGACGAGTCCTACCAACACGACCACGCGACTATCTCTCGGCGGTGCTGGCTCGGGTTTGAACGGC
GTGGGTGCGTCGGGGGTGAATGGAGGAGTGCAGTTCCCGAATGGAGCGGGCAGCGAGAGCGACGAGGACGATGCC
CCGCCGAGTCCGACGACGAGGAAGGAGAGGGAGTTGAGGGAGAGAGCGGAGAGTCGGAGTAGTTTGGGAGGAGGG
GAGGATGCGACTGTTACGATTGCGATGAACCTTGGGTCTGCCACCAATGGCGCATCGGTATCGACACCGACACAG
GCGTCAGTAGCTTCGAGCTCCAGCTCGACGGCGACCGCTGCTCCCCCGACGAGGATACGACGCCCTTCGATTAGG
AGGACGTCTACCTCGGGTGGGTTGCCCCTCCCTATGCCTACGTCGGCTTCGAATCGGAGGTCGTTGGTGATTACG
CCTTCGGCGTCGGGTGATTCGGTGGCGTCTTCGTCGTCGTCGTCGTCGTCGGGTGGTTCGGCGGGTGGGTTCCAG
CCTAAACCGCTCCCGCATCCGCACTTGAATTCGACGAGGGCGGCGCCGCTTCCCCCCAAGGGTCCAGCATCTCAA
ACGAAGGCCTCGTCATCGTCGTCGGCGTCCGTGCAGCAAGCTTCGAAAACGGGTACGGTGTCGTCAAAGGCGGGT
TCATCGTCGTCGTCGTCGTCGGTGAAGGGTAGTGCGATGGGTTCGAAGGGTACGATGAATTCGAAGAGTTCGGTG
CCGTTACCCCCGCCGCCCAAGTATGATTTGGCGGATGAGGAGAATTTACCGAGTCCGTTTTTGAAGAGGATTGAG
AGGAGTGCGACGATGCCGGTTTTGGGGTCTAGGGAGCGGGAGAGGGAGGTGAATGGCGTTGGGATGAACGGTGTA
GGGAGGGAGACAAAGGAACGAGATGGTGGGGGTTCGATGCGCCTGACGGCGACGACGAAGAAGAGGCCTAGTACG
GGCAATTTGCTGAGGACGATGGCGGCTGCGAATAATATCACAAGGAAGGCGGCGTCTAGTTCGGCTAGTTCGTCG
GGTTCGTCTGCTTCTGGGTCGGGGGCGGATACGGCGAATGAAGGTGTGGTGAATGGGGGAGCGACGAGTGCGAGT
ACGGTTGGGACGACGCCTGCTAGTTCGATGAATGGTGGTGGGCCGGTTCTGGCTGAGATGGTTGATGCGGGGTCG
AGGGCTAGTTTGCTTAATGCGAGGAGGGCGGGGGAGGAGGCGAGGAAGGGGTTGGTTGGGCGGTAGTGGTGGTGG
AGGGGTAGGTGGTTGCTCGACGTGCGAGGGCGGGTGGTGGGTGGTGGCGACTGTTTTCTCTTCTCCTTTTGCACT
CTTAATGACACTCATAGACTTGACGGCACCTTTATGTTGTAGTTTTCTCCACTCTCTCTCTCTGGATACCCGGTC
TCATTGTTTCTGATTCCAATTCATATGGTCGTTTTTCTTTTTTTCTATTGTCAGGGCGTTTTGGTCCCGTTGGTT
GCGAGTTTCACGCTTGTCTCAGGCTTTCGATATCTGTATTTTGGAACGAGTTTGTTGACCCACTGTCTCGTTTAG
GGCTCTTCGGTCGTTTGTTTCCGTCCGCGTTGTTGTTGCTTACGACTTCTCTCCCGAGAGCGTTCAGCCTCCTTA
CTCTATCCGATCTTTTGTTCAGTCACGCTCGTCTCTCGTTTTCTTCACCGCTCGTCTCTCCTTTCATTCACCGCT
CGTTTCGCCCTCTTGTGTCTGTGGATCCATCCAAAAAGCTAACCTATTATCATGGCAATGTCTTTGCTTTCTTAC
GAGTTTATTATTTTACATTACGCACGTCCTTTGACGAATACTATCGCTTAGTTGTTTA
Length 3883

Gene

Sequence id CopciAB_435970.T0
Sequence >CopciAB_435970.T0
CGTCGATTTTCGGCGCGTGATCGCGTTTTGGCGCGCGACCACGTGATGGGGATCAAGTTGAACATGCAGCAGCGG
GAAACGGGGTTTTACATTCATTCGGTCATTCACTCCATCCATCTCCATTCACGCCGCGCGGTCGTTGCTCCTGCT
CGTTCCCTTCGCTTTTCAAGACTCGACGATTGACGATAGTGTTGTGGATTTGGAAGGGACGATAGGAGGGCTAGT
ACTAGGATGTCGGCGTTTTTGGAGCAGTATGAGCCGCTGGATGTGATTGGGAACGGGAGCTTTGGGATTATTAGG
AAGGTTAGGAGGAAGAGCGATGGGTTGGTGCGTTGTGCCACTCTTTTCTATCCTGGAGTTAGGCTGATGAGATGT
AGATTTTTGCGAGGAAGGAACTCAACTTTGAACGGATGAGCGAGCGCGACCGCAAGCAAATCGTCGCTGAAGTGT
ACGTTGTGCGAAATTTTTAACGACGAGCAATCTATTCATGGAATATATTCCACAATTATAGGAATATCCTTAAAG
ACCTCCACCACGAACATATTGTACGATATCACGACCGACACGTCGACCGGGATGCGGGTATTTTGTATATTATTA
TGGAGTACTGCGGGGGTGGCGATTTGTCGACGGTCATCAAGCAGGCGGCGAAGCATAATAGGCCTATTTCGGAGG
ACCTCATTTGGAATTATTTCATGCAGATTTTGCTGGCGCTGCATCATTGCCACCACCCGAATGGACACGGCAGGA
GCGGAAGTGGGTCGGGGAGTGCTTTGACGGAGGGAGAGGGCGGTGGCAGCTCGAGGAGACCCCAGATTTTGCATC
GAGATTTGAAACCGGATAATGGTGCGTGGTGTTGGGTTATGGCGAGCGCTTGGGGCTGACGAGGGACTAGTTTTC
CTGGACGAAAACAACAATGTCAAGCTGGGCGATTTCGGGCTGTCGAAAGCACTGAACCAAGCCTCGTTCGCGAAT
ACCTACGTCGGGGTATGCCTTCCCATACCCCATCCCAGCCCCATCTAATCTCTTTCCCAGACGCCGTACTACATG
TCCCCGGAATTGATGCAGGAGAAAGCCTACGACTCCAAATCGGACATTTGGTCGTTAGGCTGCCTCATCTACGAA
CTCTGCGCTCTAAAACCACCATTCCACGAAGCCAAAACACATAACGAACTATCCATCCTTATTAGGTACGTTTGG
TTCATTTTCTTACTCTGGTTCAGAGACGAGGATTCACCGTCGATGATAGGAATGGACGCATACCGCCGCTGCCTC
GTGGGTACTCGCAGGCGTTGTTTGGGGTCATCAAGGCCATGTTGAATCTCAATGTACGTTGCTTTGTGTGGGGAT
TGTGGACCCTGTGATGGTTTGCTGATGTGGTTAATAGCCGGCTATGAGACCTTCCGCTGCGCAACTTCTTCAACA
TGAGCGGTTAGAGTTGGTATTCAAAGTGGCGGAGACCGAGAAAATGTGCGTGTATTCCCCTATCGATCCATTCGC
CCATATCTGATCTATCATTAGGCTATCAACTGTCAAAGCACACAAGAACGCCATGGTCGCTCGAGAGCGCGAAGT
CCTCGCACGGGAACAGATCATCGCTGAGAAGGAGCAGCACCTCCAACACCTCTTCTCCCAAAAGGACTCGGAAAT
CGCCCACCTCCAGCGCGTCGTCTCGCAGCTTCAAGCCCAGATCCATACCATCCAGAGCGAGCCGCGTATTACCCA
GCACGACCTCGAGGTGGCGACGAAACACGCGGTGGCGCGGCGCGAACAGGAGTTGAGGATATTGGTGCAGAAGAG
GGAAGAGGAGGTGGCGGCTGCGATGGCGAAACGCGAGGAGGAGATTATGGAGGCTGTGAGGAGGAGGGAGGCGGA
GGTGTGTGAGGCGTGGGCGAAGAGGGAGGCTGAGGTTAGGCAGGAGGTGGAGGTGTCGATTAAGGCGGTGGAGGA
GAGGATACAGTGGATATCGGAGAAGGAGGCGGAGCTTATAGAGGAGGAGGAGAGGCTTGAGGCGCTTAGAGAGGA
GTTGGAGGTTAGGGAGAAGAGGGTTGAGGAGTTGGCTAATAAGAAAGGTCTGTGGTGTTCATCGTCGGTTGAGAA
TGTTGCTGACCTTTGTGTAGGACGGACGAAGTCGCCGTTAGAAGAGATTAGGAATACGATGGAGCCAACGCCGCA
ACGACGGAATTACGATCCACCGCCATCGACTATTAAACGAAACCGAGTCGACTCGACGCCGAGAGCGACGACGAA
ACAGATGTTTCCCGCTGCACTCGAAACACCCATCACCCGGCCCTCGTACACCGACTACCTCCCTTCGGCGATGAA
GGGAGTCGTACTCACCTCGACTGGCGAAACGCTCGCCACGCCCTCGCCCAACGAACTCGCTACGTTATTCAACGC
TTCGCCCAAAGTTGGCCTTAACTTTGGCAAGATCTTCGATTTTGGCGAGGGCGACGACGATGTGACGAGTCCTAC
CAACACGACCACGCGACTATCTCTCGGCGGTGCTGGCTCGGGTTTGAACGGCGTGGGTGCGTCGGGGGTGAATGG
AGGAGTGCAGTTCCCGAATGGAGCGGGCAGCGAGAGCGACGAGGACGATGCCCCGCCGAGTCCGACGACGAGGAA
GGAGAGGGAGTTGAGGGAGAGAGCGGAGAGTCGGAGTAGTTTGGGAGGAGGGGAGGATGCGACTGTTACGATTGC
GATGAACCTTGGGTCTGCCACCAATGGCGCATCGGTATCGACACCGACACAGGCGTCAGTAGCTTCGAGCTCCAG
CTCGACGGCGACCGCTGCTCCCCCGACGAGGATACGACGCCCTTCGATTAGGAGGACGTCTACCTCGGGTGGGTT
GCCCCTCCCTATGCCTACGTCGGCTTCGAATCGGAGGTCGTTGGTGATTACGCCTTCGGCGTCGGGTGATTCGGT
GGCGTCTTCGTCGTCGTCGTCGTCGTCGGGTGGTTCGGCGGGTGGGTTCCAGCCTAAACCGCTCCCGCATCCGCA
CTTGAATTCGACGAGGGCGGCGCCGCTTCCCCCCAAGGGTCCAGCATCTCAAACGAAGGCCTCGTCATCGTCGTC
GGCGTCCGTGCAGCAAGCTTCGAAAACGGGTACGGTGTCGTCAAAGGCGGGTTCATCGTCGTCGTCGTCGTCGGT
GAAGGGTAGTGCGATGGGTTCGAAGGGTACGATGAATTCGAAGAGTTCGGTGCCGTTACCCCCGCCGCCCAAGTA
TGATTTGGCGGATGAGGAGAATTTACCGAGTCCGTTTTTGAAGAGGATTGAGAGGAGTGCGACGATGCCGGTTTT
GGGGTCTAGGGAGCGGGAGAGGGAGGTGAATGGCGTTGGGATGAACGGTGTAGGGAGGGAGACAAAGGAACGAGA
TGGTGGGGGTTCGATGCGCCTGACGGCGACGACGAAGAAGAGGCCTAGTACGGGCAATTTGCTGAGGACGATGGC
GGCTGCGAATAATATCACAAGGAAGGCGGCGTCTAGTTCGGCTAGTTCGTCGGGTTCGTCTGCTTCTGGGTCGGG
GGCGGATACGGCGAATGAAGGTGTGGTGAATGGGGGAGCGACGAGTGCGAGTACGGTTGGGACGACGCCTGCTAG
TTCGATGAATGGTGGTGGGCCGGTTCTGGCTGAGATGGTTGATGCGGGGTCGAGGGCTAGTTTGCTTAATGCGAG
GAGGGCGGGGGAGGAGGCGAGGAAGGGGTTGGTTGGGCGGTAGTGGTGGTGGAGGGGTAGGTGGTTGCTCGACGT
GCGAGGGCGGGTGGTGGGTGGTGGCGACTGTTTTCTCTTCTCCTTTTGCACTCTTAATGACACTCATAGACTTGA
CGGCACCTTTATGTTGTAGTTTTCTCCACTCTCTCTCTCTGGATACCCGGTCTCATTGTTTCTGATTCCAATTCA
TATGGTCGTTTTTCTTTTTTTCTATTGTCAGGGCGTTTTGGTCCCGTTGGTTGCGAGTTTCACGCTTGTCTCAGG
CTTTCGATATCTGTATTTTGGAACGAGTTTGTTGACCCACTGTCTCGTTTAGGGCTCTTCGGTCGTTTGTTTCCG
TCCGCGTTGTTGTTGCTTACGACTTCTCTCCCGAGAGCGTTCAGCCTCCTTACTCTATCCGATCTTTTGTTCAGT
CACGCTCGTCTCTCGTTTTCTTCACCGCTCGTCTCTCCTTTCATTCACCGCTCGTTTCGCCCTCTTGTGTCTGTG
GATCCATCCAAAAAGCTAACCTATTATCATGGCAATGTCTTTGCTTTCTTACGAGTTTATTATTTTACATTACGC
ACGTCCTTTGACGAATACTATCGCTTAGTTGTTTA
Length 4310