CopciAB_464876
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_464876 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 464876
Uniprot id Functional description Protein tyrosine kinase
Location scaffold_2:1329703..1333975 Strand +
Gene length (nt) 4273 Transcript length (nt) 3827
CDS length (nt) 3303 Protein length (aa) 1100

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_CAA7271468 58.3 0 1190
Hypsizygus marmoreus strain 51987-8 Hypma_RDB21484 56.8 0 1157
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_176428 54.8 0 1119
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_104412 54.4 0 1119
Flammulina velutipes Flave_chr10AA00504 52.4 0 1030
Lentinula edodes W1-26 v1.0 Lentinedodes1_3146 51.2 0 1019
Pleurotus ostreatus PC15 PleosPC15_2_1030871 56.5 1.851E-304 978
Pleurotus ostreatus PC9 PleosPC9_1_46100 56.5 1.949E-304 975
Grifola frondosa Grifr_OBZ65718 54.1 4.971E-287 907
Lentinula edodes B17 Lened_B_1_1_17743 78.4 1.077E-206 672
Lentinula edodes NBRC 111202 Lenedo1_1049739 78.3 1.499E-204 666
Pleurotus eryngii ATCC 90797 Pleery1_1571649 78.1 3.638E-202 659
Ganoderma sp. 10597 SS1 v1.0 Gansp1_50652 78.2 7.6E-201 655
Auricularia subglabra Aurde3_1_1151897 73.8 4.374E-191 627
Schizophyllum commune H4-8 Schco3_66128 72.6 7.581E-188 617

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 121.4768 10.2977 5.9454
oidia 105.2103 12.7807 7.3789
vegetative_mycelium 104.3898 8.9876 5.189
primordia 116.4934 4.8525 2.8016
hyphal_knot 83.1696 6.9544 4.0151
young_fruiting_body 93.2219 9.4959 5.4824
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 156.4289 6.4843 3.7437
Wheat bran 115.9176 23.0528 13.3095
Horse manure 146.0467 59.4598 34.3292
Oak leaves 178.2441 25.6481 14.8079
Hay 150.2824 14.0432 8.1079
Corn stalk 167.4225 17.3871 10.0385
Pectine 159.6241 2.5627 1.4796
Microcrystalline cellulose 144.2584 8.4903 4.9019
Xylose 156.7718 0.9886 0.5708
Cellobiose 132.5089 12.9365 7.4689
Lignin 174.3133 7.8385 4.5256
Apple peels 152.5198 14.0231 8.0962
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 89.862 2.0677 1.1938
Bsubtilis 90.3705 10.4062 6.008
Ecoli 100.1366 11.1538 6.4396
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 84.0722 7.0374 4.063
BS 4h 76.8688 11.5512 6.6691
BS 8h 60.357 6.4788 3.7406
BS 12h 50.9264 1.2083 0.6976
Oidia 0 h 69.2596 26.1809 15.1156
Oidia 18 h 64.0302 7.7528 4.4761
Sclerotia 55.3625 12.6585 7.3084
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 27.3099 2.93 1.6916
DM 36h 33.2938 2.374 1.3706
DM 60h 39.0473 7.1042 4.1016
DM 84h 28.8207 5.4374 3.1393
DM 108h 32.5965 1.8376 1.0609
DM 132h 31.0513 2.1619 1.2482
DM 156hAE 31.425 1.679 0.9694
ELI1hAE 47.4957 2.5174 1.4534
ELI2hAE 47.9011 5.2636 3.0389
LI2hAE 47.0483 7.0691 4.0814
LI6hAE 41.3556 7.5462 4.3568
LI12hAE 41.9359 5.0058 2.8901
LI18hAE 43.2549 6.3089 3.6425
LI 24hAE 32.0544 6.3948 3.692
DM 156hAM 26.2635 0.6655 0.3842
ELI1hAM 43.4189 2.8394 1.6393
ELI2hAM 48.0126 3.198 1.8464
LI2hAM 42.1062 3.0564 1.7646
LI6hAM 41.8742 3.4155 1.9719
LI12hAM 40.1023 4.6027 2.6574
LI18hAM 44.4075 2.9628 1.7106
LI 24hAM 32.0861 3.5862 2.0705
LI 24hHK 26.1507 2.7302 1.5763
L/D 6h 36.0324 2.9402 1.6975
L/D 12h 35.4117 4.2146 2.4333
L/D 18h 46.7026 6.2955 3.6347
L/D 24h 51.8425 3.6158 2.0876
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 55.0992 4.0197 2.3208
Hyphal knots 83.7013 3.1359 1.8105
Primordium 1 92.5723 13.7829 7.9576
Primordium 2 75.7429 5.3253 3.0745
Young Fruiting body cap 85.3437 11.8406 6.8362
Younf fruiting body gill 87.9704 13.9733 8.0675
Young fruiting body stipe 115.1817 16.9089 9.7624
Mature fruiting body cap_gill 89.7748 4.928 2.8452
Mature fruiting body stipe 73.1522 7.603 4.3896
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 91.0792 3.3978 1.9617
NH4NO3 107.4615 10.1527 5.8617
Proline 105.202 6.3334 3.6566
Tryptophan 94.0078 34.6497 20.005
Isoleucin 118.7665 15.1503 8.747
Arginine 123.1867 3.5156 2.0297
Metionine 103.2953 0.5024 0.2901
NaNO3 95.8938 5.8193 3.3598
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 91.0792 3.3978 1.9617
Citrus peel 64.274 7.3198 4.2261
Poplar leaves 94.4819 4.611 2.6622
Typha leaves 82.6098 6.9166 3.9933
Overwintered Salix leaves 89.4156 9.3528 5.3998
Reed flowering 91.9294 12.007 6.9322
Tigernut 89.7996 5.5925 3.2288
Energy cane 84.8872 2.5971 1.4995
Guar gum 82.3878 16.3165 9.4203
Apple peels 61.4496 14.1353 8.161
Cellobiose 92.7933 2.1916 1.2653
Corn stalk 67.7715 2.3243 1.3419
Horse manure 71.7219 11.2985 6.5232
Lignin 59.2673 23.228 13.4107
Microcrystalline cellulose 78.2563 5.7277 3.3069
Oak leaves 62.6763 14.6427 8.454
Pectin esterified 58.001 7.1668 4.1377
Poplar sawdust 73.1127 21.1312 12.2001
Wheat bran 61.4634 19.5183 11.2689
Chlamydomonas reinhardtii 87.0596 2.6274 1.517
Vertatryl alcohol 104.8504 5.8232 3.362
Furfural 117.7031 8.9738 5.181
Autoclaved mycelium 111.8894 19.9645 11.5265
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 114.48 7.8439 4.5287
Ribose 114.8996 5.7012 3.2916
Mannose 128.1348 5.7659 4.0771
Fructose 124.2018 6.8121 3.933
Arabinose 125.4652 7.2167 4.1666
Xylose 118.3785 1.6115 0.9304
Galacturonic acid 115.3617 11.2488 6.4945
Rhamnogalacturonan 121.7689 3.3986 1.9622
Pectin esterified 117.5598 2.1063 1.2161
Polygalacturonic acid 112.4424 18.147 10.4772
Sodium acetate 120.7726 3.9573 2.2847
No nitrogen 128.2625 8.8584 5.1144
BSA 125.8303 4.0793 2.3552
Glutamine 118.6992 8.0193 4.63
No phosphate 126.0503 6.6344 3.8304
No carbon 119.4151 0.9896 0.6998
No sulphur 143.6814 23.4356 13.5305
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 91.0792 3.3978 1.9617
Amylose 75.7539 6.9189 3.9946
Fucose 76.3374 6.3102 3.6432
Galactose 79.1281 6.645 3.8365
Lactose 103.4488 6.7946 3.9229
Maltose 94.7425 7.6008 4.3883
Mannitol 110.5091 4.6369 2.6771
Rhamnose 101.0183 12.4225 7.1721
Sorbitol 81.0412 6.3205 3.6491
Trehalose 86.9941 4.3786 2.528
Glycerol 93.7438 13.1981 7.6199
Glucuronic acid 84.222 3.9604 2.2865
Arabinan 74.4412 8.8117 5.0874
Galactan 78.024 7.8164 4.5128
Galactomannan 84.5755 18.451 10.6527
Glucan 98.541 10.8952 6.2903
Xylan 85.7983 9.7626 5.6365
Xyloglucan 86.8213 6.5534 3.7836
Arabinogalactan 91.6938 2.0921 1.2079
Pectin 61.3735 18.4445 10.6489
Rhamnogalacturonan 68.661 7.9868 4.6112
Polygalacturonic acid 105.3006 7.8689 4.5431
Mannan 80.1543 0.9696 0.5598
Amylopectin 68.3881 15.4985 8.9481
Inulin 85.659 10.6062 6.1235
BSA 107.8611 3.154 1.821
Starvation induced by water agar transfer Expression profiling on starvation induced by transfer to water agar Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Control 39.0473 7.1042 4.1016
2h WAT 30.1694 7.8348 4.5234
4h WAT 43.0574 6.4192 3.7061
8h WAT 35.9468 3.13 1.8071
16h WAT 32.0765 4.2264 2.4401
24h WAT 36.9083 9.4937 5.4812
WAT hyphal knot -30h 40.3543 3.1609 1.8249
WAT hyphal knot -22h 35.9014 4.3879 2.5333
WAT hyphal knot -15h 38.5752 4.2793 2.4707
WAT hyphal knot -7.5h 40.6827 4.4387 2.5627
WAT hyphal knot 41.2817 7.2163 4.1663
WAT hyphal knot +7.5h 39.8349 2.34 1.351
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 73.8299 29.0757 16.7869
Straw 3h 59.2358 13.8584 8.0012
Straw 6h 49.3734 11.9046 6.8732
Straw 12h 71.4972 7.2403 4.1802
Straw 24h 69.1077 11.3029 6.5257
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 35.4565 2.6916 1.554
Frost (-20C, 30min) 28.0081 2.2439 1.2955
Heat shock (47C, 2h) 54.12 10.4762 6.0484
High CO2 37.8969 5.119 2.9554
Drought (4% agar, 12h) 43.1433 4.7112 2.72
Oxidative (1mM H2O2, 3h) 42.7875 6.6589 3.8445
Acidic (pH4, 3h) 32.0502 8.2925 4.7877
Alkaline (pH9, 3h) 33.4551 3.1211 1.802
Osmotic (sorbitol 2h) 34.601 5.6325 3.2519
CongoRed (3h) 29.3666 3.2991 1.9047
Cobalt chloride control 37.4453 6.2052 3.5825
Cobalt chloride 2mM 33.9594 6.5062 3.7564
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 43.0431 11.6039 6.6995
Cold stimulation 42.0305 5.7956 3.3461
Scratched surface 42.9353 6.2766 3.6238
Ca2+, 200mM, 24h 27.5951 4.7933 2.7674
Cu2+, 2mM, 6h 37.7926 1.4099 0.814
Voriconazole 43.3651 5.8155 3.3576
Trichoderma interaction, early 38.129 6.9097 3.9893
Trichoderma interaction 60h 42.2261 21.1794 12.228
Cobalt chloride 2mM repeat 40.316 7.2322 4.1755
Hypoxia 39.2357 2.1916 1.2653
Hypoxia control 32.9277 9.06 5.2308
Protoplastation control 32.3335 8.2284 5.8184
Protoplastation 3.5h 51.2683 14.1082 9.976
Protoplastation 1.5h 35.2627 11.332 8.013

General data

Systematic name -
Protein id CopciAB_464876.T0
Description Protein tyrosine kinase

Annotation summary

0 300 600 900 1100

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd13999 STKc_MAP3K-like - 840 1093
Pfam PF07714 Protein tyrosine and serine/threonine kinase IPR001245 835 1093

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR000719 Protein kinase domain
IPR001245 Serine-threonine/tyrosine-protein kinase, catalytic domain
IPR011009 Protein kinase-like domain superfamily

GO

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

KEGG

KEGG Orthology
K04365
K17535

EggNOG

COG category Description
T Protein tyrosine kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_464876 across fungi.

Arrow shows the origin of gene family containing CopciAB_464876.

Protein

Sequence id CopciAB_464876.T0
Sequence >CopciAB_464876.T0
MAHHRRSPQNRGIPSSNGSPTAARRKYLLRRVPSRTSSHALDPESISSPVPNRPVLHPLHNLRRLPSRTLLVEGG
GKGFKMRQPDHHVQIGAKRKRVVSNNENAHTQGRSTRTKRVKTTVVNNKMYGSTSEESESEDSGMEIDLPSAPWH
DDSEPADEADEDEHLSDEQHELNSTDDHLLHWATFHQLNKVKKDDLVRLYRAANLPEDPELLTKAEIITVIMDAR
QDELASLPPSSPPGRTDAASSDYSSDEGNVAGDEETDAGPHYDAPGALRRRVTMHDIGKSSPRPMKGRSLSMGNV
MAPQSNGHQGLKRKASLRIQTEALSRPRTSKDSSPSTSALASSSTQSPPGHRLRSRKVSASTPVDVPTPTSAASK
GRGKGKNKQVEFSTEIVQVKSTSRRSSQKEKDRQREQAEALAEESDLTDLDDALPVPTSRPQPSPRRLRSKDRGR
THIDSKSRESDDADHTPTSKSRSAKAMPQSHSKPQPKRVTPMRKAKGKIKSLKESETEASHEEDGSENSEEDEEG
QEVEMEMEEDDGEGEMEEDQDADVQGGDTGEEDEVDELVSSASITPPPSNTYARKTPLRQRLRRRPCATTAELDA
EENEGDDEHEEDADGDDDDTETVDGHDGDEGEDDESTIAVEPRRLRNGKIVGDEEAHMDEDDGGSAEGGEEEAEE
SEETEGEPITVDETEEEAEEDTMEDEVDLSVATAKTLVRLRRDDLVKLCETRNLEPIGTKPQLAEALLQWRDRHA
NGSSCPSSTGTVRPPSTATTSRRRRKKQSSSSSVPVLLRSQKVHDDEPRTPVPGKEAKDKENDELELDLESLGLE
DREIPPEKIQKLEKIGSGGFKDVFIGKFRGRRIAISEFRGQLSAMDIKELKLLGGFDHPNIVRFLGVSIPENTKE
TPVMIVSELCSNGDLFDYIRNVSAPSLHKVLTMMLDIARGLEYLHMRKPSVIHRDCKSSNILITAKGVAKIADFG
LAKVKQSTRSMVRSLVGTVNWQAPELWTAHPKYNHKVDVFSCAMVFWEMLQWHLPNKKFPWEGMNEHAIYEQVGA
KKQRPSITGLRKQWCPEIVTLIEEMWAQDPSDRPTMSKVVETLEDLVRQY
Length 1100

Coding

Sequence id CopciAB_464876.T0
Sequence >CopciAB_464876.T0
ATGGCTCATCACCGTCGTTCTCCACAAAATCGAGGAATCCCTTCGTCAAACGGCTCTCCGACCGCTGCTCGCAGA
AAATATCTGCTTCGACGTGTACCGTCTCGCACATCTTCCCACGCTCTTGACCCCGAATCCATTTCGTCGCCAGTA
CCCAATCGGCCTGTGCTCCACCCTCTGCACAATTTACGGCGTTTGCCATCGAGGACATTGCTTGTGGAAGGGGGT
GGAAAGGGTTTCAAGATGAGGCAGCCGGACCATCATGTTCAGATTGGTGCCAAGAGAAAACGCGTCGTCAGTAAC
AATGAAAACGCGCATACTCAGGGTCGTTCGACGCGTACAAAGCGGGTAAAGACCACGGTGGTCAATAACAAGATG
TATGGTAGCACTAGTGAGGAGAGCGAATCAGAGGATAGTGGCATGGAGATCGATTTGCCTTCTGCTCCATGGCAC
GATGACTCAGAACCTGCGGACGAGGCCGATGAAGACGAACACTTGAGCGACGAACAACATGAACTCAATTCCACG
GATGATCACCTTCTTCACTGGGCAACTTTCCATCAACTCAACAAGGTCAAGAAGGACGACCTCGTTCGACTTTAC
CGCGCCGCAAACCTGCCGGAGGATCCAGAATTGCTCACAAAGGCCGAAATCATCACTGTTATCATGGATGCTCGG
CAGGACGAACTCGCCTCTCTCCCTCCATCTTCCCCGCCGGGAAGAACTGATGCGGCATCCTCTGACTACTCAAGT
GATGAGGGTAATGTTGCAGGTGATGAGGAGACAGACGCAGGTCCTCACTATGATGCTCCAGGTGCGCTGAGAAGG
CGTGTAACGATGCATGATATTGGAAAGTCTTCACCACGTCCTATGAAAGGGCGCAGCCTTTCAATGGGCAATGTT
ATGGCCCCGCAATCCAATGGCCACCAGGGACTGAAGCGGAAGGCTTCGTTGAGGATTCAAACAGAAGCGCTGTCC
AGGCCTCGCACTTCCAAGGATTCTTCCCCCAGCACTTCTGCCCTCGCATCTTCGAGCACACAATCTCCTCCTGGG
CATCGTCTTCGTTCCCGGAAAGTTTCAGCCTCAACTCCAGTCGACGTTCCTACCCCGACCTCCGCCGCCAGCAAA
GGCAGAGGAAAGGGCAAGAACAAACAAGTGGAGTTTAGCACTGAGATTGTTCAGGTCAAGTCGACTTCCCGACGT
AGTAGTCAGAAGGAGAAGGACCGCCAACGCGAGCAAGCTGAGGCTCTTGCAGAGGAAAGCGATCTTACCGATTTG
GACGATGCTCTCCCAGTGCCAACATCGCGCCCTCAGCCGAGCCCACGACGATTACGAAGTAAAGATCGGGGACGA
ACTCATATTGACTCGAAGAGCAGGGAAAGCGACGACGCCGACCATACGCCGACTTCCAAATCACGTTCCGCGAAA
GCCATGCCCCAATCTCATTCTAAACCGCAGCCGAAACGAGTGACCCCTATGCGCAAAGCGAAGGGCAAGATCAAG
AGCCTAAAGGAGTCTGAGACGGAGGCTAGCCATGAAGAGGATGGATCGGAAAACAGTGAAGAGGACGAGGAAGGG
CAGGAAGTGGAAATGGAAATGGAAGAAGACGATGGTGAAGGGGAGATGGAGGAGGACCAAGATGCAGACGTTCAG
GGGGGCGATACGGGAGAGGAGGACGAAGTCGATGAACTTGTATCATCAGCGTCCATTACCCCCCCTCCATCGAAC
ACGTATGCTCGAAAGACACCGCTGCGTCAAAGACTACGCCGTAGGCCATGCGCTACCACTGCGGAATTGGATGCT
GAAGAGAATGAAGGCGACGACGAGCACGAGGAAGATGCGGATGGCGATGATGATGACACCGAGACTGTGGATGGC
CACGATGGTGATGAGGGGGAGGATGACGAGTCTACCATCGCTGTTGAACCCCGTCGGCTCCGAAATGGGAAGATT
GTCGGCGACGAAGAGGCCCACATGGACGAGGATGACGGCGGTAGCGCTGAAGGTGGCGAAGAGGAAGCCGAGGAA
AGTGAAGAGACCGAGGGAGAGCCAATCACTGTCGATGAGACTGAAGAAGAGGCAGAAGAAGACACCATGGAAGAC
GAAGTGGACCTATCTGTCGCGACTGCCAAGACCTTGGTCCGCCTTCGGCGCGATGATCTCGTGAAGCTATGTGAG
ACTCGCAACCTTGAGCCAATAGGCACAAAGCCACAGCTTGCCGAAGCACTTCTTCAATGGCGGGACCGCCACGCC
AACGGGTCCTCGTGCCCCTCTTCCACGGGAACGGTGCGGCCGCCTTCGACAGCAACCACAAGTCGACGTCGACGG
AAGAAACAATCCAGCAGCTCCTCTGTTCCTGTTCTTCTGCGGTCGCAGAAAGTCCACGATGATGAACCGCGCACC
CCCGTCCCTGGCAAGGAGGCCAAAGACAAGGAGAATGATGAGCTTGAGCTTGATCTCGAAAGTCTGGGCCTTGAA
GATCGAGAAATCCCGCCCGAAAAGATCCAGAAGTTGGAGAAGATTGGTAGCGGAGGTTTCAAAGATGTTTTCATT
GGTAAATTCAGAGGTCGACGGATCGCTATTTCTGAATTCCGTGGCCAACTGAGCGCAATGGATATCAAGGAGCTT
AAACTCCTTGGTGGCTTTGACCACCCGAACATTGTTCGCTTCCTCGGCGTCAGTATCCCAGAGAACACCAAGGAA
ACACCGGTGATGATTGTCAGCGAATTGTGCTCGAATGGCGATCTGTTTGACTACATTCGCAATGTCAGTGCGCCC
TCACTTCACAAAGTTCTTACTATGATGCTTGATATTGCTCGCGGCTTGGAATACCTTCACATGCGCAAACCGTCT
GTTATTCACCGAGACTGCAAATCATCGAACATCCTTATCACTGCCAAAGGCGTTGCCAAGATTGCAGATTTCGGT
CTTGCCAAAGTGAAACAGTCGACAAGATCAATGGTTCGCAGCCTAGTCGGAACAGTCAACTGGCAGGCCCCTGAA
CTGTGGACGGCGCATCCCAAGTACAACCATAAAGTTGATGTATTTTCTTGTGCCATGGTCTTTTGGGAGATGCTT
CAGTGGCACCTTCCAAACAAGAAGTTCCCTTGGGAGGGAATGAATGAACATGCTATATACGAGCAAGTTGGTGCC
AAAAAGCAGAGACCATCAATCACTGGTTTACGAAAGCAATGGTGCCCGGAAATCGTCACTCTGATAGAAGAGATG
TGGGCCCAGGATCCCAGCGACCGCCCTACGATGTCGAAAGTGGTAGAAACCCTCGAAGACCTTGTTAGGCAATAT
TGA
Length 3303

Transcript

Sequence id CopciAB_464876.T0
Sequence >CopciAB_464876.T0
GAACATCAACGACGACGACGAAGAGGACTACGCAGCGACGACGGCGACAACGACGGAACGACACACGCAACACCC
AATTTTGCCATTAGGCGGCGCCTCAAGAGACACTTTTCGACAAGTTCCGCCTAGAATACCCACTTTCGCCTTCAT
TGGCTTGAGGGGATTTTCTAGTTCGCCGACGCTATCGACCTTTTCTGCCAGGTTATGGCTCATCACCGTCGTTCT
CCACAAAATCGAGGAATCCCTTCGTCAAACGGCTCTCCGACCGCTGCTCGCAGAAAATATCTGCTTCGACGTGTA
CCGTCTCGCACATCTTCCCACGCTCTTGACCCCGAATCCATTTCGTCGCCAGTACCCAATCGGCCTGTGCTCCAC
CCTCTGCACAATTTACGGCGTTTGCCATCGAGGACATTGCTTGTGGAAGGGGGTGGAAAGGGTTTCAAGATGAGG
CAGCCGGACCATCATGTTCAGATTGGTGCCAAGAGAAAACGCGTCGTCAGTAACAATGAAAACGCGCATACTCAG
GGTCGTTCGACGCGTACAAAGCGGGTAAAGACCACGGTGGTCAATAACAAGATGTATGGTAGCACTAGTGAGGAG
AGCGAATCAGAGGATAGTGGCATGGAGATCGATTTGCCTTCTGCTCCATGGCACGATGACTCAGAACCTGCGGAC
GAGGCCGATGAAGACGAACACTTGAGCGACGAACAACATGAACTCAATTCCACGGATGATCACCTTCTTCACTGG
GCAACTTTCCATCAACTCAACAAGGTCAAGAAGGACGACCTCGTTCGACTTTACCGCGCCGCAAACCTGCCGGAG
GATCCAGAATTGCTCACAAAGGCCGAAATCATCACTGTTATCATGGATGCTCGGCAGGACGAACTCGCCTCTCTC
CCTCCATCTTCCCCGCCGGGAAGAACTGATGCGGCATCCTCTGACTACTCAAGTGATGAGGGTAATGTTGCAGGT
GATGAGGAGACAGACGCAGGTCCTCACTATGATGCTCCAGGTGCGCTGAGAAGGCGTGTAACGATGCATGATATT
GGAAAGTCTTCACCACGTCCTATGAAAGGGCGCAGCCTTTCAATGGGCAATGTTATGGCCCCGCAATCCAATGGC
CACCAGGGACTGAAGCGGAAGGCTTCGTTGAGGATTCAAACAGAAGCGCTGTCCAGGCCTCGCACTTCCAAGGAT
TCTTCCCCCAGCACTTCTGCCCTCGCATCTTCGAGCACACAATCTCCTCCTGGGCATCGTCTTCGTTCCCGGAAA
GTTTCAGCCTCAACTCCAGTCGACGTTCCTACCCCGACCTCCGCCGCCAGCAAAGGCAGAGGAAAGGGCAAGAAC
AAACAAGTGGAGTTTAGCACTGAGATTGTTCAGGTCAAGTCGACTTCCCGACGTAGTAGTCAGAAGGAGAAGGAC
CGCCAACGCGAGCAAGCTGAGGCTCTTGCAGAGGAAAGCGATCTTACCGATTTGGACGATGCTCTCCCAGTGCCA
ACATCGCGCCCTCAGCCGAGCCCACGACGATTACGAAGTAAAGATCGGGGACGAACTCATATTGACTCGAAGAGC
AGGGAAAGCGACGACGCCGACCATACGCCGACTTCCAAATCACGTTCCGCGAAAGCCATGCCCCAATCTCATTCT
AAACCGCAGCCGAAACGAGTGACCCCTATGCGCAAAGCGAAGGGCAAGATCAAGAGCCTAAAGGAGTCTGAGACG
GAGGCTAGCCATGAAGAGGATGGATCGGAAAACAGTGAAGAGGACGAGGAAGGGCAGGAAGTGGAAATGGAAATG
GAAGAAGACGATGGTGAAGGGGAGATGGAGGAGGACCAAGATGCAGACGTTCAGGGGGGCGATACGGGAGAGGAG
GACGAAGTCGATGAACTTGTATCATCAGCGTCCATTACCCCCCCTCCATCGAACACGTATGCTCGAAAGACACCG
CTGCGTCAAAGACTACGCCGTAGGCCATGCGCTACCACTGCGGAATTGGATGCTGAAGAGAATGAAGGCGACGAC
GAGCACGAGGAAGATGCGGATGGCGATGATGATGACACCGAGACTGTGGATGGCCACGATGGTGATGAGGGGGAG
GATGACGAGTCTACCATCGCTGTTGAACCCCGTCGGCTCCGAAATGGGAAGATTGTCGGCGACGAAGAGGCCCAC
ATGGACGAGGATGACGGCGGTAGCGCTGAAGGTGGCGAAGAGGAAGCCGAGGAAAGTGAAGAGACCGAGGGAGAG
CCAATCACTGTCGATGAGACTGAAGAAGAGGCAGAAGAAGACACCATGGAAGACGAAGTGGACCTATCTGTCGCG
ACTGCCAAGACCTTGGTCCGCCTTCGGCGCGATGATCTCGTGAAGCTATGTGAGACTCGCAACCTTGAGCCAATA
GGCACAAAGCCACAGCTTGCCGAAGCACTTCTTCAATGGCGGGACCGCCACGCCAACGGGTCCTCGTGCCCCTCT
TCCACGGGAACGGTGCGGCCGCCTTCGACAGCAACCACAAGTCGACGTCGACGGAAGAAACAATCCAGCAGCTCC
TCTGTTCCTGTTCTTCTGCGGTCGCAGAAAGTCCACGATGATGAACCGCGCACCCCCGTCCCTGGCAAGGAGGCC
AAAGACAAGGAGAATGATGAGCTTGAGCTTGATCTCGAAAGTCTGGGCCTTGAAGATCGAGAAATCCCGCCCGAA
AAGATCCAGAAGTTGGAGAAGATTGGTAGCGGAGGTTTCAAAGATGTTTTCATTGGTAAATTCAGAGGTCGACGG
ATCGCTATTTCTGAATTCCGTGGCCAACTGAGCGCAATGGATATCAAGGAGCTTAAACTCCTTGGTGGCTTTGAC
CACCCGAACATTGTTCGCTTCCTCGGCGTCAGTATCCCAGAGAACACCAAGGAAACACCGGTGATGATTGTCAGC
GAATTGTGCTCGAATGGCGATCTGTTTGACTACATTCGCAATGTCAGTGCGCCCTCACTTCACAAAGTTCTTACT
ATGATGCTTGATATTGCTCGCGGCTTGGAATACCTTCACATGCGCAAACCGTCTGTTATTCACCGAGACTGCAAA
TCATCGAACATCCTTATCACTGCCAAAGGCGTTGCCAAGATTGCAGATTTCGGTCTTGCCAAAGTGAAACAGTCG
ACAAGATCAATGGTTCGCAGCCTAGTCGGAACAGTCAACTGGCAGGCCCCTGAACTGTGGACGGCGCATCCCAAG
TACAACCATAAAGTTGATGTATTTTCTTGTGCCATGGTCTTTTGGGAGATGCTTCAGTGGCACCTTCCAAACAAG
AAGTTCCCTTGGGAGGGAATGAATGAACATGCTATATACGAGCAAGTTGGTGCCAAAAAGCAGAGACCATCAATC
ACTGGTTTACGAAAGCAATGGTGCCCGGAAATCGTCACTCTGATAGAAGAGATGTGGGCCCAGGATCCCAGCGAC
CGCCCTACGATGTCGAAAGTGGTAGAAACCCTCGAAGACCTTGTTAGGCAATATTGACGTGCTGTACTTTTTCCT
TCTTTCGCAACCGCTCTACTTGCCACCGTTCGGTTTCTTCGATGCTCACTCTTCTGACCACATCCATTTAAGTTT
TAGTAGACACCATGCAGACATTTTACATGTATTGTTTCGCCGCCTTCCGTTTCATAGGCGTTACTACATCTTCGC
ACCTTTCTACACTTCACTCACTTTTAAGCACATTCTTTCGGGGTTTTTATGTTATTCTTTAACAGACTATCTATC
GGCCTTGGTACTTGATGAACTTTATTCCCCTGCGCACTGTATCTTAGTAGCTCAATCATGACAAATTCACTACCA
CC
Length 3827

Gene

Sequence id CopciAB_464876.T0
Sequence >CopciAB_464876.T0
GAACATCAACGACGACGACGAAGAGGACTACGCAGCGACGACGGCGACAACGACGGAACGACACACGCAACACCC
AATTTTGCCATTAGGCGGCGCCTCAAGAGACACTTTTCGACAAGTTCCGCCTAGAATACCCACTTTCGCCTTCAT
TGGCTTGAGGGGATTTTCTAGTTCGCCGACGCTATCGACCTTTTCTGCCAGGTTATGGCTCATCACCGTCGTTCT
CCACAAAATCGAGGAATCCCTTCGTCAAACGGCTCTCCGACCGCTGCTCGCAGAAAATATCTGCTTCGACGTGTA
CCGTCTCGCACATCTTCCCACGCTCTTGACCCCGAATCCATTTCGTCGCCAGTACCCAATCGGCCTGTGCTCCAC
CCTCTGCACAATTTACGGCGTTTGCCATCGAGGACATTGCTTGTGGAAGGGGGTGGAAAGGGTTTCAAGATGAGG
CAGCCGGACCATCATGTTCAGATTGGTGCCAAGAGAAAACGCGTCGTCAGTAACAATGAAAACGCGCATACTCAG
GGTCGTTCGACGCGTACAAAGCGGGTAAAGACCACGGTGGTCAATAACAAGATGTATGGTAGCACTAGTGAGGAG
AGCGAATCAGAGGATAGTGGCATGGAGATCGATTTGCCTTCTGCTCCATGGCACGATGACTCAGAACCTGCGGAC
GAGGCCGATGAAGACGAACACTTGAGCGACGAACAACATGAACTCAATTCCAGTCAGTTGTCCTTGTCTACCGTC
ACTGTCCAAAACTGACAGTATTTTCAGCGGATGATCACCTTCTTCACTGGGCAACTTTCCATCAACTCAACAAGG
TCAAGAAGGACGACCTCGTTCGACTTTACCGCGCCGCAAACCTGCCGGAGGATCCAGAATTGCTCACAAAGGCCG
AAATCATCACTGTTATCATGGATGCTCGGCAGGACGAACTCGCCTCTCTCCCTCCATCTTCCCCGCCGGGAAGAA
CTGATGCGGCATCCTCTGACTACTCAAGTGATGAGGGTAATGTTGCAGGTGATGAGGAGACAGACGCAGGTCCTC
ACTATGATGCTCCAGGTGCGCTGAGAAGGCGTGTAACGATGCATGATATTGGAAAGTCTTCACCACGTCCTATGA
AAGGGCGCAGCCTTTCAATGGGCAATGTTATGGCCCCGCAATCCAATGGCCACCAGGGACTGAAGCGGAAGGCTT
CGTTGAGGATTCAAACAGAAGCGCTGTCCAGGTATGCATTCTTCGTACGTTGCAATCCATTTTACTCACCAACAT
AACGCCGACAGGCCTCGCACTTCCAAGGATTCTTCCCCCAGCACTTCTGCCCTCGCATCTTCGAGCACACAATCT
CCTCCTGGGCATCGTCTTCGTTCCCGGAAAGTTTCAGCCTCAACTCCAGTCGACGTTCCTACCCCGACCTCCGCC
GCCAGCAAAGGCAGAGGAAAGGGCAAGAACAAACAAGTGGAGTTTAGCACTGAGATTGTTCAGGTCAAGTCGACT
TCCCGACGTAGTAGTCAGAAGGAGAAGGACCGCCAACGCGAGCAAGCTGAGGCTCTTGCAGAGGAAAGCGATCTT
ACCGATTTGGACGATGCTCTCCCAGTGCCAACATCGCGCCCTCAGCCGAGCCCACGACGATTACGAAGTAAAGAT
CGGGGACGAACTCATATTGACTCGAAGAGCAGGGAAAGCGACGACGCCGACCATACGCCGACTTCCAAATCACGT
TCCGCGAAAGCCATGCCCCAATCTCATTCTAAACCGCAGCCGAAACGAGTGACCCCTATGCGCAAAGCGAAGGGC
AAGATCAAGAGCCTAAAGGAGTCTGAGACGGAGGCTAGCCATGAAGAGGATGGATCGGAAAACAGTGAAGAGGAC
GAGGAAGGGCAGGAAGTGGAAATGGAAATGGAAGAAGACGATGGTGAAGGGGAGATGGAGGAGGACCAAGATGCA
GACGTTCAGGGGGGCGATACGGGAGAGGAGGACGAAGTCGATGAACTTGTATCATCAGCGTCCATTACCCCCCCT
CCATCGAACACGTATGCTCGAAAGACACCGCTGCGTCAAAGACTACGCCGTAGGCCATGCGCTACCACTGCGGAA
TTGGATGCTGAAGAGAATGAAGGCGACGACGAGCACGAGGAAGATGCGGATGGCGATGATGATGACACCGAGACT
GTGGATGGCCACGATGGTGATGAGGGGGAGGATGACGAGTCTACCATCGCTGTTGAACCCCGTCGGCTCCGAAAT
GGGAAGATTGTCGGCGACGAAGAGGCCCACATGGACGAGGATGACGGCGGTAGCGCTGAAGGTGGCGAAGAGGAA
GCCGAGGAAAGTGAAGAGACCGAGGGAGAGCCAATCACTGTCGATGAGACTGAAGAAGAGGCAGAAGAAGACACC
ATGGAAGACGAAGGTAAGTATGCAATGCCTTGCATCATAAACGTGTCTTCAACACGCCTTATTTATAGTGGACCT
ATCTGTCGCGACTGCCAAGACCTTGGTCCGCCTTCGGCGCGATGATCTCGTGAAGCTATGTGAGACTCGCAACCT
TGAGCCAATAGGCACAAAGCCACAGCTTGCCGAAGCACTTCTTCAATGGCGGGACCGCCACGCCAACGGGTCCTC
GTGCCCCTCTTCCACGGGAACGGTGCGGCCGCCTTCGACAGCAACCACAAGTCGACGTCGACGGAAGAAACAATC
CAGCAGCTCCTCTGTTCCTGTTCTTCTGCGGTCGCAGAAAGTCCACGATGATGAACCGCGCACCCCCGTCCCTGG
CAAGGAGGCCAAAGACAAGGAGAATGATGAGCTTGAGCTTGATCTCGAAAGTCTGGGCCTTGAAGATCGAGAAAT
CCCGCCCGAAAAGATCCAGAAGTTGGAGAAGATTGGTAGCGGAGGTTTCAAAGATGTTTTCATTGGTAAATTCAG
AGGTCGACGGATCGCTATTTCTGAATTCCGTGGCCAACTGAGCGCAAGTAAGTTTATCGTGTGCTCGTTGTATCG
ATGGGTGGTTATTAACCTCGTCTGCCTTTCTAGTGGATATCAAGGAGCTTAAACTCCTTGGTGGCTTTGACCACC
CGAACATTGTTCGCTTCGTGAGTAGGGGTTTTAAACATTGACTGTGATGGCTCTGACCTTACCTTATTCCAGCTC
GGCGTCAGTATCCCAGAGAACACCAAGGAAACACCGGTGATGATTGTCAGCGAATTGTGCTCGAATGGCGATCTG
TTTGACTACATTCGCAATGTCAGTGCGCCCTCACTTCACAAAGTTGTATGTCCATTCCCGCTTTGCTGCCAACTC
CACCGCCTCACGTTCCTCCTTATTCCCGCTTAGCTTACTATGATGCTTGATATTGCTCGCGGCTTGGAATACCTT
CACATGCGCAAACCGTCTGTTATTCACCGAGACTGCAAATCATCGAACATCCTTATCACTGCCAAAGGCGTTGCC
AAGATTGCAGATTTCGGTCTTGCCAAAGTGAAACAGTCGACAAGATCAATGGTTCGCAGCCTAGTCGGAACAGTC
AACTGGCAGGCCCCTGAACTGTGGACGGCGCATCCCAAGTACAACCATAAAGTTGATGTATTTTCTTGTGCCATG
GTCTTTTGGGAGATGCTTCAGTGGCACCTTCCAAACAAGAAGTTCCCTTGGGAGGTGAGGAGTGTTTTCTCGTCT
CAACTCGAAGCACTGGAATTCTTACTTGCTACAAGGGAATGAATGAACATGCTATATACGAGCAAGTTGGTGCCA
AAAAGCAGAGGTGTGTACACTTGCCTTTATGCTGTCGTGACGTGCTAACTGCCAGTTTCAGACCATCAATCACTG
GTTTACGAAAGCAATGGTGCCCGGAAATCGTCACTCTGATAGAAGAGATGTGGGCCCAGGATCCCAGCGACCGCC
CTACGATGTCGAAAGTGGTAGAAACCCTCGAAGACCTTGTTAGGCAATATTGACGTGCTGTACTTTTTCCTTCTT
TCGCAACCGCTCTACTTGCCACCGTTCGGTTTCTTCGATGCTCACTCTTCTGACCACATCCATTTAAGTTTTAGT
AGACACCATGCAGACATTTTACATGTATTGTTTCGCCGCCTTCCGTTTCATAGGCGTTACTACATCTTCGCACCT
TTCTACACTTCACTCACTTTTAAGCACATTCTTTCGGGGTTTTTATGTTATTCTTTAACAGACTATCTATCGGCC
TTGGTACTTGATGAACTTTATTCCCCTGCGCACTGTATCTTAGTAGCTCAATCATGACAAATTCACTACCACC
Length 4273