CopciAB_440447
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_440447 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 440447
Uniprot id Functional description Protein tyrosine kinase
Location scaffold_1:3005379..3009165 Strand +
Gene length (nt) 3787 Transcript length (nt) 3520
CDS length (nt) 2757 Protein length (aa) 918

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_RDB29116 58.9 0 1037
Agrocybe aegerita Agrae_CAA7258752 60.3 0 1034
Pleurotus eryngii ATCC 90797 Pleery1_1443780 55.9 1.263E-291 929
Lentinula edodes NBRC 111202 Lenedo1_1165343 53.5 4.786E-290 907
Lentinula edodes W1-26 v1.0 Lentinedodes1_15450 53.4 1.05E-289 906
Schizophyllum commune H4-8 Schco3_2610618 55.7 2.869E-288 902
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_189977 56.2 4.469E-287 898
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_110128 56 2.276E-286 896
Pleurotus ostreatus PC15 PleosPC15_2_1062510 45.4 1.041E-210 676
Flammulina velutipes Flave_chr08AA00688 44.5 8.975E-202 650
Pleurotus ostreatus PC9 PleosPC9_1_115629 42.7 4.734E-198 639
Ganoderma sp. 10597 SS1 v1.0 Gansp1_40160 39.8 1.007E-171 562
Lentinula edodes B17 Lened_B_1_1_4177 50.5 8.682E-172 562

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 93.6061 11.0581 6.3844
oidia 96.3623 11.0832 6.3989
vegetative_mycelium 90.1526 10.8339 6.2549
primordia 142.072 3.7701 2.1766
hyphal_knot 131.2928 7.1884 4.1502
young_fruiting_body 304.4222 30.3859 17.5433
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 150.5138 26.9819 15.578
Wheat bran 71.6644 35.7827 20.6591
Horse manure 151.2905 60.7901 35.0972
Oak leaves 290.1395 91.8291 53.0176
Hay 139.7625 20.5345 11.8556
Corn stalk 190.3055 19.9829 11.5372
Pectine 194.6666 9.3219 5.382
Microcrystalline cellulose 134.5945 19.6203 11.3278
Xylose 162.2944 36.9679 21.3434
Cellobiose 134.5889 32.9404 19.0181
Lignin 254.9337 49.669 28.6764
Apple peels 180.7789 22.4466 12.9596
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 107.1833 2.684 1.5496
Bsubtilis 99.7989 10.1022 5.8325
Ecoli 149.3505 6.7862 3.918
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 33.1441 1.2261 0.7079
BS 4h 40.7795 1.9893 1.1485
BS 8h 59.3418 14.6053 8.4324
BS 12h 55.8418 16.7121 9.6487
Oidia 0 h 119.4651 23.8661 13.7791
Oidia 18 h 86.5913 16.1924 9.3487
Sclerotia 32.3628 2.8309 1.6344
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 45.8738 2.7004 1.5591
DM 36h 53.7915 9.2463 5.3384
DM 60h 60.5498 4.8988 2.8283
DM 84h 51.8889 2.7024 1.5602
DM 108h 52.847 5.4947 3.1724
DM 132h 53.939 1.4876 0.8589
DM 156hAE 101.1482 15.2658 8.8137
ELI1hAE 46.7262 5.2549 3.0339
ELI2hAE 50.911 0.1792 0.1035
LI2hAE 50.5211 8.1915 4.7293
LI6hAE 59.0583 5.1323 2.9631
LI12hAE 39.7121 6.0054 3.4672
LI18hAE 34.7972 9.3201 5.381
LI 24hAE 68.154 13.8862 8.0172
DM 156hAM 51.3542 8.8517 5.1106
ELI1hAM 28.2567 6.039 3.4866
ELI2hAM 29.5245 5.2436 3.0274
LI2hAM 35.5195 7.8662 4.5415
LI6hAM 53.3191 4.7685 2.7531
LI12hAM 34.8706 7.4779 4.3174
LI18hAM 38.6277 8.5313 4.9256
LI 24hAM 69.168 8.7409 5.0465
LI 24hHK 38.4934 12.5559 7.2491
L/D 6h 57.0906 2.6171 1.511
L/D 12h 70.2742 10.6377 6.1417
L/D 18h 76.3087 5.4025 3.1191
L/D 24h 82.7972 4.3172 2.4925
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 72.6667 12.4271 7.1748
Hyphal knots 121.8698 25.4183 14.6752
Primordium 1 132.5638 24.2125 13.9791
Primordium 2 125.7757 39.5706 22.8461
Young Fruiting body cap 450.3985 205.7521 118.7911
Younf fruiting body gill 135.7835 22.4492 12.961
Young fruiting body stipe 284.8745 101.0047 58.3151
Mature fruiting body cap_gill 2752.7384 483.81 279.3278
Mature fruiting body stipe 2108.2732 465.2603 268.6182
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 179.449 41.9891 24.2424
NH4NO3 110.8181 6.5508 3.7821
Proline 158.2634 14.2906 8.2507
Tryptophan 190.2009 15.0326 8.6791
Isoleucin 172.1747 12.1362 7.0068
Arginine 167.7167 7.0321 4.06
Metionine 141.8009 4.8372 2.7927
NaNO3 144.9948 7.724 4.4594
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 179.449 41.9891 24.2424
Citrus peel 114.4159 19.7652 11.4114
Poplar leaves 147.3055 30.2048 17.4388
Typha leaves 144.4048 9.9337 5.7352
Overwintered Salix leaves 143.5208 13.2895 7.6727
Reed flowering 175.1377 32.5797 18.8099
Tigernut 125.1213 11.6691 6.7372
Energy cane 149.6331 8.6537 4.9962
Guar gum 121.5847 12.2167 7.0533
Apple peels 117.8494 15.0524 8.6905
Cellobiose 135.8996 11.8249 6.8271
Corn stalk 138.5636 4.378 2.5276
Horse manure 146.152 14.1705 8.1813
Lignin 148.9627 25.4528 14.6952
Microcrystalline cellulose 156.9743 39.4208 22.7596
Oak leaves 104.8073 28.6131 16.5198
Pectin esterified 99.2727 10.5837 6.1105
Poplar sawdust 121.6413 25.3582 14.6406
Wheat bran 87.6965 23.5867 13.6178
Chlamydomonas reinhardtii 129.7935 15.4306 8.9089
Vertatryl alcohol 97.873 12.9551 7.4796
Furfural 161.216 12.4726 7.2011
Autoclaved mycelium 155.0501 19.4913 11.2533
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 100.6499 4.4628 2.5766
Ribose 121.61 1.7626 1.0176
Mannose 128.8133 5.7777 4.0855
Fructose 127.853 4.6859 2.7054
Arabinose 136.0675 10.7307 6.1954
Xylose 135.5111 1.6007 0.9242
Galacturonic acid 130.86 3.6917 2.1314
Rhamnogalacturonan 130.3503 13.3707 7.7196
Pectin esterified 118.1533 3.5756 2.0643
Polygalacturonic acid 117.2136 13.3015 7.6797
Sodium acetate 130.9865 2.6528 1.5316
No nitrogen 164.2566 13.0178 7.5158
BSA 127.8857 5.8432 3.3736
Glutamine 126.8879 6.0136 3.472
No phosphate 123.0112 8.9607 5.1735
No carbon 128.8913 8.8716 6.2732
No sulphur 122.023 15.7072 9.0685
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 179.449 41.9891 24.2424
Amylose 101.0775 7.225 4.1714
Fucose 107.1321 12.2223 7.0565
Galactose 101.0741 1.6201 0.9353
Lactose 136.7375 39.3905 22.7421
Maltose 161.6029 30.1908 17.4307
Mannitol 157.4675 16.9629 9.7935
Rhamnose 143.1787 18.0621 10.4281
Sorbitol 106.2266 12.6445 7.3003
Trehalose 131.9207 42.6449 24.621
Glycerol 146.3315 25.2397 14.5721
Glucuronic acid 114.461 5.4158 3.1268
Arabinan 109.3899 14.2444 8.224
Galactan 128.2147 8.3196 4.8033
Galactomannan 91.6766 22.8243 13.1776
Glucan 117.9572 12.6352 7.295
Xylan 104.4071 18.154 10.4812
Xyloglucan 130.0684 7.9629 4.5974
Arabinogalactan 119.2943 8.7237 5.0366
Pectin 113.5435 57.4859 33.1895
Rhamnogalacturonan 160.8423 43.6688 25.2122
Polygalacturonic acid 119.2931 5.616 3.2424
Mannan 117.2484 7.5594 4.3644
Amylopectin 106.9661 7.2685 4.1965
Inulin 142.4486 24.1626 13.9503
BSA 263.6062 25.1697 14.5317
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 60.5498 4.8988 2.8283
2h WAT 38.98 3.9669 2.2903
4h WAT 34.6488 6.5001 3.7528
8h WAT 31.2063 5.4156 3.1267
16h WAT 29.7425 5.9509 3.4358
24h WAT 31.3543 4.7034 2.7155
WAT hyphal knot -30h 31.959 2.6592 1.5353
WAT hyphal knot -22h 34.7493 1.3064 0.7543
WAT hyphal knot -15h 34.416 1.8264 1.0545
WAT hyphal knot -7.5h 24.6987 5.1669 2.9831
WAT hyphal knot 31.3214 5.87 3.389
WAT hyphal knot +7.5h 34.3472 4.8344 2.7911
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 139.6473 10.9257 6.3079
Straw 3h 99.4019 10.7427 6.2023
Straw 6h 94.6693 8.3754 4.8355
Straw 12h 130.3546 5.6937 3.2873
Straw 24h 116.1922 6.9055 3.9869
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 51.0751 4.3251 2.4971
Frost (-20C, 30min) 31.0566 1.5021 0.8672
Heat shock (47C, 2h) 54.8562 3.4585 1.9968
High CO2 33.943 7.5468 4.3571
Drought (4% agar, 12h) 24.8559 4.3573 2.5157
Oxidative (1mM H2O2, 3h) 41.6129 10.8661 6.2735
Acidic (pH4, 3h) 36.0636 8.3933 4.8459
Alkaline (pH9, 3h) 28.6568 3.7695 2.1763
Osmotic (sorbitol 2h) 27.2215 2.362 1.3637
CongoRed (3h) 28.9967 4.0211 2.3216
Cobalt chloride control 27.9517 1.7661 1.0196
Cobalt chloride 2mM 26.9897 1.5129 0.8735
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 37.0679 7.5664 4.3685
Cold stimulation 38.4268 12.4776 7.2039
Scratched surface 23.8467 3.6501 2.1074
Ca2+, 200mM, 24h 21.5377 1.7818 1.0287
Cu2+, 2mM, 6h 38.2906 5.3678 3.0991
Voriconazole 28.3819 4.1243 2.3812
Trichoderma interaction, early 27.9629 5.5496 3.204
Trichoderma interaction 60h 40.9034 15.4865 8.9411
Cobalt chloride 2mM repeat 53.8725 7.1914 4.152
Hypoxia 37.8857 16.4615 9.5041
Hypoxia control 27.7796 6.9149 3.9923
Protoplastation control 29.7361 2.8984 2.0495
Protoplastation 3.5h 68.6915 2.1016 1.4861
Protoplastation 1.5h 52.7185 11.6493 8.2373

General data

Systematic name -
Protein id CopciAB_440447.T0
Description Protein tyrosine kinase

Annotation summary

0 200 400 600 800 918

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF00069 Protein kinase domain IPR000719 57 199
Pfam PF00069 Protein kinase domain IPR000719 745 907

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR017441 Protein kinase, ATP binding site
IPR000719 Protein kinase domain
IPR011009 Protein kinase-like domain superfamily
IPR008271 Serine/threonine-protein kinase, active site

GO

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

KEGG

KEGG Orthology
K08832
K15409

EggNOG

COG category Description
T Protein tyrosine kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_440447 across fungi.

Arrow shows the origin of gene family containing CopciAB_440447.

Protein

Sequence id CopciAB_440447.T0
Sequence >CopciAB_440447.T0
MAPKPPCAKYQYVVTPAGPKIVPVDEPSCKDEESPADYNAGGYLPVKVNDTFKQGRYRVVRKLGWGHFSTVWLVK
DSQSGVHSALKVVKSAGRYAETARDEIKLLSRVASVSPDHPGRAHIVSFLDSFSHQGPESSHICIVFEPLGENLL
ALIERNKKKGVPKALVKIIAKQVLLGLQYLHDECDLVHTDIKPENILISIPDIEAHIHQELSLSPSPASRRVGVP
LPTKSRAGVTIPYNNRQGSKRQVQIFESQPLSSPGRSLGRNSAGGHSNLTMSRAPGSGSASGHNSQSNSYVAQMN
ILRNSSHGLPAHTSFISGAPTGSSAPKVPSHLSCSFAVPRPKSPMRASTTAANAAPVPPPDSKSPSTSSSSSSIS
SALVSTLAGSGSLISTPPTSLSQSMTSGVVGFTKSTCLEVTSVRQTLEELDELTRSGIPIQMKGKEKEPEGLSAG
SSPLKPSSWIEQASSLSSSYKSKGSPFKSSKPRSSNRHGHSHSQSGAPWQDPGVASPAPAVLVNAVASADGQETS
QTAFNSLRTSSSSTSTITIAHSESSSTTATATQPSPTGTPLGPRKTKTMSIINGVSKLISDTSTMLSTGLHPTSE
TKPNTNTTNRTPQSGETNVTTNHVSLLTQTAPTRISANVEPLRTTTTRPSPPQHISQLSAHMHSEPCPSLPSHDS
VLSSHFPSETSRPNFTTVSTAIAQRLVFGTSSSPAPPPPTPVDGPVFGSFPISPPPPFTSQFPNPPPISIKIADL
GNATPSKKHFTEDIQTRQYRAPEAIVGRKDWDTRADVWSVACVVFELLTAEYLFDPQGQGELFTKDDDHMAQIIE
LLGDFPLDVKMGGKYSRELFDHTGALRYIRTLKPWPLKRVMIEKYLYSEEDSDALCAFLEPMLKADMRERAHARD
MLDHPWLDVSNEEEVTEW
Length 918

Coding

Sequence id CopciAB_440447.T0
Sequence >CopciAB_440447.T0
ATGGCCCCCAAGCCTCCCTGCGCAAAGTACCAGTACGTCGTCACTCCAGCAGGCCCAAAGATCGTCCCCGTCGAT
GAGCCATCGTGCAAAGACGAGGAGAGCCCCGCAGACTACAATGCTGGCGGTTATCTCCCCGTGAAGGTCAATGAT
ACATTCAAGCAGGGCAGATATAGAGTCGTTCGCAAGCTTGGTTGGGGTCACTTTTCAACCGTCTGGCTCGTCAAG
GATTCCCAGTCCGGCGTACACAGCGCACTCAAGGTCGTCAAGTCCGCCGGACGCTATGCAGAGACAGCCAGAGAC
GAGATCAAGCTCCTCTCCCGGGTCGCTTCTGTTTCTCCGGACCATCCTGGAAGAGCACATATCGTCTCTTTCCTC
GATTCCTTTTCCCACCAAGGTCCAGAATCATCCCACATCTGTATCGTCTTTGAACCCCTCGGCGAAAACCTCCTC
GCCCTTATCGAGCGGAACAAGAAGAAGGGGGTCCCCAAGGCTCTCGTCAAGATCATTGCAAAGCAGGTTCTCCTC
GGTCTCCAGTATCTCCACGATGAATGCGACCTTGTACACACTGATATTAAACCGGAGAACATCTTGATATCAATC
CCGGATATCGAAGCACATATTCACCAAGAACTCTCCCTATCGCCTTCTCCGGCCTCACGCCGAGTGGGCGTTCCG
CTACCCACCAAGTCCCGTGCCGGAGTTACCATACCATACAACAACAGGCAGGGCTCCAAACGACAGGTGCAAATA
TTCGAATCTCAGCCTTTATCCAGCCCTGGAAGGAGTTTAGGAAGAAACAGTGCGGGTGGGCACTCAAATTTGACG
ATGTCCCGCGCCCCCGGTAGTGGAAGTGCCAGTGGACACAACAGCCAGAGCAACAGCTACGTTGCACAGATGAAT
ATTCTCCGGAACTCAAGCCATGGTCTCCCTGCCCATACCAGTTTTATCAGCGGCGCTCCGACTGGCTCCAGCGCC
CCCAAGGTCCCTAGCCATTTATCATGTTCGTTCGCCGTGCCCCGCCCAAAGTCTCCAATGCGTGCGAGCACCACA
GCGGCCAATGCGGCTCCTGTCCCGCCACCAGACTCCAAATCTCCATCCACCTCCTCTTCCTCCTCATCCATATCT
TCCGCACTTGTCTCCACCCTTGCTGGTTCTGGGAGCCTCATTAGCACCCCGCCGACATCATTATCCCAATCGATG
ACGAGTGGGGTTGTAGGTTTCACCAAGAGCACATGCTTGGAAGTGACCTCGGTCCGACAAACCCTTGAGGAACTC
GACGAGCTTACACGGAGTGGTATCCCTATTCAAATGAAGGGCAAAGAGAAGGAACCTGAAGGGTTAAGTGCTGGA
AGTAGCCCACTCAAGCCGTCATCTTGGATCGAACAGGCTTCCTCTCTCTCGTCGTCGTACAAGTCCAAAGGAAGC
CCTTTCAAATCTAGCAAGCCCCGGTCATCCAATCGACACGGCCACTCTCATTCACAATCTGGTGCACCCTGGCAG
GATCCTGGTGTTGCCTCCCCCGCTCCTGCTGTACTCGTCAATGCCGTAGCCAGTGCTGATGGTCAAGAAACGTCA
CAGACGGCTTTCAATTCACTCCGTACCTCGAGCAGTAGTACCAGCACCATCACAATAGCCCACTCGGAGAGCTCT
TCCACAACTGCCACCGCCACGCAACCTTCGCCGACGGGAACACCCTTGGGACCGAGAAAGACCAAGACGATGTCG
ATTATCAATGGCGTTAGCAAGCTTATCAGTGATACCTCTACTATGCTTTCCACCGGTCTTCATCCCACTAGCGAA
ACGAAGCCGAATACCAACACCACGAATAGGACGCCGCAATCCGGCGAAACAAATGTTACGACTAATCATGTCTCC
CTCCTGACGCAAACTGCACCCACACGGATATCTGCGAATGTGGAACCTCTTCGGACGACTACGACTCGACCCTCG
CCTCCCCAACATATCTCCCAGCTCTCAGCGCACATGCATTCCGAGCCTTGCCCTTCCCTTCCCTCGCATGACTCG
GTGCTGTCTTCTCATTTCCCAAGCGAAACCTCCCGACCGAATTTCACCACCGTTTCCACTGCCATTGCCCAACGT
TTAGTTTTCGGTACATCCTCCAGTCCTGCTCCTCCCCCTCCCACACCCGTTGACGGCCCTGTGTTTGGTTCTTTC
CCCATTTCTCCACCGCCTCCTTTTACTTCACAATTCCCCAATCCTCCCCCTATCTCCATCAAGATCGCTGACCTC
GGCAACGCCACTCCGTCGAAGAAACACTTTACCGAGGATATCCAGACTCGCCAATACCGCGCTCCCGAAGCTATC
GTAGGCCGCAAGGATTGGGATACAAGAGCGGATGTGTGGAGTGTTGCGTGTGTCGTTTTCGAGCTTTTGACGGCC
GAGTATTTGTTCGACCCGCAAGGGCAGGGAGAGCTCTTCACGAAGGACGATGATCATATGGCGCAGATCATTGAG
CTATTGGGAGATTTCCCGTTGGACGTGAAGATGGGTGGGAAGTATAGCAGGGAGTTGTTTGATCATACTGGTGCG
TTGAGGTATATCCGGACGCTGAAGCCGTGGCCTTTGAAGAGGGTTATGATCGAGAAGTACCTTTATTCGGAAGAG
GATTCGGATGCGCTTTGTGCGTTTTTGGAGCCGATGCTGAAGGCTGATATGAGGGAGCGGGCGCATGCGAGGGAT
ATGCTTGACCATCCTTGGTTGGATGTTTCGAATGAGGAGGAGGTGACAGAGTGGTAG
Length 2757

Transcript

Sequence id CopciAB_440447.T0
Sequence >CopciAB_440447.T0
GGGTCTTCTGCTCCTGTCTTTCAGCACAAAGCCCATCGCCCGTCGTCGTCTGTTGATGGCCCCCAAGCCTCCCTG
CGCAAAGTACCAGTACGTCGTCACTCCAGCAGGCCCAAAGATCGTCCCCGTCGATGAGCCATCGTGCAAAGACGA
GGAGAGCCCCGCAGACTACAATGCTGGCGGTTATCTCCCCGTGAAGGTCAATGATACATTCAAGCAGGGCAGATA
TAGAGTCGTTCGCAAGCTTGGTTGGGGTCACTTTTCAACCGTCTGGCTCGTCAAGGATTCCCAGTCCGGCGTACA
CAGCGCACTCAAGGTCGTCAAGTCCGCCGGACGCTATGCAGAGACAGCCAGAGACGAGATCAAGCTCCTCTCCCG
GGTCGCTTCTGTTTCTCCGGACCATCCTGGAAGAGCACATATCGTCTCTTTCCTCGATTCCTTTTCCCACCAAGG
TCCAGAATCATCCCACATCTGTATCGTCTTTGAACCCCTCGGCGAAAACCTCCTCGCCCTTATCGAGCGGAACAA
GAAGAAGGGGGTCCCCAAGGCTCTCGTCAAGATCATTGCAAAGCAGGTTCTCCTCGGTCTCCAGTATCTCCACGA
TGAATGCGACCTTGTACACACTGATATTAAACCGGAGAACATCTTGATATCAATCCCGGATATCGAAGCACATAT
TCACCAAGAACTCTCCCTATCGCCTTCTCCGGCCTCACGCCGAGTGGGCGTTCCGCTACCCACCAAGTCCCGTGC
CGGAGTTACCATACCATACAACAACAGGCAGGGCTCCAAACGACAGGTGCAAATATTCGAATCTCAGCCTTTATC
CAGCCCTGGAAGGAGTTTAGGAAGAAACAGTGCGGGTGGGCACTCAAATTTGACGATGTCCCGCGCCCCCGGTAG
TGGAAGTGCCAGTGGACACAACAGCCAGAGCAACAGCTACGTTGCACAGATGAATATTCTCCGGAACTCAAGCCA
TGGTCTCCCTGCCCATACCAGTTTTATCAGCGGCGCTCCGACTGGCTCCAGCGCCCCCAAGGTCCCTAGCCATTT
ATCATGTTCGTTCGCCGTGCCCCGCCCAAAGTCTCCAATGCGTGCGAGCACCACAGCGGCCAATGCGGCTCCTGT
CCCGCCACCAGACTCCAAATCTCCATCCACCTCCTCTTCCTCCTCATCCATATCTTCCGCACTTGTCTCCACCCT
TGCTGGTTCTGGGAGCCTCATTAGCACCCCGCCGACATCATTATCCCAATCGATGACGAGTGGGGTTGTAGGTTT
CACCAAGAGCACATGCTTGGAAGTGACCTCGGTCCGACAAACCCTTGAGGAACTCGACGAGCTTACACGGAGTGG
TATCCCTATTCAAATGAAGGGCAAAGAGAAGGAACCTGAAGGGTTAAGTGCTGGAAGTAGCCCACTCAAGCCGTC
ATCTTGGATCGAACAGGCTTCCTCTCTCTCGTCGTCGTACAAGTCCAAAGGAAGCCCTTTCAAATCTAGCAAGCC
CCGGTCATCCAATCGACACGGCCACTCTCATTCACAATCTGGTGCACCCTGGCAGGATCCTGGTGTTGCCTCCCC
CGCTCCTGCTGTACTCGTCAATGCCGTAGCCAGTGCTGATGGTCAAGAAACGTCACAGACGGCTTTCAATTCACT
CCGTACCTCGAGCAGTAGTACCAGCACCATCACAATAGCCCACTCGGAGAGCTCTTCCACAACTGCCACCGCCAC
GCAACCTTCGCCGACGGGAACACCCTTGGGACCGAGAAAGACCAAGACGATGTCGATTATCAATGGCGTTAGCAA
GCTTATCAGTGATACCTCTACTATGCTTTCCACCGGTCTTCATCCCACTAGCGAAACGAAGCCGAATACCAACAC
CACGAATAGGACGCCGCAATCCGGCGAAACAAATGTTACGACTAATCATGTCTCCCTCCTGACGCAAACTGCACC
CACACGGATATCTGCGAATGTGGAACCTCTTCGGACGACTACGACTCGACCCTCGCCTCCCCAACATATCTCCCA
GCTCTCAGCGCACATGCATTCCGAGCCTTGCCCTTCCCTTCCCTCGCATGACTCGGTGCTGTCTTCTCATTTCCC
AAGCGAAACCTCCCGACCGAATTTCACCACCGTTTCCACTGCCATTGCCCAACGTTTAGTTTTCGGTACATCCTC
CAGTCCTGCTCCTCCCCCTCCCACACCCGTTGACGGCCCTGTGTTTGGTTCTTTCCCCATTTCTCCACCGCCTCC
TTTTACTTCACAATTCCCCAATCCTCCCCCTATCTCCATCAAGATCGCTGACCTCGGCAACGCCACTCCGTCGAA
GAAACACTTTACCGAGGATATCCAGACTCGCCAATACCGCGCTCCCGAAGCTATCGTAGGCCGCAAGGATTGGGA
TACAAGAGCGGATGTGTGGAGTGTTGCGTGTGTCGTTTTCGAGCTTTTGACGGCCGAGTATTTGTTCGACCCGCA
AGGGCAGGGAGAGCTCTTCACGAAGGACGATGATCATATGGCGCAGATCATTGAGCTATTGGGAGATTTCCCGTT
GGACGTGAAGATGGGTGGGAAGTATAGCAGGGAGTTGTTTGATCATACTGGTGCGTTGAGGTATATCCGGACGCT
GAAGCCGTGGCCTTTGAAGAGGGTTATGATCGAGAAGTACCTTTATTCGGAAGAGGATTCGGATGCGCTTTGTGC
GTTTTTGGAGCCGATGCTGAAGGCTGATATGAGGGAGCGGGCGCATGCGAGGGATATGCTTGACCATCCTTGGTT
GGATGTTTCGAATGAGGAGGAGGTGACAGAGTGGTAGCGCAAATGCGCTTCGGAAGTGTTTTAGTTTGGGCTTTG
TGTGGTATTCCCCTTCCTCCCCTTTTGGCATGTGGGTTTTTAGGCTTTTTTCCTTGGTCGTCTCGTATTTTATTT
TTTTCTCTCGTTGGTGGTGTTGTGAACGAGAAGGACGTTACTATCCCGTATGCTTTGCTTTTTTACTTATTTTAT
TTCATCTTGTTGTTTTGTGGTCTTTCCTCCCTCGCTTTTTTTTAATTTAGGTATCTATAGAGCTCTAGACGTTCA
CCTTTTTTTCCTATTCTTTCTTCTTCTCTCCTTCATTCTTTGCCCTCTTTTAGTCGTTTCCTTGGGCTTTTCTTT
AATCTTATTACCTCTGTTCTTCTCGCGCTCTTCTATTTTTCTTTATACCATCCAAGGTGGAGGTACCACGAGGTG
CCTTCGTCAATCTGTGTTTTGGGTGGATATGTTGTACTTTTTAATCCGTCTCGTCTGCGCTCTTGACACGTCTCA
TCCATATGCATAACGATTACGATTCCCTTTTAACTTAGAGCTTCCTTTCTCTCTCTTAGTCTTACTCTCTCCATC
CGACGTCCCGATGATCTCCGTACTTTTCTTATCTCCTTACTAGTTCTCTTGACGCACGTACATACGACGTAACCC
AGCATGATCATGTTTTATTATAGACATATCCCAGATGACGAACTTGAATGCAATCTCAATGACCTTTTTT
Length 3520

Gene

Sequence id CopciAB_440447.T0
Sequence >CopciAB_440447.T0
GGGTCTTCTGCTCCTGTCTTTCAGCACAAAGCCCATCGCCCGTCGTCGTCTGTTGATGGCCCCCAAGCCTCCCTG
CGCAAAGTACCAGTACGTCGTCACTCCAGCAGGCCCAAAGATCGTCCCCGTCGATGAGCCATCGTGCAAAGACGA
GGAGAGCCCCGCAGACTACAATGCTGGCGGTTATCTCCCCGTGAAGGTCAATGATACATTCAAGCAGGGCAGATA
TAGAGTCGTTCGCAAGCTTGGGTGCGTTGTATTATATTTTTCGTTATCCACTCATCGAACGTAATAAATAGTTGG
GGTCACTTTTCAACCGTCTGGCTCGTCAAGGATTCCCAGTGAGCACCATCCCACACTCGACATCGCTTTCTCATC
TCTTATCATCTTCTCAATCAGGTCCGGCGTACACAGCGCACTCAAGGTCGTCAAGTCCGCCGGACGCTATGCAGA
GACAGCCAGAGACGAGATCAAGCTCCTCTCCCGGGTCGCTTCTGTTTCTCCGGACCATCCTGGAAGAGCACATAT
CGTCTCTTTCCTCGATTCCTTTTCCCACCAAGGTCCAGAATCATCCCACATCTGTATCGTCTTTGAACCCCTCGG
CGAAAACCTCCTCGCCCTTATCGAGCGGAACAAGAAGAAGGGGGTCCCCAAGGCTCTCGTCAAGATCATTGCAAA
GCAGGTTCTCCTCGGTCTCCAGTATCTCCACGATGAATGCGACCTTGTACACACTGATATTAAACCGGAGAACAT
CTGTGAGTGTTTTTTTCACGGCCTTTTTTTTCTTATCCGGAGTTGTGGCCTTATCATTCTCGGACTCGGACGAAT
GCTAATCTCCACTTAGTGATATCAATCCCGGATATCGAAGCACATATTCACCAAGAACTCTCCCTATCGCCTTCT
CCGGCCTCACGCCGAGTGGGCGTTCCGCTACCCACCAAGTCCCGTGCCGGAGTTACCATACCATACAACAACAGG
CAGGGCTCCAAACGACAGGTGCAAATATTCGAATCTCAGCCTTTATCCAGCCCTGGAAGGAGTTTAGGAAGAAAC
AGTGCGGGTGGGCACTCAAATTTGACGATGTCCCGCGCCCCCGGTAGTGGAAGTGCCAGTGGACACAACAGCCAG
AGCAACAGCTACGTTGCACAGATGAATATTCTCCGGAACTCAAGCCATGGTCTCCCTGCCCATACCAGTTTTATC
AGCGGCGCTCCGACTGGCTCCAGCGCCCCCAAGGTCCCTAGCCATTTATCATGTTCGTTCGCCGTGCCCCGCCCA
AAGTCTCCAATGCGTGCGAGCACCACAGCGGCCAATGCGGCTCCTGTCCCGCCACCAGACTCCAAATCTCCATCC
ACCTCCTCTTCCTCCTCATCCATATCTTCCGCACTTGTCTCCACCCTTGCTGGTTCTGGGAGCCTCATTAGCACC
CCGCCGACATCATTATCCCAATCGATGACGAGTGGGGTTGTAGGTTTCACCAAGAGCACATGCTTGGAAGTGACC
TCGGTCCGACAAACCCTTGAGGAACTCGACGAGCTTACACGGAGTGGTATCCCTATTCAAATGAAGGGCAAAGAG
AAGGAACCTGAAGGGTTAAGTGCTGGAAGTAGCCCACTCAAGCCGTCATCTTGGATCGAACAGGCTTCCTCTCTC
TCGTCGTCGTACAAGTCCAAAGGAAGCCCTTTCAAATCTAGCAAGCCCCGGTCATCCAATCGACACGGCCACTCT
CATTCACAATCTGGTGCACCCTGGCAGGATCCTGGTGTTGCCTCCCCCGCTCCTGCTGTACTCGTCAATGCCGTA
GCCAGTGCTGATGGTCAAGAAACGTCACAGACGGCTTTCAATTCACTCCGTACCTCGAGCAGTAGTACCAGCACC
ATCACAATAGCCCACTCGGAGAGCTCTTCCACAACTGCCACCGCCACGCAACCTTCGCCGACGGGAACACCCTTG
GGACCGAGAAAGACCAAGACGATGTCGATTATCAATGGCGTTAGCAAGCTTATCAGTGATACCTCTACTATGCTT
TCCACCGGTCTTCATCCCACTAGCGAAACGAAGCCGAATACCAACACCACGAATAGGACGCCGCAATCCGGCGAA
ACAAATGTTACGACTAATCATGTCTCCCTCCTGACGCAAACTGCACCCACACGGATATCTGCGAATGTGGAACCT
CTTCGGACGACTACGACTCGACCCTCGCCTCCCCAACATATCTCCCAGCTCTCAGCGCACATGCATTCCGAGCCT
TGCCCTTCCCTTCCCTCGCATGACTCGGTGCTGTCTTCTCATTTCCCAAGCGAAACCTCCCGACCGAATTTCACC
ACCGTTTCCACTGCCATTGCCCAACGTTTAGTTTTCGGTACATCCTCCAGTCCTGCTCCTCCCCCTCCCACACCC
GTTGACGGCCCTGTGTTTGGTTCTTTCCCCATTTCTCCACCGCCTCCTTTTACTTCACAATTCCCCAATCCTCCC
CCTATCTCCATCAAGATCGCTGACCTCGGCAACGCCACTCCGTCGAAGAAACACTTTACCGAGGATATCCAGACT
CGCCAATACCGCGCTCCCGAAGCTATCGTAGGCCGCAAGGATTGGGATACAAGAGCGGATGTGTGGAGTGTTGCG
TGTGTCGTTTTCGAGCTTTTGACGGCCGAGTATTTGTTCGACCCGCAAGGGCAGGGAGAGCTCTTCACGAAGGAC
GATGATCATATGGCGCAGATCATTGAGCTATTGGGAGATTTCCCGTTGGACGTGAAGATGGGTGGGAAGTATAGC
AGGGAGTTGTTTGATCATACTGGTATGTTTGCTTTTCGATTAGGTTTGGATTGCGAGGATTTCGTTTGCTGACGG
TGTTGCGATGGGTACAGGTGCGTTGAGGTATATCCGGACGCTGAAGCCGTGGCCTTTGAAGAGGGTTATGATCGA
GAAGTACCTTTATTCGGAAGAGGATTCGGATGCGCTTTGTGCGTTTTTGGAGCCGATGCTGAAGGCTGATATGAG
GGAGCGGGCGCATGCGAGGGATATGCTTGACCATCCTTGGTTGGATGTTTCGAATGAGGAGGAGGTGACAGAGTG
GTAGCGCAAATGCGCTTCGGAAGTGTTTTAGTTTGGGCTTTGTGTGGTATTCCCCTTCCTCCCCTTTTGGCATGT
GGGTTTTTAGGCTTTTTTCCTTGGTCGTCTCGTATTTTATTTTTTTCTCTCGTTGGTGGTGTTGTGAACGAGAAG
GACGTTACTATCCCGTATGCTTTGCTTTTTTACTTATTTTATTTCATCTTGTTGTTTTGTGGTCTTTCCTCCCTC
GCTTTTTTTTAATTTAGGTATCTATAGAGCTCTAGACGTTCACCTTTTTTTCCTATTCTTTCTTCTTCTCTCCTT
CATTCTTTGCCCTCTTTTAGTCGTTTCCTTGGGCTTTTCTTTAATCTTATTACCTCTGTTCTTCTCGCGCTCTTC
TATTTTTCTTTATACCATCCAAGGTGGAGGTACCACGAGGTGCCTTCGTCAATCTGTGTTTTGGGTGGATATGTT
GTACTTTTTAATCCGTCTCGTCTGCGCTCTTGACACGTCTCATCCATATGCATAACGATTACGATTCCCTTTTAA
CTTAGAGCTTCCTTTCTCTCTCTTAGTCTTACTCTCTCCATCCGACGTCCCGATGATCTCCGTACTTTTCTTATC
TCCTTACTAGTTCTCTTGACGCACGTACATACGACGTAACCCAGCATGATCATGTTTTATTATAGACATATCCCA
GATGACGAACTTGAATGCAATCTCAATGACCTTTTTT
Length 3787