CopciAB_439934
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_439934 Strain Coprinopsis cinerea Okayama 7
Standard name TOR1 Synonyms 439934
Uniprot id Functional description Serine threonine-protein kinase TOR
Location scaffold_6:1582855..1591818 Strand -
Gene length (nt) 8964 Transcript length (nt) 7578
CDS length (nt) 7104 Protein length (aa) 2367

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Saccharomyces cerevisiae YKL203C_TOR2
Schizosaccharomyces pombe tor2
Aspergillus nidulans AN5982_torA
Neurospora crassa NCU05608

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB15759 80.1 0 3888
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_126075 76.7 0 3752
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_151460 75.3 0 3667
Schizophyllum commune H4-8 Schco3_2612125 74.7 0 3645
Pleurotus eryngii ATCC 90797 Pleery1_1445230 74.5 0 3614
Ganoderma sp. 10597 SS1 v1.0 Gansp1_152884 73.2 0 3563
Pleurotus ostreatus PC15 PleosPC15_2_1113153 73.8 0 3554
Lentinula edodes W1-26 v1.0 Lentinedodes1_19439 73.1 0 3543
Lentinula edodes NBRC 111202 Lenedo1_1056980 73.2 0 3530
Flammulina velutipes Flave_chr08AA00458 72.3 0 3439
Pleurotus ostreatus PC9 PleosPC9_1_88377 71 0 3358
Grifola frondosa Grifr_OBZ74140 69.5 0 3202
Auricularia subglabra Aurde3_1_1275507 58.9 0 2811
Lentinula edodes B17 Lened_B_1_1_1775 84.2 4.998E-196 674

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 242.0289 28.6326 16.531
oidia 145.3133 10.8089 6.2405
vegetative_mycelium 144.0638 27.7564 16.0252
primordia 156.0831 8.9034 5.1404
hyphal_knot 211.5983 13.0832 7.5536
young_fruiting_body 110.2175 18.2812 10.5546
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 203.7948 15.2634 8.8124
Wheat bran 104.5313 33.0859 19.1021
Horse manure 202.4373 63.74 36.8003
Oak leaves 242.519 49.9023 28.8111
Hay 157.0332 25.8573 14.9287
Corn stalk 204.5983 8.3139 4.8
Pectine 236.5421 18.9933 10.9658
Microcrystalline cellulose 202.3917 46.9436 27.1029
Xylose 202.5375 45.4126 26.219
Cellobiose 184.4305 39.2152 22.6409
Lignin 201.3884 21.3236 12.3112
Apple peels 214.9002 24.1218 13.9268
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 137.2167 3.3016 1.9062
Bsubtilis 129.2169 5.6371 3.2546
Ecoli 128.3363 0.5866 0.3387
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 35.4685 4.9277 2.845
BS 4h 32.7794 3.3343 1.9251
BS 8h 27.7107 6.5097 3.7584
BS 12h 32.0406 2.5231 1.4567
Oidia 0 h 32.6067 12.3939 7.1556
Oidia 18 h 52.9726 10.9577 6.3265
Sclerotia 20.2472 7.4767 4.3167
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 23.5077 3.9501 2.2806
DM 36h 30.7262 4.4154 2.5492
DM 60h 30.5841 1.5331 0.8851
DM 84h 27.806 1.9447 1.1228
DM 108h 28.8288 3.4503 1.992
DM 132h 29.2709 0.9982 0.5763
DM 156hAE 40.4103 4.8855 2.8207
ELI1hAE 25.8659 1.1457 0.6614
ELI2hAE 27.2381 1.3564 0.7831
LI2hAE 28.2929 2.2771 1.3147
LI6hAE 32.6319 1.053 0.608
LI12hAE 23.6889 2.021 1.1669
LI18hAE 23.1449 1.9163 1.1064
LI 24hAE 33.6595 4.1028 2.3688
DM 156hAM 31.2863 2.7413 1.5827
ELI1hAM 15.5416 3.6173 2.0885
ELI2hAM 17.3307 4.8001 2.7714
LI2hAM 23.6453 6.1211 3.534
LI6hAM 35.1675 3.2192 1.8586
LI12hAM 26.0944 0.8276 0.4778
LI18hAM 31.2748 3.3759 1.9491
LI 24hAM 33.9607 6.0655 3.5019
LI 24hHK 25.4962 2.3554 1.3599
L/D 6h 37.4397 3.5389 2.0432
L/D 12h 39.6958 2.5548 1.475
L/D 18h 47.1666 4.0907 2.3617
L/D 24h 46.1209 4.5797 2.6441
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 99.2644 10.5556 6.0943
Hyphal knots 144.3246 14.6944 8.4838
Primordium 1 143.423 11.9292 6.8873
Primordium 2 122.0769 10.9388 6.3155
Young Fruiting body cap 210.6544 96.9607 55.9803
Younf fruiting body gill 91.0099 15.8504 9.1512
Young fruiting body stipe 97.1474 9.5395 5.5077
Mature fruiting body cap_gill 66.2892 14.9601 8.6372
Mature fruiting body stipe 101.3119 9.2194 5.3228
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 129.2529 6.1532 3.5526
NH4NO3 161.9979 6.2976 3.6359
Proline 128.9386 4.9146 2.8375
Tryptophan 137.147 33.2295 19.1851
Isoleucin 149.5181 11.0043 6.3533
Arginine 141.1019 8.7204 5.0347
Metionine 128.7123 7.7728 4.4876
NaNO3 125.2424 2.7239 1.5726
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 129.2529 6.1532 3.5526
Citrus peel 91.5694 10.9246 6.3073
Poplar leaves 103.4189 10.3083 5.9515
Typha leaves 105.7029 3.1178 1.8001
Overwintered Salix leaves 109.1784 22.0405 12.7251
Reed flowering 110.9906 6.8743 3.9689
Tigernut 71.3276 9.1387 5.2762
Energy cane 102.5513 11.011 6.3572
Guar gum 135.6311 12.1045 6.9885
Apple peels 109.0658 21.392 12.3507
Cellobiose 159.1498 12.8039 7.3923
Corn stalk 117.7698 9.1443 5.2795
Horse manure 128.0738 2.5809 1.4901
Lignin 115.9592 43.2637 24.9783
Microcrystalline cellulose 117.9926 18.0619 10.4281
Oak leaves 124.3749 27.1355 15.6667
Pectin esterified 70.0289 13.8502 7.9964
Poplar sawdust 142.6106 28.7621 16.6058
Wheat bran 74.3333 12.0568 6.961
Chlamydomonas reinhardtii 110.8969 3.1968 1.8456
Vertatryl alcohol 147.7813 24.7807 14.3072
Furfural 98.0041 5.0382 2.9088
Autoclaved mycelium 118.6128 1.8653 1.077
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 173.2143 10.2165 5.8985
Ribose 187.5777 2.0534 1.1855
Mannose 198.4728 0.5095 0.3603
Fructose 200.1415 3.9885 2.3028
Arabinose 207.8339 16.4532 9.4993
Xylose 203.2915 9.2101 5.3175
Galacturonic acid 187.3055 0.8528 0.4923
Rhamnogalacturonan 181.7719 7.8133 4.511
Pectin esterified 181.862 7.7174 4.4556
Polygalacturonic acid 184.9971 22.7503 13.1349
Sodium acetate 186.3756 2.667 1.5398
No nitrogen 196.2375 16.4818 9.5158
BSA 199.6039 4.7375 2.7352
Glutamine 194.7642 16.9757 9.8009
No phosphate 172.8587 10.8613 6.2707
No carbon 193.9464 3.5835 2.5339
No sulphur 221.1728 35.524 20.5098
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 129.2529 6.1532 3.5526
Amylose 110.0812 9.4626 5.4632
Fucose 110.2631 14.465 8.3514
Galactose 135.5565 7.5033 4.3321
Lactose 135.1899 15.4535 8.9221
Maltose 132.0102 22.1633 12.796
Mannitol 146.1966 12.2091 7.0489
Rhamnose 122.5198 10.2507 5.9182
Sorbitol 122.0646 13.0801 7.5518
Trehalose 109.5425 19.6882 11.367
Glycerol 124.0842 19.6274 11.3319
Glucuronic acid 131.2795 3.1913 1.8425
Arabinan 90.2286 11.7886 6.8062
Galactan 101.7893 8.5942 4.9619
Galactomannan 110.6808 26.3056 15.1876
Glucan 128.5417 18.2949 10.5626
Xylan 95.5785 19.3613 11.1783
Xyloglucan 113.4219 14.5727 8.4136
Arabinogalactan 128.0176 17.2709 9.9714
Pectin 87.6431 44.1033 25.463
Rhamnogalacturonan 98.3452 20.7096 11.9567
Polygalacturonic acid 138.1116 21.1403 12.2053
Mannan 120.6275 8.2014 4.7351
Amylopectin 90.0913 4.7169 2.7233
Inulin 119.634 1.0544 0.6088
BSA 133.6644 14.5555 8.4036
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 30.5841 1.5331 0.8851
2h WAT 21.1027 0.6605 0.3814
4h WAT 25.1753 8.9032 5.1402
8h WAT 20.2026 2.0534 1.1855
16h WAT 21.6899 2.0138 1.1627
24h WAT 25.533 2.6646 1.5384
WAT hyphal knot -30h 17.6338 2.5299 1.4606
WAT hyphal knot -22h 19.7711 2.346 1.3544
WAT hyphal knot -15h 26.6006 5.4752 3.1611
WAT hyphal knot -7.5h 15.3565 2.0476 1.1822
WAT hyphal knot 25.8848 6.4512 3.7246
WAT hyphal knot +7.5h 22.2928 2.1643 1.2496
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 104.9451 42.5389 24.5599
Straw 3h 103.482 24.9858 14.4256
Straw 6h 97.6806 31.1013 17.9564
Straw 12h 139.5307 15.709 9.0696
Straw 24h 117.8821 34.9829 20.1974
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 17.8305 2.7231 1.5722
Frost (-20C, 30min) 20.7521 3.3328 1.9242
Heat shock (47C, 2h) 23.2624 1.8078 1.0437
High CO2 18.9167 1.5715 0.9073
Drought (4% agar, 12h) 18.0992 2.7925 1.6123
Oxidative (1mM H2O2, 3h) 28.6981 8.5048 4.9103
Acidic (pH4, 3h) 15.8704 3.6347 2.0985
Alkaline (pH9, 3h) 11.6307 0.1849 0.1068
Osmotic (sorbitol 2h) 13.6988 3.3709 1.9462
CongoRed (3h) 15.4681 2.7663 1.5971
Cobalt chloride control 25.468 3.9873 2.3021
Cobalt chloride 2mM 21.0392 3.7917 2.1891
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 16.3179 3.8296 2.211
Cold stimulation 19.2295 8.245 4.7602
Scratched surface 17.1645 1.9909 1.1495
Ca2+, 200mM, 24h 29.0081 0.7524 0.4344
Cu2+, 2mM, 6h 29.3593 4.1243 2.3812
Voriconazole 15.1301 0.9469 0.5467
Trichoderma interaction, early 19.9218 3.942 2.2759
Trichoderma interaction 60h 14.1409 0.9866 0.5696
Cobalt chloride 2mM repeat 27.7498 6.1934 3.5757
Hypoxia 18.605 8.4695 4.8899
Hypoxia control 21.5541 1.8302 1.0566
Protoplastation control 21.8389 4.836 3.4195
Protoplastation 3.5h 36.2112 19.4077 13.7233
Protoplastation 1.5h 47.2811 10.7603 7.6087

General data

Systematic name TOR1
Protein id CopciAB_439934.T0
Description Serine threonine-protein kinase TOR

Annotation summary

0 600 1200 1800 2367

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd05169 PIKKc_TOR IPR026683 1978 2256
Pfam PF11865 Domain of unknown function (DUF3385) IPR024585 746 905
Pfam PF02259 FAT domain IPR003151 1383 1733
Pfam PF08771 FKBP12-rapamycin binding domain IPR009076 1840 1938
Pfam PF00454 Phosphatidylinositol 3- and 4-kinase IPR000403 2007 2255
Pfam PF02260 FATC domain IPR003152 2337 2367

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR000403 Phosphatidylinositol 3-/4-kinase, catalytic domain
IPR011989 Armadillo-like helical
IPR003151 PIK-related kinase, FAT
IPR018936 Phosphatidylinositol 3/4-kinase, conserved site
IPR014009 PIK-related kinase
IPR016024 Armadillo-type fold
IPR036738 FKBP12-rapamycin binding domain superfamily
IPR011990 Tetratricopeptide-like helical domain superfamily
IPR024585 Domain of unknown function DUF3385, target of rapamycin protein
IPR003152 FATC domain
IPR026683 Serine/threonine-protein kinase TOR, catalytic domain
IPR036940 Phosphatidylinositol 3-/4-kinase, catalytic domain superfamily
IPR011009 Protein kinase-like domain superfamily
IPR009076 FKBP12-rapamycin binding domain

GO

Go id Term Ontology
GO:0005515 protein binding MF
GO:0016301 kinase activity MF
GO:0044877 protein-containing complex binding MF
GO:0004674 protein serine/threonine kinase activity MF

KEGG

KEGG Orthology
K07203

EggNOG

COG category Description
L Serine threonine-protein kinase TOR

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_439934 across fungi.

Arrow shows the origin of gene family containing CopciAB_439934.

Protein

Sequence id CopciAB_439934.T0
Sequence >CopciAB_439934.T0
MASADQAPVGDQQLNAIFSGLKSRSADTRMQAAEDLKRFVQVSYAEMTSDAAAKLWDDHINRRLFALIHSQNINE
AFGGLLGIERLLELDLEETIESKRNHFRFYNYVKHLLPNPDVHLMMAASKTLGKIAEIGGGVAFGERFMEYEIPA
AIELMQPDKQEAPRYAGVLILKELARNSPTYFHPHIGIVFDNILLPLRDPRLHVREGAADLLANCLEIVCSRERQ
TRNPYLYKILQDAQAGLKSSQPEVIHGSLAAYRELLLHAGMFMQENFLDTAEAILRFKSSRDPLVRRMVITMIPT
LAAYDTQTFTEHFLHKAMAHLLTQLDKAPERNFAFIAIGHTALAVGSDMKPFLDPIMDNVKSCLQNRGRKNAPSE
EPIFQCIGMLAAAVGPNLTKLLHDQLDLMLACGLSEPLSQALAAIAKYIPPLLKTIQDRLLQLLSMLLSGQPYRP
LGAPAPLGRNEFPAPPNQLTATQMTTTDKNSELITLALKTLGTFDFSGHVLNEFVRSCALPYLEDDNPQVRCAAA
ETCCTLFIKDPICYQASSHAIEVISDVLDKLLTVGIADPDPGIRNVVLRGLHERFDKHLAQAENVRSLFIALNDE
VMANREAAVGLIGRLAKHNPAYVMPSLRKALIQLLTELEYSTVMRNREDCTRLLTLLVSATQRLIKPYAIPMLRV
LLQKANDPNPAVAANVLMCLGELACVAGEDAMPHVQELMQIILAKLADPQTLKRDAALHALGQVCSSTGYVVQPL
LDHPQLLPLLGRIMRTETSVQTRREVVKVLGILGALDPYRRKSRPDEDVASNAETSVAAVNQVPINPHPTSSSSD
DYFQTVVITSLLAILKDQSLSSHHHTVIEAIMSIFKTQGLKCVTFLPQIIPAFAAITRTSIARLQEFHLQQLAIL
VGIIKQHIRNYTLDVFSLITELWDNVTLQLPIVALIEALGKALDAEFKPFLPTILPLVLKVFDGDTSDKRIAVQI
KIFDAFLTFGANIEEYLHLVIPIIVKSYERSDAPSSLRKRAIQTIDGLSRRVNFSDHASRIIHPMVRVLDGNNNE
LRMAVFDTLCSLVAQLGSDFAIFVPTINKATLRNRISHPRYENLVSKLLNGESLPSEAGGMDWIQAENSKAQEFQ
APAEAPKMTVNQQHLKQAWDVSQVTTKDDWLEWMHRLSVEFMKESPSHALRACMTLVDIHQPLAKELFNAAFLSC
WTELYDQYQEDLVRSIEFAITSTTAPPELIHRLLNLAEFMEHEEKPLPIEHRTLGEYANKYMAYAKALHYKEMEY
FAESSPAVIESLISINTKLQQHDAAWGTLLHAREQYDVTKHEEWYERLGRWQEALQVYDRKAMEDPDSPEVKIGR
VKCYHALGEWELLAAQVQENWANATNEERREMAPMAAAAAWSLNDWDSMDNYIGTMKNDSPDRAFYRAILSVHQN
QFSKALAHIAKARELIDPELSSFTGEGYGRSYNVMVRAQMLSELEEIIAYKQYADQPERQATMRKTWMKRLQGCQ
PDVEVWQRILQVRTLVSSPEQDPVMWIKFANLCRKNDRMMLAEKTINSLLTPERRMLDHHHHHNTKAPPNVVYAQ
LKYMWANGEKEETLNHLRLFTASLAKDIQQETNEQGHRPNVSKSKLAELTKLLARCYFKQGEWQMELKDDWDARN
VEDILHSYYYATHYDPGWYKAWHTWALANFEVISHIDTLAENRATDIPGDSLASHVVQAVTGFFRSISLRNQDAL
QDTLRLLTLWFKYGHHDEVSHSMANGFSTVEVDTWLEVIPQIIARIQTPHANIRRNINNLLTDVGKHHPQALIYP
LTVASKSSSSARRTAAIQIMERMKDHSSTIVTQALLVSKELIRVAILWHEMWHEGLEEASRLYFNDKNPEGMIMA
LEPLHKLLEKGPTTARETSFAQVFGRELAEAREACKRYQIYGDPTELDKAWDIYYGVFKKVEKQLPSLTTLDLQY
VSPSLLKARHLDLAVPGTYQSGRPVITIASFATKLTVIASKQRPRRLSLKGSDGRDYQYVLKGHEDLRQDERVMQ
LFSLVNTLLSVDTNSFKRRLHIQRYPVIPLAPNAGLLGWVQDSDTLHVLIRDYRESRKVLLNIEYRLMLQMAPDY
ENLMLLQKVEVFEYALENTTGQDLYRVLWLKSTNSEHWLERRATYTRSLAVNSMVGHILGLGDRHPSNLLLERST
GKVVHIDFGDCFEVAMHREKFPEKVPFRLTRMLTHAMEVSGIEGSFRNTCEITMTVLRDNKESLMAVLEAFVYDP
LINWRLMQADVEVRRPDADVERVPELGRVAAHPQAPNRKLKADENDIFNETEEEPGAQEVRNERALFVYNRVQHK
LTGRDFNPTQVLSVKAQVEKLIEQATSLENLCQCFSGWCAFW
Length 2367

Coding

Sequence id CopciAB_439934.T0
Sequence >CopciAB_439934.T0
ATGGCGTCCGCAGACCAAGCCCCGGTGGGCGACCAGCAGCTCAACGCCATCTTTTCTGGGCTCAAGTCTCGTAGC
GCAGACACTCGTATGCAGGCTGCGGAGGATCTCAAGCGATTCGTTCAAGTATCGTATGCCGAAATGACCTCAGAC
GCAGCTGCAAAGCTATGGGACGACCACATCAACAGACGACTATTCGCCTTGATTCACAGCCAGAACATTAACGAA
GCATTTGGTGGACTGTTGGGAATAGAACGCCTCTTAGAACTCGACCTCGAGGAAACCATCGAATCGAAGCGCAAC
CACTTCCGATTCTACAACTATGTGAAGCACCTCCTCCCCAACCCCGACGTGCACTTGATGATGGCGGCTTCGAAG
ACATTGGGAAAGATTGCAGAGATTGGCGGCGGTGTGGCCTTTGGCGAGAGGTTTATGGAATACGAAATCCCAGCG
GCTATCGAGTTGATGCAACCCGACAAACAAGAAGCCCCACGATATGCGGGTGTCCTGATCTTGAAGGAACTGGCC
AGGAATAGCCCAACGTATTTCCATCCGCATATTGGGATTGTGTTCGACAACATATTGCTGCCACTCCGAGACCCG
CGACTGCATGTGCGAGAGGGTGCCGCCGACCTGCTCGCTAATTGCTTGGAGATTGTGTGTAGTCGGGAGAGGCAA
ACAAGGAACCCGTACCTTTACAAGATCTTGCAAGACGCTCAGGCGGGCCTCAAGAGTTCGCAGCCGGAGGTTATC
CACGGGTCGTTGGCTGCGTACCGGGAGTTGTTGCTTCACGCTGGGATGTTCATGCAAGAGAACTTTTTGGATACA
GCAGAAGCCATCCTTCGCTTCAAATCATCTCGAGATCCTCTGGTCCGTAGGATGGTTATTACCATGATCCCGACT
CTGGCAGCGTACGACACCCAAACCTTCACCGAGCACTTTTTGCACAAGGCCATGGCCCATCTTCTTACACAGCTC
GACAAAGCACCTGAGCGGAACTTCGCTTTTATCGCCATCGGCCATACTGCACTTGCTGTGGGCAGTGATATGAAA
CCATTTTTGGATCCCATCATGGACAATGTGAAGTCGTGCCTACAGAATAGAGGGCGAAAGAATGCGCCCTCGGAA
GAGCCAATATTCCAGTGCATTGGGATGTTGGCAGCCGCCGTCGGTCCCAACCTTACAAAGTTACTGCATGACCAG
CTAGACTTGATGCTTGCATGTGGTTTGAGCGAACCATTGAGCCAAGCTCTGGCAGCCATCGCCAAGTACATCCCT
CCCCTGCTCAAGACAATCCAAGATCGCCTCCTCCAACTCTTGTCCATGCTTCTGAGTGGGCAACCCTATCGACCG
CTCGGTGCACCGGCGCCTTTAGGTCGTAACGAATTCCCCGCTCCGCCCAACCAACTGACAGCCACTCAAATGACG
ACGACCGACAAGAACTCCGAACTCATCACTCTGGCGTTAAAGACCCTCGGAACGTTTGACTTTAGCGGTCACGTT
CTTAACGAGTTCGTTCGCAGCTGCGCGTTGCCTTATTTAGAAGACGACAACCCTCAAGTTCGCTGTGCGGCGGCA
GAGACCTGCTGTACCTTGTTCATCAAGGATCCCATTTGTTACCAAGCGAGTAGCCATGCTATCGAGGTCATCAGC
GATGTTCTGGATAAGTTGCTCACTGTTGGCATCGCTGATCCGGATCCTGGCATCCGTAATGTCGTCTTGCGAGGG
CTCCACGAACGGTTCGACAAGCATCTCGCTCAAGCTGAAAACGTTCGATCCCTGTTCATTGCACTGAATGACGAG
GTCATGGCCAACCGAGAAGCAGCCGTTGGCCTCATCGGGCGACTTGCCAAACACAACCCTGCATACGTTATGCCT
TCCCTCCGTAAAGCCCTCATTCAACTTCTAACCGAGTTGGAGTACTCGACCGTGATGCGCAATCGAGAGGATTGC
ACTCGGCTCTTGACTCTGCTGGTCAGTGCGACCCAGCGACTCATTAAACCTTACGCCATTCCTATGTTGCGCGTG
CTCCTTCAGAAGGCGAACGACCCCAATCCCGCCGTGGCGGCAAACGTTCTCATGTGTCTCGGAGAGCTGGCTTGT
GTTGCGGGCGAGGATGCTATGCCCCACGTCCAAGAGCTCATGCAGATCATCCTTGCCAAACTGGCCGACCCCCAA
ACGTTGAAACGTGATGCTGCACTTCATGCGTTAGGTCAGGTCTGCTCCAGCACGGGCTATGTCGTCCAGCCTCTG
CTTGACCATCCTCAACTTCTTCCGCTGCTCGGAAGAATCATGCGAACAGAGACCTCGGTTCAAACTCGGCGAGAA
GTTGTGAAGGTCTTGGGCATTCTCGGTGCCCTTGATCCCTACCGACGAAAGTCGAGGCCGGATGAGGATGTTGCA
TCGAATGCGGAGACTTCGGTTGCTGCAGTAAATCAAGTCCCCATTAATCCACACCCTACGTCGTCATCGTCGGAC
GATTACTTCCAGACTGTGGTTATCACGTCCTTGCTCGCAATTCTGAAGGATCAGTCTCTCAGCAGCCACCACCAT
ACCGTAATCGAAGCCATCATGTCGATCTTCAAGACCCAAGGATTGAAATGCGTGACCTTCCTTCCCCAAATTATT
CCCGCCTTCGCTGCTATTACTCGGACATCCATCGCCCGACTCCAAGAATTCCATCTGCAACAGTTGGCCATTCTC
GTCGGCATCATCAAACAGCACATTCGCAACTATACTCTGGACGTGTTTAGCTTGATCACTGAACTTTGGGACAAC
GTTACCCTGCAGCTGCCAATCGTTGCGCTCATTGAGGCTCTAGGAAAGGCGCTGGATGCTGAATTCAAGCCCTTC
CTTCCGACTATCCTACCTCTCGTCCTCAAGGTATTCGACGGGGACACGAGCGATAAACGGATTGCGGTTCAGATC
AAGATCTTCGACGCATTCCTGACCTTTGGAGCTAACATCGAAGAGTACCTGCACCTCGTTATCCCGATTATTGTC
AAGTCCTATGAGCGGTCAGACGCGCCATCTTCTCTGCGAAAACGCGCCATACAGACCATTGACGGTTTGTCTCGG
AGGGTCAATTTCTCTGACCACGCCTCTCGCATCATTCACCCCATGGTTCGCGTTCTGGATGGCAATAACAATGAG
TTGCGCATGGCTGTCTTCGACACATTGTGCTCCCTCGTTGCACAGCTTGGCTCCGATTTTGCTATCTTTGTGCCC
ACTATCAACAAGGCAACTTTGCGCAACCGCATCTCCCATCCGCGATACGAGAACTTGGTTTCCAAGCTCTTGAAC
GGAGAAAGTCTCCCTTCCGAAGCTGGCGGCATGGATTGGATTCAAGCCGAAAATTCCAAGGCCCAAGAATTCCAA
GCTCCGGCAGAGGCGCCCAAGATGACTGTTAACCAGCAGCACCTCAAGCAGGCATGGGACGTGTCTCAGGTTACC
ACCAAAGACGATTGGCTTGAGTGGATGCACCGCCTGAGTGTGGAGTTTATGAAGGAATCGCCTTCGCATGCTCTG
AGGGCTTGTATGACGCTTGTCGATATACACCAACCTCTCGCAAAGGAGCTGTTCAACGCTGCCTTCCTCTCTTGC
TGGACAGAGCTCTACGACCAATACCAGGAGGATTTGGTTCGATCCATCGAGTTCGCCATCACATCGACTACAGCA
CCTCCCGAACTGATTCACCGCCTCTTGAACTTGGCAGAGTTCATGGAACACGAAGAGAAACCCCTTCCCATTGAG
CATCGCACTCTGGGAGAGTACGCCAACAAGTATATGGCCTACGCAAAGGCCTTGCACTACAAGGAGATGGAGTAT
TTTGCCGAGTCGTCACCCGCCGTTATCGAGTCCCTCATCTCAATCAACACCAAGCTGCAGCAACATGATGCAGCT
TGGGGAACCCTGCTCCACGCTCGGGAGCAGTACGATGTCACCAAGCATGAAGAGTGGTATGAAAGATTGGGGCGG
TGGCAAGAGGCACTGCAGGTCTACGATCGGAAGGCGATGGAGGACCCAGACTCACCCGAGGTGAAGATTGGTCGA
GTAAAGTGTTATCACGCTTTGGGTGAATGGGAATTGCTTGCTGCCCAAGTCCAGGAGAACTGGGCCAACGCAACC
AACGAGGAACGACGTGAGATGGCACCCATGGCCGCGGCTGCTGCGTGGTCCCTGAATGACTGGGACTCGATGGAC
AACTACATCGGTACCATGAAAAATGACTCGCCGGATCGCGCGTTCTACAGGGCTATCCTTTCTGTCCACCAGAAC
CAGTTCTCCAAGGCACTTGCTCATATTGCTAAGGCGAGAGAGCTGATCGACCCCGAATTGAGTTCCTTCACAGGA
GAGGGGTACGGCAGATCATACAATGTCATGGTTCGGGCCCAGATGCTTTCCGAGCTTGAAGAAATCATTGCCTAC
AAACAATACGCAGATCAGCCCGAAAGGCAGGCGACGATGAGAAAGACGTGGATGAAGCGGTTGCAAGGATGTCAG
CCAGATGTCGAGGTCTGGCAACGTATCCTCCAAGTCCGCACATTAGTCTCTAGCCCCGAGCAAGATCCTGTTATG
TGGATCAAATTCGCCAACCTTTGCCGCAAGAACGATCGGATGATGCTCGCTGAGAAGACTATCAACTCCCTGCTG
ACTCCTGAAAGGAGAATGCTCGATCACCACCATCACCATAATACCAAAGCACCCCCCAACGTCGTCTATGCTCAA
CTGAAGTACATGTGGGCCAATGGTGAAAAAGAAGAGACCTTGAACCACCTCAGGCTATTCACCGCCAGCCTGGCC
AAGGACATCCAGCAAGAAACGAACGAGCAGGGACATAGACCAAACGTGTCGAAGTCAAAGTTGGCAGAACTCACA
AAACTGTTGGCCAGGTGCTACTTCAAGCAAGGAGAGTGGCAGATGGAATTAAAGGATGACTGGGACGCGAGGAAC
GTCGAGGATATCCTCCATTCGTACTACTATGCTACTCATTATGACCCCGGGTGGTACAAAGCATGGCATACGTGG
GCTTTGGCCAACTTTGAGGTCATTAGCCACATCGACACATTGGCAGAGAATCGGGCTACAGACATCCCTGGAGAT
TCGCTGGCATCCCATGTCGTGCAAGCAGTAACAGGTTTCTTCCGATCAATATCTCTCCGCAACCAGGATGCCCTG
CAGGACACTTTGCGATTACTGACCCTCTGGTTCAAATACGGTCACCACGACGAAGTCAGTCATTCCATGGCAAAC
GGCTTTTCGACAGTTGAAGTCGACACCTGGCTGGAAGTCATTCCTCAGATTATTGCCCGCATTCAAACGCCACAT
GCTAACATTCGCCGAAACATCAACAACCTGTTGACTGACGTCGGCAAGCATCATCCTCAGGCCTTGATTTATCCA
TTGACCGTGGCTTCTAAATCCTCGAGTTCGGCACGTCGAACTGCTGCCATTCAAATCATGGAGCGGATGAAAGAC
CACAGCTCGACAATTGTTACTCAGGCCCTCCTTGTCAGCAAGGAACTGATCCGTGTTGCAATCCTCTGGCACGAA
ATGTGGCATGAAGGCTTGGAAGAGGCTTCTCGCCTGTACTTCAACGACAAAAATCCTGAGGGTATGATCATGGCT
CTTGAGCCGTTGCACAAGTTGTTGGAGAAGGGACCAACGACTGCGCGTGAAACCTCATTTGCACAAGTCTTCGGG
CGAGAACTTGCAGAGGCCCGTGAAGCCTGCAAGAGATACCAGATCTACGGTGATCCTACGGAGCTCGACAAAGCC
TGGGATATCTATTACGGCGTCTTCAAAAAGGTCGAGAAGCAACTCCCATCACTGACAACCCTTGATCTGCAATAT
GTGTCGCCAAGTCTGCTCAAGGCCAGGCACTTGGACCTCGCGGTACCCGGCACATATCAAAGCGGTCGTCCAGTC
ATTACAATTGCCAGCTTCGCCACAAAATTGACAGTCATTGCATCCAAACAACGGCCCAGGCGACTGTCATTGAAG
GGGAGCGACGGACGAGACTACCAATACGTGTTGAAAGGACATGAGGACCTTCGTCAAGATGAACGTGTGATGCAG
CTTTTCAGCCTGGTCAACACCCTACTCTCCGTCGATACCAACAGTTTCAAACGCCGCCTTCATATCCAACGATAT
CCTGTCATCCCGCTGGCACCGAACGCCGGTTTGTTGGGTTGGGTCCAAGACAGTGACACTCTCCACGTTCTCATC
CGTGATTACCGCGAGTCAAGAAAGGTTCTCCTGAACATCGAGTATCGCCTGATGCTCCAAATGGCTCCTGATTAC
GAGAACTTGATGCTCCTCCAGAAGGTTGAGGTCTTTGAATACGCTCTGGAAAACACCACGGGTCAGGATCTCTAT
CGAGTGCTGTGGCTGAAGAGCACCAACTCGGAACACTGGCTCGAGAGGCGTGCCACCTATACCCGATCGCTCGCC
GTCAATAGTATGGTCGGCCATATCCTGGGACTCGGTGACCGCCACCCGTCCAATCTGCTTCTGGAACGCAGCACA
GGGAAAGTCGTTCACATTGATTTCGGTGACTGTTTCGAAGTCGCCATGCATCGAGAGAAATTCCCGGAAAAGGTT
CCATTCCGCCTAACGAGGATGCTGACACACGCGATGGAAGTCAGTGGAATTGAAGGAAGCTTCAGGAATACATGC
GAGATTACAATGACTGTCCTGAGGGATAACAAGGAGTCGTTGATGGCCGTCCTTGAAGCGTTCGTTTACGACCCT
TTGATCAACTGGAGGTTGATGCAGGCCGACGTGGAAGTTAGACGGCCAGATGCGGATGTTGAACGCGTCCCTGAA
CTTGGCCGAGTAGCTGCGCATCCCCAAGCTCCTAACAGGAAGCTTAAGGCCGATGAAAACGACATCTTCAATGAA
ACGGAGGAAGAGCCGGGAGCACAGGAGGTTCGAAACGAGCGAGCACTATTCGTGTACAATCGCGTTCAGCACAAG
CTCACGGGCCGAGACTTTAACCCCACCCAGGTCCTCAGTGTCAAGGCCCAGGTGGAGAAGCTCATTGAGCAAGCA
ACTTCTTTGGAAAATCTGTGCCAGTGTTTCTCTGGTTGGTGTGCCTTCTGGTAA
Length 7104

Transcript

Sequence id CopciAB_439934.T0
Sequence >CopciAB_439934.T0
GTTCATTGCCAGTGTGGTCCTTGATAGGCTAGCGGACGATAACCAATTCCTATAGCTATCGGACTGCGGCAGACT
ACACTACCTTCGACTCTGATTATCAAATTACTGCTGTTGAAGTAGAGGCTTCAACATGGCGTCCGCAGACCAAGC
CCCGGTGGGCGACCAGCAGCTCAACGCCATCTTTTCTGGGCTCAAGTCTCGTAGCGCAGACACTCGTATGCAGGC
TGCGGAGGATCTCAAGCGATTCGTTCAAGTATCGTATGCCGAAATGACCTCAGACGCAGCTGCAAAGCTATGGGA
CGACCACATCAACAGACGACTATTCGCCTTGATTCACAGCCAGAACATTAACGAAGCATTTGGTGGACTGTTGGG
AATAGAACGCCTCTTAGAACTCGACCTCGAGGAAACCATCGAATCGAAGCGCAACCACTTCCGATTCTACAACTA
TGTGAAGCACCTCCTCCCCAACCCCGACGTGCACTTGATGATGGCGGCTTCGAAGACATTGGGAAAGATTGCAGA
GATTGGCGGCGGTGTGGCCTTTGGCGAGAGGTTTATGGAATACGAAATCCCAGCGGCTATCGAGTTGATGCAACC
CGACAAACAAGAAGCCCCACGATATGCGGGTGTCCTGATCTTGAAGGAACTGGCCAGGAATAGCCCAACGTATTT
CCATCCGCATATTGGGATTGTGTTCGACAACATATTGCTGCCACTCCGAGACCCGCGACTGCATGTGCGAGAGGG
TGCCGCCGACCTGCTCGCTAATTGCTTGGAGATTGTGTGTAGTCGGGAGAGGCAAACAAGGAACCCGTACCTTTA
CAAGATCTTGCAAGACGCTCAGGCGGGCCTCAAGAGTTCGCAGCCGGAGGTTATCCACGGGTCGTTGGCTGCGTA
CCGGGAGTTGTTGCTTCACGCTGGGATGTTCATGCAAGAGAACTTTTTGGATACAGCAGAAGCCATCCTTCGCTT
CAAATCATCTCGAGATCCTCTGGTCCGTAGGATGGTTATTACCATGATCCCGACTCTGGCAGCGTACGACACCCA
AACCTTCACCGAGCACTTTTTGCACAAGGCCATGGCCCATCTTCTTACACAGCTCGACAAAGCACCTGAGCGGAA
CTTCGCTTTTATCGCCATCGGCCATACTGCACTTGCTGTGGGCAGTGATATGAAACCATTTTTGGATCCCATCAT
GGACAATGTGAAGTCGTGCCTACAGAATAGAGGGCGAAAGAATGCGCCCTCGGAAGAGCCAATATTCCAGTGCAT
TGGGATGTTGGCAGCCGCCGTCGGTCCCAACCTTACAAAGTTACTGCATGACCAGCTAGACTTGATGCTTGCATG
TGGTTTGAGCGAACCATTGAGCCAAGCTCTGGCAGCCATCGCCAAGTACATCCCTCCCCTGCTCAAGACAATCCA
AGATCGCCTCCTCCAACTCTTGTCCATGCTTCTGAGTGGGCAACCCTATCGACCGCTCGGTGCACCGGCGCCTTT
AGGTCGTAACGAATTCCCCGCTCCGCCCAACCAACTGACAGCCACTCAAATGACGACGACCGACAAGAACTCCGA
ACTCATCACTCTGGCGTTAAAGACCCTCGGAACGTTTGACTTTAGCGGTCACGTTCTTAACGAGTTCGTTCGCAG
CTGCGCGTTGCCTTATTTAGAAGACGACAACCCTCAAGTTCGCTGTGCGGCGGCAGAGACCTGCTGTACCTTGTT
CATCAAGGATCCCATTTGTTACCAAGCGAGTAGCCATGCTATCGAGGTCATCAGCGATGTTCTGGATAAGTTGCT
CACTGTTGGCATCGCTGATCCGGATCCTGGCATCCGTAATGTCGTCTTGCGAGGGCTCCACGAACGGTTCGACAA
GCATCTCGCTCAAGCTGAAAACGTTCGATCCCTGTTCATTGCACTGAATGACGAGGTCATGGCCAACCGAGAAGC
AGCCGTTGGCCTCATCGGGCGACTTGCCAAACACAACCCTGCATACGTTATGCCTTCCCTCCGTAAAGCCCTCAT
TCAACTTCTAACCGAGTTGGAGTACTCGACCGTGATGCGCAATCGAGAGGATTGCACTCGGCTCTTGACTCTGCT
GGTCAGTGCGACCCAGCGACTCATTAAACCTTACGCCATTCCTATGTTGCGCGTGCTCCTTCAGAAGGCGAACGA
CCCCAATCCCGCCGTGGCGGCAAACGTTCTCATGTGTCTCGGAGAGCTGGCTTGTGTTGCGGGCGAGGATGCTAT
GCCCCACGTCCAAGAGCTCATGCAGATCATCCTTGCCAAACTGGCCGACCCCCAAACGTTGAAACGTGATGCTGC
ACTTCATGCGTTAGGTCAGGTCTGCTCCAGCACGGGCTATGTCGTCCAGCCTCTGCTTGACCATCCTCAACTTCT
TCCGCTGCTCGGAAGAATCATGCGAACAGAGACCTCGGTTCAAACTCGGCGAGAAGTTGTGAAGGTCTTGGGCAT
TCTCGGTGCCCTTGATCCCTACCGACGAAAGTCGAGGCCGGATGAGGATGTTGCATCGAATGCGGAGACTTCGGT
TGCTGCAGTAAATCAAGTCCCCATTAATCCACACCCTACGTCGTCATCGTCGGACGATTACTTCCAGACTGTGGT
TATCACGTCCTTGCTCGCAATTCTGAAGGATCAGTCTCTCAGCAGCCACCACCATACCGTAATCGAAGCCATCAT
GTCGATCTTCAAGACCCAAGGATTGAAATGCGTGACCTTCCTTCCCCAAATTATTCCCGCCTTCGCTGCTATTAC
TCGGACATCCATCGCCCGACTCCAAGAATTCCATCTGCAACAGTTGGCCATTCTCGTCGGCATCATCAAACAGCA
CATTCGCAACTATACTCTGGACGTGTTTAGCTTGATCACTGAACTTTGGGACAACGTTACCCTGCAGCTGCCAAT
CGTTGCGCTCATTGAGGCTCTAGGAAAGGCGCTGGATGCTGAATTCAAGCCCTTCCTTCCGACTATCCTACCTCT
CGTCCTCAAGGTATTCGACGGGGACACGAGCGATAAACGGATTGCGGTTCAGATCAAGATCTTCGACGCATTCCT
GACCTTTGGAGCTAACATCGAAGAGTACCTGCACCTCGTTATCCCGATTATTGTCAAGTCCTATGAGCGGTCAGA
CGCGCCATCTTCTCTGCGAAAACGCGCCATACAGACCATTGACGGTTTGTCTCGGAGGGTCAATTTCTCTGACCA
CGCCTCTCGCATCATTCACCCCATGGTTCGCGTTCTGGATGGCAATAACAATGAGTTGCGCATGGCTGTCTTCGA
CACATTGTGCTCCCTCGTTGCACAGCTTGGCTCCGATTTTGCTATCTTTGTGCCCACTATCAACAAGGCAACTTT
GCGCAACCGCATCTCCCATCCGCGATACGAGAACTTGGTTTCCAAGCTCTTGAACGGAGAAAGTCTCCCTTCCGA
AGCTGGCGGCATGGATTGGATTCAAGCCGAAAATTCCAAGGCCCAAGAATTCCAAGCTCCGGCAGAGGCGCCCAA
GATGACTGTTAACCAGCAGCACCTCAAGCAGGCATGGGACGTGTCTCAGGTTACCACCAAAGACGATTGGCTTGA
GTGGATGCACCGCCTGAGTGTGGAGTTTATGAAGGAATCGCCTTCGCATGCTCTGAGGGCTTGTATGACGCTTGT
CGATATACACCAACCTCTCGCAAAGGAGCTGTTCAACGCTGCCTTCCTCTCTTGCTGGACAGAGCTCTACGACCA
ATACCAGGAGGATTTGGTTCGATCCATCGAGTTCGCCATCACATCGACTACAGCACCTCCCGAACTGATTCACCG
CCTCTTGAACTTGGCAGAGTTCATGGAACACGAAGAGAAACCCCTTCCCATTGAGCATCGCACTCTGGGAGAGTA
CGCCAACAAGTATATGGCCTACGCAAAGGCCTTGCACTACAAGGAGATGGAGTATTTTGCCGAGTCGTCACCCGC
CGTTATCGAGTCCCTCATCTCAATCAACACCAAGCTGCAGCAACATGATGCAGCTTGGGGAACCCTGCTCCACGC
TCGGGAGCAGTACGATGTCACCAAGCATGAAGAGTGGTATGAAAGATTGGGGCGGTGGCAAGAGGCACTGCAGGT
CTACGATCGGAAGGCGATGGAGGACCCAGACTCACCCGAGGTGAAGATTGGTCGAGTAAAGTGTTATCACGCTTT
GGGTGAATGGGAATTGCTTGCTGCCCAAGTCCAGGAGAACTGGGCCAACGCAACCAACGAGGAACGACGTGAGAT
GGCACCCATGGCCGCGGCTGCTGCGTGGTCCCTGAATGACTGGGACTCGATGGACAACTACATCGGTACCATGAA
AAATGACTCGCCGGATCGCGCGTTCTACAGGGCTATCCTTTCTGTCCACCAGAACCAGTTCTCCAAGGCACTTGC
TCATATTGCTAAGGCGAGAGAGCTGATCGACCCCGAATTGAGTTCCTTCACAGGAGAGGGGTACGGCAGATCATA
CAATGTCATGGTTCGGGCCCAGATGCTTTCCGAGCTTGAAGAAATCATTGCCTACAAACAATACGCAGATCAGCC
CGAAAGGCAGGCGACGATGAGAAAGACGTGGATGAAGCGGTTGCAAGGATGTCAGCCAGATGTCGAGGTCTGGCA
ACGTATCCTCCAAGTCCGCACATTAGTCTCTAGCCCCGAGCAAGATCCTGTTATGTGGATCAAATTCGCCAACCT
TTGCCGCAAGAACGATCGGATGATGCTCGCTGAGAAGACTATCAACTCCCTGCTGACTCCTGAAAGGAGAATGCT
CGATCACCACCATCACCATAATACCAAAGCACCCCCCAACGTCGTCTATGCTCAACTGAAGTACATGTGGGCCAA
TGGTGAAAAAGAAGAGACCTTGAACCACCTCAGGCTATTCACCGCCAGCCTGGCCAAGGACATCCAGCAAGAAAC
GAACGAGCAGGGACATAGACCAAACGTGTCGAAGTCAAAGTTGGCAGAACTCACAAAACTGTTGGCCAGGTGCTA
CTTCAAGCAAGGAGAGTGGCAGATGGAATTAAAGGATGACTGGGACGCGAGGAACGTCGAGGATATCCTCCATTC
GTACTACTATGCTACTCATTATGACCCCGGGTGGTACAAAGCATGGCATACGTGGGCTTTGGCCAACTTTGAGGT
CATTAGCCACATCGACACATTGGCAGAGAATCGGGCTACAGACATCCCTGGAGATTCGCTGGCATCCCATGTCGT
GCAAGCAGTAACAGGTTTCTTCCGATCAATATCTCTCCGCAACCAGGATGCCCTGCAGGACACTTTGCGATTACT
GACCCTCTGGTTCAAATACGGTCACCACGACGAAGTCAGTCATTCCATGGCAAACGGCTTTTCGACAGTTGAAGT
CGACACCTGGCTGGAAGTCATTCCTCAGATTATTGCCCGCATTCAAACGCCACATGCTAACATTCGCCGAAACAT
CAACAACCTGTTGACTGACGTCGGCAAGCATCATCCTCAGGCCTTGATTTATCCATTGACCGTGGCTTCTAAATC
CTCGAGTTCGGCACGTCGAACTGCTGCCATTCAAATCATGGAGCGGATGAAAGACCACAGCTCGACAATTGTTAC
TCAGGCCCTCCTTGTCAGCAAGGAACTGATCCGTGTTGCAATCCTCTGGCACGAAATGTGGCATGAAGGCTTGGA
AGAGGCTTCTCGCCTGTACTTCAACGACAAAAATCCTGAGGGTATGATCATGGCTCTTGAGCCGTTGCACAAGTT
GTTGGAGAAGGGACCAACGACTGCGCGTGAAACCTCATTTGCACAAGTCTTCGGGCGAGAACTTGCAGAGGCCCG
TGAAGCCTGCAAGAGATACCAGATCTACGGTGATCCTACGGAGCTCGACAAAGCCTGGGATATCTATTACGGCGT
CTTCAAAAAGGTCGAGAAGCAACTCCCATCACTGACAACCCTTGATCTGCAATATGTGTCGCCAAGTCTGCTCAA
GGCCAGGCACTTGGACCTCGCGGTACCCGGCACATATCAAAGCGGTCGTCCAGTCATTACAATTGCCAGCTTCGC
CACAAAATTGACAGTCATTGCATCCAAACAACGGCCCAGGCGACTGTCATTGAAGGGGAGCGACGGACGAGACTA
CCAATACGTGTTGAAAGGACATGAGGACCTTCGTCAAGATGAACGTGTGATGCAGCTTTTCAGCCTGGTCAACAC
CCTACTCTCCGTCGATACCAACAGTTTCAAACGCCGCCTTCATATCCAACGATATCCTGTCATCCCGCTGGCACC
GAACGCCGGTTTGTTGGGTTGGGTCCAAGACAGTGACACTCTCCACGTTCTCATCCGTGATTACCGCGAGTCAAG
AAAGGTTCTCCTGAACATCGAGTATCGCCTGATGCTCCAAATGGCTCCTGATTACGAGAACTTGATGCTCCTCCA
GAAGGTTGAGGTCTTTGAATACGCTCTGGAAAACACCACGGGTCAGGATCTCTATCGAGTGCTGTGGCTGAAGAG
CACCAACTCGGAACACTGGCTCGAGAGGCGTGCCACCTATACCCGATCGCTCGCCGTCAATAGTATGGTCGGCCA
TATCCTGGGACTCGGTGACCGCCACCCGTCCAATCTGCTTCTGGAACGCAGCACAGGGAAAGTCGTTCACATTGA
TTTCGGTGACTGTTTCGAAGTCGCCATGCATCGAGAGAAATTCCCGGAAAAGGTTCCATTCCGCCTAACGAGGAT
GCTGACACACGCGATGGAAGTCAGTGGAATTGAAGGAAGCTTCAGGAATACATGCGAGATTACAATGACTGTCCT
GAGGGATAACAAGGAGTCGTTGATGGCCGTCCTTGAAGCGTTCGTTTACGACCCTTTGATCAACTGGAGGTTGAT
GCAGGCCGACGTGGAAGTTAGACGGCCAGATGCGGATGTTGAACGCGTCCCTGAACTTGGCCGAGTAGCTGCGCA
TCCCCAAGCTCCTAACAGGAAGCTTAAGGCCGATGAAAACGACATCTTCAATGAAACGGAGGAAGAGCCGGGAGC
ACAGGAGGTTCGAAACGAGCGAGCACTATTCGTGTACAATCGCGTTCAGCACAAGCTCACGGGCCGAGACTTTAA
CCCCACCCAGGTCCTCAGTGTCAAGGCCCAGGTGGAGAAGCTCATTGAGCAAGCAACTTCTTTGGAAAATCTGTG
CCAGTGTTTCTCTGGTTGGTGTGCCTTCTGGTAATAGAATCCTTGTTATTCGTCACGTATCTATGCTTTTTGATT
TTCTCCACTTCGTTCGTTTGTGTATCATTAATATCTTGTAGACTATCGCCTCTACTTGCAACCTATCTCCACTTG
GGACATCATTATCAATAGAATATTTAATTGGTTCAAAGGGAATGAGGTCTCTGCGTGATTAGCCCCTGTCCCAAA
TTGGCGTAACGGAATTTGATGGGAGGCCATGAACGAGCGCGCGGTGAGCGACGTCCTTCAAGGTTTACAACATCA
ACTACCACCATGCCACGCGGCATTCCAAATGCACGAAAGGAAGAGAATGGCCTTCGATACACGACATTTCAGGTT
CCT
Length 7578

Gene

Sequence id CopciAB_439934.T0
Sequence >CopciAB_439934.T0
GTTCATTGCCAGTGTGGTCCTTGATAGGCTAGCGGACGATAACCAATTCCTATAGCTATCGGACTGCGGCAGACT
ACACTACCTTCGACTCTGATTATCAAATTACTGCTGTTGAAGTAGAGGCTTCAACATGGCGTCCGCAGACCAAGC
CCCGGTGGGCGACCAGCAGCTCAACGCCATCTTTTCTGGGCTCAAGTCTCGTAGCGCAGACACTCGTATGCAGGC
TGCGGAGGATCTCAAGCGATTCGTGCGTATATTCAGTGTGAATGAAATAATTTGTAGTCATCGTTTCTCCAGGTT
CAAGTATCGTATGCCGAAATGACCTCAGACGCAGCTGCAAAGCTATGGGACGACCACATCAACAGACGACTATTC
GCCTTGATTCACAGCCAGAACATTAACGAAGCATTTGGTGGACTGTTGGGAATAGGTTCGTCCGCAAACGTCATC
GAGCTTCGATATCCTGACCACGTTTCTTTCTCCAGAACGCCTCTTAGAACTCGACCTCGAGGAAACCATCGAATC
GAAGCGCAACCACTTCCGATTCTACAACTATGTGAAGCACCTCCTCCCCAACCCCGACGTGCACTTGATGATGGC
GGCTTCGAAGACATTGGGAAAGATTGCAGAGATTGGCGGCGGTGTGGCCTTTGGCGAGAGGTTTATGGAATACGA
AATCCCAGCGGCTATCGAGTTGATGCAACCCGACAAACAAGAAGCCCCACGATATGCGGGTGTCCTGATCTTGAA
GGAACTGGCCAGGAATAGCCCAACGTATTTCCATCCGCATATTGGGATTGTGTTCGACAACATATTGCTGCCACT
CCGAGACCCGCGACTGCATGTGCGAGAGGGTGCCGCCGACCTGCTCGCTAATTGCTTGGAGATTGTGTGTAGTCG
GGAGAGGCAAACAAGGAACCCGTACCTTTACAAGATCTTGCAAGACGCTCAGGCGGGCCTCAAGAGTTCGCAGCC
GGAGGTTATCCACGGGTCGTTGGCTGCGTACCGGGAGTTGTTGCTTCACGCTGGGATGGTGAGTTGACCTTTGCC
GGGACAATCATTGTGCTAACCTCGGACATAGTTCATGCAAGAGAACTTTTTGGATACAGCAGAAGCCATCCTTCG
CTTCAAATCATCTCGAGATCCTCTGGTCCGTAGGATGGTTATTACCATGATCCCGACTCTGGCAGCGTACGACAC
CCAAACCTTCACCGAGCACTTTTTGCACAAGGCCATGGCCCATCTTCTTACACAGCTCGACAAAGCACCTGAGCG
GAACTTCGGTAAGCTTACTTCCATGTTACACCTCGGCGCTCACTTAATATTGGATAGCTTTTATCGCCATCGGCC
ATACTGCACTTGCTGTGGGCAGTGATATGAAACCATTTTTGGATCCCATCATGGACAATGTGAAGTCGTGCCTAC
AGAATAGAGGGTTTGTATCTGTTTAAGTTGTCAGGTGTGAATGCGGACTGAATAATTATAACAGGCGAAAGAATG
CGCCCTCGGAAGAGCCAATATTCCAGTGCATTGGGATGTTGGCAGCCGCCGTCGGTCCCAACCTTACAAAGTTAC
TGCATGACCAGCTAGACTTGATGCTTGCATGTGGTTTGAGCGAACCATTGAGCCAAGCTCTGGCAGCCATCGCCA
AGTACATCCCTCCCCTGCTCAAGACAATCCAAGGTATGTACCCCTTGTCTTTTCTATGGGAACTCTGCTCATTTC
GTGCAAAGATCGCCTCCTCCAACTCTTGTCCATGCTTCTGAGTGGGCAACCCTATCGACCGCTCGGTGCACCGGC
GCCTTTAGGTCGTAACGAATTCCCCGCTCCGCCCAACCAACTGACAGCCACTCAAATGACGACGACCGACAAGAA
CTCCGAACTCATCACTCTGGCGTTAAAGACCCTCGGAACGTTTGACTTTAGCGGTCACGTTCTTAACGAGTTCGT
TCGCAGCTGCGCGTTGCCTTATTTAGAAGACGACAACCCTCAAGTTCGCTGTGCGGCGGCAGAGACCTGCTGTAC
CTTGTTCATCAAGGATCCCATTTGTTACCAAGCGAGTAGCCATGCTATCGAGGTCATCAGCGATGTTCTGGATAA
GTTGCTCACTGTTGGCATCGCTGATCCGGGTATGTTTCTTTGGCTGTGATCTTGCGAGTAGGCTCTCACCACGGT
ATAGATCCTGGCATCCGTAATGTCGTCTTGCGAGGGCTCCACGAACGGTTCGACAAGCATCTCGCTCAAGCTGAA
AACGTTCGATCCCTGTTCATTGCACTGAATGACGAGGTCATGGCCAACCGAGAAGCAGCCGTTGGCCTCATCGGG
CGACTTGCCAAACACAACCCTGCATACGTTATGCCTTCCCTCCGTAAAGCCCTCATTCAACTTCTAACCGAGTTG
GAGTACTCGACCGTGATGCGCAATCGAGAGGATTGCACTCGGCTCTTGACTCTGCTGGTCAGTGCGACCCAGCGA
CTCATTAAACCTTACGCCATTCCTATGTTGCGCGTGCTCCTTCAGAAGGCGAACGACCCCAATCCCGCCGTGGCG
GCAAACGTTCTCATGTGTCTCGGAGAGCTGGCTTGTGTTGCGGGCGAGGATGCTATGCCCCACGTCCAAGAGCTC
ATGCAGATCATCCTTGCCAAACTGGCCGACCCCCAAACGTTGAAACGTGATGCTGCACTTCATGCGTTAGGTCAG
GTCTGCTCCAGCACGGGCTATGTCGTCCAGCCTCTGCTTGACCATCCTCAACTTCTTCCGCTGCTCGGAAGAATC
ATGCGAACAGAGACCTCGGTTCAAACTCGGCGAGAAGTTGTGAAGGTCTTGGGCATTCTCGGTGCCCTTGATCCC
TACCGACGAAAGGTGAGTTGTCGTGGTCACTTTATGATACTTTATTGACGCTGATCGTGCTTCTAGTCGAGGCCG
GATGAGGATGTTGCATCGAATGCGGAGACTTCGGTTGCTGCAGTAAATCAAGTCCCCATTAATCCACACCCTACG
TCGTCATCGTCGGACGATTACTTCCAGACTGTGGTTATCACGTCCTTGCTCGCAATTCTGAAGGATCAGTCTCTC
AGCAGCCACCACCATACCGTAATCGAAGCCATCATGTCGATCTTCAAGACCCAAGGATTGAAATGCGTGACCTTC
CTTCCCCAAGTAGGTTCGATCTCTGCATGCTCCATGTTGCAGTAACTGATCTTGGTTTCCTAGATTATTCCCGCC
TTCGCTGCTATTACTCGGACATCCATCGCCCGACTCCAAGAATTCCATCTGCAACAGTTGGCCATTCTCGTCGGC
ATCATCAAACAGCACATTCGCAACTATACTCTGGACGTGTTTAGCTTGATCACTGAACTTTGGGACAACGTTACC
CTGCAGCTGCCAATCGTTGCGCTCATTGAGGCTCTAGGAAAGGCGCTGGATGCTGAATTCAAGCCCTTCCTTCCG
ACTATCCTACCTCTCGTCCTCAAGGTATTCGACGGGGACACGAGCGATAAACGGATTGCGGTTCAGATCAAGATC
TTCGACGCATTCCTGACCTTTGGAGCTAACATCGAAGAGTACCTGCACCTCGTTATCCCGATTATTGTCAAGTCC
TATGAGCGGTCAGACGCGCCATCTTCTCTGCGAAAACGCGCCATACAGACCATTGACGGTTTGTCTCGGAGGGTC
AATTTCTCTGACCACGCCTCTCGCATCATTCACCCCATGGTTCGCGTTCTGGATGGCAATAACAATGAGTTGCGC
ATGGCTGTCTTCGACACATTGTGCTCCCTCGTTGCACAGCTTGGCTCCGATTTTGCTATCTTTGTGCCCACTATC
AACAAGGTAAATACCGACCGAACCGATCATTGGGACCTTAGGCTGATGTGTTGCAGGCAACTTTGCGCAACCGCA
TCTCCCATCCGCGATACGAGAACTTGGTTTCCAAGCTCTTGAACGGAGAAAGTCTCCCTTCCGAAGCTGGCGGCA
TGGATTGGATGTGAGTTCAGCGATGTCAAAGGGAGTGCAGCTATTGACCATATGGCAGTCAAGCCGAAAATTCCA
AGGCCCAAGAATTCCAAGCTCCGGCAGAGGCGCCCAAGATGACTGTTAACCAGCAGCACCTCAAGCAGGCATGGG
ACGTGTCTCAGGTTACCACCAAAGACGATTGGCTTGAGTGGATGCACCGCCTGAGTGTGGAGTTTATGAAGGAAT
CGCCTTCGCATGCTCTGAGGGCTTGTATGACGCTTGTCGATATACACCAACCTCTCGCAAAGGAGCTGTTCAACG
CTGCCTTCCTCTCTTGCTGGACAGAGCTCTACGACCAATACCAGGTTAGCGGCAACAACATCGAATCTTGAAACC
ACCGCTGAACTTTTTATTCCAGGAGGATTTGGTTCGATCCATCGAGTTCGCCATCACATCGACTACAGCACCTCC
CGAACTGATTCACCGCCTCTTGAACTTGGCAGAGTTCATGGAACACGAAGAGAAACCCCTTCCCATTGAGCATCG
CACTCTGGGAGAGTACGCCAACAAGTATATGGCCTACGCAAAGGCCTTGCACTACAAGGAGATGGAGTATTTTGC
CGAGTCGTCACCCGCCGTTATCGAGTCCCTCATCTCAATCAACACCAAGCTGCAGCAACATGATGCAGCTTGGGG
AACCCTGCTCCACGCTCGGGAGCAGTACGATGTCACCAAGCATGAAGAGTGGTATGAAAGATTGGGGCGGTGGCA
AGAGGCACTGCAGGTCTACGATCGGAAGGCGATGGAGGACCCAGACTCACCCGAGGTGAAGATTGGTCGAGTAAA
GTGTTATCACGCTTTGGGTGAATGGGAATTGCTTGCTGCCCAAGTCCAGGAGAACTGGGCCAACGCAACCAACGA
GGAACGACGTGAGATGGCACCCATGGCCGCGGCTGCTGCGTGGTCCCTGAATGACTGGGACTCGATGGACAACTA
CATCGGTACCATGAAAAATGACTCGCCGGATCGCGCGTTCTACAGGGCTATCCTTTCTGTCCACCAGAACCAGTT
CTCCAAGGCACTTGCTCATATTGCTAAGGCGAGAGAGCTGATCGACCCCGAATTGAGTTCCTTCACAGGAGAGGG
GTACGGCAGATCATACAAGTAAGTGAATCAAGATCTCCACGGACCTTTACCCTTTACTCATAGTGGCCCTTTAGT
GTCATGGTTCGGGCCCAGATGCTTTCCGAGCTTGAAGAAATCATTGCCTACAAACAATACGCAGATCAGCCCGAA
AGGCAGGCGACGATGAGAAAGACGTGGATGAAGCGGTAAGGGCCTATCCATGTTCCGGTTAGGTTTTATTTCAAT
GACGTTGGTATAGGTTGCAAGGATGTCAGCCAGATGTCGAGGTCTGGCAACGTATCCTCCAAGTCCGCACATTAG
TCTCTAGCCCCGAGCAAGATCCTGTTATGTGGATCAAATTCGCCAACCTTTGCCGCAAGAACGATCGGATGATGC
TCGCTGAGAAGACTATCAACTCCCTGCTGACTCCTGAAAGGGTGAGTCTTTCTTGCAGTGTATTTATCCTCGCTC
ACGGTCTTGCAGAGAATGCTCGATCACCACCATCACCATAATACCAAAGCACCCCCCAACGTCGTCTATGCTCAA
CTGAAGTACATGTGGGCCAATGGTGAAAAAGAAGAGACCTTGAACCACCTCAGGCTATTCACCGCCAGCCTGGCC
AAGGACATCCAGCAAGAAACGAACGAGCAGGGACATAGACCAAACGTGTCGAAGTCAAAGTTGGCAGAACTCACA
AAACTGTTGGCCAGGTGCTACTTCAAGCAAGGAGAGTGGCAGATGGAATTAAAGGATGACTGGGACGCGGTTAGT
CACTGTTAATGAATGGACCGTCTCCGTTGCTGATTCCCGCATTAGAGGAACGTCGAGGATATCCTCCATTCGTAC
TACTATGCTACTCATTATGACCCCGGGTGGTACAAAGCATGGCATACGTGGGCTTTGGCCAACTTTGAGGTCATT
AGCCACATCGACACATTGGCAGAGAATCGGGCTACAGACATCCCTGGAGATTCGCTGGCATCCCATGTCGTGCAA
GCAGTAACAGGTAAACCTCCCTTCGTAGCCGTCCTTGACGCCATGTTGATATTAGGCAAAGGTTTCTTCCGATCA
ATATCTCTCCGCAACCAGGATGCCCTGCAGGACACTTTGCGATTACTGACCCTCTGGTTCAAATACGGTCACCAC
GACGAAGTCAGTCATTCCATGGCAAACGGCTTTTCGACAGTTGAAGTCGACACCTGGCTGGAAGTCATTCCTCAG
GTCCGTTAGTTTCGTTTCTTGGCATCGTCCTTGTAATCTCATTTCCCTTCAGATTATTGCCCGCATTCAAACGCC
ACATGCTAACATTCGCCGAAACATCAACAACCTGTTGACTGACGTCGGCAAGCATCATCCTCAGGCCTTGATTTA
TCCATTGACCGTGGCTTCTAAATCCTCGAGTTCGGCACGTCGAACTGCTGCCATTCAAATCATGGAGCGGATGAA
AGACCACAGCTCGACAATTGTTACTCAGGTAGGCAGGTCGTCACCGAGAGACATGCTCCTGTACTTATCCCATTG
TCCAGGCCCTCCTTGTCAGCAAGGAACTGATCCGTGTTGCAATCCTCTGGCACGAAATGTGGCATGAAGGCTTGG
AAGAGGCTTCTCGCCTGTACTTCAACGACAAAAATCCTGAGGGTATGATCATGGCTCTTGAGCCGTTGCACAAGT
TGTTGGAGAAGGTGAGGATTCAAGCGGGTCGACGACGACAGAGGCTAAAATTACCGTGTCAGGGACCAACGACTG
CGCGTGAAACCTCATTTGCACAAGTCTTCGGGCGAGAACTTGCAGAGGCCCGTGAAGCCTGCAAGAGATACCAGA
TCTACGGTGATCCTACGGAGCTCGACAAAGCCTGGGATATCTATTACGGCGTGAGTAACCTGCTTGGGTGTCAAG
AAGACCTAATTTAGAATTATTTCCTTTCAGGTCTTCAAAAAGGTCGAGAAGCAACTCCCATCACTGACAACCCTT
GATCTGCAATATGTGTCGCCAAGTCTGCTCAAGGCCAGGCACTTGGACCTCGCGGTACCCGGTATGATTTCACCG
TTCCCTTTGCCCGCTGACTTCTTACCGTTTGCTCAGGCACATATCAAAGCGGTCGTCCAGTCATTACAATTGCCA
GCTTCGCCACAAAATTGACAGTCATTGCATCCAAACAACGGCCCAGGCGACTGTCATTGAAGGGGAGCGACGGAC
GAGACTACCAATACGTGTTGAAAGGTTTGCTGCTTTTGTCCACCGTTGCGTTTCCTTTCACTGAAGGGTGCATCT
GTAGGACATGAGGACCTTCGTCAAGATGAACGTGTGATGCAGCTTTTCAGCCTGGTCAACACCCTACTCTCCGTC
GATACCAACAGTTTCAAACGCCGCCTTCATATCCAACGATATCCTGTCATCCCGCTGGCACCGAACGCCGGTTTG
TTGGGTTGGGTCCAAGACAGTGACACTCTCCACGTTCTCATCCGTGATTACCGCGAGTCAAGAAAGGTTCTCCTG
AACATCGAGTATCGCCTGATGCTCCAAGTACGTCACATCCAGTTTGAGGATTCAATAAGCTGACCTTTCTATTAG
ATGGCTCCTGATTACGAGAACTTGATGCTCCTCCAGAAGGTTGAGGTCTTTGAATACGCTCTGGAAAACACCACG
GGTCAGGATCTCTATCGAGTGCTGTGGCTGAAGAGCACCAACTCGGAACACTGGCTCGAGAGGCGTGCCACCTAT
ACCCGATCGCTCGCCGTCAATAGTATGGTCGGCCATATCCTGGGACTCGGTGACCGCCACCCGTCCAATCTGCTT
CTGGAACGCAGCACAGGGAAAGTCGTTCACATTGATTTCGGTGACTGTTTCGAAGTCGCCATGCATCGAGAGAAA
TTCCCGGAAAAGGTTCCATTCCGCCTAACGAGGATGCTGACACACGCGATGGAAGTAAGTTATCCTTCTTCCGAT
TTCCAACGCGGTTGATTTACTGTCATTCAGGTCAGTGGAATTGAAGGAAGCTTCAGGAATACATGCGAGATTACA
ATGACTGTCCTGAGGGATAACAAGGAGTCGTTGATGGCCGTCCTTGAAGCGTTCGTTTACGACCCTTTGATCAAC
TGGAGGTTGATGCAGGCCGACGTGGAAGTTAGACGGCCAGATGGTATGTCAAAGCCCCGCTGTAGATGACCTGGT
TCTGACCGTCTATAAAGCGGATGTTGAACGCGTCCCTGAACTTGGCCGAGTAGCTGCGCATCCCCAAGCTCCTAA
CAGGAAGCTTAAGGCCGATGAAAACGACATCTTCAATGGTAAGGGGACTTGATACTCCAGGAGATCATCCGACTC
ATAAGCTTTCGCAGAAACGGAGGAAGAGCCGGGAGCACAGGAGGTTCGAAACGAGCGAGCACTATTCGTGTACAA
TCGCGTTCAGCACAAGCTCACGGGCCGAGACTTTAACCCCACCCAGGTCCTCAGTGTCAAGGCCCAGGTGGAGAA
GCTCATTGAGCAAGCAACTTCTTTGGAAAATCTGTGCCAGTGTTTCTCTGGTTGGTGTGCCTTCTGGTAATAGAA
TCCTTGTTATTCGTCACGTATCTATGCTTTTTGATTTTCTCCACTTCGTTCGTTTGTGTATCATTAATATCTTGT
AGACTATCGCCTCTACTTGCAACCTATCTCCACTTGGGACATCATTATCAATAGAATATTTAATTGGTTCAAAGG
GAATGAGGTCTCTGCGTGATTAGCCCCTGTCCCAAATTGGCGTAACGGAATTTGATGGGAGGCCATGAACGAGCG
CGCGGTGAGCGACGTCCTTCAAGGTTTACAACATCAACTACCACCATGCCACGCGGCATTCCAAATGCACGAAAG
GAAGAGAATGGCCTTCGATACACGACATTTCAGGTTCCT
Length 8964