CopciAB_496995
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_496995 Strain Coprinopsis cinerea Okayama 7
Standard name VPS15 Synonyms 496995
Uniprot id Functional description Protein kinase domain
Location scaffold_9:1449820..1456003 Strand +
Gene length (nt) 6184 Transcript length (nt) 5410
CDS length (nt) 5073 Protein length (aa) 1690

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Neurospora crassa stk-45
Schizosaccharomyces pombe ppk19
Aspergillus nidulans AN0576_vps15

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB23837 68.3 0 2373
Agrocybe aegerita Agrae_CAA7269893 70.1 0 2260
Pleurotus eryngii ATCC 90797 Pleery1_1449042 65.5 0 2256
Lentinula edodes NBRC 111202 Lenedo1_1268636 64.8 0 2209
Lentinula edodes W1-26 v1.0 Lentinedodes1_10479 64.3 0 2196
Grifola frondosa Grifr_OBZ66825 64.3 0 2184
Pleurotus ostreatus PC15 PleosPC15_2_1073245 64 0 2184
Ganoderma sp. 10597 SS1 v1.0 Gansp1_138526 63.6 0 2170
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_187673 63.5 0 2166
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_121500 63.2 0 2166
Pleurotus ostreatus PC9 PleosPC9_1_43851 63.2 0 2147
Flammulina velutipes Flave_chr11AA01699 63.2 0 2143
Schizophyllum commune H4-8 Schco3_2544151 61 0 2063
Auricularia subglabra Aurde3_1_1202401 53.1 0 1752
Lentinula edodes B17 Lened_B_1_1_11966 60.8 0 1196

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 130.2238 16.5152 9.5351
oidia 110.7551 16.0522 9.2678
vegetative_mycelium 107.5496 9.1918 5.3069
primordia 106.8912 10.2179 5.8993
hyphal_knot 139.1334 7.9003 4.5612
young_fruiting_body 96.3061 12.762 7.3681
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 108.2546 8.7521 5.053
Wheat bran 72.8304 16.2108 9.3593
Horse manure 100.6152 25.3101 14.6128
Oak leaves 132.5616 37.9341 21.9013
Hay 103.6496 15.3648 8.8709
Corn stalk 106.5564 17.9037 10.3367
Pectine 106.7203 0.2137 0.1234
Microcrystalline cellulose 137.2775 13.0798 7.5516
Xylose 108.0132 6.0993 3.5214
Cellobiose 106.2222 13.6838 7.9003
Lignin 143.6641 36.8963 21.3021
Apple peels 126.3898 11.265 6.5038
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 76.888 2.0548 1.1863
Bsubtilis 83.506 5.0468 2.9138
Ecoli 80.8129 2.9579 1.7078
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 56.4534 9.2057 5.3149
BS 4h 25.4244 4.1874 2.4176
BS 8h 11.7595 0.333 0.1922
BS 12h 12.1757 0.6132 0.354
Oidia 0 h 14.4326 1.2118 0.6997
Oidia 18 h 16.5512 0.6257 0.3612
Sclerotia 17.0954 1.3092 0.7559
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 13.632 3.9659 2.2897
DM 36h 12.8917 0.9618 0.5553
DM 60h 13.8657 1.8213 1.0515
DM 84h 11.0206 0.7472 0.4314
DM 108h 13.8381 1.6692 0.9637
DM 132h 12.4257 3.1841 1.8383
DM 156hAE 18.3261 1.0576 0.6106
ELI1hAE 13.4256 2.0227 1.1678
ELI2hAE 10.4877 0.6406 0.3698
LI2hAE 12.2365 1.4633 0.8448
LI6hAE 11.7091 1.882 1.0866
LI12hAE 16.1887 2.6388 1.5235
LI18hAE 13.0284 0.6419 0.3706
LI 24hAE 16.1072 3.7276 2.1521
DM 156hAM 14.4438 3.21 1.8533
ELI1hAM 11.0726 2.1475 1.2398
ELI2hAM 11.0182 3.573 2.0629
LI2hAM 9.7623 1.838 1.0612
LI6hAM 13.9318 2.2068 1.2741
LI12hAM 12.0009 0.7768 0.4485
LI18hAM 11.6362 3.117 1.7996
LI 24hAM 15.07 3.7229 2.1494
LI 24hHK 12.9471 1.1055 0.6383
L/D 6h 23.4549 2.9026 1.6758
L/D 12h 23.6808 1.1865 0.685
L/D 18h 23.4833 8.8722 5.1224
L/D 24h 21.6015 3.3983 1.962
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 114.3906 3.6032 2.0803
Hyphal knots 84.9643 10.6672 6.1587
Primordium 1 88.4257 16.7764 9.6859
Primordium 2 82.6168 2.2705 1.3109
Young Fruiting body cap 92.4761 19.6561 11.3484
Younf fruiting body gill 75.7869 5.7595 3.3252
Young fruiting body stipe 93.3416 0.962 0.5554
Mature fruiting body cap_gill 196.4056 26.982 15.5781
Mature fruiting body stipe 195.5198 61.752 35.6525
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 69.5644 15.1351 8.7383
NH4NO3 67.3771 5.0566 2.9194
Proline 69.1875 1.4137 0.8162
Tryptophan 74.5969 32.8319 18.9555
Isoleucin 74.5523 15.5432 8.9738
Arginine 52.7841 2.7848 1.6078
Metionine 58.722 0.997 0.5756
NaNO3 62.0752 9.5803 5.5312
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 69.5644 15.1351 8.7383
Citrus peel 55.9246 4.5334 2.6173
Poplar leaves 80.9048 7.8788 4.5488
Typha leaves 63.3513 16.3725 9.4527
Overwintered Salix leaves 63.5408 7.3737 4.2572
Reed flowering 53.7811 6.6166 3.8201
Tigernut 43.0768 1.6586 0.9576
Energy cane 75.0855 9.4562 5.4596
Guar gum 79.0672 33.6229 19.4122
Apple peels 54.3622 8.0274 4.6346
Cellobiose 64.4027 5.0371 2.9082
Corn stalk 71.6956 6.0791 3.5098
Horse manure 85.724 8.1607 4.7116
Lignin 68.6643 28.8258 16.6426
Microcrystalline cellulose 66.4738 8.74 5.046
Oak leaves 91.456 9.2404 5.3349
Pectin esterified 53.3758 11.2498 6.4951
Poplar sawdust 104.7335 12.6641 7.3116
Wheat bran 60.4418 3.6374 2.1001
Chlamydomonas reinhardtii 89.7544 8.1166 4.6861
Vertatryl alcohol 80.2828 2.5458 1.4698
Furfural 62.2667 4.8421 2.7956
Autoclaved mycelium 61.7472 9.1412 5.2777
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 87.6752 3.6429 2.1032
Ribose 103.7561 8.4647 4.8871
Mannose 101.7257 2.6431 1.8689
Fructose 106.5728 4.0116 2.3161
Arabinose 107.6496 12.8329 7.4091
Xylose 99.1085 7.676 4.4318
Galacturonic acid 100.7833 12.584 7.2654
Rhamnogalacturonan 108.5563 5.2961 3.0577
Pectin esterified 102.804 8.8216 5.0931
Polygalacturonic acid 114.084 6.0648 3.5015
Sodium acetate 103.5256 6.9322 4.0023
No nitrogen 116.3745 11.3729 6.5661
BSA 101.6845 3.5007 2.0211
Glutamine 103.6543 3.3752 1.9487
No phosphate 92.9623 2.5036 1.4455
No carbon 97.7456 0.907 0.6413
No sulphur 104.5488 9.59 5.5368
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 69.5644 15.1351 8.7383
Amylose 115.4252 8.4918 4.9028
Fucose 102.8104 18.997 10.9679
Galactose 101.2877 12.7394 7.3551
Lactose 75.9379 1.5842 0.9146
Maltose 97.958 6.0977 3.5205
Mannitol 89.8248 2.73 1.5762
Rhamnose 84.3172 16.8994 9.7569
Sorbitol 102.1607 7.4317 4.2907
Trehalose 81.1463 19.26 11.1198
Glycerol 81.3511 32.8552 18.969
Glucuronic acid 111.2458 11.7479 6.7826
Arabinan 92.8123 33.6122 19.406
Galactan 68.7199 2.8707 1.6574
Galactomannan 63.1468 25.0266 14.4491
Glucan 72.4507 14.06 8.1176
Xylan 92.8649 8.3506 4.8212
Xyloglucan 92.4574 14.7301 8.5044
Arabinogalactan 99.285 3.0975 1.7883
Pectin 60.14 11.1718 6.45
Rhamnogalacturonan 70.1306 5.6252 3.2477
Polygalacturonic acid 86.0109 5.5635 3.2121
Mannan 104.142 10.2189 5.8999
Amylopectin 60.0581 6.6077 3.8149
Inulin 66.1728 5.7913 3.3436
BSA 55.2335 4.1305 2.3847
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 13.8657 1.8213 1.0515
2h WAT 13.2069 3.441 1.9867
4h WAT 15.6677 3.2539 1.8787
8h WAT 14.6444 1.9842 1.1456
16h WAT 17.0422 2.1438 1.2377
24h WAT 16.0396 3.2812 1.8944
WAT hyphal knot -30h 14.0302 0.9554 0.5516
WAT hyphal knot -22h 16.6031 1.5674 0.9049
WAT hyphal knot -15h 17.2781 1.0355 0.5979
WAT hyphal knot -7.5h 16.6565 2.455 1.4174
WAT hyphal knot 18.4122 4.0509 2.3388
WAT hyphal knot +7.5h 11.8033 3.5597 2.0552
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 54.7934 14.8682 8.5841
Straw 3h 61.3539 18.3338 10.5851
Straw 6h 55.1721 12.7798 7.3784
Straw 12h 71.2422 4.3111 2.489
Straw 24h 62.2716 10.4424 6.0289
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 8.1646 1.0222 0.5902
Frost (-20C, 30min) 11.2408 0.7883 0.4551
Heat shock (47C, 2h) 37.8324 1.7312 0.9995
High CO2 9.7768 1.7146 0.9899
Drought (4% agar, 12h) 11.1674 2.6022 1.5024
Oxidative (1mM H2O2, 3h) 12.9072 1.775 1.0248
Acidic (pH4, 3h) 6.8608 2.7166 1.5684
Alkaline (pH9, 3h) 6.875 1.5611 0.9013
Osmotic (sorbitol 2h) 10.9882 0.5978 0.3451
CongoRed (3h) 7.0568 0.2562 0.1479
Cobalt chloride control 11.2915 0.3941 0.2276
Cobalt chloride 2mM 9.1447 1.8165 1.0487
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 9.3161 2.1712 1.2535
Cold stimulation 8.2712 1.5038 0.8682
Scratched surface 14.7562 0.9906 0.5719
Ca2+, 200mM, 24h 8.4792 2.9181 1.6848
Cu2+, 2mM, 6h 9.8674 1.5794 0.9118
Voriconazole 7.2856 0.7708 0.445
Trichoderma interaction, early 12.9322 1.7578 1.0149
Trichoderma interaction 60h 25.4337 14.9005 8.6028
Cobalt chloride 2mM repeat 21.2794 3.3894 1.9569
Hypoxia 11.5303 1.3834 0.7987
Hypoxia control 13.1099 1.1831 0.6831
Protoplastation control 11.5551 2.4717 1.7477
Protoplastation 3.5h 8.6211 1.0885 0.7697
Protoplastation 1.5h 12.3605 10.7848 7.626

General data

Systematic name VPS15
Protein id CopciAB_496995.T0
Description Protein kinase domain

Annotation summary

0 400 800 1200 1600 1690

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd13980 STKc_Vps15 - 27 317
Pfam PF00069 Protein kinase domain IPR000719 33 306
Pfam PF02985 HEAT repeat IPR000357 500 526
Pfam PF00400 WD domain, G-beta repeat IPR001680 1185 1220

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR045162 Serine/threonine-protein kinase Vps15-like
IPR015943 WD40/YVTN repeat-like-containing domain superfamily
IPR021133 HEAT, type 2
IPR016024 Armadillo-type fold
IPR001680 WD40 repeat
IPR008271 Serine/threonine-protein kinase, active site
IPR000719 Protein kinase domain
IPR036322 WD40-repeat-containing domain superfamily
IPR000357 HEAT repeat
IPR011989 Armadillo-like helical
IPR011009 Protein kinase-like domain superfamily

GO

Go id Term Ontology
GO:0004674 protein serine/threonine kinase activity MF
GO:0016236 macroautophagy BP
GO:0045324 late endosome to vacuole transport BP
GO:0005515 protein binding MF
GO:0004672 protein kinase activity MF
GO:0006468 protein phosphorylation BP
GO:0005524 ATP binding MF

KEGG

KEGG Orthology
K08333

EggNOG

COG category Description
T Protein kinase domain

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_496995 across fungi.

Arrow shows the origin of gene family containing CopciAB_496995.

Protein

Sequence id CopciAB_496995.T0
Sequence >CopciAB_496995.T0
MGNVHSGSTFTRTTGALDSYVADLGTDIIYEKSLGSSRFLKTVKCKHRNGYLVIKIFVKPDPGLTLRNYHKRLKN
DKESLVDIANVYNYQVFVETERAGYIIRQWVASNLYDRISTRPFLTMVEKRWISFQLLNALRDARNRKVSHGDIK
SENILVTSWNWVYLTDFASYKPTYLPLDDPSDFSFYFDTSGRRTCYLAPERFYTQANNPDISAKKSRIAAMEDTP
GKRDGKVTEAMDCFSAGCVIAELFLEGAPLFTLSQLFKYREGELNVDTQLASIEDEGIRNLIKEMIHLDPTARPT
FDSLLHTSRGTVFPETFYSFLHNYISTLNEPSPSTYSSTSSATTPGSTLPTGSMSVLRPHAPHSAPGSEPTPETL
ANDSDHRMERIWEDYESIEPYLCPEPSEDRTMDVNIDYTSNVQAVFKPFQDVIPVELHIPNRDSKLRTHAGRRAA
LEDGPALIILASVTSNIRNCKLPSSKVRALDVFLALSCHLTDEAKLDRMVPYIVELLHDDSALVRSAALRTLVQV
LTLVSVITPSNVAIFPEYIIPNIKHLVQDPEVSVRCTYAQCIVPIADTAVRYLEMGQALKAHGAFNLAAEGQDYE
HAHYEISYDASMQELQNHIQAHLAALLMDPSSVVKRAVLHNISSLCVFLGRQKTNDVLLSHMITYLNDRDWLLRY
SFFESIVDVAACAGGRSLEEYILPLMIQALSDVEESVVSRVLGALTSLCELGLFQKMRIWELMSATLGFLYHPNL
WIRQGAAAFITSAAQQLPASDIWCIVYPSLRHFLKSDIGEINTSSLLRAMKPPLPRQILDSSVQWAMKADRSVFW
SRPRRGGSKTESPRESVISVRKAGTGNLAKNRSEEDEVHINKLQQLGLTSSDESKLLAMRDYILKLANATASFSS
RLSYEPDTGKNLKVTGDLELQKLGVVPQTVFLKQRQDSGSRMTIPSSRRSISSRTSAMSPRFPRPPSIDHGSVGT
GAPFEDLRRRLASINNSVSSLSPNQPKDARSVSSPLAPSSSSISVASATAPSPVAAERERDRPPSPTESVVSNAN
SVSLRPASRLQVGSVEGSKAAPAVGSSKTVATGLLDAHSHIGSPDPSGRSSPLSMSATLRQHRPRVPSLLPISTY
DGQEPGISNLLENLYLDNNRELQQDFGPPVHEGPIRRRNTSRHPFGTRDITNKRLEASLISNLTSHSEAITGIAV
SPDHAFFVTASDDKTVKVWDTARLERNVTSKARHTYNQHHARVKCVCIIEGTHCFASAAEDGSLHVVRVQLTQSA
AGASSAAGSLPKYGKLQVVREHRVESVGEWITCMVHYKSDSTSSLVYATTHSNIAILELRTMRVLQTMENPRHYG
PITAMCMDKRRAWLVVGTSTGVLTLWDKRFGILLKSWQTAAATSSGKSCKVHQIAVHPTKGRGKWIIVALETSKK
GLASSRDSVTIIEVWDVEKSVLVETFVVGTSSDREREREGSESPGPHEVEVEGVDANPSPAAAIAAFVRSRQLQS
ENERRSSARGSANEELVAPPAPDVRAMVVGLDFGGYASAHRLEYGEFIPDGGGASSRSSTKGFVVTGSDDRRLRF
WDLSRAEKSVVFSGLEQDGERPTHSINSGGSRGGEDEGNKGPVSYVETWPAVPTGGQSSRPSQRISLITQHQQNL
LKSHQDVVTALACIDSPWRGGIVSGDRAGVVKVWRLDYVE
Length 1690

Coding

Sequence id CopciAB_496995.T0
Sequence >CopciAB_496995.T0
ATGGGAAATGTTCACTCCGGGTCGACGTTCACGCGAACGACAGGCGCGTTAGATTCATATGTAGCGGATCTAGGG
ACGGACATAATCTATGAGAAGAGTCTCGGTTCCTCGCGCTTTCTCAAGACGGTCAAATGCAAGCACCGAAATGGT
TACCTGGTCATCAAGATATTCGTGAAACCCGACCCAGGACTGACCTTGCGAAACTATCACAAGAGACTAAAGAAT
GACAAGGAGTCCCTGGTGGATATTGCGAACGTCTACAACTATCAAGTCTTTGTCGAGACTGAGAGAGCTGGATAC
ATTATAAGGCAATGGGTGGCGAGCAACCTCTACGACAGGATAAGTACAAGGCCTTTCTTGACTATGGTAGAGAAA
CGATGGATATCATTTCAACTGCTAAACGCCCTTCGTGACGCCCGCAACCGCAAGGTCTCGCATGGCGATATCAAG
TCCGAGAACATCCTCGTCACATCCTGGAACTGGGTCTACCTCACAGACTTCGCGTCCTACAAGCCGACATACCTA
CCATTGGACGACCCTTCCGACTTTTCTTTCTACTTCGACACCTCCGGACGGCGAACTTGCTATTTGGCTCCTGAG
CGCTTCTACACGCAAGCCAACAACCCTGACATCAGTGCGAAGAAATCGAGGATTGCAGCTATGGAGGATACGCCG
GGGAAGCGTGACGGAAAGGTCACCGAGGCCATGGACTGCTTCAGCGCGGGCTGTGTCATCGCCGAGTTGTTCCTG
GAAGGCGCTCCTTTGTTTACTCTCAGCCAGTTGTTCAAGTATCGGGAAGGCGAACTCAATGTAGACACTCAGTTG
GCATCGATTGAAGACGAGGGTATAAGGAATCTGATCAAGGAAATGATACATCTCGACCCGACAGCTCGACCGACC
TTCGACAGCCTTCTGCACACCTCGAGAGGAACTGTGTTCCCCGAGACTTTCTATTCGTTCCTCCATAACTACATA
TCCACTCTGAACGAGCCATCTCCTTCGACTTATTCCAGCACCTCCTCGGCGACGACTCCCGGTTCCACTCTTCCT
ACTGGCTCCATGTCCGTCCTGCGACCTCACGCTCCACATTCAGCACCAGGGTCAGAGCCTACCCCGGAGACATTG
GCTAATGATTCTGACCACAGAATGGAGCGAATATGGGAGGACTATGAGAGTATCGAGCCGTACCTGTGTCCTGAA
CCAAGCGAAGACCGCACCATGGACGTAAACATCGATTACACATCCAATGTACAGGCCGTGTTCAAACCTTTCCAG
GACGTAATCCCTGTCGAACTCCACATTCCCAACCGCGACTCCAAGCTTCGAACTCATGCTGGACGAAGAGCTGCT
CTAGAAGATGGACCTGCTTTAATCATCCTTGCCTCTGTCACTTCGAATATCCGGAATTGCAAACTCCCAAGCTCG
AAAGTGAGAGCATTGGACGTCTTCTTGGCGTTGTCGTGCCACTTGACGGATGAAGCCAAATTGGATCGTATGGTA
CCCTATATCGTGGAACTGCTACATGATGACTCTGCGTTGGTTCGCTCGGCGGCGTTGAGGACCTTAGTTCAAGTG
CTGACGTTGGTCTCTGTTATCACGCCGTCGAATGTGGCCATCTTCCCAGAGTATATTATCCCAAACATCAAGCAT
TTAGTGCAAGATCCCGAGGTTTCGGTGCGGTGTACCTACGCTCAATGTATTGTCCCGATTGCGGATACGGCTGTG
AGATATCTGGAAATGGGCCAGGCTCTGAAGGCACACGGAGCATTCAACTTGGCCGCTGAGGGTCAGGACTATGAA
CATGCTCACTATGAGATCTCGTACGATGCCAGTATGCAGGAACTTCAGAACCACATTCAAGCCCATCTAGCGGCC
CTCCTCATGGATCCCTCCAGTGTCGTTAAGCGAGCCGTGCTTCACAACATCTCTTCGCTATGCGTCTTCCTTGGT
CGACAGAAGACGAATGATGTCTTATTGAGCCATATGATCACGTACTTGAACGATCGAGATTGGCTTTTGAGGTAC
TCTTTCTTTGAGAGCATCGTCGATGTAGCAGCTTGTGCAGGGGGTCGAAGCTTGGAAGAGTACATCTTACCTTTG
ATGATTCAGGCGCTGTCGGATGTCGAAGAGAGTGTGGTGTCAAGAGTCTTGGGTGCTCTGACTAGTCTATGCGAA
CTGGGCCTGTTCCAGAAAATGAGGATATGGGAGTTAATGAGCGCGACACTTGGGTTCTTGTATCACCCGAATCTA
TGGATCCGCCAAGGTGCCGCTGCCTTTATCACCTCCGCCGCCCAACAGCTGCCCGCCAGCGATATCTGGTGTATT
GTCTATCCATCCCTTCGTCATTTCCTCAAGTCTGACATTGGTGAAATCAACACCTCGAGCCTGTTACGTGCAATG
AAACCTCCCCTTCCTCGCCAGATCCTCGACTCGTCGGTACAATGGGCGATGAAAGCTGATAGATCGGTGTTTTGG
AGCCGACCTAGGAGGGGAGGAAGCAAGACCGAGTCACCGAGGGAGAGCGTGATCTCAGTAAGGAAGGCTGGGACT
GGGAATCTTGCGAAGAACCGATCTGAAGAGGATGAGGTGCATATCAACAAGCTGCAGCAACTGGGATTGACGTCC
AGCGACGAGAGTAAGCTGCTTGCAATGAGAGATTATATCCTCAAGCTGGCCAATGCCACCGCAAGCTTTTCTTCG
CGACTCAGCTACGAGCCTGACACCGGCAAGAATCTCAAGGTCACAGGGGATTTGGAGCTGCAGAAACTTGGAGTT
GTGCCGCAGACTGTCTTCCTGAAGCAACGTCAAGACTCTGGTTCACGCATGACCATTCCCTCGTCCAGGCGTTCG
ATTTCAAGTAGAACGTCAGCTATGAGCCCTCGTTTCCCAAGACCACCCAGTATTGATCACGGGAGTGTTGGCACC
GGTGCTCCCTTTGAGGACCTCAGGAGGAGGCTGGCCAGCATCAACAACTCGGTCTCATCTCTCTCGCCGAACCAG
CCCAAGGATGCGCGGAGTGTATCTTCTCCCTTAGCCCCTTCTAGCTCTTCGATATCCGTGGCATCTGCAACGGCC
CCTTCACCTGTTGCTGCTGAACGCGAACGCGATCGACCCCCAAGTCCTACCGAGTCTGTCGTGTCGAATGCCAAT
TCGGTTTCGCTGCGACCTGCAAGTCGGCTACAGGTGGGAAGCGTTGAAGGTTCCAAGGCAGCTCCTGCTGTGGGC
TCCTCGAAGACTGTTGCGACTGGGCTCTTGGATGCTCATTCACATATTGGGTCCCCTGATCCTTCCGGACGGTCG
TCTCCCCTTTCGATGTCGGCAACACTACGTCAGCATCGACCCAGGGTTCCTTCGTTGTTACCTATCTCGACGTAT
GATGGCCAAGAACCTGGTATCAGCAACCTTCTTGAGAACCTTTACCTCGACAACAACAGGGAATTACAGCAAGAC
TTTGGACCACCTGTTCATGAGGGCCCAATCCGGCGACGCAATACCTCTCGACATCCTTTCGGCACTCGGGACATC
ACCAACAAACGACTTGAAGCCTCCCTCATCTCCAACCTGACCTCTCATTCCGAAGCTATCACCGGAATCGCCGTT
TCTCCTGACCACGCTTTCTTCGTTACGGCTTCAGACGACAAGACTGTCAAGGTGTGGGACACGGCTAGACTCGAG
AGAAACGTCACAAGCAAGGCTAGGCATACCTACAACCAACATCATGCAAGAGTCAAGTGTGTGTGCATCATCGAG
GGCACGCATTGCTTCGCCAGCGCGGCAGAGGATGGCAGTTTGCATGTTGTGAGGGTGCAATTGACGCAGAGTGCG
GCTGGGGCGAGCAGCGCTGCTGGAAGTTTACCCAAGTATGGTAAATTGCAAGTCGTGAGGGAGCATAGGGTCGAG
AGTGTCGGGGAGTGGATTACGTGTATGGTCCATTACAAGTCTGATTCGACGTCTAGTCTGGTATACGCAACCACC
CACTCCAACATCGCCATCCTTGAACTTCGTACGATGCGGGTTCTTCAAACTATGGAGAATCCTCGACATTACGGT
CCCATCACAGCGATGTGTATGGACAAGAGACGGGCGTGGCTGGTGGTTGGCACTTCGACTGGCGTTCTGACCCTC
TGGGACAAGCGATTCGGTATCCTTCTGAAGAGCTGGCAAACCGCAGCGGCAACCTCTTCCGGCAAATCTTGCAAG
GTCCATCAAATCGCAGTCCATCCCACGAAGGGCAGAGGCAAATGGATCATTGTGGCTCTGGAAACGTCGAAGAAA
GGACTTGCTTCTTCTCGGGATTCTGTCACCATCATCGAGGTATGGGATGTGGAGAAGTCTGTTCTGGTCGAAACG
TTTGTGGTTGGAACGAGCAGCGACAGGGAAAGGGAGAGGGAGGGCAGCGAGAGTCCCGGTCCACATGAGGTCGAG
GTGGAAGGCGTGGACGCCAACCCAAGTCCTGCTGCCGCAATCGCCGCCTTTGTGCGTTCTCGCCAACTTCAGAGC
GAGAATGAAAGGCGTTCTTCAGCAAGAGGTTCGGCGAACGAGGAATTAGTTGCTCCCCCCGCACCTGACGTTCGA
GCGATGGTAGTTGGGCTCGACTTTGGAGGCTACGCTTCTGCCCACAGGTTAGAGTATGGGGAGTTCATACCTGAC
GGGGGAGGCGCGAGCTCTAGGAGTTCCACCAAAGGGTTCGTGGTGACGGGATCGGATGATCGACGATTGCGATTC
TGGGACCTGAGTCGGGCTGAAAAGTCAGTCGTGTTTAGTGGACTTGAGCAAGATGGGGAAAGACCTACGCACAGC
ATCAATAGCGGCGGCTCTCGAGGCGGTGAAGATGAAGGGAACAAGGGCCCGGTTTCTTACGTTGAAACCTGGCCT
GCCGTCCCGACGGGTGGGCAGTCCAGCAGGCCATCGCAACGAATATCCTTGATCACCCAACATCAGCAGAACCTG
TTGAAGTCCCACCAAGACGTCGTAACTGCCCTAGCTTGCATTGACTCGCCGTGGAGAGGTGGGATTGTCAGCGGT
GATCGTGCTGGCGTCGTCAAGGTGTGGAGGCTAGATTATGTAGAGTAG
Length 5073

Transcript

Sequence id CopciAB_496995.T0
Sequence >CopciAB_496995.T0
ACCTTCGCCTCCACCACAGTCTCTGAATCTCTGGGTTCACTAGATATTGTCTCCATGAACGAGAACTCGAGCACT
GGCTTTATCTGCTAACGAGAGAAAATGGGAAATGTTCACTCCGGGTCGACGTTCACGCGAACGACAGGCGCGTTA
GATTCATATGTAGCGGATCTAGGGACGGACATAATCTATGAGAAGAGTCTCGGTTCCTCGCGCTTTCTCAAGACG
GTCAAATGCAAGCACCGAAATGGTTACCTGGTCATCAAGATATTCGTGAAACCCGACCCAGGACTGACCTTGCGA
AACTATCACAAGAGACTAAAGAATGACAAGGAGTCCCTGGTGGATATTGCGAACGTCTACAACTATCAAGTCTTT
GTCGAGACTGAGAGAGCTGGATACATTATAAGGCAATGGGTGGCGAGCAACCTCTACGACAGGATAAGTACAAGG
CCTTTCTTGACTATGGTAGAGAAACGATGGATATCATTTCAACTGCTAAACGCCCTTCGTGACGCCCGCAACCGC
AAGGTCTCGCATGGCGATATCAAGTCCGAGAACATCCTCGTCACATCCTGGAACTGGGTCTACCTCACAGACTTC
GCGTCCTACAAGCCGACATACCTACCATTGGACGACCCTTCCGACTTTTCTTTCTACTTCGACACCTCCGGACGG
CGAACTTGCTATTTGGCTCCTGAGCGCTTCTACACGCAAGCCAACAACCCTGACATCAGTGCGAAGAAATCGAGG
ATTGCAGCTATGGAGGATACGCCGGGGAAGCGTGACGGAAAGGTCACCGAGGCCATGGACTGCTTCAGCGCGGGC
TGTGTCATCGCCGAGTTGTTCCTGGAAGGCGCTCCTTTGTTTACTCTCAGCCAGTTGTTCAAGTATCGGGAAGGC
GAACTCAATGTAGACACTCAGTTGGCATCGATTGAAGACGAGGGTATAAGGAATCTGATCAAGGAAATGATACAT
CTCGACCCGACAGCTCGACCGACCTTCGACAGCCTTCTGCACACCTCGAGAGGAACTGTGTTCCCCGAGACTTTC
TATTCGTTCCTCCATAACTACATATCCACTCTGAACGAGCCATCTCCTTCGACTTATTCCAGCACCTCCTCGGCG
ACGACTCCCGGTTCCACTCTTCCTACTGGCTCCATGTCCGTCCTGCGACCTCACGCTCCACATTCAGCACCAGGG
TCAGAGCCTACCCCGGAGACATTGGCTAATGATTCTGACCACAGAATGGAGCGAATATGGGAGGACTATGAGAGT
ATCGAGCCGTACCTGTGTCCTGAACCAAGCGAAGACCGCACCATGGACGTAAACATCGATTACACATCCAATGTA
CAGGCCGTGTTCAAACCTTTCCAGGACGTAATCCCTGTCGAACTCCACATTCCCAACCGCGACTCCAAGCTTCGA
ACTCATGCTGGACGAAGAGCTGCTCTAGAAGATGGACCTGCTTTAATCATCCTTGCCTCTGTCACTTCGAATATC
CGGAATTGCAAACTCCCAAGCTCGAAAGTGAGAGCATTGGACGTCTTCTTGGCGTTGTCGTGCCACTTGACGGAT
GAAGCCAAATTGGATCGTATGGTACCCTATATCGTGGAACTGCTACATGATGACTCTGCGTTGGTTCGCTCGGCG
GCGTTGAGGACCTTAGTTCAAGTGCTGACGTTGGTCTCTGTTATCACGCCGTCGAATGTGGCCATCTTCCCAGAG
TATATTATCCCAAACATCAAGCATTTAGTGCAAGATCCCGAGGTTTCGGTGCGGTGTACCTACGCTCAATGTATT
GTCCCGATTGCGGATACGGCTGTGAGATATCTGGAAATGGGCCAGGCTCTGAAGGCACACGGAGCATTCAACTTG
GCCGCTGAGGGTCAGGACTATGAACATGCTCACTATGAGATCTCGTACGATGCCAGTATGCAGGAACTTCAGAAC
CACATTCAAGCCCATCTAGCGGCCCTCCTCATGGATCCCTCCAGTGTCGTTAAGCGAGCCGTGCTTCACAACATC
TCTTCGCTATGCGTCTTCCTTGGTCGACAGAAGACGAATGATGTCTTATTGAGCCATATGATCACGTACTTGAAC
GATCGAGATTGGCTTTTGAGGTACTCTTTCTTTGAGAGCATCGTCGATGTAGCAGCTTGTGCAGGGGGTCGAAGC
TTGGAAGAGTACATCTTACCTTTGATGATTCAGGCGCTGTCGGATGTCGAAGAGAGTGTGGTGTCAAGAGTCTTG
GGTGCTCTGACTAGTCTATGCGAACTGGGCCTGTTCCAGAAAATGAGGATATGGGAGTTAATGAGCGCGACACTT
GGGTTCTTGTATCACCCGAATCTATGGATCCGCCAAGGTGCCGCTGCCTTTATCACCTCCGCCGCCCAACAGCTG
CCCGCCAGCGATATCTGGTGTATTGTCTATCCATCCCTTCGTCATTTCCTCAAGTCTGACATTGGTGAAATCAAC
ACCTCGAGCCTGTTACGTGCAATGAAACCTCCCCTTCCTCGCCAGATCCTCGACTCGTCGGTACAATGGGCGATG
AAAGCTGATAGATCGGTGTTTTGGAGCCGACCTAGGAGGGGAGGAAGCAAGACCGAGTCACCGAGGGAGAGCGTG
ATCTCAGTAAGGAAGGCTGGGACTGGGAATCTTGCGAAGAACCGATCTGAAGAGGATGAGGTGCATATCAACAAG
CTGCAGCAACTGGGATTGACGTCCAGCGACGAGAGTAAGCTGCTTGCAATGAGAGATTATATCCTCAAGCTGGCC
AATGCCACCGCAAGCTTTTCTTCGCGACTCAGCTACGAGCCTGACACCGGCAAGAATCTCAAGGTCACAGGGGAT
TTGGAGCTGCAGAAACTTGGAGTTGTGCCGCAGACTGTCTTCCTGAAGCAACGTCAAGACTCTGGTTCACGCATG
ACCATTCCCTCGTCCAGGCGTTCGATTTCAAGTAGAACGTCAGCTATGAGCCCTCGTTTCCCAAGACCACCCAGT
ATTGATCACGGGAGTGTTGGCACCGGTGCTCCCTTTGAGGACCTCAGGAGGAGGCTGGCCAGCATCAACAACTCG
GTCTCATCTCTCTCGCCGAACCAGCCCAAGGATGCGCGGAGTGTATCTTCTCCCTTAGCCCCTTCTAGCTCTTCG
ATATCCGTGGCATCTGCAACGGCCCCTTCACCTGTTGCTGCTGAACGCGAACGCGATCGACCCCCAAGTCCTACC
GAGTCTGTCGTGTCGAATGCCAATTCGGTTTCGCTGCGACCTGCAAGTCGGCTACAGGTGGGAAGCGTTGAAGGT
TCCAAGGCAGCTCCTGCTGTGGGCTCCTCGAAGACTGTTGCGACTGGGCTCTTGGATGCTCATTCACATATTGGG
TCCCCTGATCCTTCCGGACGGTCGTCTCCCCTTTCGATGTCGGCAACACTACGTCAGCATCGACCCAGGGTTCCT
TCGTTGTTACCTATCTCGACGTATGATGGCCAAGAACCTGGTATCAGCAACCTTCTTGAGAACCTTTACCTCGAC
AACAACAGGGAATTACAGCAAGACTTTGGACCACCTGTTCATGAGGGCCCAATCCGGCGACGCAATACCTCTCGA
CATCCTTTCGGCACTCGGGACATCACCAACAAACGACTTGAAGCCTCCCTCATCTCCAACCTGACCTCTCATTCC
GAAGCTATCACCGGAATCGCCGTTTCTCCTGACCACGCTTTCTTCGTTACGGCTTCAGACGACAAGACTGTCAAG
GTGTGGGACACGGCTAGACTCGAGAGAAACGTCACAAGCAAGGCTAGGCATACCTACAACCAACATCATGCAAGA
GTCAAGTGTGTGTGCATCATCGAGGGCACGCATTGCTTCGCCAGCGCGGCAGAGGATGGCAGTTTGCATGTTGTG
AGGGTGCAATTGACGCAGAGTGCGGCTGGGGCGAGCAGCGCTGCTGGAAGTTTACCCAAGTATGGTAAATTGCAA
GTCGTGAGGGAGCATAGGGTCGAGAGTGTCGGGGAGTGGATTACGTGTATGGTCCATTACAAGTCTGATTCGACG
TCTAGTCTGGTATACGCAACCACCCACTCCAACATCGCCATCCTTGAACTTCGTACGATGCGGGTTCTTCAAACT
ATGGAGAATCCTCGACATTACGGTCCCATCACAGCGATGTGTATGGACAAGAGACGGGCGTGGCTGGTGGTTGGC
ACTTCGACTGGCGTTCTGACCCTCTGGGACAAGCGATTCGGTATCCTTCTGAAGAGCTGGCAAACCGCAGCGGCA
ACCTCTTCCGGCAAATCTTGCAAGGTCCATCAAATCGCAGTCCATCCCACGAAGGGCAGAGGCAAATGGATCATT
GTGGCTCTGGAAACGTCGAAGAAAGGACTTGCTTCTTCTCGGGATTCTGTCACCATCATCGAGGTATGGGATGTG
GAGAAGTCTGTTCTGGTCGAAACGTTTGTGGTTGGAACGAGCAGCGACAGGGAAAGGGAGAGGGAGGGCAGCGAG
AGTCCCGGTCCACATGAGGTCGAGGTGGAAGGCGTGGACGCCAACCCAAGTCCTGCTGCCGCAATCGCCGCCTTT
GTGCGTTCTCGCCAACTTCAGAGCGAGAATGAAAGGCGTTCTTCAGCAAGAGGTTCGGCGAACGAGGAATTAGTT
GCTCCCCCCGCACCTGACGTTCGAGCGATGGTAGTTGGGCTCGACTTTGGAGGCTACGCTTCTGCCCACAGGTTA
GAGTATGGGGAGTTCATACCTGACGGGGGAGGCGCGAGCTCTAGGAGTTCCACCAAAGGGTTCGTGGTGACGGGA
TCGGATGATCGACGATTGCGATTCTGGGACCTGAGTCGGGCTGAAAAGTCAGTCGTGTTTAGTGGACTTGAGCAA
GATGGGGAAAGACCTACGCACAGCATCAATAGCGGCGGCTCTCGAGGCGGTGAAGATGAAGGGAACAAGGGCCCG
GTTTCTTACGTTGAAACCTGGCCTGCCGTCCCGACGGGTGGGCAGTCCAGCAGGCCATCGCAACGAATATCCTTG
ATCACCCAACATCAGCAGAACCTGTTGAAGTCCCACCAAGACGTCGTAACTGCCCTAGCTTGCATTGACTCGCCG
TGGAGAGGTGGGATTGTCAGCGGTGATCGTGCTGGCGTCGTCAAGGTGTGGAGGCTAGATTATGTAGAGTAGAAG
CTGTTCTCTATCCCCCGCGTTTCTTTTTTTTTTCTTTCTTGAGACTGTTCCTCAACCCTTTGACGCGCTCGAGTC
CACAATCGAACAATTTATGCGACTCCACGCCTAGTGGCGAGTGCGAATTTTCGAGGTATGTAGATATAGTACAAA
TGCACGAAGAAACGGAGAAATAGAAATGTAAGATGCTTGTATGTATGAGTCTTAACTACTCTACTATTCATAAGC
CTTGTCGATG
Length 5410

Gene

Sequence id CopciAB_496995.T0
Sequence >CopciAB_496995.T0
ACCTTCGCCTCCACCACAGTCTCTGAATCTCTGGGTTCACTAGATATTGTCTCCATGAACGAGAACTCGAGCACT
GGCTTTATCTGCTAACGAGAGAAAATGGGAAATGTTCACTCCGGGTCGACGTTCACGCGAACGACAGGCGCGTTA
GATTCATATGTAGCGGATCTAGGGACGGACATAATCTATGAGAAGAGGTGAGCCGTTGCACTTGAAGAGGCAGAC
TTATTGACCAAAAGAAGTCTCGGTTCCTCGCGCTTTCTCAAGACGGTCAAATGCAAGCACCGAAATGGTTACCTG
GTCATCAAGATATTCGTGAAACCCGACCCAGGACTGACCTTGCGAAACTATCACAAGAGACTAAAGAGTGAGTCA
AGGAGAAGTCAAGTGTGAACGTAGGCTAAATCTTCACAGATGACAAGGAGTCCCTGGTGGATATTGCGAACGTCT
ACAACTATCAAGTCTTTGTCGAGACTGAGAGAGCTGGATACATTATAAGGCAATGGGTGGCGAGCAACCTCTACG
ACAGGATAAGGTTCGTGTTAACCCAACTTTGTATTAACTTGTCTGACCTCGTACAGTACAAGGCCTTTCTTGACT
ATGGTAGAGAAACGATGGATATCATTTCAACTGCTAAACGCCCTTCGTGACGCCCGCAACCGCAAGGTCTCGCAT
GGCGATATCAAGTCCGAGAACATCCTCGTCACATCCTGGAACTGGGTCTACCTCACAGACTTCGCGTCCTACAAG
CCGACATACCTACCATTGGACGACCCTTCCGACTTTTCTTTCTACTTCGACACCTCCGGACGGCGAACTTGCTAT
TTGGCTCCTGAGCGCTTCTACACGCAAGCCAACAACCCTGACATCAGTGCGAAGAAATCGAGGATTGCAGCTATG
GAGGATACGCCGGGGAAGCGTGACGGAAAGGTCACCGAGGCCATGGACTGCTTCAGCGCGGGCTGTGTCATCGCC
GAGTTGTTCCTGGAAGGCGCTCCTTTGTTTACTCTCAGCCAGTTGTTCAAGTATCGGGAAGGCGAACTCAATGTA
GACACTCAGTTGGCATCGATTGAAGACGAGGGTATAAGGGTGGGTTGCATCTATCTTACCCAAAGGCATTATTCA
ACTCACTGGATAGTAGAATCTGATCAAGGAAATGATACATCTCGACCCGACAGCTCGACCGACCTTCGACAGCCT
TCTGCACACCTCGAGAGGAACTGTGTTCCCCGAGACTTTCTATTCGTTCCTCCATAACTACATATCCACTCTGAA
CGAGCCATCTCCTTCGACTTATTCCAGCACCTCCTCGGCGACGACTCCCGGTTCCACTCTTCCTACTGGCTCCAT
GTCCGTCCTGCGACCTCACGCTCCACATTCAGCACCAGGGTCAGAGCCTACCCCGGAGACATTGGCTAATGATTC
TGACCACAGAATGGAGCGAATATGGGAGGACTATGAGAGTATCGAGCCGTACCTGTGTCCTGAACCAAGCGAAGA
CCGCACCATGGACGTAAACATCGATTACACATCCAATGTACAGGCCGTGTTCAAACCTTTCCAGGTGTGTCACGT
TCATGTCTCCCTTGGATTCAGGCTTACCGTGCAACAAGGACGTAATCCCTGTCGAACTCCACATTCCCAACCGCG
ACTCCAAGCTTCGAACTCATGCTGGACGAAGAGCTGCTCTAGAAGGTGCGTTGCCATCTGCTTGGAGATGGATTG
GTTTAACCGCCAATATCCAGATGGACCTGCTTTAATCATCCTTGCCTCTGTCACTTCGAATATCCGGAATTGCAA
ACTCCCAAGCTCGAAAGTGAGAGCATTGGACGTCTTCTTGGCGTTGTCGTGCCACTTGACGGATGAAGCCAAATT
GGATCGTATGGTACCCTATATCGTGGAACTGCTACATGATGACTCTGCGTTGGTTCGCTCGGCGGCGTTGAGGAC
CTTAGTTCAAGTGGTAAGCTTGTCGTTTCGTTTCCTTGTGTGAAGAGTGCTGACGAAGGATTTATTCGTGCAGCT
GACGTTGGTCTCTGTTATCACGCCGTCGAATGTGGCCATCTTCCCAGAGTATATTATCCCAAACATCAAGCATTT
AGTGCAAGATCCCGAGGTTTCGGTGCGGTGTACCTACGCTCAATGTATTGTCCCGATTGCGGATACGGCTGTGAG
ATATCTGGAAATGGGCCAGGCTCTGAAGGCACACGGAGCATTCAACTTGGCCGCTGAGGGTCAGGACTATGAACA
TGCTCACTATGAGGTGAGTAAAGCCACATTCACGCAGCCCGCGTCGCTGATGAAGTGCGTAGATCTCGTACGATG
CCAGTATGCAGGAACTTCAGAACCACATTCAAGCCCATCTAGCGGCCCTCCTCATGGATCCCTCCAGTGTCGTTA
AGCGAGCCGTGCTTCACAACATCTCTTCGCTATGCGTCTTCCTTGGTCGACAGAAGACGAATGATGTCTTATTGA
GCCATATGATCACGTACTTGAACGATCGAGATTGGCTTTTGAGGTACTCTTTCTTTGAGAGCATCGTCGATGTAG
CAGCTTGTGCAGGGGGTCGAAGCTTGGAAGAGTACATCTTACCTTTGATGATTCAGGCGCTGTCGGGTGAGTAGT
CATGGAAGTTCTGGCGTTTCAACTGATTGACTTGGGATACACAGATGTCGAAGAGAGTGTGGTGTCAAGAGTCTT
GGGTGCTCTGACTAGTCTATGCGAACTGGGCCTGTTCCAGAAAATGAGGATATGGGAGTTAATGAGCGCGACACT
TGGGTTCTTGTATCACCCGAATCTATGGATCCGCCAAGGCAAGTAATCGTTCGGGCTTATAGAATGCGTGGCCTG
ACCTCCATCCCAATGTCAGGTGCCGCTGCCTTTATCACCTCCGCCGCCCAACAGCTGCCCGCCAGCGATATCTGG
TGTATTGTCTATCCATCCCTTCGTCATTTCCTCAAGTCTGACATTGGTGAAATCAACACCTCGAGCCTGTTACGT
GCAATGAAACCTCCCCTTCCTCGCCAGATCCTCGACTCGTCGGTACAATGGGCGATGAAAGCTGATAGATCGGTG
TTTTGGAGCCGACCTAGGAGGGGAGGAAGCAAGACCGAGTCACCGAGGGAGAGCGTGATCTCAGTAAGGAAGGCT
GGGACTGGGAATCTTGCGAAGAACCGATCTGAAGAGTGAGCAAAATGAGCGCGCATGGTTTTGTCGTGTTACTGA
CGACGAGTTGATAGGGATGAGGTGCATATCAACAAGCTGCAGCAACTGGGATTGACGTCCAGCGACGAGAGTAAG
CTGCTTGCAATGAGAGATTATATCCTCAAGCTGGCCAATGCCACCGCAAGGTCTGATACCTTTACTTAAGGCACC
GTGCACTTGCTGAGCGAATTGACCATCCAGCTTTTCTTCGCGACTCAGCTACGAGCCTGACACCGGCAAGAATCT
CAAGGTCACAGGGGATTTGGAGCTGCAGAAACTTGGAGTTGTGCCGCAGACTGTCTTCCTGAAGCAACGTCAAGA
CTCTGGTTCACGCATGACCATTCCCTCGTCCAGGCGTTCGATTTCAAGTAGAACGTCAGCTATGAGCCCTCGTTT
CCCAAGACCACCCAGTATTGATCACGGGAGTGTTGGCACCGGTGCTCCCTTTGAGGACCTCAGGAGGAGGCTGGC
CAGCATCAACAACTCGGTCTCATCTCTCTCGCCGAACCAGCCCAAGGATGCGCGGAGTGTATCTTCTCCCTTAGC
CCCTTCTAGCTCTTCGATATCCGTGGCATCTGCAACGGCCCCTTCACCTGTTGCTGCTGAACGCGAACGCGATCG
ACCCCCAAGTCCTACCGAGTCTGTCGTGTCGAATGCCAATTCGGTTTCGCTGCGACCTGCAAGTCGGCTACAGGT
GGGAAGCGTTGAAGGTTCCAAGGCAGCTCCTGCTGTGGGCTCCTCGAAGACTGTTGCGACTGGGCTCTTGGATGC
TCATTCACATATTGGGTCCCCTGATCCTTCCGGACGGTCGTCTCCCCTTTCGATGTCGGCAACACTACGTCAGCA
TCGACCCAGGGTTCCTTCGTTGTTACCTATCTCGACGTATGGTGCGTCTATTACCTTTACTGAGGATAAGCACAT
TACCTGACCTGTTAACTAGATGGCCAAGAACCTGGTATCAGCAACCTTCTTGAGAACCTTTACCTCGACAACAAC
AGGGAATTACAGCAAGACTTTGGACCACCTGTTCATGAGGGCCCAATCCGGCGACGCAATACCTCTCGACATCCT
TTCGGCACTCGGGACATCACCAACAAACGACTTGAAGCCTCCCTCATCTCCAACCTGACCTCTCATTCCGAAGCT
ATCACCGGAATCGCCGTTTCTCCTGACCACGCTTTCTTCGTTACGGCTTCAGACGACAAGACTGTCAAGGTGTGG
GACACGGCTAGACTCGAGAGAAACGTCACAAGCAAGGCTAGGCATACCTACAACCAACATCATGCAAGAGTCAAG
TGTGTGTGCATCATCGAGGGCACGCATTGCTTCGCCAGCGCGGCAGAGGATGGCAGTTTGCATGTTGTGAGGGTG
CAATTGACGCAGAGTGCGGCTGGGGCGAGCAGCGCTGCTGGAAGTTTACCCAAGTATGGTAAATTGCAAGTCGTG
AGGGAGCATAGGGTCGAGAGTGTCGGGGAGTGGATTACGTGTATGGTCCATTACAAGTCTGGTGAGTTAGTGCCT
GAATTCTCCAGGCCAGCCACTTACCTTTTATCCTAGATTCGACGTCTAGTCTGGTATACGCAACCACCCACTCCA
ACATCGCCATCCTTGAACTTCGTACGATGCGGGTTCTTCAAACTATGGAGAATCCTCGACATTACGGTCCCATCA
CAGCGATGTGTATGGACAAGAGACGGGCGTGGCTGGTGGTTGGCACTTCGACTGGCGTTCTGACCCTCTGGGACA
AGCGATTCGGTATCCTTCTGAAGAGCTGGCAAACCGCAGCGGCAACCTCTTCCGGCAAATCTTGCAAGGTCCATC
AAATCGCAGTCCATCCCACGAAGGGCAGAGGCAAATGGATCATTGTGGCTCTGGAAACGTCGAAGAAAGGACTTG
CTTCTTCTCGGGATTCTGTCACCATCATCGAGGTATGGGATGTGGAGAAGTCTGTTCTGGTCGAAACGTTTGTGG
TTGGAACGAGCAGCGACAGGGAAAGGGAGAGGGAGGGCAGCGAGAGTCCCGGTCCACATGAGGTCGAGGTGGAAG
GCGTGGACGCCAACCCAAGTCCTGCTGCCGCAATCGCCGCCTTTGTGCGTTCTCGCCAACTTCAGAGCGAGAATG
AAAGGCGTTCTTCAGCAAGAGGTTCGGCGAACGAGGAATTAGTTGCTCCCCCCGCACCTGACGTTCGAGCGATGG
TAGTTGGGCTCGACTTTGGAGGCTACGCTTCTGCCCACAGGTTAGAGTATGGGGAGTTCATACCTGACGGGGGAG
GCGCGAGCTCTAGGAGTTCCACCAAAGGGTTCGTGGTGACGGGATCGGATGATCGACGATTGCGATTCTGGGACC
TGAGTCGGGCTGAAAAGTCAGTCGTGTTTAGTGGACTTGAGCAAGATGGGGAAAGACCTACGCACAGGTGAGTAC
ATCCCACTTCGAAGTCGAGAAATGGCTCTGATGTGGATTGTTCGCAGCATCAATAGCGGCGGCTCTCGAGGCGGT
GAAGATGAAGGGAACAAGGGCCCGGTTTCTTACGTTGAAACCTGGCCTGCCGTCCCGACGGGTGGGCAGTCCAGC
AGGCCATCGCAACGAATATCCTTGATCACCCAACATCAGCAGAACCTGTTGAAGTCCCACCAAGACGTCGTAACT
GCCCTAGCTTGCATTGACTCGCCGTGGAGAGGTGGGATTGTCAGCGGTGATCGTGCTGGCGTCGTCAAGGTGTGG
AGGCTAGATTATGTAGAGTAGAAGCTGTTCTCTATCCCCCGCGTTTCTTTTTTTTTTCTTTCTTGAGACTGTTCC
TCAACCCTTTGACGCGCTCGAGTCCACAATCGAACAATTTATGCGACTCCACGCCTAGTGGCGAGTGCGAATTTT
CGAGGTATGTAGATATAGTACAAATGCACGAAGAAACGGAGAAATAGAAATGTAAGATGCTTGTATGTATGAGTC
TTAACTACTCTACTATTCATAAGCCTTGTCGATG
Length 6184