CopciAB_476878
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_476878 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 476878
Uniprot id Functional description Protein tyrosine kinase
Location scaffold_10:692529..698315 Strand -
Gene length (nt) 5787 Transcript length (nt) 4948
CDS length (nt) 4764 Protein length (aa) 1587

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
0

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 25.2562 3.758 2.1697
oidia 22.0462 4.208 2.4295
vegetative_mycelium 23.1665 7.0404 4.0648
primordia 303.5179 29.7274 17.1631
hyphal_knot 16.5504 1.3544 0.7819
young_fruiting_body 1093.1914 93.822 54.1682
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 21.6233 1.8989 1.0963
Wheat bran 11.6431 1.3626 0.7867
Horse manure 17.5317 5.7037 3.293
Oak leaves 18.2649 4.8081 2.776
Hay 14.5006 2.6063 1.5048
Corn stalk 18.7601 1.6254 0.9384
Pectine 24.3757 1.7717 1.0229
Microcrystalline cellulose 33.5321 8.9675 5.1774
Xylose 20.397 1.6372 0.9452
Cellobiose 17.3778 2.5911 1.496
Lignin 22.4648 2.9899 1.7262
Apple peels 15.6678 3.5975 2.077
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 2.4344 0.7722 0.4458
Bsubtilis 5.2641 1.3717 0.7919
Ecoli 10.6031 1.3275 0.7664
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 60.5143 4.6063 2.6595
BS 4h 23.9327 4.3006 2.4829
BS 8h 8.3849 1.055 0.6091
BS 12h 2.4293 0.664 0.3833
Oidia 0 h 0.444 0.4218 0.2435
Oidia 18 h 2.3032 0.4058 0.2343
Sclerotia 4.7643 0.6743 0.3893
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 1.6298 0.5525 0.319
DM 36h 0.8953 0.5369 0.31
DM 60h 1.2797 0.2737 0.158
DM 84h 0.2354 0.226 0.1305
DM 108h 0.2023 0.1022 0.059
DM 132h 0.5864 0.3577 0.2065
DM 156hAE 0.2133 0.1601 0.0924
ELI1hAE 0.3493 0.2442 0.141
ELI2hAE 0.1105 0.1914 0.1105
LI2hAE 0.1863 0.3226 0.1863
LI6hAE 0.0381 0.0661 0.0381
LI12hAE 0.3791 0.2229 0.1287
LI18hAE 0.9012 0.326 0.1882
LI 24hAE 0.2021 0.1793 0.1035
DM 156hAM 0.3477 0.1419 0.0819
ELI1hAM 0.2056 0.1819 0.105
ELI2hAM 0.3181 0.3493 0.2017
LI2hAM 0.1343 0.1172 0.0676
LI6hAM 0.0771 0.0719 0.0415
LI12hAM 0.1679 0.1897 0.1095
LI18hAM 1.8758 0.3285 0.1897
LI 24hAM 0.2441 0.2291 0.1323
LI 24hHK 1.0121 0.986 0.5693
L/D 6h 2.2467 1.3886 0.8017
L/D 12h 1.9393 1.3393 0.7733
L/D 18h 1.7075 0.6139 0.3544
L/D 24h 1.4987 0.4178 0.2412
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 9.0135 1.4298 0.8255
Hyphal knots 17.9018 5.3515 3.0897
Primordium 1 23.0842 3.7711 2.1773
Primordium 2 19.9787 2.8445 1.6423
Young Fruiting body cap 92.2176 72.1979 41.6835
Younf fruiting body gill 413.025 159.6046 92.1478
Young fruiting body stipe 342.1357 125.7176 72.5831
Mature fruiting body cap_gill 453.9334 305.8099 176.5594
Mature fruiting body stipe 17.4064 2.0227 1.1678
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 13.975 1.1021 0.6363
NH4NO3 13.5728 0.4984 0.2878
Proline 12.1318 0.9563 0.5521
Tryptophan 8.5155 3.3764 1.9494
Isoleucin 10.2369 1.3929 0.8042
Arginine 13.1873 2.0449 1.1806
Metionine 9.2512 0.9704 0.5603
NaNO3 9.5688 0.5135 0.2965
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 13.975 1.1021 0.6363
Citrus peel 11.2773 0.5563 0.3212
Poplar leaves 11.9174 0.6629 0.3827
Typha leaves 9.2228 1.9624 1.133
Overwintered Salix leaves 10.0885 1.7184 0.9921
Reed flowering 7.9157 0.3786 0.2186
Tigernut 7.2479 1.02 0.5889
Energy cane 10.3604 1.2427 0.7175
Guar gum 13.0163 3.7384 2.1584
Apple peels 6.5074 2.5834 1.4915
Cellobiose 12.039 0.6664 0.3848
Corn stalk 11.9951 2.2844 1.3189
Horse manure 10.1675 1.6206 0.9357
Lignin 9.1663 5.1302 2.9619
Microcrystalline cellulose 12.476 2.8004 1.6168
Oak leaves 9.8436 1.9369 1.1183
Pectin esterified 5.9586 2.1592 1.2466
Poplar sawdust 13.8477 2.7791 1.6045
Wheat bran 8.809 2.8505 1.6457
Chlamydomonas reinhardtii 12.1392 1.5827 0.9138
Vertatryl alcohol 38.7174 4.8854 2.8206
Furfural 7.5274 1.5527 0.8964
Autoclaved mycelium 10.5607 1.9242 1.1109
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 12.2529 0.5309 0.3065
Ribose 16.2984 2.8969 1.6725
Mannose 15.9841 2.649 1.8731
Fructose 17.3326 0.564 0.3256
Arabinose 18.0304 1.9497 1.1257
Xylose 16.2517 1.1795 0.681
Galacturonic acid 15.8009 2.7749 1.6021
Rhamnogalacturonan 17.1265 2.3017 1.3289
Pectin esterified 16.2673 1.5561 0.8984
Polygalacturonic acid 19.3566 2.7114 1.5654
Sodium acetate 16.1686 1.7632 1.018
No nitrogen 14.0178 1.779 1.0271
BSA 18.5804 0.4842 0.2795
Glutamine 16.4508 1.405 0.8112
No phosphate 11.7795 2.0305 1.1723
No carbon 16.1257 0.5906 0.4176
No sulphur 15.3988 2.0022 1.1559
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 13.975 1.1021 0.6363
Amylose 16.3918 1.0639 0.6143
Fucose 17.5616 1.0725 0.6192
Galactose 19.7274 1.9003 1.0972
Lactose 21.7668 3.5623 2.0567
Maltose 22.3599 4.1707 2.408
Mannitol 23.7448 3.9623 2.2876
Rhamnose 19.8237 2.0243 1.1687
Sorbitol 16.9389 0.728 0.4203
Trehalose 16.8153 2.6995 1.5586
Glycerol 18.5193 4.0173 2.3194
Glucuronic acid 15.9181 2.1103 1.2184
Arabinan 12.7333 2.8865 1.6665
Galactan 12.2294 1.2314 0.7109
Galactomannan 11.6286 3.2618 1.8832
Glucan 14.6517 2.7316 1.5771
Xylan 11.2275 1.4343 0.8281
Xyloglucan 12.2006 1.5972 0.9221
Arabinogalactan 13.8946 0.4768 0.2753
Pectin 9.0622 3.7589 2.1702
Rhamnogalacturonan 6.4762 0.4661 0.2691
Polygalacturonic acid 18.3768 6.9901 4.0357
Mannan 16.3122 1.2008 0.6933
Amylopectin 15.4122 4.9494 2.8575
Inulin 23.8478 5.8602 3.3834
BSA 10.7006 1.2597 0.7273
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 1.2797 0.2737 0.158
2h WAT 0.5868 0.1419 0.0819
4h WAT 0.3556 0.4205 0.2428
8h WAT 0.2004 0.2074 0.1197
16h WAT 0.196 0.1515 0.0875
24h WAT 0.0523 0.0906 0.0523
WAT hyphal knot -30h 0.9404 0.7501 0.433
WAT hyphal knot -22h 0.2224 0.2148 0.124
WAT hyphal knot -15h 0.394 0.377 0.2177
WAT hyphal knot -7.5h 0.367 0.3526 0.2036
WAT hyphal knot 0.0317 0.0549 0.0317
WAT hyphal knot +7.5h 0.0337 0.0352 0.0203
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 8.511 2.8075 1.6209
Straw 3h 10.1864 6.8055 3.9292
Straw 6h 11.6546 5.6175 3.2432
Straw 12h 9.8363 2.9094 1.6797
Straw 24h 8.5581 3.6915 2.1313
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 0.2331 0.2255 0.1302
Frost (-20C, 30min) 0.8772 0.2111 0.1219
Heat shock (47C, 2h) 2.0348 1.0442 0.6028
High CO2 0.1754 0.0418 0.0241
Drought (4% agar, 12h) 0.652 0.0723 0.0417
Oxidative (1mM H2O2, 3h) 0.7371 0.0416 0.024
Acidic (pH4, 3h) 0.3258 0.3935 0.2272
Alkaline (pH9, 3h) 0.1667 0.2092 0.1208
Osmotic (sorbitol 2h) 0.5438 0.1912 0.1104
CongoRed (3h) 0.7425 0.1017 0.0587
Cobalt chloride control 0.2474 0.0978 0.0564
Cobalt chloride 2mM 0.3541 0.0591 0.0341
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 3.043 2.9131 1.6819
Cold stimulation 0.016 0.0176 0.0102
Scratched surface 0.3614 0.273 0.1576
Ca2+, 200mM, 24h 0.7693 0.8868 0.512
Cu2+, 2mM, 6h 0.704 0.195 0.1126
Voriconazole 0.7206 0.5947 0.3434
Trichoderma interaction, early 0.3435 0.1712 0.0988
Trichoderma interaction 60h 6.2351 1.9063 1.1006
Cobalt chloride 2mM repeat 0.665 0.4244 0.245
Hypoxia 0.0355 0.0615 0.0355
Hypoxia control 0.0526 0.0738 0.0426
Protoplastation control 0.261 0.0919 0.065
Protoplastation 3.5h 0 0 0
Protoplastation 1.5h 0.017 0.0241 0.017

General data

Systematic name -
Protein id CopciAB_476878.T0
Description Protein tyrosine kinase

Annotation summary

0 400 800 1200 1587

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd21037 MLKL_NTD - 400 535
Pfam PF07714 Protein tyrosine and serine/threonine kinase IPR001245 797 1147

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR036537 Adaptor protein Cbl, N-terminal domain superfamily
IPR011009 Protein kinase-like domain superfamily
IPR000719 Protein kinase domain
IPR001245 Serine-threonine/tyrosine-protein kinase, catalytic domain
IPR008271 Serine/threonine-protein kinase, active site
IPR020891 Uncharacterised protein family UPF0758, conserved site
IPR017441 Protein kinase, ATP binding site

GO

Go id Term Ontology
GO:0007166 cell surface receptor signaling pathway BP
GO:0004672 protein kinase activity MF
GO:0005524 ATP binding MF
GO:0006468 protein phosphorylation BP

KEGG

KEGG Orthology
K06619

EggNOG

COG category Description
T Protein tyrosine kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_476878 across fungi.

Arrow shows the origin of gene family containing CopciAB_476878.

Protein

Sequence id CopciAB_476878.T0
Sequence >CopciAB_476878.T0
MGRVSLQHSPPFTPFPISLSFPIIRVTPPLFQDCSTPKRYPAFSLKFIQRVMSFRASPGGHGPKYLVNERCPPTA
GAPDGSPIPFSRDWDHGELSTHAPIVRARPGARGSPKPSTGSSFRSTASSAPIPIPMPTSASNAKLSSTRPSTHT
VTSGGGAMVPPTRREHPISSPPRQWNSTADSEATHFAMDYSGQPSSPPVNRGTRILHGSPRKTNSSPLSHTFPNR
AVVLGPSTSSHKHHHRPSNTGPGPGLGSSPLLDAGTLYGSQDNLKYHTHRAIFLTKAKDRRGRSVSPGRGKGHLL
PESFRPSTTVFDQRKLHPRPWSQLSIHSHIHAHGGTAIAGLEALWCSDNSVPPEQTEVFKQTEDSVKEALKSVTM
LSIEVIVKILESGVLEYVPIPGLNGVSKGLVKIWKVVKGVTNNRLRLLRLTQRCAHLLLSIKKDVESAGERVHSS
LQNALDALQHAFDKVRLLAESQIETPFLQRLVGGGNIDAEFVQCDEELNEALRMFSLSVQISTMKLVVETSDGLR
QQNEELMKMMHGRNLSQSSLGHPQPFKRRGSVNRSPSPNYRLSERRPSTSDSRRSSMAESRSSTPSDLHRSMSLA
QSGSIHRPTASSRNKQVIPIAKTVSEPVHHHTPNRGSVARRTSTRRPGSFGSGKEVLGSSPRSRYHPELEDPIEK
IKQYQRLQNELDRQSDLNDMKQIIRETLAEGKDSLVIKLLQIDSRDYPQAILVLEHELREYQTGRKGNIAGEGGG
SDEREEHAKLQIDLLQRGIDAMKRMTKQEDLANIPEWAINKFKIIELETIGYGSFSTVRRGLWNGRTVAIKILSP
KTKRTVFENEMRIWRTLSHPNILPLYGGSNSTEEPLFFVSLYARYGNLVDFLQAIRQNDLDGVFGAMLKERESGR
GTGSTLKDSNPVGGARKRYSGGGGVSGSPGTKEMREQAHHNRWQGVERERERSSGISSSTDGTAEPLHTLPLSKS
ESKFNHCHILKEGDLYGFMVDIAKGMEYLHENGVLHGDLKASNVLVNDDLICVISDFGQSEWRNDIYRASGWTPK
GTARWKAPELLTGVEGGLTPAIDVYAYAITCIEILSMGDIPWGSAEDSSLAYRVVVEHLRPPVPEDFRHPHLEEL
LEQWWHKDPRARPEFKAIVSSLEAVGHHIEAGALDDVRRRMSQSAASLQSVEDVTLPDHSPRSADSASVLTSPFS
PTMSVTPPDGGRSYFPVWVASNFNDMHLSPKSQNSGRLLDENSPTTMPTPMLPNRSDGSSWEAILAPRYSQTDHL
EMEQSKSPTPPPSSPLPGNEQNFTSSSTLMKASDSHQKSGSMEPFEGDPSGFVKVNYDDFKSPQSLMIPTTTEGE
IRDEDLYRLVRHDFHWSLRVPLWNPVLVEVGDVGYMHPRTQTFVTLFNAFEPCYTPTNTAISIPSIMGFGDPLRR
HMRIQTQKSKKFFRTFSYKVDVEAGRPMAHCFCEFPDWYYMENTRSPQAWFKASIDEIMELHGEKHNIAKEDVLL
VVGSLQASRYSLLISHNHPSGTVEFTGNSGKKGRPWGSFGPISIQGSGSSSERYVTANRVSDSDSSQKALFLAAL
HFPPDALEPTLK
Length 1587

Coding

Sequence id CopciAB_476878.T0
Sequence >CopciAB_476878.T0
ATGGGGCGTGTCAGCCTTCAGCATTCCCCTCCTTTCACTCCTTTCCCTATCTCGCTGAGTTTCCCAATAATCCGT
GTCACCCCGCCTTTGTTTCAAGACTGTAGCACACCAAAGCGATACCCAGCGTTCTCGTTGAAGTTCATCCAAAGG
GTGATGTCGTTCAGGGCCAGTCCTGGAGGTCATGGTCCCAAGTACCTTGTGAATGAGCGATGTCCTCCAACCGCA
GGAGCTCCCGACGGCTCGCCCATTCCATTTAGTCGGGATTGGGACCACGGCGAGTTGAGCACCCACGCACCTATC
GTGCGAGCCCGCCCAGGTGCAAGAGGAAGCCCGAAGCCCTCGACGGGATCAAGCTTCCGGTCAACCGCGTCGTCC
GCTCCTATCCCGATTCCGATGCCAACGTCTGCCTCAAACGCCAAGTTGTCCTCGACGAGACCGAGCACGCACACC
GTAACGAGTGGAGGGGGTGCAATGGTGCCTCCCACAAGGCGGGAGCATCCAATTTCATCGCCCCCTCGACAATGG
AATTCGACAGCGGATTCCGAAGCGACGCACTTTGCGATGGATTACAGTGGCCAACCCAGTTCTCCGCCTGTCAAC
CGAGGAACTCGAATTCTCCATGGCTCTCCCCGAAAGACTAATTCTAGTCCCCTTTCACATACATTCCCAAACAGA
GCTGTAGTGTTGGGTCCTTCGACATCTTCGCATAAGCACCACCACCGACCTTCAAATACTGGGCCAGGCCCGGGC
CTGGGATCTTCTCCCCTTCTCGATGCGGGAACTTTGTACGGCTCCCAGGACAATTTAAAGTATCATACGCACAGG
GCGATCTTTCTAACCAAGGCGAAGGATAGGAGGGGGAGAAGTGTGAGCCCCGGGAGGGGGAAAGGTCATCTCCTC
CCAGAATCATTTCGACCGTCCACAACCGTTTTCGACCAGCGGAAGCTTCATCCTCGACCTTGGAGCCAGTTGAGC
ATCCACAGTCACATCCATGCCCACGGGGGTACCGCCATCGCGGGTCTCGAGGCGTTGTGGTGCAGTGACAACTCT
GTACCACCCGAACAAACGGAGGTGTTTAAGCAGACAGAAGATTCGGTGAAAGAGGCCCTCAAATCGGTGACGATG
TTGTCCATCGAGGTCATTGTCAAGATCCTTGAATCGGGAGTGCTGGAGTACGTCCCCATTCCTGGGTTAAACGGT
GTGTCGAAGGGATTGGTGAAAATCTGGAAAGTTGTCAAAGGCGTGACGAACAATCGACTCCGCCTACTTCGACTG
ACCCAGCGTTGTGCTCATCTTCTGTTGAGTATCAAGAAGGATGTGGAATCTGCCGGCGAGCGGGTCCACAGTTCG
CTCCAAAACGCTCTGGATGCGTTACAACATGCCTTCGACAAAGTCCGCCTCCTCGCAGAGAGTCAGATAGAGACC
CCGTTCTTGCAACGATTGGTTGGCGGGGGAAACATCGACGCAGAGTTCGTCCAATGCGACGAGGAGCTGAACGAG
GCGCTTCGAATGTTTTCCCTCTCTGTGCAGATAAGCACAATGAAGCTCGTCGTGGAAACTTCGGACGGGCTGCGC
CAACAGAATGAAGAGTTGATGAAGATGATGCACGGTCGCAACCTATCACAAAGCAGCTTGGGACACCCGCAACCT
TTCAAACGACGTGGATCAGTAAATCGGTCACCTTCTCCTAACTATCGCCTATCCGAGCGTCGTCCCTCGACGTCC
GATTCCAGACGATCCTCCATGGCCGAATCGAGGTCGAGCACCCCATCCGACCTTCACCGCTCCATGTCACTCGCA
CAAAGTGGTTCCATCCACCGTCCCACTGCATCCTCGAGGAACAAACAGGTCATCCCTATCGCCAAGACCGTTTCC
GAGCCGGTACATCACCATACGCCCAACAGGGGTTCTGTCGCTAGGCGCACCAGTACCCGACGCCCTGGAAGTTTC
GGCAGCGGGAAAGAAGTCCTTGGATCGTCTCCACGGAGTAGGTACCACCCAGAACTCGAGGACCCAATCGAGAAA
ATCAAGCAATATCAACGACTGCAGAACGAATTGGACCGCCAATCGGACCTCAATGACATGAAGCAAATCATCAGA
GAAACCCTGGCAGAGGGAAAGGACTCCTTGGTGATCAAGTTGCTGCAGATTGACAGTCGCGACTATCCACAGGCG
ATCCTGGTTCTTGAGCACGAGTTGAGGGAGTATCAGACCGGGAGGAAGGGAAACATTGCTGGGGAGGGCGGAGGG
AGCGACGAACGGGAAGAGCATGCAAAACTGCAGATAGACTTGTTACAGCGTGGTATTGATGCCATGAAGAGGATG
ACCAAGCAGGAGGATCTGGCCAATATACCTGAATGGGCGATCAATAAATTCAAGATTATCGAGCTTGAAACCATC
GGCTATGGCTCCTTTTCCACCGTTCGACGCGGTCTTTGGAATGGCCGAACAGTCGCCATCAAGATCTTGTCCCCC
AAGACCAAAAGGACCGTTTTTGAGAACGAGATGAGGATATGGAGGACGCTCTCGCACCCCAACATCCTCCCTCTG
TACGGCGGCAGCAACTCGACGGAAGAGCCGCTTTTCTTTGTGAGTCTGTACGCAAGGTACGGGAATCTAGTCGAC
TTCTTGCAGGCCATCCGGCAGAACGACCTTGACGGTGTCTTCGGGGCTATGTTGAAGGAAAGAGAGTCGGGGCGG
GGAACGGGAAGTACCTTGAAGGATTCTAATCCTGTTGGTGGTGCCAGGAAGAGGTACTCAGGTGGCGGAGGTGTA
AGCGGGTCGCCTGGGACGAAGGAGATGAGGGAGCAGGCGCATCACAATCGGTGGCAAGGGGTTGAGAGGGAAAGA
GAGAGAAGTTCTGGGATTAGTAGCTCGACGGATGGGACGGCGGAGCCACTTCACACTCTTCCCCTATCGAAGAGT
GAGAGCAAATTCAACCACTGTCATATCCTAAAGGAAGGGGATTTGTATGGGTTTATGGTCGACATCGCAAAGGGA
ATGGAGTACCTTCATGAGAATGGGGTACTGCACGGGGATTTGAAGGCATCCAATGTCTTAGTGAACGATGATTTG
ATTTGCGTGATCTCCGACTTTGGCCAGAGCGAATGGAGGAATGATATTTATCGAGCTAGCGGTTGGACCCCGAAG
GGAACGGCGAGATGGAAAGCGCCTGAGTTGTTGACCGGAGTTGAAGGGGGTTTGACGCCGGCCATCGACGTTTAC
GCCTATGCTATTACTTGCATTGAAATCTTGTCCATGGGCGACATTCCGTGGGGTTCTGCAGAGGATAGCTCCCTT
GCATATCGCGTAGTGGTGGAGCACCTCCGACCGCCCGTCCCAGAAGACTTCCGCCATCCACATCTGGAGGAGTTG
TTAGAACAATGGTGGCACAAAGACCCACGTGCCCGACCCGAGTTCAAGGCGATAGTTTCTTCTCTGGAGGCTGTC
GGACACCATATCGAAGCGGGGGCGTTGGATGATGTACGAAGGAGGATGTCACAGAGCGCCGCCTCCCTTCAATCT
GTAGAGGATGTAACCTTGCCGGATCATAGCCCTCGTTCCGCGGACAGTGCTTCTGTTCTGACGTCGCCCTTTTCC
CCGACGATGTCCGTTACGCCACCGGATGGAGGGCGAAGCTATTTCCCGGTTTGGGTTGCAAGTAACTTCAATGAC
ATGCACCTGAGCCCCAAGAGCCAGAATAGTGGGAGGTTGTTGGATGAGAACTCGCCGACAACGATGCCCACCCCG
ATGCTCCCGAACCGTTCTGATGGGAGCAGCTGGGAGGCTATCCTGGCGCCTCGTTATAGTCAAACTGACCACCTG
GAGATGGAACAGAGCAAGTCCCCTACCCCGCCACCCTCTTCGCCTCTGCCAGGAAACGAACAGAACTTCACATCG
TCCTCGACATTGATGAAGGCTTCCGACAGTCATCAAAAGAGCGGTTCGATGGAGCCATTCGAGGGAGATCCGTCA
GGATTTGTGAAGGTCAACTACGATGACTTCAAGAGCCCTCAGTCGTTGATGATACCGACGACTACTGAGGGTGAA
ATTCGTGACGAGGACCTCTATCGTCTCGTACGACATGATTTCCACTGGAGCCTGAGAGTGCCTTTGTGGAACCCA
GTCCTGGTGGAGGTTGGTGATGTAGGGTACATGCACCCCCGGACACAAACTTTCGTCACCCTCTTCAACGCTTTC
GAGCCCTGCTACACTCCAACCAACACCGCAATATCCATCCCTTCCATCATGGGATTCGGTGACCCCCTCAGGCGA
CATATGAGAATTCAGACGCAGAAGTCGAAGAAGTTCTTCCGTACGTTCAGCTACAAGGTCGATGTTGAAGCTGGT
CGGCCCATGGCGCATTGTTTCTGCGAGTTTCCGGATTGGTATTACATGGAGAATACGAGGTCTCCGCAGGCGTGG
TTCAAAGCTTCGATTGACGAGATTATGGAGTTGCATGGGGAGAAGCACAACATTGCGAAGGAAGACGTGTTGTTG
GTCGTTGGATCGCTTCAGGCGTCGAGATATAGTTTGTTGATCAGTCATAACCATCCTTCTGGCACGGTCGAGTTC
ACGGGTAATTCAGGCAAGAAAGGTCGACCTTGGGGAAGCTTTGGGCCGATCTCGATTCAAGGAAGCGGGAGTTCT
TCAGAACGCTATGTGACAGCGAACAGGGTCTCTGATAGCGATTCTTCTCAGAAGGCGCTCTTCTTGGCTGCGCTA
CATTTCCCTCCTGATGCATTGGAGCCGACGTTGAAGTAA
Length 4764

Transcript

Sequence id CopciAB_476878.T0
Sequence >CopciAB_476878.T0
ATGGGGCGTGTCAGCCTTCAGCATTCCCCTCCTTTCACTCCTTTCCCTATCTCGCTGAGTTTCCCAATAATCCGT
GTCACCCCGCCTTTGTTTCAAGACTGTAGCACACCAAAGCGATACCCAGCGTTCTCGTTGAAGTTCATCCAAAGG
GTGATGTCGTTCAGGGCCAGTCCTGGAGGTCATGGTCCCAAGTACCTTGTGAATGAGCGATGTCCTCCAACCGCA
GGAGCTCCCGACGGCTCGCCCATTCCATTTAGTCGGGATTGGGACCACGGCGAGTTGAGCACCCACGCACCTATC
GTGCGAGCCCGCCCAGGTGCAAGAGGAAGCCCGAAGCCCTCGACGGGATCAAGCTTCCGGTCAACCGCGTCGTCC
GCTCCTATCCCGATTCCGATGCCAACGTCTGCCTCAAACGCCAAGTTGTCCTCGACGAGACCGAGCACGCACACC
GTAACGAGTGGAGGGGGTGCAATGGTGCCTCCCACAAGGCGGGAGCATCCAATTTCATCGCCCCCTCGACAATGG
AATTCGACAGCGGATTCCGAAGCGACGCACTTTGCGATGGATTACAGTGGCCAACCCAGTTCTCCGCCTGTCAAC
CGAGGAACTCGAATTCTCCATGGCTCTCCCCGAAAGACTAATTCTAGTCCCCTTTCACATACATTCCCAAACAGA
GCTGTAGTGTTGGGTCCTTCGACATCTTCGCATAAGCACCACCACCGACCTTCAAATACTGGGCCAGGCCCGGGC
CTGGGATCTTCTCCCCTTCTCGATGCGGGAACTTTGTACGGCTCCCAGGACAATTTAAAGTATCATACGCACAGG
GCGATCTTTCTAACCAAGGCGAAGGATAGGAGGGGGAGAAGTGTGAGCCCCGGGAGGGGGAAAGGTCATCTCCTC
CCAGAATCATTTCGACCGTCCACAACCGTTTTCGACCAGCGGAAGCTTCATCCTCGACCTTGGAGCCAGTTGAGC
ATCCACAGTCACATCCATGCCCACGGGGGTACCGCCATCGCGGGTCTCGAGGCGTTGTGGTGCAGTGACAACTCT
GTACCACCCGAACAAACGGAGGTGTTTAAGCAGACAGAAGATTCGGTGAAAGAGGCCCTCAAATCGGTGACGATG
TTGTCCATCGAGGTCATTGTCAAGATCCTTGAATCGGGAGTGCTGGAGTACGTCCCCATTCCTGGGTTAAACGGT
GTGTCGAAGGGATTGGTGAAAATCTGGAAAGTTGTCAAAGGCGTGACGAACAATCGACTCCGCCTACTTCGACTG
ACCCAGCGTTGTGCTCATCTTCTGTTGAGTATCAAGAAGGATGTGGAATCTGCCGGCGAGCGGGTCCACAGTTCG
CTCCAAAACGCTCTGGATGCGTTACAACATGCCTTCGACAAAGTCCGCCTCCTCGCAGAGAGTCAGATAGAGACC
CCGTTCTTGCAACGATTGGTTGGCGGGGGAAACATCGACGCAGAGTTCGTCCAATGCGACGAGGAGCTGAACGAG
GCGCTTCGAATGTTTTCCCTCTCTGTGCAGATAAGCACAATGAAGCTCGTCGTGGAAACTTCGGACGGGCTGCGC
CAACAGAATGAAGAGTTGATGAAGATGATGCACGGTCGCAACCTATCACAAAGCAGCTTGGGACACCCGCAACCT
TTCAAACGACGTGGATCAGTAAATCGGTCACCTTCTCCTAACTATCGCCTATCCGAGCGTCGTCCCTCGACGTCC
GATTCCAGACGATCCTCCATGGCCGAATCGAGGTCGAGCACCCCATCCGACCTTCACCGCTCCATGTCACTCGCA
CAAAGTGGTTCCATCCACCGTCCCACTGCATCCTCGAGGAACAAACAGGTCATCCCTATCGCCAAGACCGTTTCC
GAGCCGGTACATCACCATACGCCCAACAGGGGTTCTGTCGCTAGGCGCACCAGTACCCGACGCCCTGGAAGTTTC
GGCAGCGGGAAAGAAGTCCTTGGATCGTCTCCACGGAGTAGGTACCACCCAGAACTCGAGGACCCAATCGAGAAA
ATCAAGCAATATCAACGACTGCAGAACGAATTGGACCGCCAATCGGACCTCAATGACATGAAGCAAATCATCAGA
GAAACCCTGGCAGAGGGAAAGGACTCCTTGGTGATCAAGTTGCTGCAGATTGACAGTCGCGACTATCCACAGGCG
ATCCTGGTTCTTGAGCACGAGTTGAGGGAGTATCAGACCGGGAGGAAGGGAAACATTGCTGGGGAGGGCGGAGGG
AGCGACGAACGGGAAGAGCATGCAAAACTGCAGATAGACTTGTTACAGCGTGGTATTGATGCCATGAAGAGGATG
ACCAAGCAGGAGGATCTGGCCAATATACCTGAATGGGCGATCAATAAATTCAAGATTATCGAGCTTGAAACCATC
GGCTATGGCTCCTTTTCCACCGTTCGACGCGGTCTTTGGAATGGCCGAACAGTCGCCATCAAGATCTTGTCCCCC
AAGACCAAAAGGACCGTTTTTGAGAACGAGATGAGGATATGGAGGACGCTCTCGCACCCCAACATCCTCCCTCTG
TACGGCGGCAGCAACTCGACGGAAGAGCCGCTTTTCTTTGTGAGTCTGTACGCAAGGTACGGGAATCTAGTCGAC
TTCTTGCAGGCCATCCGGCAGAACGACCTTGACGGTGTCTTCGGGGCTATGTTGAAGGAAAGAGAGTCGGGGCGG
GGAACGGGAAGTACCTTGAAGGATTCTAATCCTGTTGGTGGTGCCAGGAAGAGGTACTCAGGTGGCGGAGGTGTA
AGCGGGTCGCCTGGGACGAAGGAGATGAGGGAGCAGGCGCATCACAATCGGTGGCAAGGGGTTGAGAGGGAAAGA
GAGAGAAGTTCTGGGATTAGTAGCTCGACGGATGGGACGGCGGAGCCACTTCACACTCTTCCCCTATCGAAGAGT
GAGAGCAAATTCAACCACTGTCATATCCTAAAGGAAGGGGATTTGTATGGGTTTATGGTCGACATCGCAAAGGGA
ATGGAGTACCTTCATGAGAATGGGGTACTGCACGGGGATTTGAAGGCATCCAATGTCTTAGTGAACGATGATTTG
ATTTGCGTGATCTCCGACTTTGGCCAGAGCGAATGGAGGAATGATATTTATCGAGCTAGCGGTTGGACCCCGAAG
GGAACGGCGAGATGGAAAGCGCCTGAGTTGTTGACCGGAGTTGAAGGGGGTTTGACGCCGGCCATCGACGTTTAC
GCCTATGCTATTACTTGCATTGAAATCTTGTCCATGGGCGACATTCCGTGGGGTTCTGCAGAGGATAGCTCCCTT
GCATATCGCGTAGTGGTGGAGCACCTCCGACCGCCCGTCCCAGAAGACTTCCGCCATCCACATCTGGAGGAGTTG
TTAGAACAATGGTGGCACAAAGACCCACGTGCCCGACCCGAGTTCAAGGCGATAGTTTCTTCTCTGGAGGCTGTC
GGACACCATATCGAAGCGGGGGCGTTGGATGATGTACGAAGGAGGATGTCACAGAGCGCCGCCTCCCTTCAATCT
GTAGAGGATGTAACCTTGCCGGATCATAGCCCTCGTTCCGCGGACAGTGCTTCTGTTCTGACGTCGCCCTTTTCC
CCGACGATGTCCGTTACGCCACCGGATGGAGGGCGAAGCTATTTCCCGGTTTGGGTTGCAAGTAACTTCAATGAC
ATGCACCTGAGCCCCAAGAGCCAGAATAGTGGGAGGTTGTTGGATGAGAACTCGCCGACAACGATGCCCACCCCG
ATGCTCCCGAACCGTTCTGATGGGAGCAGCTGGGAGGCTATCCTGGCGCCTCGTTATAGTCAAACTGACCACCTG
GAGATGGAACAGAGCAAGTCCCCTACCCCGCCACCCTCTTCGCCTCTGCCAGGAAACGAACAGAACTTCACATCG
TCCTCGACATTGATGAAGGCTTCCGACAGTCATCAAAAGAGCGGTTCGATGGAGCCATTCGAGGGAGATCCGTCA
GGATTTGTGAAGGTCAACTACGATGACTTCAAGAGCCCTCAGTCGTTGATGATACCGACGACTACTGAGGGTGAA
ATTCGTGACGAGGACCTCTATCGTCTCGTACGACATGATTTCCACTGGAGCCTGAGAGTGCCTTTGTGGAACCCA
GTCCTGGTGGAGGTTGGTGATGTAGGGTACATGCACCCCCGGACACAAACTTTCGTCACCCTCTTCAACGCTTTC
GAGCCCTGCTACACTCCAACCAACACCGCAATATCCATCCCTTCCATCATGGGATTCGGTGACCCCCTCAGGCGA
CATATGAGAATTCAGACGCAGAAGTCGAAGAAGTTCTTCCGTACGTTCAGCTACAAGGTCGATGTTGAAGCTGGT
CGGCCCATGGCGCATTGTTTCTGCGAGTTTCCGGATTGGTATTACATGGAGAATACGAGGTCTCCGCAGGCGTGG
TTCAAAGCTTCGATTGACGAGATTATGGAGTTGCATGGGGAGAAGCACAACATTGCGAAGGAAGACGTGTTGTTG
GTCGTTGGATCGCTTCAGGCGTCGAGATATAGTTTGTTGATCAGTCATAACCATCCTTCTGGCACGGTCGAGTTC
ACGGGTAATTCAGGCAAGAAAGGTCGACCTTGGGGAAGCTTTGGGCCGATCTCGATTCAAGGAAGCGGGAGTTCT
TCAGAACGCTATGTGACAGCGAACAGGGTCTCTGATAGCGATTCTTCTCAGAAGGCGCTCTTCTTGGCTGCGCTA
CATTTCCCTCCTGATGCATTGGAGCCGACGTTGAAGTAAGCATCTTGCAATAATGTTTGGCAACATTTGAAGGAA
TGCGGGGTATCAGGTATTTGAATGCATATGAGTAGTTTGTGAATACAATAGTTTCGAAGAATCTAGTATCGCATC
AGATCAGCATTTTGTACGAATAGTGTAGCCATATGGCTTGTGTATTACATACCGGAATAACGAGGACTTGTTC
Length 4948

Gene

Sequence id CopciAB_476878.T0
Sequence >CopciAB_476878.T0
ATGGGGCGTGTCAGCCTTCAGCATTCCCCTCCTTTCACTCCTTTCCCTATCTCGCTGAGTTTCCCAATAATCCGT
GTCACCCCGCCTTTGGTGAGTTCGTTGGAACAATTCGTATGTTCAAGCTTCAAACTGATGAAGCGGTTTTTACAT
CCTAGTTTCAAGACTGTAGCACACCAAAGCGATACCCAGCGTTCTCGTTGAAGTTCATCCAAAGGGTGATGTCGT
TCAGGGCCAGTCCTGGAGGTCATGGTCCCAAGTACCTTGTGAATGAGCGATGTCCTCCAACCGCAGGAGCTCCCG
ACGGCTCGCCCATTCCATTTAGTCGGGATTGGGACCACGGCGAGTTGAGCACCCACGCACCTATCGTGCGAGCCC
GCCCAGGTGCAAGAGGAAGCCCGAAGCCCTCGACGGGATCAAGCTTCCGGTCAACCGCGTCGTCCGCTCCTATCC
CGATTCCGATGCCAACGTCTGCCTCAAACGCCAAGTTGTCCTCGACGAGACCGAGCACGCACACCGTAACGAGTG
GAGGGGGTGCAATGGTGCCTCCCACAAGGCGGGAGCATCCAATTTCATCGCCCCCTCGACAATGGAATTCGACAG
CGGATTCCGAAGCGACGCACTTTGCGATGGATTACAGTGGCCAACCCAGTTCTCCGCCTGTCAACCGAGGAACTC
GAATTCTCCATGGCTCTCCCCGAAAGACTAATTCTAGTCCCCTTTCACATACATTCCCAAACAGAGCTGTAGTGT
TGGGTCCTTCGACATCTTCGCATAAGCACCACCACCGACCTTCAAATACTGGGCCAGGCCCGGGCCTGGGATCTT
CTCCCCTTCTCGATGCGGGAACTTTGTACGGCTCCCAGGACAATTTAAAGTATCATACGCACAGGGCGATCTTTC
TAACCAAGGCGAAGGATAGGAGGGGGAGAAGTGTGAGCCCCGGGAGGGGGAAAGGTCGTATGTACCAACCCCTCT
CTCACTCATCGCTCCTGTTGATATCCTCTTCAGATCTCCTCCCAGAATCATTTCGACCGTCCACAACCGTTTTCG
ACCAGCGGAAGCTTCATCCTCGACCTTGGAGCCAGTTGAGCATCCACAGTCACATCCATGCCCACGGGGGTACCG
CCATCGCGGGTCTCGAGGCGTTGTGGTGCAGTGACAACTCTGTACCACCCGAACAAACGGAGGTGTTTAAGCAGA
CAGAAGATGTGAGTCGGATGCAGCCCAATTCCTCGAACCCGGTGCTGATACCTGGTAGTCGGTGAAAGAGGCCCT
CAAATCGGTGACGATGTTGTCCATCGAGGTCATTGTCAAGATCCTTGAATCGGGAGTGCTGGAGTACGTCCCCAT
TCCTGGGTTAAACGGTGTGTCGAAGGGATTGGTGAAAATCTGGAAAGTTGTCAAAGGCGTGACGGTATGCAGTCG
CTCGGAGCACATTTCATCGGGTGTATTAACAGCCAGGTAGAACAATCGACTCCGCCTACTTCGACTGACCCAGCG
TTGTGCTCATCTTCTGTTGAGTATCAAGAAGGATGTGGAATCTGCCGGCGAGCGGGTCCACAGTTCGCTCCAAAA
CGCTCTGGATGCGTTACAACAGTGCGTCACCCGGTATTCCACTGTTCACCGATATCTCTCATTCATGCTCCCGCA
TCCCATAGTGCCTTCGACAAAGTCCGCCTCCTCGCAGAGAGTCAGATAGAGACCCCGTTCTTGCAACGATTGGTT
GGCGGGGGAAACATCGACGCAGAGTTCGTCCAATGCGACGAGGAGCTGAACGAGGCGCTTCGAATGTTTTCCGTG
AGTTTACCGTTTGTCCTGTGAGGGTCGAGGTGCTGACAACTGAATATCGCTGTGGTCCTGCAGCTCTCTGTGCAG
ATAAGCACAATGAAGCTCGTCGTGGAAACTTCGGACGGGCTGCGCCAACAGAATGAAGAGTTGATGAAGATGATG
CACGGTCGCAACCTATCACAAAGCAGCTTGGGACACCCGCAACCTTTCAAACGACGTGGATCAGTAAATGTGAGT
AAGGCTTTACTTTGGTAGACGTACATATCGATATCTTTTCAGCGGTCACCTTCTCCTAACTATCGCCTATCCGAG
CGTCGTCCCTCGACGTCCGATTCCAGACGATCCTCCATGGCCGAATCGAGGTCGAGCACCCCATCCGACCTTCAC
CGCTCCATGTCACTCGCACAAAGTGGTTCCATCCACCGTCCCACTGCATCCTCGAGGAACAAACAGGTCATCCCT
ATCGCCAAGACCGTTTCCGAGCCGGTACATCACCATACGCCCAACAGGGGTTCTGTCGCTAGGCGCACCAGTACC
CGACGCCCTGGAAGTTTCGGCAGCGGGAAAGAAGTCCTTGGATCGTCTCCACGGAGTAGGTACCACCCAGAACTC
GAGGACCCAATCGAGAAAATCAAGCAATATCAACGACTGCAGAACGAATTGGACCGCCAATCGGACCTCAATGAC
ATGAAGCAAATCATCAGAGAAACCCTGGCAGAGGGAAAGGACTCCTTGGTGATCAAGTTGCTGCAGATTGACAGT
CGCGACTATCCACAGGCGATCCTGGTTCTTGAGCACGAGTTGAGGGAGTATCAGACCGGGAGGAAGGGAAACATT
GCTGGGGAGGGCGGAGGGAGCGACGAACGGGAAGAGCATGCAAAACTGCAGATAGACTTGTTACAGCGTGGTATT
GATGCCATGAAGAGGATGACCAAGCAGGAGGATCTGGCCAATATACCTGAATGGGCGATCAATAAGTACGTCAAG
TCAACACTGCAGCGAGCCAAGAAGCCGACTTACATGCCTCCCTGAGCAGATTCAAGATTATCGAGCTTGAAACCA
TCGGCTATGGCTCCTTTTCCACCGTTCGACGCGGTCTTTGGAATGGCCGAACAGTCGCCATCAAGATCTTGTCCC
CCAAGACCAAAAGGACCGTTTTTGAGAACGAGATGAGGATATGGAGGACGCTCTCGCACCCCAACATCCTCCCTC
TGTACGGCGGCAGCAACTCGACGGAAGAGCCGCTTTTCTTTGTGAGTCTGTACGCAAGGTACGGGAATCTAGTCG
ACTTCTTGCAGGCCATCCGGCAGAACGACCTTGACGGTGTCTTCGGGGCTATGTTGAAGGAAAGAGAGTCGGGGC
GGGGAACGGGAAGTACCTTGAAGGATTCTAATCCTGTTGGTGGTGCCAGGAAGAGGTACTCAGGTGGCGGAGGTG
TAAGCGGGTCGCCTGGGACGAAGGAGATGAGGGAGCAGGCGCATCACAATCGGTGGCAAGGGGTTGAGAGGGAAA
GAGAGAGAAGTTCTGGGATTAGTAGCTCGACGGATGGGACGGCGGAGCCACTTCACACTCTTCCCCTATCGAAGA
GTGAGAGCAAATTCAACCACTGTCATATCCTAAAGGAAGGGGATTTGTATGGGTTTATGGTCGACATCGCAAAGG
GAATGGAGTACCTTCATGAGAATGGGGTACTGCACGGGGATTTGAAGGTGAGGTTCGTATGCCTGCTTTGGGTGG
AATGGTGCTGACAACGCGGTTGGCGAACCAGGCATCCAATGTCTTAGTGAACGATGATTTGATTTGCGTGATCTC
CGACTTTGGCCAGAGCGAATGGAGGAATGATATTTATCGAGCTAGCGGTTGGACCCCGAGTGAGTGACCGGTCGA
CGCTAGTAGGATCGATGCTGATATTGATGCTGACGGATATGCAGAGGGAACGGCGAGATGGAAAGCGCCTGAGTT
GTTGACCGGAGTTGAAGGGGGTTTGACGCCGGCCATCGACGTTTACGCCTATGCTATTACTTGCATTGAAATCTT
GTCCATGGGCGACATTCCGTGGGGTTCTGCAGAGGATAGCTCCCTTGCATATCGCGTAGTGGGTATGGCTGTGCG
TGTGATGAACGTAGGTATATCGCTGACAACTGTCTACAGTGGAGCACCTCCGACCGCCCGTCCCAGAAGACTTCC
GCCATCCACATCTGGAGGAGTTGTTAGAACAATGGTGGCACAAAGACCCACGTGCCCGACCCGAGTTCAAGGCGA
TAGTTTCTTCTCTGGAGGCTGTCGGACACCATATCGAAGCGGGGGCGTTGGATGATGTACGAAGGAGGATGTCAC
AGAGCGCCGCCTCCCTTCAATCTGTAGAGGATGTAACCTTGCCGGATCATAGCCCTCGTTCCGCGGACAGTGCTT
CTGTTCTGACGTCGCCCTTTTCCCGTAAGTCGCTGGCCTTCAATTGTGGTACGCAACTGACTGAAGATTTGGTAG
CGACGATGTCCGTTACGCCACCGGATGGAGGGCGAAGCTATTTCCCGGTTTGGGTTGCAAGTAACTTCAATGACA
TGCACCTGAGCCCCAAGAGCCAGAATAGTGGGAGGTTGTTGGATGAGAACTCGCCGACAACGATGCCCACCCCGA
TGCTCCCGAACCGTTCTGATGGGAGCAGCTGGGAGGCTATCCTGGCGCCTCGTTATAGTCAAACTGACCACCTGG
AGATGGAACAGAGCAAGTCCCCTACCCCGCCACCCTCTTCGCCTCTGCCAGGAAACGAACAGAACTTCACATCGT
CCTCGACATTGATGAAGGCTTCCGACAGTCATCAAAAGAGCGGTTCGATGGAGCCATTCGAGGGAGATCCGTCAG
GATTTGTGAAGGTCAACTACGATGACTTCAAGAGCCCTCAGTCGTTGATGATACCGACGACTACTGAGGGTGAAA
TTCGTGACGAGGACCTCTATCGTCTCGTACGACATGATTTCCACTGGAGCCGTAAGTCGTCCTTCTGTGGCCCAA
CACTATCGAGCTGACTGCGATTACGCAGTGAGAGTGCCTTTGTGGAACCCAGTCCTGGTGGAGGTTGGTGATGTA
GGGTACATGCACCCCCGGACACAAACTTTCGTCACCCTCTTCAACGCTTTCGAGCCCTGCTACACTCCAACCAAC
ACCGCAATATCCATCCCTTCCATCATGGGATTCGGTGACCCCCTCAGGCGACATATGAGAATTCAGACGCAGAAG
TCGAAGAAGTTCTTCCGTACGTTCAGCTACAAGGTCGATGTTGAAGCTGGTCGGCCCATGGCGCATTGTTTCTGC
GAGTTTCCGGATTGGTATTACATGGAGAATACGAGGTCTCCGCAGGCGTGGTTCAAAGCTTCGATTGACGAGATT
ATGGAGTTGCATGGGGAGAAGCACAACATTGCGAAGGAAGACGTGTTGTTGGGTGGGTTTCTTTTTGATACCCGG
TGTAGATTGGTCGCTGACGACGTTGTGGCAGTCGTTGGATCGCTTCAGGCGTCGAGATATAGTTTGTTGATCAGT
CATAACCATCCTTCTGGCACGGTACGTTCACGTTTCCCATTGACGACCACCACAGACTGTACTGACGGACGGAGA
ATCAGGTCGAGTTCACGGGTAATTCAGGCAAGAAAGGTCGACCTTGGGGAAGCTTTGGGCCGATCTCGATTCAAG
GAAGCGGGAGTTCTTCAGAACGCTATGTGACAGCGAACAGGGTCTCTGATAGCGATTCTTCTCAGAAGGCGCTCT
TCTTGGCTGCGCTACATTTCCCTCCTGATGCATTGGAGCCGACGTTGAAGTAAGCATCTTGCAATAATGTTTGGC
AACATTTGAAGGAATGCGGGGTATCAGGTATTTGAATGCATATGAGTAGTTTGTGAATACAATAGTTTCGAAGAA
TCTAGTATCGCATCAGATCAGCATTTTGTACGAATAGTGTAGCCATATGGCTTGTGTATTACATACCGGAATAAC
GAGGACTTGTTC
Length 5787