CopciAB_354947
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_354947 Strain Coprinopsis cinerea Okayama 7
Standard name RIM15 Synonyms 354947
Uniprot id Functional description cheY-homologous receiver domain
Location scaffold_5:2014729..2021129 Strand -
Gene length (nt) 6401 Transcript length (nt) 6076
CDS length (nt) 5667 Protein length (aa) 1888

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Neurospora crassa stk-12
Schizosaccharomyces pombe ppk18
Aspergillus nidulans AN7572_srrB

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB22536 71.9 0 2736
Agrocybe aegerita Agrae_CAA7259648 72.2 0 2718
Pleurotus ostreatus PC15 PleosPC15_2_1076087 67.7 0 2515
Pleurotus eryngii ATCC 90797 Pleery1_1417103 67.3 0 2506
Lentinula edodes W1-26 v1.0 Lentinedodes1_13955 66.1 0 2472
Lentinula edodes NBRC 111202 Lenedo1_1042768 66.1 0 2471
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_128068 66 0 2461
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_116951 66 0 2459
Schizophyllum commune H4-8 Schco3_2621581 64.4 0 2383
Pleurotus ostreatus PC9 PleosPC9_1_83446 62.9 0 2228
Ganoderma sp. 10597 SS1 v1.0 Gansp1_126157 61.8 0 2185
Flammulina velutipes Flave_chr11AA00539 68.4 0 2143
Grifola frondosa Grifr_OBZ70089 60.2 0 2143
Auricularia subglabra Aurde3_1_1272953 53.2 0 1829
Lentinula edodes B17 Lened_B_1_1_9927 62 1.408E-279 917

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 422.6733 19.9721 11.5309
oidia 256.2913 9.3455 5.3956
vegetative_mycelium 232.2847 30.7233 17.7381
primordia 236.0343 8.6868 5.0153
hyphal_knot 315.2578 16.9569 9.7901
young_fruiting_body 701.3519 117.9802 68.1159
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 337.8831 33.664 19.4359
Wheat bran 125.782 53.7689 31.0435
Horse manure 280.0899 89.3134 51.5651
Oak leaves 329.5761 12.943 7.4726
Hay 225.3673 52.1014 30.0807
Corn stalk 279.7754 17.5833 10.1517
Pectine 335.4182 15.2954 8.8308
Microcrystalline cellulose 286.9087 68.5268 39.564
Xylose 334.1877 41.3785 23.8899
Cellobiose 293.0521 70.0832 40.4625
Lignin 335.7014 61.7164 35.632
Apple peels 363.9231 56.1373 32.4109
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 221.0712 12.243 7.0685
Bsubtilis 253.4166 12.2728 7.0857
Ecoli 225.2824 3.3124 1.9124
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 209.5668 28.9815 16.7325
BS 4h 108.4756 21.7736 12.571
BS 8h 78.3235 3.2751 1.8909
BS 12h 58.2926 13.0355 7.5261
Oidia 0 h 96.9374 25.7282 14.8542
Oidia 18 h 89.2524 12.6069 7.2786
Sclerotia 81.8244 20.0163 11.5564
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 71.5539 14.2503 8.2274
DM 36h 79.5687 5.4832 3.1657
DM 60h 86.9551 9.8439 5.6834
DM 84h 80.5887 2.6781 1.5462
DM 108h 97.8544 6.5491 3.7811
DM 132h 98.3536 6.6359 3.8312
DM 156hAE 151.8677 7.3653 4.2523
ELI1hAE 119.9846 21.7863 12.5783
ELI2hAE 105.7825 5.4219 3.1304
LI2hAE 113.2195 5.7736 3.3334
LI6hAE 130.8297 7.8387 4.5257
LI12hAE 112.8903 18.6656 10.7766
LI18hAE 119.5973 17.5399 10.1267
LI 24hAE 155.4019 15.4175 8.9013
DM 156hAM 95.911 3.6344 2.0983
ELI1hAM 85.2836 14.4648 8.3513
ELI2hAM 67.585 7.2942 4.2113
LI2hAM 75.0524 8.6343 4.985
LI6hAM 100.5802 17.3504 10.0172
LI12hAM 89.8808 6.5572 3.7858
LI18hAM 103.2189 6.0338 3.4836
LI 24hAM 131.713 4.337 2.504
LI 24hHK 120.9275 16.7027 9.6433
L/D 6h 141.1752 16.4407 9.492
L/D 12h 148.6067 23.7628 13.7195
L/D 18h 131.7194 10.4545 6.0359
L/D 24h 115.2917 7.7023 4.4469
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 135.1913 21.9088 12.649
Hyphal knots 175.9764 17.2687 9.9701
Primordium 1 164.1643 1.689 0.9751
Primordium 2 144.1476 10.8188 6.2462
Young Fruiting body cap 229.0041 88.4293 51.0547
Younf fruiting body gill 267.3238 145.0674 83.7547
Young fruiting body stipe 192.8831 31.0768 17.9422
Mature fruiting body cap_gill 192.1739 60.725 35.0596
Mature fruiting body stipe 449.8017 17.061 9.8502
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 385.933 39.7215 22.9332
NH4NO3 278.6885 23.3773 13.4969
Proline 308.2664 26.1293 15.0858
Tryptophan 338.0782 32.8959 18.9925
Isoleucin 317.9879 19.3872 11.1932
Arginine 366.8859 32.3835 18.6966
Metionine 347.3951 38.6805 22.3322
NaNO3 346.2114 30.3536 17.5246
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 385.933 39.7215 22.9332
Citrus peel 530.7569 145.6064 84.0659
Poplar leaves 353.436 58.1315 33.5622
Typha leaves 359.5038 58.6907 33.8851
Overwintered Salix leaves 353.2113 67.4759 38.9572
Reed flowering 408.041 57.1535 32.9976
Tigernut 267.7283 9.5273 5.5006
Energy cane 332.4865 5.3027 3.0615
Guar gum 312.9483 38.8253 22.4158
Apple peels 323.1178 38.2434 22.0798
Cellobiose 334.4396 33.7371 19.4781
Corn stalk 292.1991 25.6935 14.8342
Horse manure 339.3618 56.0426 32.3562
Lignin 616.6723 327.5909 189.1347
Microcrystalline cellulose 345.5675 64.7398 37.3776
Oak leaves 276.5358 53.8016 31.0624
Pectin esterified 186.8502 14.2877 8.249
Poplar sawdust 280.6374 60.2158 34.7656
Wheat bran 202.7338 59.8134 34.5333
Chlamydomonas reinhardtii 346.9174 36.4628 21.0518
Vertatryl alcohol 257.023 27.2805 15.7504
Furfural 190.2757 30.7698 17.765
Autoclaved mycelium 378.3744 21.5635 12.4497
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 245.9591 24.1168 13.9238
Ribose 313.5521 23.7564 13.7158
Mannose 291.7296 15.2913 10.8126
Fructose 312.7885 17.5983 10.1604
Arabinose 349.6322 18.7231 10.8098
Xylose 322.6574 15.5483 8.9768
Galacturonic acid 305.9539 15.9801 9.2261
Rhamnogalacturonan 286.5662 4.5807 2.6447
Pectin esterified 283.6558 11.8722 6.8544
Polygalacturonic acid 323.0474 28.4254 16.4114
Sodium acetate 322.4765 9.3747 5.4125
No nitrogen 342.6087 38.4561 22.2027
BSA 324.6983 16.1625 9.3314
Glutamine 318.3838 29.2106 16.8648
No phosphate 248.084 21.1237 12.1958
No carbon 337.5797 16.498 11.6658
No sulphur 282.3491 33.2343 19.1878
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 385.933 39.7215 22.9332
Amylose 240.6213 12.6857 7.3241
Fucose 270.6633 24.9498 14.4048
Galactose 327.8637 29.6123 17.0967
Lactose 288.3403 23.5507 13.597
Maltose 282.9278 51.577 29.778
Mannitol 343.0716 50.9726 29.4291
Rhamnose 384.9562 78.4464 45.2911
Sorbitol 270.793 35.1721 20.3066
Trehalose 275.2609 17.4783 10.0911
Glycerol 330.1026 18.9932 10.9657
Glucuronic acid 272.4427 12.5128 7.2243
Arabinan 222.7818 2.0316 1.1729
Galactan 333.8408 20.6215 11.9059
Galactomannan 256.6598 47.9333 27.6743
Glucan 366.3638 35.0124 20.2144
Xylan 253.4031 42.2753 24.4077
Xyloglucan 236.217 26.1378 15.0906
Arabinogalactan 301.4657 29.5992 17.0891
Pectin 354.7511 149.5946 86.3685
Rhamnogalacturonan 470.2696 138.0145 79.6827
Polygalacturonic acid 326.8089 48.0709 27.7537
Mannan 287.83 30.2827 17.4837
Amylopectin 262.1313 22.0963 12.7573
Inulin 313.0399 24.113 13.9217
BSA 541.4753 60.4976 34.9283
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 86.9551 9.8439 5.6834
2h WAT 91.6243 2.4328 1.4046
4h WAT 89.7294 14.3999 8.3138
8h WAT 92.7508 15.183 8.7659
16h WAT 100.9762 12.4171 7.169
24h WAT 96.3143 7.9076 4.5654
WAT hyphal knot -30h 89.5454 18.2825 10.5554
WAT hyphal knot -22h 89.4846 7.6081 4.3925
WAT hyphal knot -15h 99.8111 2.665 1.5386
WAT hyphal knot -7.5h 97.1304 14.8346 8.5648
WAT hyphal knot 106.405 3.8476 2.2214
WAT hyphal knot +7.5h 105.0813 24.1195 13.9254
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 336.6914 103.1851 59.5739
Straw 3h 213.6104 30.6257 17.6818
Straw 6h 225.9914 11.9075 6.8748
Straw 12h 302.3218 20.6785 11.9387
Straw 24h 282.2013 19.9558 11.5215
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 81.9185 8.1535 4.7074
Frost (-20C, 30min) 94.3967 8.8355 5.1012
Heat shock (47C, 2h) 184.2228 8.1012 4.6772
High CO2 93.6923 9.1907 5.3062
Drought (4% agar, 12h) 78.0699 9.7476 5.6278
Oxidative (1mM H2O2, 3h) 87.7404 2.5468 1.4704
Acidic (pH4, 3h) 79.5038 9.6013 5.5433
Alkaline (pH9, 3h) 70.6371 2.9674 1.7132
Osmotic (sorbitol 2h) 80.3728 3.9295 2.2687
CongoRed (3h) 92.9676 12.3835 7.1496
Cobalt chloride control 116.379 9.4551 5.4589
Cobalt chloride 2mM 98.7486 17.4184 10.0565
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 73.8514 12.9855 7.4972
Cold stimulation 66.9248 8.5596 4.9419
Scratched surface 104.7758 9.4552 5.4589
Ca2+, 200mM, 24h 71.2112 1.7824 1.0291
Cu2+, 2mM, 6h 73.6575 9.7706 5.6411
Voriconazole 70.3426 8.8111 5.0871
Trichoderma interaction, early 78.9358 8.5509 4.9369
Trichoderma interaction 60h 57.1809 22.9318 13.2397
Cobalt chloride 2mM repeat 95.029 12.9662 7.486
Hypoxia 99.9257 16.5616 9.5619
Hypoxia control 72.7448 6.6618 3.8462
Protoplastation control 104.6016 7.004 4.9526
Protoplastation 3.5h 85.1594 9.1244 6.4519
Protoplastation 1.5h 102.0873 9.2079 6.511

General data

Systematic name RIM15
Protein id CopciAB_354947.T0
Description cheY-homologous receiver domain

Annotation summary

0 500 1000 1500 1888

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd05611 STKc_Rim15_like - 1103 1480
CDD cd17546 REC_hyHK_CKI1_RcsC-like - 1745 1854
Pfam PF00069 Protein kinase domain IPR000719 1101 1248
Pfam PF00069 Protein kinase domain IPR000719 1370 1474
Pfam PF00072 Response regulator receiver domain IPR001789 1745 1853

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR008271 Serine/threonine-protein kinase, active site
IPR000719 Protein kinase domain
IPR000961 AGC-kinase, C-terminal
IPR011009 Protein kinase-like domain superfamily
IPR001789 Signal transduction response regulator, receiver domain
IPR011006 CheY-like superfamily

GO

Go id Term Ontology
GO:0004672 protein kinase activity MF
GO:0006468 protein phosphorylation BP
GO:0005524 ATP binding MF
GO:0004674 protein serine/threonine kinase activity MF
GO:0000160 phosphorelay signal transduction system BP

KEGG

KEGG Orthology
K12767

EggNOG

COG category Description
T cheY-homologous receiver domain

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_354947 across fungi.

Arrow shows the origin of gene family containing CopciAB_354947.

Protein

Sequence id CopciAB_354947.T0
Sequence >CopciAB_354947.T0
MAMSEPGGHRRQPPSPLVFGPDTVLSPIPLQAQSSTASSHGSGSNTVSMPFVRRHVTRRLKAAKAECDKELQRVT
NNVTAFFEERLREGDQDIDRDHRERPAEGRDRDSQLGDHDHLREPFVFQTAELGTTAHNDEYSSDGGYEAESEFS
RHSRQRGYQDIDHPNDQSLAHSRSTSALSTASVQMSPGSQRRQSAAPWDKPVSSSVSSSVVGSSPASSTILLPEA
TVGRRQNTVTPATTSWSSGGSSSRRLSRSIHIPPRPTASGQSSRSTSRSRSPLPPTSSHASFSEHANAAFNRRSS
RLFVDDPVDPLMAALYELIAVATDVTDMPVAQLMNNPKICESIVQRVQNIGRAWDDHPDWPGRNWYVQVLLAVAS
LSRVVEWWEAEKQFWNFDDNNDEHDEPLMFVMKPADEDVSNLDLELEGFRLDDKPPSPGLSRKPTAEAPFVAPAP
EGDAGSTSSERLTPNQAVSNAESARVLATERLRLQAETAQNQNIVMELSLDGDHFIWVNHAWRVVVGTDPEGLSG
TRISSLLAPSDWGVFKEATNRLQEDDSHTVEVRFKLQIEPTVQQDPSAGVLYQLMEGKGMLMIDREDGQPSHTMW
VVRPIAPARFEHDTVSINLEADDLAPEPASTIKQSFVDRSYTEPATPFPFNEPIVTDNILCRICESQIPQWYFEK
HSETCAETHRLEAEIMECNESILELRNAIRDLSTAIDRSSPTAAPEYRGMPVFIPSSSPLMSSPLQLFRANKLQR
FSVKKMQRRFLDQVDEILQTCLEIAMPSLKEEEADEPIERQRLLSPTSERKITQVRNWAKPTTEDAALGQLLQDA
ERIMRQKIDSVVRMQNTIRYAEKIWAEWEERIESYLATINESGSENDSASEPENAPESVRDRKDSETTTVDDHSS
TTSEYNFGRDTSSKELSPMSCLSPIPFITSPTEPRPLSLAPVPAASNQQHISTPIPVHPPTMTRQQQLSTRSSTP
SSVSSPLARAPIVAAPSPEDPQPPASLEDATSATATAPTIKTRKSNQSLLEPKFVVTPPASPQVSGRDSAPSGSG
LTREGSTRRGHRRHSNANILTSPPPAGPLSPRQSGAIPLPRTNPTSIKDFEIIKPISKGAFGSVFLAKKRVTGDY
YAIKVLKKADMIAKNQITNVKAERMILMKQAESPFVAKLYFTFQSKENLYLVMEYLNGGDCAALIKSLGSLPEEW
AKNYVAEVVLGLEYLHQRGIVHRDLKPDNLLIDQHGHLKLTDFGLSRIGLLGRQTRDTQFGRALSRYGSRSRPPS
MDSAYFSSPLFLNDPSGGSYFTQRPTSVSRVGNSPYLPPADDPSESSGSESIANFHARRNGRMSDSPLQSFATEL
TTDLRSHSSSNASGTTPPGEQKFVGTPDYLAPETILGLRGDDAAVDWWALGVITYEFLYGIPPFHADSPEKVFEN
ILSGHIEWHEEWVEYSPEARDFMQSLMNVDPNARLGSGGADEVKSHPWFEGIEWDKVTTTEAAFIPQVTDPESTD
YFDPRGAIPQLFGDDEDLVAVTSRSHTGSPANMPPPSAPVPIAGKETPSSAGSDDFGSFSFKNLPVLKQANDDVI
RKLKTDQMAPMTHTLTEPASYHHQRKRSMSQRIKKPPNVVTNMDPKLMSTNPPSPATSTSSIASSPSRASLPPPT
PGSGLSGTHSRKPSEYGAVERFKLNHMEGDRRNSMPSRLRTASVSSAGDGSGSETWNSSAGYGSQHETANTPASS
VHSVDLRKAPDPSDRVVTCLLAEDNPITAKIIETLLVRLGCRCIVVSDGSEAISVAMGDIKFDCILMDLQMPVLD
GEGAARYIKSTNGKNTNTPIIAVSAYSGMDPSETSNVFDASLSKPLQKADLLNVFRQLGFKTTAKQGISNAKVVP
GASQLAQPPILSS
Length 1888

Coding

Sequence id CopciAB_354947.T0
Sequence >CopciAB_354947.T0
ATGGCCATGTCAGAGCCAGGTGGGCATCGAAGGCAGCCACCAAGTCCCCTGGTATTCGGCCCAGACACCGTGTTG
TCCCCAATTCCCCTCCAGGCTCAGTCGAGCACAGCGAGCAGCCATGGTTCAGGATCCAACACCGTCTCCATGCCC
TTCGTCCGACGTCATGTAACCAGACGTCTCAAGGCCGCCAAAGCAGAGTGCGACAAGGAGCTCCAACGAGTCACC
AACAACGTCACCGCCTTCTTTGAAGAGCGCCTACGGGAAGGTGATCAGGACATCGACCGTGACCATCGAGAACGT
CCAGCAGAAGGTCGGGACCGCGATTCCCAGCTTGGTGATCACGACCACCTTCGAGAACCCTTCGTCTTTCAAACC
GCGGAACTTGGGACGACCGCTCACAACGACGAGTATAGCTCAGATGGCGGGTATGAGGCCGAGTCAGAGTTTAGT
CGGCACAGTCGTCAACGTGGGTACCAGGATATTGACCATCCCAATGACCAATCTCTTGCTCACTCCCGCTCTACA
TCTGCCCTGTCTACAGCATCAGTCCAGATGAGCCCCGGCTCGCAACGGCGACAATCCGCCGCTCCCTGGGACAAA
CCAGTCAGCTCATCGGTCTCCTCCAGTGTGGTCGGGTCAAGCCCTGCCTCTTCCACGATTTTGCTTCCAGAAGCA
ACCGTCGGGAGGAGGCAGAATACCGTTACACCAGCCACTACCTCGTGGTCCTCCGGCGGCAGCTCTTCACGCCGC
TTGTCGAGGAGCATTCATATCCCACCACGGCCAACCGCTTCCGGACAGAGCTCTCGCTCAACCTCACGTTCTCGG
TCACCATTGCCTCCCACCTCTTCTCATGCAAGTTTCTCGGAGCACGCTAATGCAGCGTTCAATCGCAGATCATCA
AGACTTTTCGTCGACGATCCCGTAGACCCACTCATGGCCGCTCTCTACGAGCTCATTGCTGTCGCTACAGATGTA
ACCGACATGCCAGTTGCACAGCTCATGAACAATCCCAAGATATGCGAATCCATTGTCCAACGAGTGCAGAACATT
GGCAGAGCATGGGACGACCATCCAGACTGGCCCGGTCGTAACTGGTACGTTCAAGTACTGCTCGCCGTCGCCAGC
CTCAGCCGTGTCGTGGAGTGGTGGGAGGCCGAGAAACAGTTTTGGAATTTTGACGACAATAACGACGAACACGAT
GAGCCGCTCATGTTTGTCATGAAACCTGCCGATGAGGACGTGTCCAACTTGGATCTAGAGTTGGAAGGTTTCAGA
TTGGACGACAAGCCGCCCTCCCCGGGCCTATCCCGCAAGCCAACGGCAGAGGCTCCATTCGTCGCCCCCGCTCCG
GAGGGAGATGCTGGGTCCACCTCTTCCGAGAGGTTAACACCCAACCAGGCCGTTTCTAATGCCGAATCAGCGCGC
GTCCTCGCCACAGAGCGCTTGCGATTGCAAGCAGAGACGGCCCAGAATCAAAACATCGTAATGGAACTGAGTTTG
GATGGCGACCACTTTATCTGGGTAAATCATGCATGGAGAGTGGTTGTCGGGACGGATCCAGAAGGACTTTCAGGT
ACTCGCATTTCCAGTTTGCTGGCTCCTTCCGACTGGGGAGTTTTCAAAGAAGCTACAAACCGTCTTCAAGAAGAC
GATTCACACACGGTCGAGGTCCGGTTCAAGTTGCAAATCGAGCCCACCGTACAGCAGGACCCTTCTGCTGGGGTG
TTATACCAGTTGATGGAAGGAAAAGGCATGCTGATGATCGACCGCGAGGATGGTCAACCGTCGCATACCATGTGG
GTGGTGCGTCCCATTGCCCCAGCCCGCTTTGAGCACGACACGGTTTCCATCAACCTAGAAGCGGATGACCTGGCG
CCGGAACCAGCATCGACGATCAAACAAAGTTTCGTGGACCGCAGTTATACAGAACCAGCGACGCCCTTTCCTTTC
AACGAGCCCATCGTTACGGACAACATCCTTTGCCGCATCTGCGAATCTCAGATTCCCCAGTGGTATTTCGAGAAG
CACAGCGAAACCTGCGCAGAAACACATAGACTGGAAGCCGAGATCATGGAGTGCAACGAATCAATCCTGGAATTG
CGAAATGCCATTCGGGATTTGTCCACCGCCATCGACCGCTCTTCCCCTACGGCTGCGCCTGAATACCGCGGAATG
CCTGTATTTATCCCGTCTTCCTCGCCATTGATGTCGTCCCCTCTCCAGTTATTCAGGGCCAACAAGTTACAGAGA
TTCAGCGTCAAGAAGATGCAACGACGCTTCTTGGACCAGGTCGACGAAATCCTGCAGACATGCCTGGAAATTGCC
ATGCCCTCTCTGAAGGAGGAGGAGGCGGATGAACCGATCGAAAGACAGCGTCTGCTTTCTCCAACCTCTGAACGG
AAGATCACGCAAGTTCGCAATTGGGCAAAGCCAACGACCGAAGATGCCGCGTTAGGCCAGCTTCTTCAGGATGCC
GAGCGTATCATGCGCCAGAAGATCGACAGCGTTGTTCGCATGCAGAACACCATACGTTATGCAGAGAAGATTTGG
GCAGAGTGGGAAGAGAGGATCGAGAGCTACCTGGCCACGATCAATGAGTCAGGAAGTGAGAACGACTCCGCATCT
GAACCCGAGAACGCGCCAGAATCGGTTCGCGACAGAAAAGATTCTGAGACAACAACCGTCGACGATCATTCCAGC
ACTACCTCAGAATACAACTTCGGCCGCGATACCTCATCCAAGGAACTCTCGCCTATGTCTTGTCTGTCGCCCATC
CCGTTCATCACATCTCCAACCGAGCCCCGCCCTCTCTCGCTAGCACCTGTCCCCGCTGCGAGTAACCAACAGCAC
ATTTCCACCCCTATTCCCGTGCACCCTCCCACCATGACTCGGCAACAACAATTGTCAACACGTTCGTCGACGCCA
TCCTCCGTTTCCTCTCCACTCGCACGGGCACCCATTGTTGCCGCTCCTTCTCCTGAAGATCCGCAGCCTCCGGCA
TCCCTTGAAGATGCTACCTCCGCGACGGCCACTGCGCCAACCATCAAGACTCGCAAGTCCAACCAGAGCCTACTT
GAGCCCAAGTTTGTGGTTACACCACCAGCATCACCACAAGTCTCAGGCCGCGACTCGGCACCCAGTGGTTCTGGC
CTCACTCGCGAAGGCTCCACGCGCCGAGGACACCGTCGTCACTCTAATGCAAATATTCTTACAAGCCCTCCACCG
GCAGGACCATTGTCTCCCAGACAATCCGGGGCCATCCCCCTCCCTCGTACCAACCCTACATCCATCAAAGACTTC
GAAATCATCAAGCCTATCAGTAAAGGTGCCTTTGGATCTGTCTTTTTGGCCAAGAAGCGTGTCACTGGAGACTAC
TACGCCATCAAAGTTTTGAAGAAGGCGGACATGATTGCGAAGAATCAAATCACTAACGTTAAGGCTGAGCGAATG
ATCCTCATGAAGCAAGCAGAATCACCATTCGTCGCTAAGCTCTATTTCACCTTCCAGAGCAAGGAGAACCTATAC
CTCGTCATGGAGTATCTCAATGGTGGTGACTGCGCTGCCTTGATCAAGTCCCTTGGATCCCTTCCGGAGGAATGG
GCCAAGAACTACGTGGCAGAAGTCGTCCTTGGATTGGAGTATCTTCACCAACGGGGTATCGTTCATCGTGATCTG
AAGCCGGACAATCTCCTCATTGACCAGCATGGACACTTGAAACTCACTGATTTTGGTCTCAGCCGTATTGGTCTC
TTGGGACGACAGACTCGAGACACACAGTTTGGACGGGCGCTCAGTCGATATGGTTCACGATCGCGACCTCCGTCG
ATGGATTCTGCGTACTTCTCTTCTCCCCTCTTCCTCAACGATCCATCTGGTGGTTCGTATTTTACCCAGAGGCCA
ACTTCGGTGTCCCGTGTTGGAAACAGTCCTTACCTACCCCCAGCAGATGATCCTAGCGAATCCAGCGGTTCCGAG
TCTATTGCGAACTTCCATGCCCGTCGCAATGGAAGGATGTCGGACAGTCCCCTGCAGTCGTTCGCCACCGAGTTA
ACGACTGACCTTCGTTCTCATTCCAGCTCCAATGCGAGTGGCACAACGCCTCCCGGAGAACAGAAATTTGTAGGC
ACGCCTGATTACTTGGCACCCGAAACTATACTTGGTTTGCGAGGAGACGATGCCGCTGTCGATTGGTGGGCTCTG
GGCGTTATCACCTACGAATTCCTTTACGGCATACCTCCTTTCCATGCCGATAGCCCAGAGAAGGTATTCGAGAAC
ATCCTATCTGGACATATCGAGTGGCATGAAGAATGGGTAGAGTATTCTCCAGAGGCTCGTGACTTCATGCAGTCG
TTGATGAACGTGGACCCCAACGCTCGACTTGGCTCCGGCGGCGCAGACGAGGTCAAGAGCCATCCATGGTTTGAA
GGCATTGAGTGGGACAAGGTCACGACTACAGAAGCCGCTTTCATTCCACAGGTCACCGACCCAGAGTCGACTGAT
TATTTCGATCCTCGCGGGGCGATCCCCCAACTTTTCGGCGATGACGAAGACCTGGTCGCGGTGACCTCGAGATCG
CACACAGGGAGCCCTGCAAACATGCCCCCGCCTAGCGCGCCTGTCCCAATTGCAGGCAAAGAAACTCCCAGTTCT
GCTGGTAGTGACGATTTCGGATCCTTTAGCTTCAAAAACCTTCCTGTATTGAAGCAGGCGAACGACGACGTTATC
CGCAAACTGAAGACCGATCAAATGGCGCCAATGACCCATACCCTCACTGAACCAGCGAGCTATCACCACCAACGC
AAGCGCAGCATGTCTCAACGCATTAAGAAACCACCCAATGTGGTGACGAACATGGATCCCAAGTTAATGTCGACG
AATCCTCCCTCACCTGCTACCTCAACATCGTCCATTGCATCTTCTCCCTCCCGCGCGAGTCTTCCTCCCCCGACT
CCTGGAAGTGGACTCAGCGGTACCCATTCGAGGAAGCCCTCAGAGTATGGTGCAGTCGAGCGATTTAAACTCAAC
CACATGGAAGGCGATAGGCGCAACTCTATGCCAAGTCGTCTCCGTACGGCTTCGGTATCAAGCGCAGGGGATGGA
TCCGGGTCTGAAACCTGGAATTCATCTGCTGGGTACGGCAGCCAACATGAGACTGCCAATACCCCTGCATCCTCG
GTCCATTCTGTGGACCTGAGAAAGGCCCCGGATCCTAGTGATCGTGTAGTGACTTGCCTTCTCGCAGAGGACAAT
CCGATTACTGCCAAAATCATAGAAACTTTGCTTGTCCGGCTAGGGTGCAGGTGCATCGTGGTCTCTGACGGATCT
GAGGCCATTAGCGTTGCCATGGGTGACATCAAATTCGATTGTATCCTGATGGATCTGCAGATGCCAGTCTTGGAC
GGAGAAGGTGCTGCGAGGTACATCAAGAGTACAAATGGTAAGAACACCAACACACCCATCATCGCGGTGAGCGCG
TACAGCGGGATGGATCCCAGCGAAACTAGCAATGTTTTCGATGCGTCCTTGTCGAAGCCGCTGCAAAAGGCAGAT
TTGCTCAACGTATTTCGCCAATTGGGATTCAAGACTACGGCCAAGCAAGGCATTTCGAATGCCAAAGTTGTTCCC
GGCGCGTCTCAGCTCGCACAGCCCCCAATACTCTCTTCATGA
Length 5667

Transcript

Sequence id CopciAB_354947.T0
Sequence >CopciAB_354947.T0
GGAGTCTGTGGCCATCCTCACGACGATAACCTCTCATCCATGTCTTGCTGAACAGTTTCGGCCCCGTCGACGTCT
TTAACGACCATCACACCTCTTTTCTCCCCCGTCTCCCCCATTTTCCTGCGCTGGAGTCCTTTATCAACCCCTGGT
CGTCCTGAGTCCACCCCAGCGACCTCATGGCCATGTCAGAGCCAGGTGGGCATCGAAGGCAGCCACCAAGTCCCC
TGGTATTCGGCCCAGACACCGTGTTGTCCCCAATTCCCCTCCAGGCTCAGTCGAGCACAGCGAGCAGCCATGGTT
CAGGATCCAACACCGTCTCCATGCCCTTCGTCCGACGTCATGTAACCAGACGTCTCAAGGCCGCCAAAGCAGAGT
GCGACAAGGAGCTCCAACGAGTCACCAACAACGTCACCGCCTTCTTTGAAGAGCGCCTACGGGAAGGTGATCAGG
ACATCGACCGTGACCATCGAGAACGTCCAGCAGAAGGTCGGGACCGCGATTCCCAGCTTGGTGATCACGACCACC
TTCGAGAACCCTTCGTCTTTCAAACCGCGGAACTTGGGACGACCGCTCACAACGACGAGTATAGCTCAGATGGCG
GGTATGAGGCCGAGTCAGAGTTTAGTCGGCACAGTCGTCAACGTGGGTACCAGGATATTGACCATCCCAATGACC
AATCTCTTGCTCACTCCCGCTCTACATCTGCCCTGTCTACAGCATCAGTCCAGATGAGCCCCGGCTCGCAACGGC
GACAATCCGCCGCTCCCTGGGACAAACCAGTCAGCTCATCGGTCTCCTCCAGTGTGGTCGGGTCAAGCCCTGCCT
CTTCCACGATTTTGCTTCCAGAAGCAACCGTCGGGAGGAGGCAGAATACCGTTACACCAGCCACTACCTCGTGGT
CCTCCGGCGGCAGCTCTTCACGCCGCTTGTCGAGGAGCATTCATATCCCACCACGGCCAACCGCTTCCGGACAGA
GCTCTCGCTCAACCTCACGTTCTCGGTCACCATTGCCTCCCACCTCTTCTCATGCAAGTTTCTCGGAGCACGCTA
ATGCAGCGTTCAATCGCAGATCATCAAGACTTTTCGTCGACGATCCCGTAGACCCACTCATGGCCGCTCTCTACG
AGCTCATTGCTGTCGCTACAGATGTAACCGACATGCCAGTTGCACAGCTCATGAACAATCCCAAGATATGCGAAT
CCATTGTCCAACGAGTGCAGAACATTGGCAGAGCATGGGACGACCATCCAGACTGGCCCGGTCGTAACTGGTACG
TTCAAGTACTGCTCGCCGTCGCCAGCCTCAGCCGTGTCGTGGAGTGGTGGGAGGCCGAGAAACAGTTTTGGAATT
TTGACGACAATAACGACGAACACGATGAGCCGCTCATGTTTGTCATGAAACCTGCCGATGAGGACGTGTCCAACT
TGGATCTAGAGTTGGAAGGTTTCAGATTGGACGACAAGCCGCCCTCCCCGGGCCTATCCCGCAAGCCAACGGCAG
AGGCTCCATTCGTCGCCCCCGCTCCGGAGGGAGATGCTGGGTCCACCTCTTCCGAGAGGTTAACACCCAACCAGG
CCGTTTCTAATGCCGAATCAGCGCGCGTCCTCGCCACAGAGCGCTTGCGATTGCAAGCAGAGACGGCCCAGAATC
AAAACATCGTAATGGAACTGAGTTTGGATGGCGACCACTTTATCTGGGTAAATCATGCATGGAGAGTGGTTGTCG
GGACGGATCCAGAAGGACTTTCAGGTACTCGCATTTCCAGTTTGCTGGCTCCTTCCGACTGGGGAGTTTTCAAAG
AAGCTACAAACCGTCTTCAAGAAGACGATTCACACACGGTCGAGGTCCGGTTCAAGTTGCAAATCGAGCCCACCG
TACAGCAGGACCCTTCTGCTGGGGTGTTATACCAGTTGATGGAAGGAAAAGGCATGCTGATGATCGACCGCGAGG
ATGGTCAACCGTCGCATACCATGTGGGTGGTGCGTCCCATTGCCCCAGCCCGCTTTGAGCACGACACGGTTTCCA
TCAACCTAGAAGCGGATGACCTGGCGCCGGAACCAGCATCGACGATCAAACAAAGTTTCGTGGACCGCAGTTATA
CAGAACCAGCGACGCCCTTTCCTTTCAACGAGCCCATCGTTACGGACAACATCCTTTGCCGCATCTGCGAATCTC
AGATTCCCCAGTGGTATTTCGAGAAGCACAGCGAAACCTGCGCAGAAACACATAGACTGGAAGCCGAGATCATGG
AGTGCAACGAATCAATCCTGGAATTGCGAAATGCCATTCGGGATTTGTCCACCGCCATCGACCGCTCTTCCCCTA
CGGCTGCGCCTGAATACCGCGGAATGCCTGTATTTATCCCGTCTTCCTCGCCATTGATGTCGTCCCCTCTCCAGT
TATTCAGGGCCAACAAGTTACAGAGATTCAGCGTCAAGAAGATGCAACGACGCTTCTTGGACCAGGTCGACGAAA
TCCTGCAGACATGCCTGGAAATTGCCATGCCCTCTCTGAAGGAGGAGGAGGCGGATGAACCGATCGAAAGACAGC
GTCTGCTTTCTCCAACCTCTGAACGGAAGATCACGCAAGTTCGCAATTGGGCAAAGCCAACGACCGAAGATGCCG
CGTTAGGCCAGCTTCTTCAGGATGCCGAGCGTATCATGCGCCAGAAGATCGACAGCGTTGTTCGCATGCAGAACA
CCATACGTTATGCAGAGAAGATTTGGGCAGAGTGGGAAGAGAGGATCGAGAGCTACCTGGCCACGATCAATGAGT
CAGGAAGTGAGAACGACTCCGCATCTGAACCCGAGAACGCGCCAGAATCGGTTCGCGACAGAAAAGATTCTGAGA
CAACAACCGTCGACGATCATTCCAGCACTACCTCAGAATACAACTTCGGCCGCGATACCTCATCCAAGGAACTCT
CGCCTATGTCTTGTCTGTCGCCCATCCCGTTCATCACATCTCCAACCGAGCCCCGCCCTCTCTCGCTAGCACCTG
TCCCCGCTGCGAGTAACCAACAGCACATTTCCACCCCTATTCCCGTGCACCCTCCCACCATGACTCGGCAACAAC
AATTGTCAACACGTTCGTCGACGCCATCCTCCGTTTCCTCTCCACTCGCACGGGCACCCATTGTTGCCGCTCCTT
CTCCTGAAGATCCGCAGCCTCCGGCATCCCTTGAAGATGCTACCTCCGCGACGGCCACTGCGCCAACCATCAAGA
CTCGCAAGTCCAACCAGAGCCTACTTGAGCCCAAGTTTGTGGTTACACCACCAGCATCACCACAAGTCTCAGGCC
GCGACTCGGCACCCAGTGGTTCTGGCCTCACTCGCGAAGGCTCCACGCGCCGAGGACACCGTCGTCACTCTAATG
CAAATATTCTTACAAGCCCTCCACCGGCAGGACCATTGTCTCCCAGACAATCCGGGGCCATCCCCCTCCCTCGTA
CCAACCCTACATCCATCAAAGACTTCGAAATCATCAAGCCTATCAGTAAAGGTGCCTTTGGATCTGTCTTTTTGG
CCAAGAAGCGTGTCACTGGAGACTACTACGCCATCAAAGTTTTGAAGAAGGCGGACATGATTGCGAAGAATCAAA
TCACTAACGTTAAGGCTGAGCGAATGATCCTCATGAAGCAAGCAGAATCACCATTCGTCGCTAAGCTCTATTTCA
CCTTCCAGAGCAAGGAGAACCTATACCTCGTCATGGAGTATCTCAATGGTGGTGACTGCGCTGCCTTGATCAAGT
CCCTTGGATCCCTTCCGGAGGAATGGGCCAAGAACTACGTGGCAGAAGTCGTCCTTGGATTGGAGTATCTTCACC
AACGGGGTATCGTTCATCGTGATCTGAAGCCGGACAATCTCCTCATTGACCAGCATGGACACTTGAAACTCACTG
ATTTTGGTCTCAGCCGTATTGGTCTCTTGGGACGACAGACTCGAGACACACAGTTTGGACGGGCGCTCAGTCGAT
ATGGTTCACGATCGCGACCTCCGTCGATGGATTCTGCGTACTTCTCTTCTCCCCTCTTCCTCAACGATCCATCTG
GTGGTTCGTATTTTACCCAGAGGCCAACTTCGGTGTCCCGTGTTGGAAACAGTCCTTACCTACCCCCAGCAGATG
ATCCTAGCGAATCCAGCGGTTCCGAGTCTATTGCGAACTTCCATGCCCGTCGCAATGGAAGGATGTCGGACAGTC
CCCTGCAGTCGTTCGCCACCGAGTTAACGACTGACCTTCGTTCTCATTCCAGCTCCAATGCGAGTGGCACAACGC
CTCCCGGAGAACAGAAATTTGTAGGCACGCCTGATTACTTGGCACCCGAAACTATACTTGGTTTGCGAGGAGACG
ATGCCGCTGTCGATTGGTGGGCTCTGGGCGTTATCACCTACGAATTCCTTTACGGCATACCTCCTTTCCATGCCG
ATAGCCCAGAGAAGGTATTCGAGAACATCCTATCTGGACATATCGAGTGGCATGAAGAATGGGTAGAGTATTCTC
CAGAGGCTCGTGACTTCATGCAGTCGTTGATGAACGTGGACCCCAACGCTCGACTTGGCTCCGGCGGCGCAGACG
AGGTCAAGAGCCATCCATGGTTTGAAGGCATTGAGTGGGACAAGGTCACGACTACAGAAGCCGCTTTCATTCCAC
AGGTCACCGACCCAGAGTCGACTGATTATTTCGATCCTCGCGGGGCGATCCCCCAACTTTTCGGCGATGACGAAG
ACCTGGTCGCGGTGACCTCGAGATCGCACACAGGGAGCCCTGCAAACATGCCCCCGCCTAGCGCGCCTGTCCCAA
TTGCAGGCAAAGAAACTCCCAGTTCTGCTGGTAGTGACGATTTCGGATCCTTTAGCTTCAAAAACCTTCCTGTAT
TGAAGCAGGCGAACGACGACGTTATCCGCAAACTGAAGACCGATCAAATGGCGCCAATGACCCATACCCTCACTG
AACCAGCGAGCTATCACCACCAACGCAAGCGCAGCATGTCTCAACGCATTAAGAAACCACCCAATGTGGTGACGA
ACATGGATCCCAAGTTAATGTCGACGAATCCTCCCTCACCTGCTACCTCAACATCGTCCATTGCATCTTCTCCCT
CCCGCGCGAGTCTTCCTCCCCCGACTCCTGGAAGTGGACTCAGCGGTACCCATTCGAGGAAGCCCTCAGAGTATG
GTGCAGTCGAGCGATTTAAACTCAACCACATGGAAGGCGATAGGCGCAACTCTATGCCAAGTCGTCTCCGTACGG
CTTCGGTATCAAGCGCAGGGGATGGATCCGGGTCTGAAACCTGGAATTCATCTGCTGGGTACGGCAGCCAACATG
AGACTGCCAATACCCCTGCATCCTCGGTCCATTCTGTGGACCTGAGAAAGGCCCCGGATCCTAGTGATCGTGTAG
TGACTTGCCTTCTCGCAGAGGACAATCCGATTACTGCCAAAATCATAGAAACTTTGCTTGTCCGGCTAGGGTGCA
GGTGCATCGTGGTCTCTGACGGATCTGAGGCCATTAGCGTTGCCATGGGTGACATCAAATTCGATTGTATCCTGA
TGGATCTGCAGATGCCAGTCTTGGACGGAGAAGGTGCTGCGAGGTACATCAAGAGTACAAATGGTAAGAACACCA
ACACACCCATCATCGCGGTGAGCGCGTACAGCGGGATGGATCCCAGCGAAACTAGCAATGTTTTCGATGCGTCCT
TGTCGAAGCCGCTGCAAAAGGCAGATTTGCTCAACGTATTTCGCCAATTGGGATTCAAGACTACGGCCAAGCAAG
GCATTTCGAATGCCAAAGTTGTTCCCGGCGCGTCTCAGCTCGCACAGCCCCCAATACTCTCTTCATGACCATTCG
ACTTCATGTGCACTGATTTATTATGACCTTCTCTTCTCGGCTATGCCCCGCATTCTTTCCTTGCAAACATATCCA
TGCATCTCGTATTCCTATCATTGTATTTGAGCATTGTTTACCATCATGTGCATTCTTCGTTCACCTTTCTCATCT
GTAGTTCTATGGTCGCTTGGTAGTGTTTCGCTATATATTTGTCCGCAACTCAAACCATGGCAGTTTTGGTGTAGA
A
Length 6076

Gene

Sequence id CopciAB_354947.T0
Sequence >CopciAB_354947.T0
GGAGTCTGTGGCCATCCTCACGACGATAACCTCTCATCCATGTCTTGCTGAACAGTTTCGGCCCCGTCGACGTCT
TTAACGACCATCACACCTCTTTTCTCCCCCGTCTCCCCCATTTTCCTGCGCTGGAGTCCTTTATCAACCCCTGGT
CGTCCTGAGTCCACCCCAGCGACCTCATGGCCATGTCAGAGCCAGGTGGGCATCGAAGGCAGCCACCAAGTCCCC
TGGTATTCGGCCCAGACACCGTGTTGTCCCCAATTCCCCTCCAGGCTCAGTCGAGCACAGCGAGCAGCCATGGTT
CAGGATCCAACACCGTCTCCATGCCCTTCGTCCGACGTCATGTAACCAGACGTCTCAAGGCCGCCAAAGCAGAGT
GCGACAAGGAGCTCCAACGAGTCACCAACAACGTCACCGCCTTCTTTGAAGAGCGCCTACGGGAAGGTGATCAGG
ACATCGACCGTGACCATCGAGAACGTCCAGCAGAAGGTCGGGACCGCGATTCCCAGCTTGGTGATCACGACCACC
TTCGAGAACCCTTCGTCTTTCAAACCGCGGAACTTGGGACGACCGCTCACAACGACGAGTATAGCTCAGATGGCG
GGTATGAGGCCGAGTCAGAGTTTAGTCGGCACAGTCGTCAACGTGGGTACCAGGATATTGACCATCCCAATGACC
AATCTCTTGCTCACTCCCGCTCTACATCTGCCCTGTCTACAGCATCAGTCCAGATGAGCCCCGGCTCGCAACGGC
GACAATCCGCCGCTCCCTGGGACAAACCAGTCAGCTCATCGGTCTCCTCCAGTGTGGTCGGGTCAAGCCCTGCCT
CTTCCACGATTTTGCTTCCAGAAGCAACCGTCGGGAGGAGGCAGAATACCGTTACACCAGCCACTACCTCGTGGT
CCTCCGGCGGCAGCTCTTCACGCCGCTTGTCGAGGAGCATTCATATCCCACCACGGCCAACCGCTTCCGGACAGA
GCTCTCGCTCAACCTCACGTTCTCGGTCACCATTGCCTCCCACCTCTTCTCATGCAAGTTTCTCGGAGCACGCTA
ATGCAGCGTTCAATCGCAGATCATCAAGACTTTTCGTCGACGATCCCGTAGACCCACTCATGGCCGCTCTCTACG
AGCTCATTGCTGTCGCTACAGATGTAACCGACATGCCAGTTGCACAGCTCATGAACAATCCCAAGATATGCGAAT
CCATTGTCCAACGAGTGCAGAACATTGGCAGAGCATGGGACGACCATCCAGACTGGCCCGGTCGTAACTGGTACG
TTCAAGTACTGCTCGCCGTCGCCAGCCTCAGCCGTGTCGTGGAGTGGTGGGAGGCCGAGAAACAGTTTTGGAATT
TTGACGACAATAACGACGAACACGATGAGCCGCTCATGTTTGTCATGAAACCTGCCGATGAGGACGTGTCCAACT
TGGATCTAGAGTTGGAAGGTTTCAGATTGGACGACAAGCCGCCCTCCCCGGGCCTATCCCGCAAGCCAACGGCAG
AGGCTCCATTCGTCGCCCCCGCTCCGGAGGGAGATGCTGGGTCCACCTCTTCCGAGAGGTTAACACCCAACCAGG
CCGTTTCTAATGCCGAATCAGCGCGCGTCCTCGCCACAGAGCGCTTGCGATTGCAAGCAGAGACGGCCCAGAATC
AAAACATCGTAATGGAACTGAGTTTGGATGGCGACCACTTTATCTGGGTAAATCATGCATGGAGAGTGGTTGTCG
GGTAAGTACGATCTCTTCAAGCATTTGCCATCACTCTGACCCGATTTGTGACCTGACAGGACGGATCCAGAAGGA
CTTTCAGGTACTCGCATTTCCAGTTTGCTGGCTCCTTCCGACTGGGGAGTTTTCAAAGAAGCTACAAACCGTCTT
CAAGAAGACGATTCACACACGGTCGAGGTCCGGTTCAAGTTGCAAATCGAGCCCACCGTACAGCAGGACCCTTCT
GCTGGGGTGTTATACCAGTTGATGGAAGGAAAAGGCATGCTGATGATCGACCGCGAGGATGGTCAACCGTCGCAT
ACCATGTGGGTGGTGCGTCCCATTGCCCCAGCCCGCTTTGAGCACGACACGGTTTCCATCAACCTAGAAGCGGAT
GACCTGGCGCCGGAACCAGCATCGACGATCAAACAAAGTTTCGTGGACCGCAGTTATACAGAACCAGCGACGCCC
TTTCCTTTCAACGAGCCCATCGTTACGGACAACATCCTTTGCCGCATCTGCGAATCTCAGATTCCCCAGTGGTAT
TTCGAGAAGCACAGCGAAACCTGCGCAGAAACACATAGACTGGAAGCCGAGATCATGGAGTGCAACGAATCAATC
CTGGAATTGCGAAATGCCATTCGGGATTTGTCCACCGCCATCGACCGCTCTTCCCCTACGGCTGCGCCTGAATAC
CGCGGAATGCCTGTATTTATCCCGTCTTCCTCGCCATTGATGTCGTCCCCTCTCCAGTTATTCAGGGCCAACAAG
TTACAGAGATTCAGCGTCAAGAAGATGCAACGACGCTTCTTGGACCAGGTCGACGAAATCCTGCAGACATGCCTG
GAAATTGCCATGCCCTCTCTGAAGGAGGAGGAGGCGGATGAACCGATCGAAAGACAGCGTCTGCTTTCTCCAACC
TCTGAACGGAAGATCACGCAAGTTCGCAATTGGGCAAAGCCAACGACCGAAGATGCCGCGTTAGGCCAGCTTCTT
CAGGATGCCGAGCGTATCATGCGCCAGAAGATCGACAGCGTTGTTCGCATGCAGAACACCATACGTTATGCAGAG
AAGATTTGGGCAGAGTGGGAAGAGAGGATCGAGAGCTACCTGGCCACGATCAATGAGTCAGGAAGTGAGAACGAC
TCCGCATCTGAACCCGAGAACGCGCCAGAATCGGTTCGCGACAGAAAAGATTCTGAGACAACAACCGTCGACGAT
CATTCCAGCACTACCTCAGAATACAACTTCGGCCGCGATACCTCATCCAAGGAACTCTCGCCTATGTCTTGTCTG
TCGCCCATCCCGTTCATCACATCTCCAACCGAGCCCCGCCCTCTCTCGCTAGCACCTGTCCCCGCTGCGAGTAAC
CAACAGCACATTTCCACCCCTATTCCCGTGCACCCTCCCACCATGACTCGGCAACAACAATTGTCAACACGTTCG
TCGACGCCATCCTCCGTTTCCTCTCCACTCGCACGGGCACCCATTGTTGCCGCTCCTTCTCCTGAAGATCCGCAG
CCTCCGGCATCCCTTGAAGATGCTACCTCCGCGACGGCCACTGCGCCAACCATCAAGACTCGCAAGTCCAACCAG
AGCCTACTTGAGCCCAAGTTTGTGGTTACACCACCAGCATCACCACAAGTCTCAGGCCGCGACTCGGCACCCAGT
GGTTCTGGCCTCACTCGCGAAGGCTCCACGCGCCGAGGACACCGTCGTCACTCTAATGCAAATATTCTTACAAGC
CCTCCACCGGCAGGACCATTGTCTCCCAGACAATCCGGGGCCATCCCCCTCCCTCGTACCAACCCTACATCCATC
AAAGACTTCGAAATCATCAAGCCTATCAGTAAAGGTGCCTTTGGATCTGTCTTTTTGGCCAAGAAGCGTGTCACT
GGAGACTACTACGCCATCAAAGTTTTGAAGAAGGCGGACATGATTGCGAAGAATCAAATCACTAACGTTAAGGCT
GAGCGAATGATCCTCATGAAGCAAGCAGAATCACCATTCGTCGCTAAGCTCTATTTCACCTTCCAGAGCAAGGAG
AACCTATACCTCGTCATGGAGTATCTCAATGGTGGTGACTGCGCTGCCTTGATCAAGTCCCTTGGATCCCTTCCG
GAGGAATGGGCCAAGAACTACGTGGCAGAAGTCGTCCTTGGATTGGAGTATCTTCACCAACGGGGTATCGTTCAT
CGGTGAGTGCGAAAAATGGGTTCGTTTCCACAAACATTAACTTAATGTTCTTCCAGTGATCTGAAGCCGGACAAT
CTCCTCATTGACCAGCATGGACACTTGAAACTCACTGATTTTGGTCTCAGCCGTATTGGTCTCTTGGGACGACAG
ACTCGAGACACACAGTTTGGACGGGCGCTCAGTCGATATGGTTCACGATCGCGACCTCCGTCGATGGATTCTGCG
TACTTCTCTTCTCCCCTCTTCCTCAACGATCCATCTGGTGGTTCGTATTTTACCCAGAGGCCAACTTCGGTGTCC
CGTGTTGGAAACAGTCCTTACCTACCCCCAGCAGATGATCCTAGCGAATCCAGCGGTTCCGAGTCTATTGCGAAC
TTCCATGCCCGTCGCAATGGAAGGATGTCGGACAGTCCCCTGCAGTCGTTCGCCACCGAGTTAACGACTGACCTT
CGTTCTCATTCCAGCTCCAATGCGAGTGGCACAACGCCTCCCGGAGAACAGAAATTTGTAGGCACGCCTGATTAC
TTGGCACCCGAAACTATACTTGGTTTGCGAGGAGACGATGCCGCTGTCGATTGGGTAAGTCAGGATCATTGTCGA
AAATGGATAAATCGGGAGTAACTTACCGATTCATTTACAGTGGGCTCTGGGCGTTATCACCTACGAATTCCTTTA
CGGCATACCTCCTTTCCATGCCGATAGCCCAGAGAAGGTATTCGAGAACATCCTATCTGGACATATCGAGTGGCA
TGAAGAATGGGTAGAGTATTCTCCAGAGGCTCGTGACTTCATGCAGTCGTTGATGAACGTGGACCCCAACGCTCG
ACTTGGCTCCGGCGGCGCAGACGAGGTCAAGAGCCATCCATGGTTTGAAGGCATTGAGTGGGACAAGGTCACGAC
TACAGAAGCCGCTTTCATTCCACAGGTCACCGACCCAGAGTCGACTGATTATTTCGATCCTCGCGGGGCGATCCC
CCAACTTTTCGGCGATGACGAAGACCTGGTCGCGGTGACCTCGAGATCGCACACAGGGAGCCCTGCAAACATGCC
CCCGCCTAGCGCGCCTGTCCCAATTGCAGGCAAAGAAACTCCCAGTTCTGCTGGTAGTGACGATTTCGGATCCTT
TAGCTTCAAAAACCTTCCTGTATTGAAGCAGGCGAACGACGACGTTATCCGCAAACTGAAGACCGATCAAATGGC
GCCAATGACCCATACCCTCACTGAACCAGCGAGCTATCACCACCAACGCAAGCGCAGCATGTCTCAACGCATTAA
GAAACCACCCAATGTGGTGACGAACATGGATCCCAAGTTAATGTCGACGAATCCTCCCTCACCTGCTACCTCAAC
ATCGTCCATTGCATCTTCTCCCTCCCGCGCGAGTCTTCCTCCCCCGACTCCTGGAAGTGGACTCAGCGGTACCCA
TTCGAGGAAGCCCTCAGAGTATGGTGCAGTCGAGCGATTTAAACTCAACCACATGGAAGGCGATAGGCGCAACTC
TATGCCAAGTCGTCTCCGTACGGCTTCGGTATCAAGCGCAGGGGATGGATCCGGGTCTGAAACCTGGAATTCATC
TGCTGGGTACGGCAGCCAACATGAGACTGCCAATACCCCTGCATCCTCGGTCCATTCTGTGGACCTGAGAAAGGC
CCCGGATCCTAGTGATCGTGTAGTGACTTGCCTTCTCGCAGAGGACAATCCGATTACTGCCAAAATCATAGAAAC
TTTGCTTGTCCGGCTAGGGTGCAGGTGCATCGTGGTCTCTGACGGATCTGAGGCCATTAGCGTTGCCATGGGTGA
CATCAGTACGTCTCTTGTACCCCACTTCAGCGACGCCTGTACTGACCTTGTGATTAGAATTCGATTGTATCCTGA
TGGATCTGCAGATGCCAGTCTGTAAGTAGCTCCTGGGTGGTCACTGAAGTCTTACACTGACGTGCGTTCTAGTGG
ACGGAGAAGGTGCTGCGAGGTACATCAAGAGTACAAATGGTAAGAACACCAACACACCCATCATCGCGGTGAGCG
CGTACAGCGGGATGGATCCCAGCGAAACTAGCAATGTTTTCGATGCGTCCTTGTCGAAGCCGCTGCAAAAGGCAG
ATTTGCTCAGTACGTCGTTTCCTTCCGGTTTCCACTGATTATTCTAACGTAAATTCAGACGTATTTCGCCAATTG
GGATTCAAGACTACGGCCAAGCAAGGCATTTCGAATGCCAAAGTTGTTCCCGGCGCGTCTCAGCTCGCACAGCCC
CCAATACTCTCTTCATGACCATTCGACTTCATGTGCACTGATTTATTATGACCTTCTCTTCTCGGCTATGCCCCG
CATTCTTTCCTTGCAAACATATCCATGCATCTCGTATTCCTATCATTGTATTTGAGCATTGTTTACCATCATGTG
CATTCTTCGTTCACCTTTCTCATCTGTAGTTCTATGGTCGCTTGGTAGTGTTTCGCTATATATTTGTCCGCAACT
CAAACCATGGCAGTTTTGGTGTAGAA
Length 6401