CopciAB_485840
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_485840 Strain Coprinopsis cinerea Okayama 7
Standard name POM1 Synonyms 485840
Uniprot id Functional description Protein tyrosine kinase
Location scaffold_2:2209998..2216128 Strand -
Gene length (nt) 6131 Transcript length (nt) 5762
CDS length (nt) 5412 Protein length (aa) 1803

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7267975 63.5 0 2187
Hypsizygus marmoreus strain 51987-8 Hypma_RDB21185 62 0 2167
Pleurotus eryngii ATCC 90797 Pleery1_1390251 61.9 0 1997
Lentinula edodes NBRC 111202 Lenedo1_1159288 58 0 1908
Flammulina velutipes Flave_chr09AA00032 59.6 0 1898
Grifola frondosa Grifr_OBZ75716 57 0 1845
Ganoderma sp. 10597 SS1 v1.0 Gansp1_137999 54.5 0 1763
Schizophyllum commune H4-8 Schco3_2606891 70.6 0 1174
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_199920 78.4 3.468E-300 975
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_53474 78.4 3.614E-300 975
Pleurotus ostreatus PC15 PleosPC15_2_1091582 53.4 9.949E-296 962
Pleurotus ostreatus PC9 PleosPC9_1_81864 81.6 8.994E-269 882
Lentinula edodes B17 Lened_B_1_1_14768 80.3 4.718E-258 850
Auricularia subglabra Aurde3_1_54337 71.5 1.647E-203 687

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 317.8176 39.589 22.8567
oidia 183.7066 13.3279 7.6949
vegetative_mycelium 168.6472 32.189 18.5843
primordia 241.975 13.7168 7.9194
hyphal_knot 211.2164 12.2518 7.0736
young_fruiting_body 474.0235 20.8082 12.0136
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 241.6937 38.4078 22.1747
Wheat bran 86.726 39.1142 22.5826
Horse manure 234.6853 85.9681 49.6337
Oak leaves 277.3704 49.8714 28.7933
Hay 174.065 42.4458 24.5061
Corn stalk 240.137 6.0032 3.466
Pectine 253.053 8.2692 4.7742
Microcrystalline cellulose 218.5514 56.0498 32.3604
Xylose 228.1246 38.2779 22.0998
Cellobiose 227.8544 48.5232 28.0149
Lignin 256.8755 47.2763 27.295
Apple peels 287.9942 39.5389 22.8278
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 202.2797 6.6224 3.8234
Bsubtilis 193.7074 13.3713 7.7199
Ecoli 172.257 5.3893 3.1115
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 174.6539 5.991 3.4589
BS 4h 103.6825 9.351 5.3988
BS 8h 81.9561 4.7187 2.7243
BS 12h 70.3622 12.8411 7.4138
Oidia 0 h 69.0862 18.2285 10.5242
Oidia 18 h 104.5095 20.8221 12.0216
Sclerotia 105.3791 17.0149 9.8236
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 63.3481 16.701 9.6423
DM 36h 84.1177 6.9146 3.9922
DM 60h 84.902 3.8041 2.1963
DM 84h 78.0164 12.1057 6.9892
DM 108h 84.9092 10.7496 6.2063
DM 132h 89.9713 9.3144 5.3777
DM 156hAE 120.5724 1.123 0.6484
ELI1hAE 96.5159 5.9795 3.4523
ELI2hAE 106.6953 6.9502 4.0127
LI2hAE 108.9405 7.0135 4.0493
LI6hAE 116.737 5.8231 3.362
LI12hAE 98.3556 2.8036 1.6187
LI18hAE 103.7085 5.196 2.9999
LI 24hAE 116.8661 14.592 8.4247
DM 156hAM 84.7109 7.9976 4.6174
ELI1hAM 84.3496 5.5149 3.184
ELI2hAM 71.1919 11.384 6.5725
LI2hAM 71.8291 6.3152 3.6461
LI6hAM 101.0594 3.4431 1.9879
LI12hAM 90.5167 14.4154 8.3227
LI18hAM 101.2547 6.4449 3.7209
LI 24hAM 128.3149 6.5977 3.8092
LI 24hHK 90.9134 11.2748 6.5095
L/D 6h 130.4352 10.2374 5.9106
L/D 12h 116.6908 5.6619 3.2689
L/D 18h 134.0038 11.2057 6.4696
L/D 24h 154.904 0.6747 0.3896
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 96.0134 13.9146 8.0336
Hyphal knots 129.7775 13.3231 7.6921
Primordium 1 139.5049 24.4309 14.1052
Primordium 2 115.6934 4.7592 2.7477
Young Fruiting body cap 259.2015 56.2782 32.4922
Younf fruiting body gill 251.9125 31.3497 18.0998
Young fruiting body stipe 380.9841 97.8791 56.5105
Mature fruiting body cap_gill 182.2656 43.1244 24.8979
Mature fruiting body stipe 294.9045 22.4749 12.9759
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 236.5598 32.5878 18.8146
NH4NO3 210.6234 3.5751 2.0641
Proline 189.9847 33.1826 19.158
Tryptophan 199.5499 19.2681 11.1245
Isoleucin 195.0683 4.3888 2.5339
Arginine 215.5505 6.0369 3.4854
Metionine 171.9252 11.7771 6.7995
NaNO3 151.5927 2.9162 1.6837
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 236.5598 32.5878 18.8146
Citrus peel 145.5737 18.1728 10.4921
Poplar leaves 257.717 27.6161 15.9442
Typha leaves 182.1045 32.0966 18.531
Overwintered Salix leaves 197.9278 33.5716 19.3826
Reed flowering 163.5654 15.1688 8.7577
Tigernut 119.738 17.6259 10.1763
Energy cane 211.2371 33.8981 19.5711
Guar gum 215.8286 75.9585 43.8546
Apple peels 170.4327 23.071 13.32
Cellobiose 212.4625 6.6721 3.8521
Corn stalk 184.0944 27.7179 16.003
Horse manure 220.9773 12.23 7.061
Lignin 167.5062 84.2242 48.6269
Microcrystalline cellulose 203.3176 35.0087 20.2123
Oak leaves 184.241 46.1976 26.6722
Pectin esterified 96.049 32.1423 18.5574
Poplar sawdust 202.5329 54.7082 31.5858
Wheat bran 101.8228 24.9454 14.4022
Chlamydomonas reinhardtii 243.7082 20.419 11.7889
Vertatryl alcohol 149.9825 22.0003 12.7019
Furfural 102.4843 5.2631 3.0387
Autoclaved mycelium 256.6256 28.6201 16.5238
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 144.5777 10.9467 6.3201
Ribose 195.1448 3.5822 2.0682
Mannose 177.8685 6.1751 4.3665
Fructose 189.5854 3.4013 1.9638
Arabinose 200.5554 20.0649 11.5845
Xylose 193.8576 13.3749 7.722
Galacturonic acid 196.6991 13.4854 7.7858
Rhamnogalacturonan 189.3996 9.5426 5.5094
Pectin esterified 196.2699 8.6154 4.9741
Polygalacturonic acid 188.8746 15.7264 9.0797
Sodium acetate 196.8578 11.2135 6.4741
No nitrogen 179.671 24.8149 14.3269
BSA 211.4355 9.0599 5.2307
Glutamine 210.3681 12.1908 7.0384
No phosphate 162.4573 12.3084 7.1063
No carbon 211.704 2.8295 2.0007
No sulphur 197.5664 35.9578 20.7602
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 236.5598 32.5878 18.8146
Amylose 190.3434 8.6248 4.9795
Fucose 195.2585 10.4587 6.0383
Galactose 254.1369 16.0111 9.244
Lactose 251.1587 22.7321 13.1244
Maltose 267.8361 44.3353 25.597
Mannitol 315.0603 9.1854 5.3032
Rhamnose 255.8742 36.8671 21.2852
Sorbitol 207.9185 17.4765 10.09
Trehalose 197.7129 49.1842 28.3965
Glycerol 232.5793 59.6769 34.4545
Glucuronic acid 231.0563 15.2896 8.8274
Arabinan 156.5011 30.4267 17.5669
Galactan 202.1084 18.8525 10.8845
Galactomannan 171.7966 37.1366 21.4408
Glucan 240.2843 38.8565 22.4338
Xylan 178.0616 27.3457 15.788
Xyloglucan 187.4602 27.393 15.8153
Arabinogalactan 261.4147 39.9313 23.0544
Pectin 210.1301 114.1159 65.8848
Rhamnogalacturonan 178.7 46.1278 26.6319
Polygalacturonic acid 255.2373 24.0022 13.8577
Mannan 203.2803 10.359 5.9808
Amylopectin 154.5493 33.6303 19.4165
Inulin 256.6496 24.4216 14.0998
BSA 210.3113 23.9321 13.8172
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 84.902 3.8041 2.1963
2h WAT 76.5184 11.4602 6.6165
4h WAT 95.7996 3.3296 1.9224
8h WAT 90.9286 3.2602 1.8823
16h WAT 85.886 2.7097 1.5645
24h WAT 97.8834 3.676 2.1223
WAT hyphal knot -30h 90.1947 7.3625 4.2507
WAT hyphal knot -22h 96.1327 10.1226 5.8443
WAT hyphal knot -15h 101.3262 2.2626 1.3063
WAT hyphal knot -7.5h 98.2636 7.6047 4.3906
WAT hyphal knot 102.4677 5.8579 3.3821
WAT hyphal knot +7.5h 87.2698 17.9286 10.3511
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 180.3243 70.6238 40.7747
Straw 3h 125.57 9.8761 5.702
Straw 6h 126.2408 17.8084 10.2817
Straw 12h 183.8521 18.755 10.8282
Straw 24h 156.0728 47.939 27.6776
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 66.9958 10.287 5.9392
Frost (-20C, 30min) 75.689 7.8377 4.5251
Heat shock (47C, 2h) 188.4557 17.7775 10.2638
High CO2 80.1034 8.7843 5.0716
Drought (4% agar, 12h) 63.5183 20.9135 12.0744
Oxidative (1mM H2O2, 3h) 79.8914 3.9996 2.3092
Acidic (pH4, 3h) 56.1076 7.3266 4.23
Alkaline (pH9, 3h) 56.4571 7.4121 4.2794
Osmotic (sorbitol 2h) 56.0981 7.5508 4.3594
CongoRed (3h) 61.8119 5.8129 3.3561
Cobalt chloride control 102.7886 1.9726 1.1389
Cobalt chloride 2mM 98.8561 7.9583 4.5947
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 63.8574 8.018 4.6292
Cold stimulation 51.3767 15.8569 9.155
Scratched surface 91.3898 5.5765 3.2196
Ca2+, 200mM, 24h 46.4594 14.8649 8.5823
Cu2+, 2mM, 6h 89.1409 24.0695 13.8965
Voriconazole 79.2252 7.4035 4.2744
Trichoderma interaction, early 84.5666 10.5352 6.0825
Trichoderma interaction 60h 52.2009 19.1464 11.0542
Cobalt chloride 2mM repeat 101.8406 10.3218 5.9593
Hypoxia 91.0475 24.8338 14.3378
Hypoxia control 73.6795 7.1165 4.1087
Protoplastation control 91.4593 6.1681 4.3615
Protoplastation 3.5h 110.1146 3.2875 2.3246
Protoplastation 1.5h 134.3181 13.4212 9.4902

General data

Systematic name POM1
Protein id CopciAB_485840.T0
Description Protein tyrosine kinase

Annotation summary

0 500 1000 1500 1803

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd14210 PKc_DYRK - 1387 1697
Pfam PF00069 Protein kinase domain IPR000719 1401 1697

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR000719 Protein kinase domain
IPR042521 Dual specificity tyrosine-phosphorylation-regulated kinase
IPR008271 Serine/threonine-protein kinase, active site
IPR011009 Protein kinase-like domain superfamily
IPR017441 Protein kinase, ATP binding site

GO

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

KEGG

KEGG Orthology
K18669

EggNOG

COG category Description
T Protein tyrosine kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_485840 across fungi.

Arrow shows the origin of gene family containing CopciAB_485840.

Protein

Sequence id CopciAB_485840.T0
Sequence >CopciAB_485840.T0
MSASPDPPQQYKARPAALAIHDDEGTQPSDGDDQIDNCQHQHLLQPLTINVSHQDNDDSNHSRSTSVTSSLDPYY
FGLAESPEHNPNQLSITPDHPPPNEPVTPARNPASIDRRGLVGVGELATPRWTRDPSPDPHLDDDVPPLPDRPED
DAPDSPWTIEAIDGELSDSDEVKIPELPPPARPLRTRPSIADESGGEEILYPRNVIQSVPDHPPPTVVPPLDDHI
PKQPRTPASADPPISSPPSAFSSSTRKARKRTSDEFELDQTGALVSKRGSLKEKSRDDARASIRKHRSLNVSTSS
STSPRDSKTRERKRESIGLGLAISSSVVSPRLAERHSRQASSSSVSSPSSEPAPARRVHTTDFSHLPPSPSSSSI
QQFLRQTIPKEPPSLHSPPNVAHSLLRGTQEGWSGLDDEATAEALRKLDGLTGKTARSRASMTSLGRGSSASRPG
TPAKSSQQWEGISGSESVRSKRISTFIREGGKEPRSTPNPSEGALDSDYVAVSVSGAISSDEPHIIQDKTPKKQS
RLSFTPKRGSTSSTTYGSTPTTSSRDSAGTATTNATSVSATSGGRVSSTKARRNSAGSDVSSVHSNDLTLLKDRA
AHLAATGELIDDAHVPPVPPLPKDLSSYRSPPTTSSTQTFRSIPSVEDPDIRISQDSDIERAFSSDVSAGKGPRV
GSSATRQSQANPNTSEAVPIVKTPSKKWSFSSALNLKLASSPSSSSTKSSFPLSPRSVGFGHGLRKSSSKEQTSS
ASSSKAPWSPEQPDAMASAGSLASLSSLGSVRNHSLHPDTSKTPDKNRPGTGSSVSTAGLSAPSGPLSPSASIKR
AQSKRLTPSSIPFFRRSSSQSMQVPSSSGSGHPSSPPPSMPTKASRSKASTPPHDISMTSVSTPGKKASVLSLGL
PSLLKSSSRRSLHSDAKEAAKELQKAKEAARESDREKAKAEKAEKERQKKEDKDRSESRISVLISRKRGKTLSAT
DPRKPKSPVTLPPMQISAIEPVTAQRVAKLKSSSSQSTTSSINSRTSSSSSRVTSQTASSMQKISDSSLRSRTQL
PTIAGSPSVGTNGTNSTQNTIREKDHSSLLSSSISGLPKETPTKIPRISSRTSAAPSPSGKSTSTFASRRTSMNP
AASSSTNPSPISLSTNEFGVIDNEDGATPRNLARQSSIRASPSTSASRPARQSSANTSSTSSSALRKSTRESVSF
IGLRKASTSSVNSTSTPGTSGTTSESSGSHRFSALSPSKGLKLLGPKSSRSAASSSQNLRQNMSSPSSSRQSLST
PSPVPSTVDEDELLGDEEMMNYIRRQQAKKKAAGATQEELEEMLKFPEPTPPVPPASPHHVLKSSQAQYLSDYER
KEILDYPSVYFIGAKSRKKMATPDITTNNYSYDDERGDYQVVLGDHLAYRYEVVDTLGKGSFGQVLNCRDHCTGE
SVAVKIIRNKKRFHHQALVEIKILDNLRKWDADEKHHVLKMTEHFYFRNHLCIATELLSINLYELIKANGFVGFT
TALIRRFTTQMLMSLSLMRHHRIVHCDLKPENVLLRHPAKSAIKVIDFGSSCLEHEKIYTYIQSRFYRSPEVILG
MNYHMAIDMWSLGCILAELYTGFPIFPGENEQEQLSCIMEVLGVPDKEYINRSSRKKLFFDTNGAPRPVVNSKGR
RRRPGSKTLAQVLRCNDEEFIDFIAKCLVWDPERRMKPQAAMRHPFVTAGKRKAQQQAAARATPSSSSLSSHRSK
HITETPKKSMIGAPTPLTARTPRSSHTSGVPNTPGSSSHTSSFGSSTRSYRTSQGHSLSSSVHSSRVMNGYSSTA
STK
Length 1803

Coding

Sequence id CopciAB_485840.T0
Sequence >CopciAB_485840.T0
ATGTCTGCGTCGCCCGACCCTCCCCAACAATACAAGGCACGTCCAGCCGCCCTCGCCATCCACGACGACGAAGGC
ACGCAACCCAGCGACGGCGACGACCAAATCGACAATTGCCAGCACCAGCACCTCCTGCAACCTCTCACCATAAAC
GTATCACACCAAGACAACGACGACAGCAACCATTCGCGCTCAACATCAGTCACGTCGTCGCTCGATCCTTACTAC
TTTGGTCTTGCAGAGTCTCCTGAACACAACCCCAACCAGCTCAGCATCACCCCAGATCATCCACCACCCAACGAA
CCAGTCACCCCTGCCCGAAATCCCGCCTCAATCGACAGACGTGGCCTGGTCGGCGTTGGCGAACTAGCCACGCCA
CGCTGGACTAGGGATCCCAGCCCAGACCCACACCTTGATGATGACGTTCCACCTCTCCCTGATCGCCCAGAGGAT
GACGCCCCAGACAGTCCCTGGACAATCGAAGCAATAGACGGTGAGCTCTCAGACAGCGACGAGGTAAAAATTCCG
GAGCTACCACCACCGGCTCGACCTCTTCGCACCAGGCCATCAATTGCAGACGAGAGTGGTGGCGAGGAAATCCTT
TATCCGCGAAACGTGATTCAGTCCGTCCCCGACCACCCGCCGCCCACCGTGGTCCCTCCTCTCGACGACCATATC
CCCAAACAGCCGCGAACTCCCGCGTCGGCGGACCCTCCCATCAGTTCACCCCCAAGCGCCTTCTCGTCTTCTACT
CGGAAGGCGCGGAAGCGAACCTCTGATGAATTTGAACTCGACCAAACAGGTGCTCTTGTTTCCAAGCGTGGCTCA
CTCAAGGAAAAGTCAAGAGATGACGCGAGAGCAAGTATTCGCAAGCATCGTAGTCTCAATGTCAGCACCTCGTCG
TCTACTTCCCCACGCGACAGCAAAACAAGGGAGCGGAAGAGAGAGTCTATTGGACTCGGACTTGCCATCAGCAGC
AGCGTCGTATCTCCTAGGCTAGCTGAACGCCATTCACGCCAGGCATCCTCAAGCTCTGTATCGTCGCCTTCTTCT
GAACCTGCACCGGCAAGGCGGGTCCATACCACCGATTTTTCCCACCTACCACCATCTCCTTCGTCCTCTTCCATT
CAACAATTCCTTCGCCAAACAATCCCAAAGGAGCCGCCGTCACTCCATTCGCCCCCCAACGTCGCTCATTCACTG
CTTCGTGGCACTCAAGAGGGCTGGTCCGGTCTTGACGATGAAGCAACAGCAGAAGCCTTACGCAAATTGGACGGT
CTCACTGGGAAGACGGCCCGCAGTCGAGCTAGCATGACCAGCCTTGGTCGTGGTTCAAGTGCCAGTCGCCCCGGT
ACACCAGCCAAGAGTTCGCAACAATGGGAAGGCATCAGTGGTTCCGAGTCTGTCAGATCAAAGCGAATCAGCACT
TTCATTAGGGAAGGAGGGAAGGAACCCCGGTCGACCCCTAATCCATCCGAAGGCGCTCTGGATTCAGATTATGTT
GCCGTGTCTGTGTCCGGCGCAATCAGCAGCGACGAGCCTCATATTATCCAGGACAAGACCCCTAAGAAGCAATCG
AGACTGAGCTTCACTCCAAAACGAGGTTCCACTTCTTCAACCACATATGGAAGTACCCCGACCACCAGCTCGCGA
GATTCTGCTGGCACGGCTACCACTAACGCGACCTCTGTTTCTGCGACATCCGGAGGTCGTGTCTCCTCCACCAAA
GCTAGGAGAAATAGTGCTGGTAGCGACGTGTCCAGCGTGCATTCCAATGATCTGACGCTGCTCAAAGACCGCGCC
GCACATCTGGCAGCTACTGGAGAGTTGATTGATGACGCCCATGTTCCTCCCGTGCCCCCACTTCCAAAAGACTTG
TCGTCTTATCGATCTCCCCCAACCACTTCGTCTACCCAGACCTTCCGGTCGATCCCCTCCGTCGAGGACCCAGAC
ATCCGGATCAGTCAAGATAGCGACATCGAGAGAGCGTTTTCCTCGGACGTTTCCGCTGGTAAAGGTCCTCGGGTT
GGCTCATCCGCAACTCGACAGAGCCAAGCCAACCCTAACACTTCAGAGGCCGTGCCGATTGTAAAGACCCCATCG
AAGAAGTGGAGTTTCTCGAGCGCCCTCAACCTCAAGCTGGCCAGTTCCCCATCTTCTTCGAGCACAAAGTCGTCG
TTCCCTTTGAGCCCCCGTTCTGTCGGCTTCGGCCACGGCTTGCGCAAATCCTCTTCCAAGGAACAAACGTCGTCG
GCATCGTCATCGAAGGCCCCTTGGTCTCCAGAGCAACCAGACGCAATGGCCTCAGCAGGTTCGCTCGCGTCGCTG
TCATCGTTGGGTTCAGTTCGTAATCACTCCCTCCATCCAGACACCTCCAAGACGCCCGACAAGAACCGTCCGGGT
ACGGGTTCGAGCGTCAGCACAGCCGGACTGTCTGCCCCTTCTGGACCGTTAAGCCCCAGTGCCTCGATCAAACGT
GCACAGTCCAAACGACTGACACCGTCATCCATTCCTTTCTTCCGACGATCGTCTTCGCAATCCATGCAAGTCCCT
TCTTCCAGTGGAAGCGGACATCCATCGTCGCCGCCTCCTAGTATGCCCACCAAGGCATCACGCTCCAAGGCAAGC
ACGCCCCCTCACGACATCAGCATGACCTCTGTTTCCACACCGGGAAAGAAAGCTTCCGTATTGAGTCTCGGACTC
CCCTCTCTCCTCAAGTCCAGTTCGCGGAGAAGCCTCCATTCCGACGCAAAGGAAGCCGCCAAAGAGCTCCAAAAG
GCCAAAGAGGCAGCTCGAGAAAGTGACAGGGAAAAGGCAAAGGCGGAGAAGGCTGAAAAGGAAAGACAAAAGAAG
GAAGACAAAGACCGGAGTGAAAGCCGCATTTCTGTTTTAATTAGCAGGAAGCGTGGAAAGACTCTGTCCGCGACA
GATCCTCGAAAGCCCAAGTCGCCAGTTACTCTGCCACCAATGCAGATATCCGCCATCGAGCCTGTGACAGCGCAA
AGGGTGGCCAAACTCAAGTCCAGTTCGTCCCAATCCACCACGTCCTCGATCAATAGCCGCACCTCTTCCTCTTCC
TCTCGCGTCACCTCCCAAACCGCGAGCTCGATGCAGAAGATCTCCGACAGTTCTCTCCGAAGTCGCACTCAACTC
CCGACGATTGCCGGCTCACCATCGGTTGGAACGAATGGCACAAACAGCACTCAGAACACCATTCGTGAGAAAGAC
CACAGCTCCTTGTTGTCGAGTTCGATTTCTGGATTACCCAAAGAAACGCCCACAAAGATTCCGCGCATTTCGAGT
CGAACGTCGGCAGCTCCAAGTCCATCGGGCAAGTCAACCTCAACCTTTGCCAGCCGACGCACCAGCATGAACCCA
GCTGCAAGTTCTTCAACAAACCCATCTCCGATTTCTCTCTCAACCAACGAGTTTGGAGTTATCGACAACGAAGAT
GGTGCCACTCCCAGGAATCTTGCAAGGCAATCTTCGATCCGTGCCTCCCCGTCGACTTCGGCGTCAAGGCCTGCC
CGACAATCTTCCGCTAACACGAGCTCTACATCCAGCAGTGCTTTGCGCAAGAGTACTCGCGAGTCTGTTTCGTTT
ATTGGTTTGAGGAAAGCGTCAACAAGTTCTGTCAATTCGACATCAACACCTGGTACTTCCGGGACCACGTCAGAA
TCGTCAGGTTCGCATCGTTTCTCAGCGCTATCGCCTTCCAAGGGCTTGAAGCTATTGGGCCCCAAGTCGTCGCGT
TCGGCAGCGTCTTCGTCTCAGAATCTTCGTCAGAATATGAGCTCTCCCTCGTCCAGTCGACAATCCTTGTCAACA
CCTTCCCCTGTTCCAAGCACTGTGGATGAGGACGAACTCCTTGGAGACGAGGAAATGATGAACTATATTCGCCGT
CAACAGGCCAAGAAGAAGGCTGCCGGTGCGACACAGGAGGAACTAGAGGAGATGCTCAAGTTCCCCGAGCCCACC
CCGCCTGTCCCTCCCGCTTCTCCTCATCACGTCCTCAAAAGCTCCCAGGCCCAATATCTTTCCGACTACGAGAGG
AAGGAAATCCTCGACTATCCTTCAGTATACTTTATCGGTGCAAAGAGCAGAAAGAAGATGGCTACTCCTGACATC
ACCACTAATAATTACAGCTATGACGACGAACGTGGGGACTACCAAGTTGTGCTTGGTGATCATCTCGCATATAGA
TACGAAGTTGTTGACACCCTCGGCAAGGGCTCTTTTGGCCAAGTTCTCAACTGCCGTGATCACTGCACTGGAGAG
TCAGTGGCGGTCAAGATCATTCGCAACAAGAAGAGGTTCCACCACCAAGCCTTGGTTGAAATCAAGATCTTGGAC
AATCTGCGGAAATGGGATGCCGACGAGAAGCACCATGTCTTGAAGATGACTGAACATTTCTACTTCCGCAATCAC
CTTTGCATTGCGACGGAATTGCTCAGTATCAACCTTTACGAACTCATCAAAGCCAACGGTTTTGTCGGCTTCACC
ACCGCACTCATTCGCAGGTTCACGACCCAAATGCTCATGTCTTTATCCCTGATGAGGCACCATCGCATCGTCCAT
TGTGACTTGAAGCCAGAGAATGTGCTCTTGCGGCATCCTGCGAAGAGTGCTATCAAAGTTATCGATTTTGGAAGT
AGTTGCCTCGAACACGAGAAGATCTATACTTACATCCAGAGTCGTTTCTACCGCTCCCCTGAAGTTATCCTCGGC
ATGAACTACCATATGGCTATTGACATGTGGAGTCTGGGCTGCATCTTAGCCGAGCTTTACACTGGCTTCCCTATC
TTCCCCGGTGAAAACGAGCAGGAGCAGTTGTCCTGCATTATGGAGGTTCTTGGTGTTCCCGATAAGGAATACATC
AATCGCAGTTCCAGGAAGAAGCTCTTCTTTGACACAAACGGTGCTCCAAGGCCTGTTGTCAACTCGAAGGGTCGC
CGTAGACGGCCAGGCTCCAAGACGCTCGCCCAAGTTCTCCGTTGCAATGACGAGGAATTCATCGACTTCATCGCC
AAATGCCTGGTCTGGGATCCCGAACGACGAATGAAGCCACAAGCCGCGATGCGTCACCCATTCGTTACTGCTGGA
AAGCGAAAGGCGCAACAGCAGGCGGCCGCTCGGGCTACACCCTCGTCATCCAGTCTCTCGAGCCATCGTAGCAAG
CATATCACCGAGACACCCAAGAAGTCGATGATCGGTGCACCCACTCCTTTGACTGCTCGAACGCCCCGTTCCTCT
CATACCAGCGGCGTTCCAAACACTCCCGGTTCAAGCTCACATACTTCCTCTTTCGGCTCCTCCACTCGGTCTTAT
CGCACTTCTCAGGGACACAGTCTTTCTTCATCGGTTCATTCCAGCCGTGTAATGAATGGATACTCTTCAACAGCA
TCAACCAAGTAG
Length 5412

Transcript

Sequence id CopciAB_485840.T0
Sequence >CopciAB_485840.T0
GAAAGCCGTTGGAGGTTTGCTGAATGTCTGCGTCGCCCGACCCTCCCCAACAATACAAGGCACGTCCAGCCGCCC
TCGCCATCCACGACGACGAAGGCACGCAACCCAGCGACGGCGACGACCAAATCGACAATTGCCAGCACCAGCACC
TCCTGCAACCTCTCACCATAAACGTATCACACCAAGACAACGACGACAGCAACCATTCGCGCTCAACATCAGTCA
CGTCGTCGCTCGATCCTTACTACTTTGGTCTTGCAGAGTCTCCTGAACACAACCCCAACCAGCTCAGCATCACCC
CAGATCATCCACCACCCAACGAACCAGTCACCCCTGCCCGAAATCCCGCCTCAATCGACAGACGTGGCCTGGTCG
GCGTTGGCGAACTAGCCACGCCACGCTGGACTAGGGATCCCAGCCCAGACCCACACCTTGATGATGACGTTCCAC
CTCTCCCTGATCGCCCAGAGGATGACGCCCCAGACAGTCCCTGGACAATCGAAGCAATAGACGGTGAGCTCTCAG
ACAGCGACGAGGTAAAAATTCCGGAGCTACCACCACCGGCTCGACCTCTTCGCACCAGGCCATCAATTGCAGACG
AGAGTGGTGGCGAGGAAATCCTTTATCCGCGAAACGTGATTCAGTCCGTCCCCGACCACCCGCCGCCCACCGTGG
TCCCTCCTCTCGACGACCATATCCCCAAACAGCCGCGAACTCCCGCGTCGGCGGACCCTCCCATCAGTTCACCCC
CAAGCGCCTTCTCGTCTTCTACTCGGAAGGCGCGGAAGCGAACCTCTGATGAATTTGAACTCGACCAAACAGGTG
CTCTTGTTTCCAAGCGTGGCTCACTCAAGGAAAAGTCAAGAGATGACGCGAGAGCAAGTATTCGCAAGCATCGTA
GTCTCAATGTCAGCACCTCGTCGTCTACTTCCCCACGCGACAGCAAAACAAGGGAGCGGAAGAGAGAGTCTATTG
GACTCGGACTTGCCATCAGCAGCAGCGTCGTATCTCCTAGGCTAGCTGAACGCCATTCACGCCAGGCATCCTCAA
GCTCTGTATCGTCGCCTTCTTCTGAACCTGCACCGGCAAGGCGGGTCCATACCACCGATTTTTCCCACCTACCAC
CATCTCCTTCGTCCTCTTCCATTCAACAATTCCTTCGCCAAACAATCCCAAAGGAGCCGCCGTCACTCCATTCGC
CCCCCAACGTCGCTCATTCACTGCTTCGTGGCACTCAAGAGGGCTGGTCCGGTCTTGACGATGAAGCAACAGCAG
AAGCCTTACGCAAATTGGACGGTCTCACTGGGAAGACGGCCCGCAGTCGAGCTAGCATGACCAGCCTTGGTCGTG
GTTCAAGTGCCAGTCGCCCCGGTACACCAGCCAAGAGTTCGCAACAATGGGAAGGCATCAGTGGTTCCGAGTCTG
TCAGATCAAAGCGAATCAGCACTTTCATTAGGGAAGGAGGGAAGGAACCCCGGTCGACCCCTAATCCATCCGAAG
GCGCTCTGGATTCAGATTATGTTGCCGTGTCTGTGTCCGGCGCAATCAGCAGCGACGAGCCTCATATTATCCAGG
ACAAGACCCCTAAGAAGCAATCGAGACTGAGCTTCACTCCAAAACGAGGTTCCACTTCTTCAACCACATATGGAA
GTACCCCGACCACCAGCTCGCGAGATTCTGCTGGCACGGCTACCACTAACGCGACCTCTGTTTCTGCGACATCCG
GAGGTCGTGTCTCCTCCACCAAAGCTAGGAGAAATAGTGCTGGTAGCGACGTGTCCAGCGTGCATTCCAATGATC
TGACGCTGCTCAAAGACCGCGCCGCACATCTGGCAGCTACTGGAGAGTTGATTGATGACGCCCATGTTCCTCCCG
TGCCCCCACTTCCAAAAGACTTGTCGTCTTATCGATCTCCCCCAACCACTTCGTCTACCCAGACCTTCCGGTCGA
TCCCCTCCGTCGAGGACCCAGACATCCGGATCAGTCAAGATAGCGACATCGAGAGAGCGTTTTCCTCGGACGTTT
CCGCTGGTAAAGGTCCTCGGGTTGGCTCATCCGCAACTCGACAGAGCCAAGCCAACCCTAACACTTCAGAGGCCG
TGCCGATTGTAAAGACCCCATCGAAGAAGTGGAGTTTCTCGAGCGCCCTCAACCTCAAGCTGGCCAGTTCCCCAT
CTTCTTCGAGCACAAAGTCGTCGTTCCCTTTGAGCCCCCGTTCTGTCGGCTTCGGCCACGGCTTGCGCAAATCCT
CTTCCAAGGAACAAACGTCGTCGGCATCGTCATCGAAGGCCCCTTGGTCTCCAGAGCAACCAGACGCAATGGCCT
CAGCAGGTTCGCTCGCGTCGCTGTCATCGTTGGGTTCAGTTCGTAATCACTCCCTCCATCCAGACACCTCCAAGA
CGCCCGACAAGAACCGTCCGGGTACGGGTTCGAGCGTCAGCACAGCCGGACTGTCTGCCCCTTCTGGACCGTTAA
GCCCCAGTGCCTCGATCAAACGTGCACAGTCCAAACGACTGACACCGTCATCCATTCCTTTCTTCCGACGATCGT
CTTCGCAATCCATGCAAGTCCCTTCTTCCAGTGGAAGCGGACATCCATCGTCGCCGCCTCCTAGTATGCCCACCA
AGGCATCACGCTCCAAGGCAAGCACGCCCCCTCACGACATCAGCATGACCTCTGTTTCCACACCGGGAAAGAAAG
CTTCCGTATTGAGTCTCGGACTCCCCTCTCTCCTCAAGTCCAGTTCGCGGAGAAGCCTCCATTCCGACGCAAAGG
AAGCCGCCAAAGAGCTCCAAAAGGCCAAAGAGGCAGCTCGAGAAAGTGACAGGGAAAAGGCAAAGGCGGAGAAGG
CTGAAAAGGAAAGACAAAAGAAGGAAGACAAAGACCGGAGTGAAAGCCGCATTTCTGTTTTAATTAGCAGGAAGC
GTGGAAAGACTCTGTCCGCGACAGATCCTCGAAAGCCCAAGTCGCCAGTTACTCTGCCACCAATGCAGATATCCG
CCATCGAGCCTGTGACAGCGCAAAGGGTGGCCAAACTCAAGTCCAGTTCGTCCCAATCCACCACGTCCTCGATCA
ATAGCCGCACCTCTTCCTCTTCCTCTCGCGTCACCTCCCAAACCGCGAGCTCGATGCAGAAGATCTCCGACAGTT
CTCTCCGAAGTCGCACTCAACTCCCGACGATTGCCGGCTCACCATCGGTTGGAACGAATGGCACAAACAGCACTC
AGAACACCATTCGTGAGAAAGACCACAGCTCCTTGTTGTCGAGTTCGATTTCTGGATTACCCAAAGAAACGCCCA
CAAAGATTCCGCGCATTTCGAGTCGAACGTCGGCAGCTCCAAGTCCATCGGGCAAGTCAACCTCAACCTTTGCCA
GCCGACGCACCAGCATGAACCCAGCTGCAAGTTCTTCAACAAACCCATCTCCGATTTCTCTCTCAACCAACGAGT
TTGGAGTTATCGACAACGAAGATGGTGCCACTCCCAGGAATCTTGCAAGGCAATCTTCGATCCGTGCCTCCCCGT
CGACTTCGGCGTCAAGGCCTGCCCGACAATCTTCCGCTAACACGAGCTCTACATCCAGCAGTGCTTTGCGCAAGA
GTACTCGCGAGTCTGTTTCGTTTATTGGTTTGAGGAAAGCGTCAACAAGTTCTGTCAATTCGACATCAACACCTG
GTACTTCCGGGACCACGTCAGAATCGTCAGGTTCGCATCGTTTCTCAGCGCTATCGCCTTCCAAGGGCTTGAAGC
TATTGGGCCCCAAGTCGTCGCGTTCGGCAGCGTCTTCGTCTCAGAATCTTCGTCAGAATATGAGCTCTCCCTCGT
CCAGTCGACAATCCTTGTCAACACCTTCCCCTGTTCCAAGCACTGTGGATGAGGACGAACTCCTTGGAGACGAGG
AAATGATGAACTATATTCGCCGTCAACAGGCCAAGAAGAAGGCTGCCGGTGCGACACAGGAGGAACTAGAGGAGA
TGCTCAAGTTCCCCGAGCCCACCCCGCCTGTCCCTCCCGCTTCTCCTCATCACGTCCTCAAAAGCTCCCAGGCCC
AATATCTTTCCGACTACGAGAGGAAGGAAATCCTCGACTATCCTTCAGTATACTTTATCGGTGCAAAGAGCAGAA
AGAAGATGGCTACTCCTGACATCACCACTAATAATTACAGCTATGACGACGAACGTGGGGACTACCAAGTTGTGC
TTGGTGATCATCTCGCATATAGATACGAAGTTGTTGACACCCTCGGCAAGGGCTCTTTTGGCCAAGTTCTCAACT
GCCGTGATCACTGCACTGGAGAGTCAGTGGCGGTCAAGATCATTCGCAACAAGAAGAGGTTCCACCACCAAGCCT
TGGTTGAAATCAAGATCTTGGACAATCTGCGGAAATGGGATGCCGACGAGAAGCACCATGTCTTGAAGATGACTG
AACATTTCTACTTCCGCAATCACCTTTGCATTGCGACGGAATTGCTCAGTATCAACCTTTACGAACTCATCAAAG
CCAACGGTTTTGTCGGCTTCACCACCGCACTCATTCGCAGGTTCACGACCCAAATGCTCATGTCTTTATCCCTGA
TGAGGCACCATCGCATCGTCCATTGTGACTTGAAGCCAGAGAATGTGCTCTTGCGGCATCCTGCGAAGAGTGCTA
TCAAAGTTATCGATTTTGGAAGTAGTTGCCTCGAACACGAGAAGATCTATACTTACATCCAGAGTCGTTTCTACC
GCTCCCCTGAAGTTATCCTCGGCATGAACTACCATATGGCTATTGACATGTGGAGTCTGGGCTGCATCTTAGCCG
AGCTTTACACTGGCTTCCCTATCTTCCCCGGTGAAAACGAGCAGGAGCAGTTGTCCTGCATTATGGAGGTTCTTG
GTGTTCCCGATAAGGAATACATCAATCGCAGTTCCAGGAAGAAGCTCTTCTTTGACACAAACGGTGCTCCAAGGC
CTGTTGTCAACTCGAAGGGTCGCCGTAGACGGCCAGGCTCCAAGACGCTCGCCCAAGTTCTCCGTTGCAATGACG
AGGAATTCATCGACTTCATCGCCAAATGCCTGGTCTGGGATCCCGAACGACGAATGAAGCCACAAGCCGCGATGC
GTCACCCATTCGTTACTGCTGGAAAGCGAAAGGCGCAACAGCAGGCGGCCGCTCGGGCTACACCCTCGTCATCCA
GTCTCTCGAGCCATCGTAGCAAGCATATCACCGAGACACCCAAGAAGTCGATGATCGGTGCACCCACTCCTTTGA
CTGCTCGAACGCCCCGTTCCTCTCATACCAGCGGCGTTCCAAACACTCCCGGTTCAAGCTCACATACTTCCTCTT
TCGGCTCCTCCACTCGGTCTTATCGCACTTCTCAGGGACACAGTCTTTCTTCATCGGTTCATTCCAGCCGTGTAA
TGAATGGATACTCTTCAACAGCATCAACCAAGTAGATAAATATCAAATGACGACGACGATTATACGTTTTTATGT
TAATACTTTCAGCATCTGCTATTCTGCTAATTCTCGGGCTTTGCTATATATTCTTTCTCCTCTCCTTTCTTATTC
TCTCTTTTTACCCTCGCTTTTGTCGATTGCTCACGAACCCATTATTCAATTATTCAACGTTCTTCAGTTATGGCT
TATCGTTCAACGTCCACCCAACCTTTTTTGCAACCCTATTCTTCCTTTCTCTCCTTAGTTTCAAGACAAATTACA
ATTAATGACTTGGCTCGACTCTTTCCCGGACACAATCTGATGCAGCTTTGTTTGAGCGAGAC
Length 5762

Gene

Sequence id CopciAB_485840.T0
Sequence >CopciAB_485840.T0
GAAAGCCGTTGGAGGTTTGCTGAATGTCTGCGTCGCCCGACCCTCCCCAACAATACAAGGCACGTCCAGCCGCCC
TCGCCATCCACGACGACGAAGGCACGCAACCCAGCGACGGCGACGACCAAATCGACAATTGCCAGCACCAGCACC
TCCTGCAACCTCTCACCATAAACGTATCACACCAAGACAACGACGACAGCAACCATTCGCGCTCAACATCAGTCA
CGTCGTCGCTCGATCCTTACTACTTTGGTCTTGCAGAGTCTCCTGAACACAACCCCAACCAGCTCAGCATCACCC
CAGATCATCCACCACCCAACGAACCAGTCACCCCTGCCCGAAATCCCGCCTCAATCGACAGACGTGGCCTGGTCG
GCGTTGGCGAACTAGCCACGCCACGCTGGACTAGGGATCCCAGCCCAGACCCACACCTTGATGATGACGTTCCAC
CTCTCCCTGATCGCCCAGAGGATGACGCCCCAGACAGTCCCTGGACAATCGAAGCAATAGACGGTGAGCTCTCAG
ACAGCGACGAGGTCAGTGCCCCAGCTCCTTTTCCTGCCAGCAACAACGTTCTTATTTTTCTCAAGGTAAAAATTC
CGGAGCTACCACCACCGGCTCGACCTCTTCGCACCAGGCCATCAATTGCAGACGAGAGTGGTGGCGAGGAAATCC
TTTATCCGCGAAACGTGATTCAGTCCGTCCCCGACCACCCGCCGCCCACCGTGGTCCCTCCTCTCGACGACCATA
TCCCCAAACAGCCGCGAACTCCCGCGTCGGCGGACCCTCCCATCAGTTCACCCCCAAGCGCCTTCTCGTCTTCTA
CTCGGAAGGCGCGGAAGCGAACCTCTGATGAATTTGAACTCGACCAAACAGGTGCTCTTGTTTCCAAGCGTGGCT
CACTCAAGGAAAAGTCAAGAGATGACGCGAGAGCAAGTATTCGCAAGCATCGTAGTCTCAATGTCAGCACCTCGT
CGTCTACTTCCCCACGCGACAGCAAAACAAGGGAGCGGAAGAGAGAGTCTATTGGACTCGGACTTGCCATCAGCA
GCAGCGTCGTATCTCCTAGGCTAGCTGAACGCCATTCACGCCAGGCATCCTCAAGCTCTGTATCGTCGCCTTCTT
CTGAACCTGCACCGGCAAGGCGGGTCCATACCACCGATTTTTCCCACCTACCACCATCTCCTTCGTCCTCTTCCA
TTCAACAATTCCTTCGCCAAACAATCCCAAAGGAGCCGCCGTCACTCCATTCGCCCCCCAACGTCGCTCATTCAC
TGCTTCGTGGCACTCAAGAGGGCTGGTCCGGTCTTGACGATGAAGCAACAGCAGAAGCCTTACGCAAATTGGACG
GTCTCACTGGGAAGACGGCCCGCAGTCGAGCTAGCATGACCAGCCTTGGTCGTGGTTCAAGTGCCAGTCGCCCCG
GTACACCAGCCAAGAGTTCGCAACAATGGGAAGGCATCAGTGGTTCCGAGTCTGTCAGATCAAAGCGAATCAGCA
CTTTCATTAGGGAAGGAGGGAAGGAACCCCGGTCGACCCCTAATCCATCCGAAGGCGCTCTGGATTCAGATTATG
TTGCCGTGTCTGTGTCCGGCGCAATCAGCAGCGACGAGCCTCATATTATCCAGGACAAGACCCCTAAGAAGCAAT
CGAGACTGAGCTTCACTCCAAAACGAGGTTCCACTTCTTCAACCACATATGGAAGTACCCCGACCACCAGCTCGC
GAGATTCTGCTGGCACGGCTACCACTAACGCGACCTCTGTTTCTGCGACATCCGGAGGTCGTGTCTCCTCCACCA
AAGCTAGGAGAAATAGTGCTGGTAGCGACGTGTCCAGCGTGCATTCCAATGATCTGACGCTGCTCAAAGACCGCG
CCGCACATCTGGCAGCTACTGGAGAGTTGATTGATGACGCCCATGTTCCTCCCGTGCCCCCACTTCCAAAAGACT
TGTCGTCTTATCGATCTCCCCCAACCACTTCGTCTACCCAGACCTTCCGGTCGATCCCCTCCGTCGAGGACCCAG
ACATCCGGATCAGTCAAGATAGCGACATCGAGAGAGCGTTTTCCTCGGACGTTTCCGCTGGTAAAGGTCCTCGGG
TTGGCTCATCCGCAACTCGACAGAGCCAAGCCAACCCTAACACTTCAGAGGCCGTGCCGATTGTAAAGACCCCAT
CGAAGAAGTGGAGTTTCTCGAGCGCCCTCAACCTCAAGCTGGCCAGTTCCCCATCTTCTTCGAGCACAAAGTCGT
CGTTCCCTTTGAGCCCCCGTTCTGTCGGCTTCGGCCACGGCTTGCGCAAATCCTCTTCCAAGGAACAAACGTCGT
CGGCATCGTCATCGAAGGCCCCTTGGTCTCCAGAGCAACCAGACGCAATGGCCTCAGCAGGTTCGCTCGCGTCGC
TGTCATCGTTGGGTTCAGTTCGTAATCACTCCCTCCATCCAGACACCTCCAAGACGCCCGACAAGAACCGTCCGG
GTACGGGTTCGAGCGTCAGCACAGCCGGACTGTCTGCCCCTTCTGGACCGTTAAGCCCCAGTGCCTCGATCAAAC
GTGCACAGTCCAAACGACTGACACCGTCATCCATTCCTTTCTTCCGACGATCGTCTTCGCAATCCATGCAAGTCC
CTTCTTCCAGTGGAAGCGGACATCCATCGTCGCCGCCTCCTAGTATGCCCACCAAGGCATCACGCTCCAAGGCAA
GCACGCCCCCTCACGACATCAGCATGACCTCTGTTTCCACACCGGGAAAGAAAGCTTCCGTATTGAGTCTCGGAC
TCCCCTCTCTCCTCAAGTCCAGTTCGCGGAGAAGCCTCCATTCCGACGCAAAGGAAGCCGCCAAAGAGCTCCAAA
AGGCCAAAGAGGCAGCTCGAGAAAGTGACAGGGAAAAGGCAAAGGCGGAGAAGGCTGAAAAGGAAAGACAAAAGA
AGGAAGACAAAGACCGGAGTGAAAGCCGCATTTCTGTTTTAATTAGCAGGAAGCGTGGAAAGGTATGTCGTTATG
TTTTCTTCTTTTGCCATCGCGACACTGGTTGACGGCTTTCAGACTCTGTCCGCGACAGATCCTCGAAAGCCCAAG
TCGCCAGTTACTCTGCCACCAATGCAGATATCCGCCATCGAGCCTGTGACAGCGCAAAGGGTGGCCAAACTCAAG
TCCAGTTCGTCCCAATCCACCACGTCCTCGATCAATAGCCGCACCTCTTCCTCTTCCTCTCGCGTCACCTCCCAA
ACCGCGAGCTCGATGCAGAAGATCTCCGACAGTTCTCTCCGAAGTCGCACTCAACTCCCGACGATTGCCGGCTCA
CCATCGGTTGGAACGAATGGCACAAACAGCACTCAGAACACCATTCGTGAGAAAGACCACAGCTCCTTGTTGTCG
AGTTCGATTTCTGGATTACCCAAAGAAACGCCCACAAAGATTCCGCGCATTTCGAGTCGAACGTCGGCAGCTCCA
AGTCCATCGGGCAAGTCAACCTCAACCTTTGCCAGCCGACGCACCAGCATGAACCCAGCTGCAAGTTCTTCAACA
AACCCATCTCCGATTTCTCTCTCAACCAACGAGTTTGGAGTTATCGACAACGAAGATGGTGCCACTCCCAGGAAT
CTTGCAAGGCAATCTTCGATCCGTGCCTCCCCGTCGACTTCGGCGTCAAGGCCTGCCCGACAATCTTCCGCTAAC
ACGAGCTCTACATCCAGCAGTGCTTTGCGCAAGAGTACTCGCGAGTCTGTTTCGTTTATTGGTTTGAGGAAAGCG
TCAACAAGTTCTGTCAATTCGACATCAACACCTGGTACTTCCGGGACCACGTCAGAATCGTCAGGTTCGCATCGT
TTCTCAGCGCTATCGCCTTCCAAGGGCTTGAAGCTATTGGGCCCCAAGTCGTCGCGTTCGGCAGCGTCTTCGTCT
CAGAATCTTCGTCAGAATATGAGCTCTCCCTCGTCCAGTCGACAATCCTTGTCAACACCTTCCCCTGTTCCAAGC
ACTGTGGATGAGGACGAACTCCTTGGAGACGAGGAAATGATGAACTATATTCGCCGTCAACAGGCCAAGAAGAAG
GCTGCCGGTGCGACACAGGAGGAACTAGAGGAGATGCTCAAGTTCCCCGAGCCCACCCCGCCTGTCCCTCCCGCT
TCTCCTCATCGTAAGTCGCTTTAGAATTTTACTTATTCTCTATCGCTAATGAGTTGTCATAGACGTCCTCAAAAG
CTCCCAGGCCCAATATCTTTCCGACTACGAGAGGAAGGAAATCCTCGACTATCCTTCAGTATACTTTATCGGTGC
AAAGAGCAGAAAGAAGATGGCTACTCCTGACATCACCACTAATAATTACAGCTATGACGACGAACGTGGGGACTA
CCAAGTTGTGCTTGGTGATCATCTCGCATATAGATACGAAGTTGTTGACACCCTCGGCAAGGGCTCTTTTGGCCA
AGTTCTCAACTGCCGTGATCACTGCACTGGAGAGTCAGTGGCGGTCAAGATCATTCGCAACAAGAAGAGGTTCCA
CCACCAAGCCTTGGTTGAAATCAAGATCTTGGACAATCTGCGGAAATGGGTATGTAATGTAATATATTACGAGAG
CCTACTTTATTGACATATTTTTAGGATGCCGACGAGAAGCACCATGTCTTGAAGATGACTGAACATTTCTACTTC
CGCAATCACCTTTGCATTGCGACGGAATTGCTCAGTATCAACCTTTACGAACTCATCAAAGCCAACGGTTTTGTC
GGCTTCACCACCGCACTCATTCGCAGGTTCACGACCCAAATGCTCATGTCTTTATCCCTGATGAGGCACCATCGC
ATCGTCCATTGTGACTTGAAGCCAGAGAATGTGCTCTTGCGGCATCCTGCGAAGAGTGCTATCAAAGTTATCGAT
TTTGGAAGTAGTTGCCTCGAACACGAGAAGAGTATGTCGTTCTTTCAATAAACAAGGCGACGAACTGATAGTAAC
ACGACTCTCAGTCTATACTTACATCCAGAGTCGTTTCTACCGCTCCCCTGAAGTTATCCTCGGCATGAACTACCA
TATGGCTATTGACATGTGGAGTCTGGGCTGCATCTTAGCCGAGCTTTACACTGGCTTCCCTATCTTCCCCGGTGA
AAACGAGCAGGAGCAGTTGTCCTGCATTATGGAGGTTCTTGGTGTTCCCGATAAGGAATACATCAATCGCAGTTC
CAGGAAGAAGCTCTTCTTTGGTGAGCATTAATGTACTCTTTTCACAGTGGCTCGGAAGCTAATTGCGATACAGAC
ACAAACGGTGCTCCAAGGCCTGTTGTCAACTCGAAGGGTCGCCGTAGACGGCCAGGCTCCAAGACGCTCGCCCAA
GTTCTCCGTTGCAATGACGAGGAATTCATCGACTTCATCGCCAAATGCCTGGTCTGGGATCCCGAACGACGAATG
AAGCCACAAGCCGCGATGCGTCACCCATTCGTTACTGCTGGAAAGCGAAAGGCGCAACAGCAGGCGGCCGCTCGG
GCTACACCCTCGTCATCCAGTCTCTCGAGCCATCGTAGCAAGCATATCACCGAGACACCCAAGAAGTCGATGATC
GGTGCACCCACTCCTTTGACTGCTCGAACGCCCCGTTCCTCTCATACCAGCGGCGTTCCAAACACTCCCGGTTCA
AGCTCACATACTTCCTCTTTCGGCTCCTCCACTCGGTCTTATCGCACTTCTCAGGGACACAGTCTTTCTTCATCG
GTTCATTCCAGCCGTGTAATGAATGGATACTCTGTAAGTCACTCCGATGCTGGACGCTTATTTGCGCTAACGAAA
TTCCGCAGTCAACAGCATCAACCAAGTAGATAAATATCAAATGACGACGACGATTATACGTTTTTATGTTAATAC
TTTCAGCATCTGCTATTCTGCTAATTCTCGGGCTTTGCTATATATTCTTTCTCCTCTCCTTTCTTATTCTCTCTT
TTTACCCTCGCTTTTGTCGATTGCTCACGAACCCATTATTCAATTATTCAACGTTCTTCAGTTATGGCTTATCGT
TCAACGTCCACCCAACCTTTTTTGCAACCCTATTCTTCCTTTCTCTCCTTAGTTTCAAGACAAATTACAATTAAT
GACTTGGCTCGACTCTTTCCCGGACACAATCTGATGCAGCTTTGTTTGAGCGAGAC
Length 6131