CopciAB_444527
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_444527 Strain Coprinopsis cinerea Okayama 7
Standard name TRA1 Synonyms 444527
Uniprot id Functional description Belongs to the PI3 PI4-kinase family
Location scaffold_5:1702166..1713994 Strand -
Gene length (nt) 11829 Transcript length (nt) 10873
CDS length (nt) 10626 Protein length (aa) 3541

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Saccharomyces cerevisiae YHR099W_TRA1
Schizosaccharomyces pombe tra1
Neurospora crassa stk-18

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7259803 64.5 0 4849
Hypsizygus marmoreus strain 51987-8 Hypma_RDB22695 63.8 0 4726
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_120115 63.3 0 4684
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_184795 62.6 0 4588
Lentinula edodes NBRC 111202 Lenedo1_1034987 58.2 0 4265
Lentinula edodes W1-26 v1.0 Lentinedodes1_14183 58.1 0 4262
Pleurotus eryngii ATCC 90797 Pleery1_1403014 56.8 0 4220
Pleurotus ostreatus PC9 PleosPC9_1_122599 56.6 0 4207
Pleurotus ostreatus PC15 PleosPC15_2_1103463 56.5 0 4204
Ganoderma sp. 10597 SS1 v1.0 Gansp1_126248 55 0 3976
Schizophyllum commune H4-8 Schco3_2538820 51.5 0 3714
Flammulina velutipes Flave_chr11AA00721 52.3 0 3580
Grifola frondosa Grifr_OBZ70424 50.7 0 3484
Lentinula edodes B17 Lened_B_1_1_10117 55.1 0 2698
Auricularia subglabra Aurde3_1_1244303 40.3 0 2669

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 357.7462 51.5517 29.7634
oidia 135.6583 14.3611 8.2914
vegetative_mycelium 126.5187 25.5579 14.7558
primordia 179.8432 2.6302 1.5186
hyphal_knot 195.7112 26.9226 15.5438
young_fruiting_body 381.4548 26.5448 15.3257
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 252.3762 33.6014 19.3998
Wheat bran 88.2133 34.3221 19.8159
Horse manure 206.6608 71.4238 41.2365
Oak leaves 237.1739 60.4479 34.8996
Hay 155.0071 52.0589 30.0562
Corn stalk 204.5593 3.6306 2.0961
Pectine 318.5165 23.0988 13.3361
Microcrystalline cellulose 267.9801 83.9317 48.458
Xylose 199.0093 56.7648 32.7732
Cellobiose 175.5047 47.3266 27.324
Lignin 289.5882 31.0437 17.9231
Apple peels 261.8163 35.3132 20.3881
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 158.1842 7.9543 4.5924
Bsubtilis 173.4799 13.2349 7.6411
Ecoli 154.1061 7.9565 4.5937
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 69.6054 5.483 3.1656
BS 4h 90.2416 16.259 9.3872
BS 8h 44.8452 3.8002 2.194
BS 12h 31.221 5.2823 3.0498
Oidia 0 h 91.7834 19.6724 11.3579
Oidia 18 h 65.339 20.4739 11.8206
Sclerotia 39.7247 8.1843 4.7252
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 20.1039 2.8667 1.6551
DM 36h 32.9308 2.5267 1.4588
DM 60h 27.3944 3.8508 2.2233
DM 84h 17.9155 0.9053 0.5227
DM 108h 23.8001 4.0534 2.3402
DM 132h 25.364 2.0654 1.1924
DM 156hAE 30.7619 5.0167 2.8964
ELI1hAE 26.945 2.9727 1.7163
ELI2hAE 25.9175 5.5873 3.2258
LI2hAE 30.7944 3.1062 1.7934
LI6hAE 34.045 2.6837 1.5494
LI12hAE 30.5265 3.3888 1.9565
LI18hAE 31.8235 0.671 0.3874
LI 24hAE 43.0955 10.4763 6.0485
DM 156hAM 24.0459 3.6673 2.1173
ELI1hAM 22.0027 1.4943 0.8627
ELI2hAM 19.7769 1.5178 0.8763
LI2hAM 21.2276 3.6653 2.1162
LI6hAM 31.0538 1.0668 0.6159
LI12hAM 24.0121 7.4943 4.3269
LI18hAM 35.438 6.8178 3.9363
LI 24hAM 39.1937 3.2005 1.8478
LI 24hHK 27.0089 5.4043 3.1202
L/D 6h 59.9397 7.4129 4.2798
L/D 12h 58.627 9.3175 5.3795
L/D 18h 73.875 3.7255 2.1509
L/D 24h 89.7893 6.1534 3.5527
Fruiting body development RNA-Seq analysis of fruiting body development Krizsan et al. 2019 RNA-Seq
Sample Mean cpm SD cpm Se of mean
Vegetative mycelium 99.571 25.4105 14.6708
Hyphal knots 212.8889 37.37 21.5756
Primordium 1 204.1923 27.5839 15.9256
Primordium 2 144.8259 4.8737 2.8139
Young Fruiting body cap 119.717 22.4367 12.9538
Younf fruiting body gill 184.9806 33.7896 19.5084
Young fruiting body stipe 172.773 19.5699 11.2987
Mature fruiting body cap_gill 160.2423 9.1006 5.2542
Mature fruiting body stipe 85.8431 5.7308 3.3087
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 138.3639 16.6186 9.5948
NH4NO3 134.1328 15.9293 9.1968
Proline 133.6593 23.5658 13.6057
Tryptophan 115.1903 42.8298 24.7278
Isoleucin 148.5179 17.3551 10.02
Arginine 176.3735 20.1559 11.637
Metionine 122.9298 22.9339 13.2409
NaNO3 141.3469 10.4495 6.033
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 138.3639 16.6186 9.5948
Citrus peel 204.2917 48.2731 27.8705
Poplar leaves 118.8859 27.4574 15.8525
Typha leaves 112.5785 16.4741 9.5113
Overwintered Salix leaves 129.3016 41.9602 24.2257
Reed flowering 154.9624 12.006 6.9317
Tigernut 96.0669 14.3473 8.2834
Energy cane 113.0042 11.5584 6.6733
Guar gum 135.2561 35.7253 20.626
Apple peels 99.7893 26.7236 15.4289
Cellobiose 157.4217 43.0582 24.8596
Corn stalk 95.8988 11.0257 6.3657
Horse manure 111.1845 9.348 5.397
Lignin 158.2211 69.502 40.127
Microcrystalline cellulose 139.587 29.7683 17.1867
Oak leaves 92.2725 23.6953 13.6805
Pectin esterified 51.9259 12.0737 6.9707
Poplar sawdust 112.1683 33.9397 19.5951
Wheat bran 62.7764 20.3166 11.7298
Chlamydomonas reinhardtii 111.7181 17.9324 10.3533
Vertatryl alcohol 160.6005 13.9786 8.0705
Furfural 134.2075 51.4935 29.7298
Autoclaved mycelium 147.9498 6.4198 3.7065
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 146.559 14.5461 8.3982
Ribose 180.396 4.0584 2.3431
Mannose 169.2867 7.7516 5.4812
Fructose 179.9789 20.396 11.7757
Arabinose 188.1499 18.0046 10.3949
Xylose 178.8303 3.478 2.0081
Galacturonic acid 189.7512 9.3495 5.3979
Rhamnogalacturonan 174.5422 20.6317 11.9117
Pectin esterified 194.4094 5.2553 3.0342
Polygalacturonic acid 171.7065 25.5643 14.7596
Sodium acetate 172.6539 7.6776 4.4327
No nitrogen 187.2146 17.0788 9.8604
BSA 200.8513 1.7568 1.0143
Glutamine 202.2918 11.4852 6.631
No phosphate 158.1217 20.1141 11.6129
No carbon 200.428 2.9467 2.0836
No sulphur 217.41 34.4856 19.9103
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 138.3639 16.6186 9.5948
Amylose 89.1828 8.7235 5.0365
Fucose 97.4213 13.009 7.5108
Galactose 121.2256 9.3493 5.3978
Lactose 134.2873 6.6213 3.8228
Maltose 126.3637 28.9096 16.6909
Mannitol 146.9375 11.6885 6.7484
Rhamnose 140.7721 20.4266 11.7933
Sorbitol 105.1209 8.6968 5.0211
Trehalose 91.9492 6.1231 3.5352
Glycerol 126.8238 6.0508 3.4934
Glucuronic acid 101.4537 17.692 10.2145
Arabinan 86.5462 5.2139 3.0102
Galactan 116.4796 21.9662 12.6822
Galactomannan 89.1701 5.6603 3.268
Glucan 141.9629 14.3228 8.2693
Xylan 79.8629 13.8113 7.974
Xyloglucan 75.6843 12.1972 7.042
Arabinogalactan 97.4307 9.0992 5.2534
Pectin 131.5077 71.0139 40.9999
Rhamnogalacturonan 152.2274 51.0893 29.4964
Polygalacturonic acid 127.6765 21.7555 12.5606
Mannan 99.1437 8.2663 4.7725
Amylopectin 87.343 14.8201 8.5564
Inulin 115.5097 19.9331 11.5084
BSA 222.0142 32.911 19.0012
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 27.3944 3.8508 2.2233
2h WAT 17.6328 3.1018 1.7908
4h WAT 24.0211 7.8907 4.5557
8h WAT 22.0911 4.4349 2.5605
16h WAT 22.2968 0.8709 0.5028
24h WAT 21.6289 3.1803 1.8362
WAT hyphal knot -30h 25.3365 1.1657 0.673
WAT hyphal knot -22h 21.1602 1.5533 0.8968
WAT hyphal knot -15h 27.4072 6.2149 3.5882
WAT hyphal knot -7.5h 22.0418 6.2127 3.5869
WAT hyphal knot 23.3463 4.2563 2.4574
WAT hyphal knot +7.5h 22.0668 4.3003 2.4828
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 116.4522 51.8786 29.9521
Straw 3h 125.7216 5.3614 3.0954
Straw 6h 117.1159 30.5058 17.6125
Straw 12h 140.0304 23.6903 13.6776
Straw 24h 119.2389 15.9215 9.1923
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 19.2453 3.2444 1.8731
Frost (-20C, 30min) 16.9632 2.2666 1.3086
Heat shock (47C, 2h) 44.008 4.3093 2.4879
High CO2 23.0859 2.3289 1.3446
Drought (4% agar, 12h) 19.2536 5.5505 3.2046
Oxidative (1mM H2O2, 3h) 24.6063 6.7581 3.9018
Acidic (pH4, 3h) 18.072 3.7332 2.1554
Alkaline (pH9, 3h) 12.6569 2.5735 1.4858
Osmotic (sorbitol 2h) 21.4901 1.9218 1.1096
CongoRed (3h) 19.6528 3.0208 1.7441
Cobalt chloride control 26.3281 1.5102 0.8719
Cobalt chloride 2mM 25.3646 3.5809 2.0674
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 12.0557 6.2691 3.6195
Cold stimulation 16.7035 5.6296 3.2503
Scratched surface 17.2527 3.1219 1.8024
Ca2+, 200mM, 24h 26.5297 4.112 2.3741
Cu2+, 2mM, 6h 28.0945 2.9884 1.7254
Voriconazole 19.3087 2.0605 1.1896
Trichoderma interaction, early 16.7301 1.888 1.09
Trichoderma interaction 60h 30.2668 18.3431 10.5904
Cobalt chloride 2mM repeat 29.5762 1.9378 1.1188
Hypoxia 26.2246 8.5908 4.9599
Hypoxia control 14.676 1.4301 0.8257
Protoplastation control 22.6201 3.2515 2.2991
Protoplastation 3.5h 32.9841 3.8775 2.7418
Protoplastation 1.5h 29.8157 2.8884 2.0424

General data

Systematic name TRA1
Protein id CopciAB_444527.T0
Description Belongs to the PI3 PI4-kinase family

Annotation summary

0 900 1800 2700 3541

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd05163 PIKK_TRRAP - 3168 3462
Pfam PF20175 Tra1 HEAT repeat central region IPR046807 258 799
Pfam PF20206 Tra1 HEAT repeat ring region IPR046805 812 891
Pfam PF20206 Tra1 HEAT repeat ring region IPR046805 898 1848
Pfam PF20206 Tra1 HEAT repeat ring region IPR046805 1862 2345
Pfam PF02259 FAT domain IPR003151 2490 2840
Pfam PF00454 Phosphatidylinositol 3- and 4-kinase IPR000403 3202 3444

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR016024 Armadillo-type fold
IPR003151 PIK-related kinase, FAT
IPR000403 Phosphatidylinositol 3-/4-kinase, catalytic domain
IPR046805 Tra1, HEAT repeat ring region
IPR046807 Tra1, HEAT repeat central region
IPR011989 Armadillo-like helical
IPR014009 PIK-related kinase
IPR011009 Protein kinase-like domain superfamily
IPR011990 Tetratricopeptide-like helical domain superfamily
IPR019734 Tetratricopeptide repeat

GO

Go id Term Ontology
GO:0005515 protein binding MF

KEGG

KEGG Orthology
K08874

EggNOG

COG category Description
B Belongs to the PI3 PI4-kinase family
D Belongs to the PI3 PI4-kinase family
L Belongs to the PI3 PI4-kinase family
T Belongs to the PI3 PI4-kinase family

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_444527 across fungi.

Arrow shows the origin of gene family containing CopciAB_444527.

Protein

Sequence id CopciAB_444527.T0
Sequence >CopciAB_444527.T0
MSTNTASEAGPSSGSSDFENRVARIADPNTDLKTKHAVALEIKELIDTTRDSEFGRVLPYLVPTLIDLLRSGQPS
FQRDTTEYQFRRLLLDILNRIPSGEAIRPHMPSVFQCMIAIVRQDNEENGATACKTMVDVVRSYRIVTEQGLADF
IALFQESFANIKGMVEEYLSEDSTQLDPNTILPATRSLKVLGEMGMIMIIMSQVQRAMVSPSIQGTIAPAFEMLA
QESSAQHKARTDFEAMGGIWAGMAPTIKNPTIYNDLIQAQIKMLSYLAFVMRYLNETEASYGETLVSSALRILQD
CPSNGNTLRKELMVVFRHLLATPHRRALLGHIDKLLDEKVLLGTGLASKDSLRPMVYSAVADLIHNVKSDLTFPQ
IVRIVHVYSALLFNTSLGFNLHILFAKVIFGLTDAIVAKEVPQTAAKLLSSMLETCLERLEGLCTVQADVSQALE
RIRSGSQEVTVDTLFIEKSRPVGGALYALEKPEDVMLECRQLYRALLHGLRVTIVCMKKCDAPVPDGKLVFRLFE
GCVRCMSLYDADPRVNEQNDVIDWFGHTLLELNLHVFQEVWTHKMGFFFEHAQKRIVLLTVCQFLFNRESTTSIL
LGIVLKYLVGRLPLLGEYDDITAAATIRLFKMAFNAVTTYPHTNESILASHLPKLLMDCFPLAAKASKPTHYFYL
LRALFRAIGVGGGRFELLYSAVLPLLPELLESLNRQLLASEGQTRDMIVELCLTVPLRLTHLLPHLSYLMQPLAL
ALRGGFELASQGLRTLELCIDNLTPDFLDPTLSVVLRELMEALFSHLKPAPQSHHLAHTTIRILGKLGGRNRRLL
FKEPALIYHHPSEPAKMVISFNGNEEKILLGPICKLAITTLAKSPPADQMHAYSFLENCASLFLYEGIKGRNVED
FFVRTVEGIFDSIYIPTIQNEAESYLRKLASTVFENEIRRNQSREVGARPTPSPVLNSFLEAIPHGLAREQPAQC
ERAKEVVAILINDLIEMRTRPNIGLQGIFPLLHSLANRFTGLCLDESWIRKAAGCNGIKLMLNAPVVAQKWVSDR
EIELVRNLMHALKDLPYDLPRDVEDVIETLLDVLRLSNSSLDFTGDGAAHARNKIVHLAGMFFPEFQSSNRIIRD
AAQRCINYMVTLSGRTPGELFLPHRERMLAGVYTKPLRALPFLKQIGIMESMRYCLKLEPQVIDASEELLRLLHE
ALALADAEDVQLVGPRTTRSSALEILKLRESCIKLLTAAMPITDFFGKIPHTRQRVTSVYFKSLYSPSAEVKEAA
HTGLRMVLAHQNRLPKELLQSGLRPILMNLADPKRLTVSGLEGLARVLSLLNNYFKVEIGHKLLEHFRVVADPQS
LQATARLPFSETEGVPKLVRLANIFHLLPSAANVFLDPLVNLIIQTETQMHFSTVNPFSEPLAKYLDRYPVEGID
FLVRNLQLPRTVRTFRSALQAKVSPNLERELVSRTPILAPRLSGGADQNQMRAILEIIDDLITLEPTFLSQHAYV
TDQLVAVWRSLGLTPNDGNDKAEITYWHSIIQSSFIKAMKQTPRIDLLFELIAIYSRNLEIDTVKTTTFLYQHVA
LSEDIIFRRNVLMRFLTWFNDSSVPLDTKGYFIRYVVTPTLLVQANRSPTSDRLINLDFISQLHRIIWSPITEND
AFLGSEEYFKIEILNLTTVLVQYYSDLLDDVKKDIIRCAWAPIQNNDDVLIRQMAFLLLARFFSVFPSPPKFVLR
AWTDLLRLPHSEGRASVRYEALSILAPSLPKSDGDDPEFPQWAKATRRLLTEEGAGQAFAIYHLIVKQPDLFYPV
RSLFVPHMTNSLNKLGMSPSSTTESRHLSLDILQTVFNWEEQAARQAQDAGENKGGIWRTPLSLRENMVSYLMRL
ATIAHDQPTRGIYVSRALGLLQNIVGPSGWTDVTVGLRFFSRALEQTELSDATLLQALSAAKVLHVVSKEQPDSW
YLSNAVLLEKLVQKGLLYDDANLQDALYPIFDKLVTLFPLPEAAPSAGDTEHAAFHQYIHDALGENLLNSPSLRG
SLLMLKSVISVTPERLNTLSTPLMKLLSKLAKDHIHSTPNTPAFDSNVRLITAILDISRNNVTFLGEQRRWLLTA
LVILIEKSKSIPLCKYILELSRTWAMNRQDPYPTAKEKASLLQKMAHFEGRGEPLFTSYLELIYDVYTEPALRRS
DLTTRLENSFLIGCRARDTALRERFMDLLDVSVSRSVFNRLTYVLGVQNWEALADHNWIYLALHLILGAVDLQHS
SAYDRRLSANTTQQIQRPLVQNIVRPMQRLLFLDPQVAHDTWVSVFPAVWSSLSRREQADITNHMINLLSKDYHI
KQSSLRPNVVQSLLAGIHRCSPPMTLPPHLVKYLAKTFGCWHIGLEILGDALDYLKDDDPALRDYVYDSLAEIYA
ELAEEDMFYGLWRRRSVIPDTNVGLAFEQVGMWEQASSVYEAAQTKVKAGNLPFNELEYCLWEDHWVLATEKLQH
WDILYDFAKSEGNQELMLESAWRTLEWAGHKEELDEQIAQLPDVATPRRRVFEAFIALLKQPAAIDKNVDFTRFL
EDAMQLSLRKWVGLPQHFSVAHIPLLQHFQQFVELQEAVQIFGSLSQTNAQNLEKKSSELKMVLQAWRERLPNVY
DDINIWSDLVAWRQNVFHSINLAYVPLIENLAQSAPGGNQNTNTYGYRGYHETAWIINRFAHVARKHGLLDVCFT
YLNKIYTLPNIEISEAFLKLREQARCHYQKPSDLQIGLEVINNTNLMFFTAAQKAEFHTLKGMFYARLGRLDEAS
AAFGQAVQLDMTQAKVWAEWGRYNDQRFKENPADLTLAASAVSCYLQAAGLYKCGKSRPLLMRVLYLLSLDNDAL
IIGRSFDGYKGDAAFWYWIALVPQLCVSLSHKENKPARYILLNLAKHFPQGIFYHLRTTREELQVVKKAIAAKAA
QQQALEASRRASVDASGDVAMADGTGTPSTEGNPPPAQTPAISTPAQPQAQPQNPPQPRASPAPPAVGGSEATRA
AWEYVDEILQILKTAFPLLILSLETVVDQIQHKFKPQPEEEVYRNVCMLMQDAIQNYVLRANAQEDDGQLTPNTV
AMLSRMAVNMPNFIRKDYEEDFITSKPDYSQYMQRLRQWRDRFEKTLDARPQHQPLALLSHYLTEFQYSKVDEIE
VPGQYTEDKDSNQSFVRIQKFAPKFETVRSNGAYWKRFTLIGNDHSKTSFIVQLPCHRQWRREERVIQLLRTLNC
TLVRKKESRRRNLAFHLPAVVSLSPAVRLFQTDSSYISFGDIYDLHCEEKGIAKEMPILYSGEKVKQVLRQWQMV
PNKILSKTEYITLKKDIFDEIASKMVPDTVISNYMVRTMDGPVELWRMRKQFTLQLATCSFMTYVFSISSRNPSR
YQVSRATGLIAMTDLLPGLATHLPVFATTDTVPFRFTPNLQHFVGPVFTDGILATGIMSVGQALTEPEFDLEYHL
CLFSRDEVGAWMGMRGKPFNIDQIFRQSMIANMDNVVKKAEAMACKLERENSQQPNVVPNNVVYQTVINQISTAT
NPISLAKMGELYQPWF
Length 3541

Coding

Sequence id CopciAB_444527.T0
Sequence >CopciAB_444527.T0
ATGTCCACTAATACCGCCTCAGAGGCTGGTCCTTCCTCGGGCTCCTCTGACTTTGAAAACAGAGTTGCACGCATT
GCTGACCCTAATACCGATCTCAAAACTAAACATGCTGTCGCTTTGGAGATAAAGGAGCTAATTGACACAACAAGG
GACTCTGAATTTGGTCGAGTCCTCCCCTACCTAGTCCCGACCCTCATTGACCTACTTCGTTCTGGACAACCCTCA
TTCCAACGAGACACAACGGAATACCAGTTCAGGCGACTACTTCTCGACATCCTCAACAGAATACCGAGTGGGGAG
GCCATTCGACCGCACATGCCTTCCGTCTTCCAATGCATGATTGCCATAGTTCGTCAAGACAATGAAGAGAACGGC
GCCACAGCCTGCAAAACCATGGTCGACGTAGTTCGGTCCTATAGAATCGTAACAGAACAAGGCCTCGCCGACTTT
ATCGCTTTATTTCAAGAGTCATTCGCCAACATCAAAGGAATGGTCGAAGAATATCTTTCGGAAGACTCGACACAA
CTCGATCCCAACACCATTCTACCTGCGACACGCAGTTTGAAGGTTCTCGGGGAAATGGGAATGATTATGATTATC
ATGTCCCAAGTTCAACGCGCTATGGTATCCCCCTCTATACAAGGCACCATTGCACCGGCATTTGAAATGCTTGCC
CAAGAATCAAGCGCCCAACACAAGGCACGAACCGACTTCGAGGCGATGGGCGGAATTTGGGCAGGGATGGCACCG
ACAATCAAAAATCCGACCATCTACAACGACCTTATTCAAGCGCAAATCAAGATGCTTTCGTATCTCGCCTTTGTG
ATGCGCTACCTGAATGAAACTGAAGCTTCCTACGGAGAAACGTTGGTGTCCAGTGCCCTAAGAATCTTGCAAGAT
TGTCCTTCCAATGGAAATACGCTACGAAAGGAACTCATGGTCGTGTTCCGCCATCTTCTCGCCACACCCCATAGA
CGGGCTTTACTTGGCCACATCGACAAGCTACTTGACGAGAAGGTTCTTCTAGGAACCGGTCTGGCCAGCAAAGAT
TCTCTCAGGCCAATGGTGTATTCTGCGGTTGCAGACTTAATCCACAACGTCAAAAGCGACCTCACCTTCCCGCAA
ATCGTCCGCATTGTTCACGTATACTCAGCGCTCCTCTTCAACACCTCATTGGGCTTCAACCTCCACATCCTCTTT
GCTAAAGTTATCTTTGGCCTCACTGACGCCATAGTAGCGAAGGAGGTGCCCCAGACAGCCGCCAAGTTGTTATCC
TCCATGCTCGAAACCTGCCTGGAACGACTTGAAGGCTTATGCACGGTCCAGGCAGACGTGAGCCAGGCACTGGAA
CGAATACGGTCTGGCAGCCAGGAGGTGACGGTCGATACATTATTCATCGAAAAGTCAAGACCTGTCGGTGGTGCT
TTGTATGCATTGGAGAAGCCAGAGGATGTGATGCTAGAATGTAGACAACTCTACCGCGCCCTGTTACACGGTTTG
CGGGTCACCATTGTCTGCATGAAGAAGTGCGATGCTCCGGTACCCGATGGGAAATTGGTCTTTCGTTTGTTCGAG
GGATGCGTCCGGTGCATGTCCTTGTATGACGCCGATCCTCGGGTCAATGAGCAGAACGATGTCATCGACTGGTTC
GGCCATACGCTCCTCGAACTCAACTTGCACGTATTCCAAGAGGTTTGGACCCATAAGATGGGCTTCTTTTTCGAG
CATGCGCAGAAGCGGATCGTCCTCCTCACCGTCTGCCAGTTCTTGTTCAATCGGGAGTCGACTACCTCTATCCTC
TTGGGCATCGTTCTCAAATACCTTGTTGGACGCCTTCCATTACTGGGGGAATACGACGACATTACTGCGGCGGCC
ACCATCCGATTGTTCAAGATGGCGTTCAATGCAGTCACCACATACCCACATACCAACGAATCCATCCTCGCCTCC
CACCTACCAAAGTTGCTGATGGACTGCTTCCCTTTGGCAGCAAAGGCTTCGAAACCAACACATTACTTCTACCTC
CTTCGTGCTCTCTTCCGAGCGATAGGCGTAGGTGGCGGCCGGTTCGAATTACTTTACAGCGCAGTTCTACCCCTC
CTCCCGGAGTTGCTGGAGAGTTTGAACCGGCAACTACTCGCTTCGGAGGGTCAAACAAGGGACATGATCGTCGAA
CTCTGTCTCACTGTTCCACTACGACTCACCCACCTACTTCCCCATCTATCCTACCTCATGCAACCTCTTGCTCTT
GCCTTGCGCGGGGGCTTCGAGCTTGCTTCCCAAGGCCTTAGAACTTTGGAATTGTGCATCGACAACTTGACTCCA
GACTTTCTGGATCCGACTTTGAGCGTCGTCCTCCGGGAATTGATGGAGGCTCTTTTCAGCCACTTGAAGCCGGCA
CCACAAAGTCACCACCTCGCACACACGACCATTCGCATTCTCGGGAAGCTTGGTGGAAGGAACCGCCGCCTTCTA
TTCAAGGAGCCCGCCTTGATCTACCATCACCCATCGGAGCCGGCGAAAATGGTGATCTCGTTCAACGGCAATGAG
GAGAAGATCCTTTTGGGACCCATCTGCAAACTAGCTATTACCACCTTGGCCAAATCGCCACCGGCGGACCAGATG
CATGCCTACAGCTTCCTAGAGAACTGTGCATCGTTATTTCTGTACGAGGGTATCAAGGGACGCAACGTCGAGGAC
TTCTTTGTCCGGACGGTTGAAGGAATATTCGACAGCATTTACATTCCTACCATCCAGAATGAAGCTGAGAGCTAT
TTGCGAAAGCTCGCCTCGACGGTTTTCGAGAATGAGATCCGCCGCAACCAGTCTCGCGAAGTCGGGGCGAGGCCC
ACTCCAAGTCCAGTACTCAACAGCTTCTTGGAGGCAATTCCTCACGGACTCGCACGAGAGCAACCGGCGCAATGC
GAGCGAGCGAAAGAGGTAGTGGCCATCCTCATCAACGATCTCATAGAGATGCGGACCCGCCCCAACATTGGGCTT
CAAGGCATCTTCCCCCTCCTTCATTCCCTTGCCAACCGGTTCACAGGGCTCTGCCTTGACGAATCATGGATCCGC
AAAGCCGCTGGTTGCAACGGAATCAAGCTCATGCTCAACGCGCCCGTTGTTGCCCAGAAATGGGTATCCGATCGG
GAAATCGAACTCGTTCGAAACCTCATGCACGCCTTGAAGGACCTTCCATACGACCTTCCCCGCGATGTTGAAGAT
GTTATTGAAACACTCCTCGACGTGCTGCGACTCAGCAACTCTAGTCTGGACTTCACAGGCGACGGTGCAGCTCAT
GCTCGCAACAAGATCGTCCACCTCGCTGGCATGTTCTTCCCAGAATTCCAGAGTTCGAACAGAATCATCCGCGAT
GCCGCCCAACGATGCATCAACTACATGGTCACATTGTCGGGTCGCACTCCAGGAGAACTCTTCTTACCTCACCGT
GAACGGATGCTTGCTGGCGTATACACCAAACCCCTCCGCGCGTTGCCGTTCCTTAAGCAGATCGGGATCATGGAA
TCTATGCGGTACTGCCTGAAGCTCGAGCCTCAGGTGATTGACGCAAGCGAAGAACTGCTTCGGCTTTTGCATGAG
GCGCTGGCGCTGGCGGATGCTGAAGATGTGCAGCTCGTTGGTCCGAGAACGACACGATCGAGTGCACTCGAAATC
TTGAAGCTTCGGGAATCCTGCATCAAACTCCTCACTGCAGCCATGCCAATAACAGACTTCTTCGGAAAGATCCCA
CATACCCGCCAACGTGTCACGAGTGTGTACTTCAAATCGCTCTATTCACCGTCCGCTGAGGTAAAGGAGGCTGCG
CATACCGGCTTGCGAATGGTCCTCGCCCACCAAAACCGCCTGCCGAAAGAGCTCCTTCAGTCTGGATTGCGTCCA
ATCCTTATGAATCTCGCCGACCCGAAAAGGCTGACAGTGTCTGGCCTGGAAGGGCTTGCCCGGGTCCTTTCTCTT
CTAAACAATTATTTCAAAGTCGAGATTGGTCACAAACTTTTGGAGCACTTCAGGGTGGTGGCAGACCCCCAGTCT
CTCCAAGCCACAGCGCGGTTACCATTCTCCGAAACCGAAGGCGTCCCGAAACTAGTCCGCCTTGCCAACATCTTC
CACCTATTACCGAGTGCCGCCAACGTTTTCCTCGACCCTCTCGTCAACCTTATTATTCAAACTGAAACACAAATG
CACTTCTCAACCGTCAACCCGTTCTCAGAACCCCTGGCGAAATATTTGGACCGCTATCCAGTAGAGGGCATCGAC
TTCTTGGTACGGAATCTCCAGCTACCGCGTACGGTTCGCACTTTCCGAAGCGCCCTGCAGGCGAAAGTTTCCCCA
AACCTGGAGCGGGAGTTGGTGTCAAGGACGCCTATCCTTGCTCCCAGATTGTCTGGCGGCGCGGACCAGAACCAG
ATGAGAGCAATTCTGGAAATAATAGACGACCTCATCACACTCGAACCAACATTCCTCTCCCAGCACGCTTATGTC
ACCGACCAGTTGGTAGCCGTGTGGAGGTCATTGGGTTTGACGCCAAATGACGGAAACGACAAAGCGGAAATCACC
TATTGGCATTCAATCATCCAATCTTCCTTCATTAAAGCCATGAAACAGACTCCTCGAATTGACTTGCTCTTCGAG
CTGATCGCCATCTACAGCCGCAATCTCGAAATTGACACGGTCAAGACCACCACCTTCCTCTACCAACATGTCGCT
CTCAGCGAGGACATCATCTTCCGGCGCAATGTCCTCATGCGATTCCTTACCTGGTTCAACGACTCGTCGGTGCCC
CTGGACACGAAGGGCTACTTTATCCGCTACGTGGTGACTCCAACACTCTTAGTCCAGGCAAACCGATCACCTACA
AGCGACCGACTTATCAACCTCGACTTCATCTCTCAACTTCACCGCATCATTTGGTCACCGATCACAGAGAATGAC
GCATTCTTGGGGTCCGAGGAGTACTTCAAGATTGAAATTCTCAACCTCACGACAGTCCTGGTGCAGTATTACTCT
GACTTACTCGACGATGTGAAAAAAGACATCATCCGCTGCGCTTGGGCTCCTATACAAAACAACGATGACGTTCTC
ATCCGGCAAATGGCCTTCCTCCTCCTGGCGCGATTCTTTTCGGTTTTCCCAAGCCCCCCTAAATTTGTCCTTCGA
GCCTGGACGGACCTTTTGCGTTTGCCACACTCTGAAGGTCGTGCTTCGGTCCGATACGAAGCCCTCTCCATTCTT
GCGCCGTCCTTGCCAAAGTCGGATGGCGATGATCCCGAGTTCCCTCAGTGGGCGAAAGCAACTCGACGCCTCTTG
ACTGAGGAAGGTGCCGGCCAAGCATTCGCCATCTACCACCTCATCGTCAAGCAACCCGACCTATTCTACCCCGTT
CGCTCGTTATTCGTACCCCACATGACCAACTCCCTAAACAAACTCGGCATGTCACCATCCTCAACTACGGAATCA
CGACACCTCTCCCTGGACATCCTCCAGACTGTGTTTAATTGGGAGGAGCAAGCAGCTCGACAGGCGCAAGATGCG
GGTGAGAATAAAGGTGGCATATGGCGGACCCCCCTTTCCCTTCGGGAGAATATGGTCAGCTATCTCATGCGCCTT
GCGACTATTGCCCATGACCAGCCCACCAGAGGTATTTATGTCTCCCGAGCGCTGGGTTTGTTGCAAAATATTGTC
GGTCCAAGCGGCTGGACGGACGTCACAGTTGGACTGCGATTCTTTTCCAGGGCTCTGGAGCAGACTGAACTCAGC
GATGCTACTCTGCTACAAGCGTTGTCTGCTGCTAAAGTACTCCATGTTGTCTCCAAGGAACAGCCCGATTCGTGG
TATCTGAGCAATGCCGTTCTCCTCGAAAAACTCGTTCAGAAAGGGTTGCTTTATGATGACGCCAATCTGCAAGAC
GCCTTGTATCCCATTTTTGACAAGCTGGTTACGCTATTCCCCCTTCCTGAAGCTGCTCCCAGTGCAGGCGACACA
GAGCATGCGGCATTCCATCAATATATTCATGATGCCCTTGGGGAGAACCTCCTCAATTCGCCGAGTTTGCGGGGG
TCTCTCCTCATGCTCAAATCCGTCATCTCCGTCACCCCTGAAAGGTTGAACACTCTCTCAACTCCTCTCATGAAG
CTATTGAGCAAGCTCGCAAAGGACCATATCCACTCCACTCCAAACACCCCAGCGTTTGACAGCAATGTCCGCCTC
ATCACCGCCATCCTCGACATTTCCCGCAACAATGTCACATTCCTCGGAGAGCAACGCCGCTGGCTCCTAACCGCA
CTCGTCATCCTTATCGAGAAATCGAAGAGTATCCCCCTGTGCAAATACATCCTCGAACTTTCGCGGACCTGGGCA
ATGAACCGACAGGATCCGTACCCGACGGCGAAGGAAAAGGCGAGCCTTCTCCAAAAGATGGCACACTTCGAAGGC
CGAGGAGAGCCTTTATTCACCTCATATCTCGAACTCATCTATGATGTGTACACTGAACCAGCTCTTCGACGAAGC
GACCTTACAACCCGCCTGGAAAATTCGTTCCTCATTGGTTGCCGGGCAAGGGATACAGCTCTACGCGAAAGGTTC
ATGGACCTTCTTGACGTTAGCGTGTCTAGATCAGTCTTCAATCGACTGACTTACGTCCTTGGCGTGCAGAACTGG
GAAGCCCTCGCTGATCACAATTGGATTTACCTTGCATTGCATCTGATTCTGGGGGCAGTTGATCTGCAGCATTCC
TCGGCCTACGATCGACGGTTGTCAGCGAACACGACGCAGCAAATTCAACGTCCGCTGGTACAAAACATCGTCCGT
CCCATGCAGCGACTCCTCTTCCTCGACCCTCAAGTTGCACATGACACATGGGTATCTGTGTTCCCTGCGGTATGG
TCGTCTCTCTCGCGCAGGGAGCAAGCCGATATCACAAACCACATGATCAACCTCTTGAGCAAGGACTATCACATC
AAGCAATCGTCCTTGCGCCCCAACGTGGTTCAATCCTTACTAGCTGGCATCCATCGTTGCTCACCTCCAATGACC
CTCCCTCCCCATCTCGTCAAATACCTTGCCAAAACCTTTGGGTGCTGGCACATCGGCCTCGAGATCTTAGGCGAC
GCTCTGGATTATCTCAAAGATGACGACCCCGCCCTTCGAGACTATGTCTATGACTCACTTGCGGAAATTTACGCT
GAGCTCGCGGAAGAGGATATGTTCTACGGTCTGTGGCGCCGACGGTCTGTCATACCAGACACAAATGTCGGTTTG
GCCTTCGAACAAGTAGGGATGTGGGAGCAGGCGTCCAGTGTATACGAAGCGGCGCAAACCAAGGTCAAGGCGGGC
AACCTCCCCTTCAACGAACTCGAGTACTGCCTATGGGAGGATCATTGGGTGCTGGCAACAGAAAAACTACAGCAT
TGGGACATTCTATATGACTTTGCGAAGAGCGAAGGGAATCAGGAGTTGATGCTTGAGAGCGCTTGGCGCACGTTG
GAGTGGGCAGGCCACAAGGAAGAGCTGGACGAGCAGATCGCCCAGTTACCCGACGTTGCCACCCCAAGGAGAAGG
GTATTCGAAGCTTTCATTGCGCTACTGAAACAGCCAGCAGCTATCGACAAAAACGTCGACTTTACGCGGTTCCTG
GAAGACGCGATGCAGCTTTCCCTTCGGAAGTGGGTCGGCCTACCGCAACATTTTTCCGTCGCGCACATCCCACTC
CTGCAGCATTTCCAGCAGTTCGTCGAGCTTCAAGAAGCTGTGCAAATCTTTGGCTCTCTCTCTCAAACCAACGCC
CAGAATCTAGAAAAGAAGTCTTCGGAGTTGAAGATGGTCCTTCAGGCCTGGCGCGAACGTCTACCAAACGTGTAC
GATGACATCAATATCTGGAGCGATCTGGTCGCTTGGAGGCAAAACGTCTTCCATTCTATAAATTTGGCATACGTC
CCTCTGATCGAAAACCTTGCTCAATCCGCCCCCGGTGGAAACCAGAACACCAACACCTACGGTTACCGAGGCTAC
CACGAGACTGCTTGGATCATCAACCGTTTCGCTCATGTCGCTCGAAAACATGGATTGTTGGACGTCTGCTTCACC
TATCTCAACAAGATCTATACCCTTCCCAACATCGAAATATCGGAGGCCTTCTTGAAGCTCAGGGAGCAGGCTCGA
TGTCATTATCAGAAGCCCAGCGACCTACAGATCGGCTTAGAAGTCATCAACAACACGAACCTCATGTTCTTCACA
GCGGCCCAAAAAGCAGAGTTCCATACCTTGAAGGGCATGTTCTACGCAAGACTCGGGAGACTCGACGAGGCCAGC
GCTGCTTTTGGTCAGGCTGTTCAGTTGGATATGACACAAGCAAAGGTCTGGGCTGAATGGGGCCGTTATAACGAC
CAGCGATTCAAGGAAAACCCCGCCGATCTCACGCTAGCAGCGAGCGCCGTTAGCTGCTACCTCCAGGCAGCGGGA
TTGTACAAGTGTGGGAAGAGTCGGCCACTCCTGATGCGCGTACTCTATCTCCTCAGTCTCGACAACGACGCTTTG
ATCATCGGTCGAAGCTTCGATGGCTACAAGGGAGACGCCGCATTCTGGTACTGGATCGCGCTTGTTCCACAACTC
TGCGTCTCGCTGTCGCACAAGGAGAACAAGCCCGCGCGATATATTTTGCTCAACCTCGCCAAACATTTCCCTCAG
GGTATCTTTTACCACCTCCGGACGACTCGCGAAGAGCTCCAGGTCGTCAAAAAGGCTATCGCGGCGAAGGCTGCG
CAACAGCAGGCATTGGAGGCTTCTCGTCGTGCAAGCGTGGATGCCAGCGGAGACGTTGCGATGGCCGATGGAACT
GGGACTCCGTCCACAGAGGGCAACCCCCCTCCTGCTCAGACACCGGCCATTTCAACACCGGCTCAGCCCCAAGCA
CAACCTCAGAACCCGCCTCAACCCCGAGCATCGCCTGCACCTCCCGCTGTCGGAGGAAGCGAGGCCACTCGCGCC
GCCTGGGAATATGTCGATGAGATTCTCCAAATTCTGAAAACCGCTTTCCCCCTCCTCATCCTCAGCTTGGAGACC
GTTGTGGACCAAATTCAACACAAATTCAAGCCGCAGCCGGAGGAAGAAGTTTACAGGAATGTATGCATGTTGATG
CAGGATGCAATCCAGAACTACGTCCTTCGCGCCAATGCGCAGGAAGATGATGGGCAACTGACACCTAATACTGTC
GCGATGTTGTCTCGCATGGCAGTGAATATGCCCAACTTCATACGGAAGGACTACGAAGAAGATTTCATTACCAGC
AAACCGGATTACAGCCAATACATGCAGCGACTTCGGCAATGGAGGGATAGATTCGAAAAGACCCTGGATGCTAGA
CCGCAACACCAACCCCTCGCTCTCCTGAGCCACTACTTGACGGAGTTCCAATACAGCAAAGTGGATGAGATCGAA
GTACCAGGGCAATACACCGAGGACAAGGACTCGAACCAATCGTTTGTTCGAATTCAGAAGTTTGCCCCAAAATTC
GAAACCGTTCGCTCCAACGGCGCCTATTGGAAACGCTTTACACTCATTGGCAACGACCACTCCAAGACGTCCTTC
ATCGTGCAACTTCCATGCCATCGTCAGTGGCGTCGCGAAGAACGGGTGATTCAATTACTGAGGACCTTGAATTGT
ACCCTCGTGCGTAAGAAAGAGAGCCGAAGGCGAAACCTGGCTTTCCATCTACCCGCTGTTGTGTCTTTGAGTCCC
GCAGTCAGGCTGTTCCAGACCGACTCTTCGTATATATCCTTCGGGGACATCTACGACCTTCACTGCGAAGAGAAA
GGTATTGCAAAGGAGATGCCTATCCTTTACTCCGGTGAGAAGGTCAAACAGGTCCTACGTCAGTGGCAAATGGTG
CCCAACAAGATTCTATCAAAAACGGAGTACATCACTCTCAAGAAGGATATTTTCGATGAAATCGCCTCTAAGATG
GTGCCCGACACCGTCATTAGCAACTACATGGTTCGCACCATGGACGGGCCCGTGGAGTTGTGGCGGATGCGCAAA
CAGTTCACTCTTCAGCTGGCGACTTGCAGTTTCATGACATATGTTTTCTCGATTTCGAGTCGAAACCCAAGTCGT
TATCAAGTTTCGCGTGCTACCGGCCTGATTGCCATGACAGACTTGCTCCCGGGTCTTGCGACGCATCTTCCTGTC
TTTGCTACCACGGATACCGTTCCCTTCCGATTCACTCCCAATCTGCAGCACTTCGTTGGACCCGTGTTCACAGAT
GGAATCCTTGCGACTGGTATTATGTCCGTCGGACAGGCACTGACAGAGCCAGAATTCGACCTCGAGTATCACCTC
TGCTTGTTCAGTAGAGATGAAGTGGGCGCCTGGATGGGAATGAGGGGCAAGCCTTTCAATATCGATCAAATCTTC
CGCCAGAGCATGATTGCGAACATGGACAATGTCGTCAAGAAGGCGGAAGCCATGGCGTGCAAACTTGAGAGAGAA
AACTCACAGCAACCCAACGTCGTCCCCAACAACGTTGTATACCAGACAGTGATTAACCAGATCTCTACCGCTACC
AACCCGATCTCGTTGGCAAAAATGGGAGAGCTGTATCAACCATGGTTCTAA
Length 10626

Transcript

Sequence id CopciAB_444527.T0
Sequence >CopciAB_444527.T0
AACCAGACCGCAGACACACCTGCCGCTACCCTGGAGAATTCTCTCTGCTCTTTGGGCGAGCGAAATGTCCACTAA
TACCGCCTCAGAGGCTGGTCCTTCCTCGGGCTCCTCTGACTTTGAAAACAGAGTTGCACGCATTGCTGACCCTAA
TACCGATCTCAAAACTAAACATGCTGTCGCTTTGGAGATAAAGGAGCTAATTGACACAACAAGGGACTCTGAATT
TGGTCGAGTCCTCCCCTACCTAGTCCCGACCCTCATTGACCTACTTCGTTCTGGACAACCCTCATTCCAACGAGA
CACAACGGAATACCAGTTCAGGCGACTACTTCTCGACATCCTCAACAGAATACCGAGTGGGGAGGCCATTCGACC
GCACATGCCTTCCGTCTTCCAATGCATGATTGCCATAGTTCGTCAAGACAATGAAGAGAACGGCGCCACAGCCTG
CAAAACCATGGTCGACGTAGTTCGGTCCTATAGAATCGTAACAGAACAAGGCCTCGCCGACTTTATCGCTTTATT
TCAAGAGTCATTCGCCAACATCAAAGGAATGGTCGAAGAATATCTTTCGGAAGACTCGACACAACTCGATCCCAA
CACCATTCTACCTGCGACACGCAGTTTGAAGGTTCTCGGGGAAATGGGAATGATTATGATTATCATGTCCCAAGT
TCAACGCGCTATGGTATCCCCCTCTATACAAGGCACCATTGCACCGGCATTTGAAATGCTTGCCCAAGAATCAAG
CGCCCAACACAAGGCACGAACCGACTTCGAGGCGATGGGCGGAATTTGGGCAGGGATGGCACCGACAATCAAAAA
TCCGACCATCTACAACGACCTTATTCAAGCGCAAATCAAGATGCTTTCGTATCTCGCCTTTGTGATGCGCTACCT
GAATGAAACTGAAGCTTCCTACGGAGAAACGTTGGTGTCCAGTGCCCTAAGAATCTTGCAAGATTGTCCTTCCAA
TGGAAATACGCTACGAAAGGAACTCATGGTCGTGTTCCGCCATCTTCTCGCCACACCCCATAGACGGGCTTTACT
TGGCCACATCGACAAGCTACTTGACGAGAAGGTTCTTCTAGGAACCGGTCTGGCCAGCAAAGATTCTCTCAGGCC
AATGGTGTATTCTGCGGTTGCAGACTTAATCCACAACGTCAAAAGCGACCTCACCTTCCCGCAAATCGTCCGCAT
TGTTCACGTATACTCAGCGCTCCTCTTCAACACCTCATTGGGCTTCAACCTCCACATCCTCTTTGCTAAAGTTAT
CTTTGGCCTCACTGACGCCATAGTAGCGAAGGAGGTGCCCCAGACAGCCGCCAAGTTGTTATCCTCCATGCTCGA
AACCTGCCTGGAACGACTTGAAGGCTTATGCACGGTCCAGGCAGACGTGAGCCAGGCACTGGAACGAATACGGTC
TGGCAGCCAGGAGGTGACGGTCGATACATTATTCATCGAAAAGTCAAGACCTGTCGGTGGTGCTTTGTATGCATT
GGAGAAGCCAGAGGATGTGATGCTAGAATGTAGACAACTCTACCGCGCCCTGTTACACGGTTTGCGGGTCACCAT
TGTCTGCATGAAGAAGTGCGATGCTCCGGTACCCGATGGGAAATTGGTCTTTCGTTTGTTCGAGGGATGCGTCCG
GTGCATGTCCTTGTATGACGCCGATCCTCGGGTCAATGAGCAGAACGATGTCATCGACTGGTTCGGCCATACGCT
CCTCGAACTCAACTTGCACGTATTCCAAGAGGTTTGGACCCATAAGATGGGCTTCTTTTTCGAGCATGCGCAGAA
GCGGATCGTCCTCCTCACCGTCTGCCAGTTCTTGTTCAATCGGGAGTCGACTACCTCTATCCTCTTGGGCATCGT
TCTCAAATACCTTGTTGGACGCCTTCCATTACTGGGGGAATACGACGACATTACTGCGGCGGCCACCATCCGATT
GTTCAAGATGGCGTTCAATGCAGTCACCACATACCCACATACCAACGAATCCATCCTCGCCTCCCACCTACCAAA
GTTGCTGATGGACTGCTTCCCTTTGGCAGCAAAGGCTTCGAAACCAACACATTACTTCTACCTCCTTCGTGCTCT
CTTCCGAGCGATAGGCGTAGGTGGCGGCCGGTTCGAATTACTTTACAGCGCAGTTCTACCCCTCCTCCCGGAGTT
GCTGGAGAGTTTGAACCGGCAACTACTCGCTTCGGAGGGTCAAACAAGGGACATGATCGTCGAACTCTGTCTCAC
TGTTCCACTACGACTCACCCACCTACTTCCCCATCTATCCTACCTCATGCAACCTCTTGCTCTTGCCTTGCGCGG
GGGCTTCGAGCTTGCTTCCCAAGGCCTTAGAACTTTGGAATTGTGCATCGACAACTTGACTCCAGACTTTCTGGA
TCCGACTTTGAGCGTCGTCCTCCGGGAATTGATGGAGGCTCTTTTCAGCCACTTGAAGCCGGCACCACAAAGTCA
CCACCTCGCACACACGACCATTCGCATTCTCGGGAAGCTTGGTGGAAGGAACCGCCGCCTTCTATTCAAGGAGCC
CGCCTTGATCTACCATCACCCATCGGAGCCGGCGAAAATGGTGATCTCGTTCAACGGCAATGAGGAGAAGATCCT
TTTGGGACCCATCTGCAAACTAGCTATTACCACCTTGGCCAAATCGCCACCGGCGGACCAGATGCATGCCTACAG
CTTCCTAGAGAACTGTGCATCGTTATTTCTGTACGAGGGTATCAAGGGACGCAACGTCGAGGACTTCTTTGTCCG
GACGGTTGAAGGAATATTCGACAGCATTTACATTCCTACCATCCAGAATGAAGCTGAGAGCTATTTGCGAAAGCT
CGCCTCGACGGTTTTCGAGAATGAGATCCGCCGCAACCAGTCTCGCGAAGTCGGGGCGAGGCCCACTCCAAGTCC
AGTACTCAACAGCTTCTTGGAGGCAATTCCTCACGGACTCGCACGAGAGCAACCGGCGCAATGCGAGCGAGCGAA
AGAGGTAGTGGCCATCCTCATCAACGATCTCATAGAGATGCGGACCCGCCCCAACATTGGGCTTCAAGGCATCTT
CCCCCTCCTTCATTCCCTTGCCAACCGGTTCACAGGGCTCTGCCTTGACGAATCATGGATCCGCAAAGCCGCTGG
TTGCAACGGAATCAAGCTCATGCTCAACGCGCCCGTTGTTGCCCAGAAATGGGTATCCGATCGGGAAATCGAACT
CGTTCGAAACCTCATGCACGCCTTGAAGGACCTTCCATACGACCTTCCCCGCGATGTTGAAGATGTTATTGAAAC
ACTCCTCGACGTGCTGCGACTCAGCAACTCTAGTCTGGACTTCACAGGCGACGGTGCAGCTCATGCTCGCAACAA
GATCGTCCACCTCGCTGGCATGTTCTTCCCAGAATTCCAGAGTTCGAACAGAATCATCCGCGATGCCGCCCAACG
ATGCATCAACTACATGGTCACATTGTCGGGTCGCACTCCAGGAGAACTCTTCTTACCTCACCGTGAACGGATGCT
TGCTGGCGTATACACCAAACCCCTCCGCGCGTTGCCGTTCCTTAAGCAGATCGGGATCATGGAATCTATGCGGTA
CTGCCTGAAGCTCGAGCCTCAGGTGATTGACGCAAGCGAAGAACTGCTTCGGCTTTTGCATGAGGCGCTGGCGCT
GGCGGATGCTGAAGATGTGCAGCTCGTTGGTCCGAGAACGACACGATCGAGTGCACTCGAAATCTTGAAGCTTCG
GGAATCCTGCATCAAACTCCTCACTGCAGCCATGCCAATAACAGACTTCTTCGGAAAGATCCCACATACCCGCCA
ACGTGTCACGAGTGTGTACTTCAAATCGCTCTATTCACCGTCCGCTGAGGTAAAGGAGGCTGCGCATACCGGCTT
GCGAATGGTCCTCGCCCACCAAAACCGCCTGCCGAAAGAGCTCCTTCAGTCTGGATTGCGTCCAATCCTTATGAA
TCTCGCCGACCCGAAAAGGCTGACAGTGTCTGGCCTGGAAGGGCTTGCCCGGGTCCTTTCTCTTCTAAACAATTA
TTTCAAAGTCGAGATTGGTCACAAACTTTTGGAGCACTTCAGGGTGGTGGCAGACCCCCAGTCTCTCCAAGCCAC
AGCGCGGTTACCATTCTCCGAAACCGAAGGCGTCCCGAAACTAGTCCGCCTTGCCAACATCTTCCACCTATTACC
GAGTGCCGCCAACGTTTTCCTCGACCCTCTCGTCAACCTTATTATTCAAACTGAAACACAAATGCACTTCTCAAC
CGTCAACCCGTTCTCAGAACCCCTGGCGAAATATTTGGACCGCTATCCAGTAGAGGGCATCGACTTCTTGGTACG
GAATCTCCAGCTACCGCGTACGGTTCGCACTTTCCGAAGCGCCCTGCAGGCGAAAGTTTCCCCAAACCTGGAGCG
GGAGTTGGTGTCAAGGACGCCTATCCTTGCTCCCAGATTGTCTGGCGGCGCGGACCAGAACCAGATGAGAGCAAT
TCTGGAAATAATAGACGACCTCATCACACTCGAACCAACATTCCTCTCCCAGCACGCTTATGTCACCGACCAGTT
GGTAGCCGTGTGGAGGTCATTGGGTTTGACGCCAAATGACGGAAACGACAAAGCGGAAATCACCTATTGGCATTC
AATCATCCAATCTTCCTTCATTAAAGCCATGAAACAGACTCCTCGAATTGACTTGCTCTTCGAGCTGATCGCCAT
CTACAGCCGCAATCTCGAAATTGACACGGTCAAGACCACCACCTTCCTCTACCAACATGTCGCTCTCAGCGAGGA
CATCATCTTCCGGCGCAATGTCCTCATGCGATTCCTTACCTGGTTCAACGACTCGTCGGTGCCCCTGGACACGAA
GGGCTACTTTATCCGCTACGTGGTGACTCCAACACTCTTAGTCCAGGCAAACCGATCACCTACAAGCGACCGACT
TATCAACCTCGACTTCATCTCTCAACTTCACCGCATCATTTGGTCACCGATCACAGAGAATGACGCATTCTTGGG
GTCCGAGGAGTACTTCAAGATTGAAATTCTCAACCTCACGACAGTCCTGGTGCAGTATTACTCTGACTTACTCGA
CGATGTGAAAAAAGACATCATCCGCTGCGCTTGGGCTCCTATACAAAACAACGATGACGTTCTCATCCGGCAAAT
GGCCTTCCTCCTCCTGGCGCGATTCTTTTCGGTTTTCCCAAGCCCCCCTAAATTTGTCCTTCGAGCCTGGACGGA
CCTTTTGCGTTTGCCACACTCTGAAGGTCGTGCTTCGGTCCGATACGAAGCCCTCTCCATTCTTGCGCCGTCCTT
GCCAAAGTCGGATGGCGATGATCCCGAGTTCCCTCAGTGGGCGAAAGCAACTCGACGCCTCTTGACTGAGGAAGG
TGCCGGCCAAGCATTCGCCATCTACCACCTCATCGTCAAGCAACCCGACCTATTCTACCCCGTTCGCTCGTTATT
CGTACCCCACATGACCAACTCCCTAAACAAACTCGGCATGTCACCATCCTCAACTACGGAATCACGACACCTCTC
CCTGGACATCCTCCAGACTGTGTTTAATTGGGAGGAGCAAGCAGCTCGACAGGCGCAAGATGCGGGTGAGAATAA
AGGTGGCATATGGCGGACCCCCCTTTCCCTTCGGGAGAATATGGTCAGCTATCTCATGCGCCTTGCGACTATTGC
CCATGACCAGCCCACCAGAGGTATTTATGTCTCCCGAGCGCTGGGTTTGTTGCAAAATATTGTCGGTCCAAGCGG
CTGGACGGACGTCACAGTTGGACTGCGATTCTTTTCCAGGGCTCTGGAGCAGACTGAACTCAGCGATGCTACTCT
GCTACAAGCGTTGTCTGCTGCTAAAGTACTCCATGTTGTCTCCAAGGAACAGCCCGATTCGTGGTATCTGAGCAA
TGCCGTTCTCCTCGAAAAACTCGTTCAGAAAGGGTTGCTTTATGATGACGCCAATCTGCAAGACGCCTTGTATCC
CATTTTTGACAAGCTGGTTACGCTATTCCCCCTTCCTGAAGCTGCTCCCAGTGCAGGCGACACAGAGCATGCGGC
ATTCCATCAATATATTCATGATGCCCTTGGGGAGAACCTCCTCAATTCGCCGAGTTTGCGGGGGTCTCTCCTCAT
GCTCAAATCCGTCATCTCCGTCACCCCTGAAAGGTTGAACACTCTCTCAACTCCTCTCATGAAGCTATTGAGCAA
GCTCGCAAAGGACCATATCCACTCCACTCCAAACACCCCAGCGTTTGACAGCAATGTCCGCCTCATCACCGCCAT
CCTCGACATTTCCCGCAACAATGTCACATTCCTCGGAGAGCAACGCCGCTGGCTCCTAACCGCACTCGTCATCCT
TATCGAGAAATCGAAGAGTATCCCCCTGTGCAAATACATCCTCGAACTTTCGCGGACCTGGGCAATGAACCGACA
GGATCCGTACCCGACGGCGAAGGAAAAGGCGAGCCTTCTCCAAAAGATGGCACACTTCGAAGGCCGAGGAGAGCC
TTTATTCACCTCATATCTCGAACTCATCTATGATGTGTACACTGAACCAGCTCTTCGACGAAGCGACCTTACAAC
CCGCCTGGAAAATTCGTTCCTCATTGGTTGCCGGGCAAGGGATACAGCTCTACGCGAAAGGTTCATGGACCTTCT
TGACGTTAGCGTGTCTAGATCAGTCTTCAATCGACTGACTTACGTCCTTGGCGTGCAGAACTGGGAAGCCCTCGC
TGATCACAATTGGATTTACCTTGCATTGCATCTGATTCTGGGGGCAGTTGATCTGCAGCATTCCTCGGCCTACGA
TCGACGGTTGTCAGCGAACACGACGCAGCAAATTCAACGTCCGCTGGTACAAAACATCGTCCGTCCCATGCAGCG
ACTCCTCTTCCTCGACCCTCAAGTTGCACATGACACATGGGTATCTGTGTTCCCTGCGGTATGGTCGTCTCTCTC
GCGCAGGGAGCAAGCCGATATCACAAACCACATGATCAACCTCTTGAGCAAGGACTATCACATCAAGCAATCGTC
CTTGCGCCCCAACGTGGTTCAATCCTTACTAGCTGGCATCCATCGTTGCTCACCTCCAATGACCCTCCCTCCCCA
TCTCGTCAAATACCTTGCCAAAACCTTTGGGTGCTGGCACATCGGCCTCGAGATCTTAGGCGACGCTCTGGATTA
TCTCAAAGATGACGACCCCGCCCTTCGAGACTATGTCTATGACTCACTTGCGGAAATTTACGCTGAGCTCGCGGA
AGAGGATATGTTCTACGGTCTGTGGCGCCGACGGTCTGTCATACCAGACACAAATGTCGGTTTGGCCTTCGAACA
AGTAGGGATGTGGGAGCAGGCGTCCAGTGTATACGAAGCGGCGCAAACCAAGGTCAAGGCGGGCAACCTCCCCTT
CAACGAACTCGAGTACTGCCTATGGGAGGATCATTGGGTGCTGGCAACAGAAAAACTACAGCATTGGGACATTCT
ATATGACTTTGCGAAGAGCGAAGGGAATCAGGAGTTGATGCTTGAGAGCGCTTGGCGCACGTTGGAGTGGGCAGG
CCACAAGGAAGAGCTGGACGAGCAGATCGCCCAGTTACCCGACGTTGCCACCCCAAGGAGAAGGGTATTCGAAGC
TTTCATTGCGCTACTGAAACAGCCAGCAGCTATCGACAAAAACGTCGACTTTACGCGGTTCCTGGAAGACGCGAT
GCAGCTTTCCCTTCGGAAGTGGGTCGGCCTACCGCAACATTTTTCCGTCGCGCACATCCCACTCCTGCAGCATTT
CCAGCAGTTCGTCGAGCTTCAAGAAGCTGTGCAAATCTTTGGCTCTCTCTCTCAAACCAACGCCCAGAATCTAGA
AAAGAAGTCTTCGGAGTTGAAGATGGTCCTTCAGGCCTGGCGCGAACGTCTACCAAACGTGTACGATGACATCAA
TATCTGGAGCGATCTGGTCGCTTGGAGGCAAAACGTCTTCCATTCTATAAATTTGGCATACGTCCCTCTGATCGA
AAACCTTGCTCAATCCGCCCCCGGTGGAAACCAGAACACCAACACCTACGGTTACCGAGGCTACCACGAGACTGC
TTGGATCATCAACCGTTTCGCTCATGTCGCTCGAAAACATGGATTGTTGGACGTCTGCTTCACCTATCTCAACAA
GATCTATACCCTTCCCAACATCGAAATATCGGAGGCCTTCTTGAAGCTCAGGGAGCAGGCTCGATGTCATTATCA
GAAGCCCAGCGACCTACAGATCGGCTTAGAAGTCATCAACAACACGAACCTCATGTTCTTCACAGCGGCCCAAAA
AGCAGAGTTCCATACCTTGAAGGGCATGTTCTACGCAAGACTCGGGAGACTCGACGAGGCCAGCGCTGCTTTTGG
TCAGGCTGTTCAGTTGGATATGACACAAGCAAAGGTCTGGGCTGAATGGGGCCGTTATAACGACCAGCGATTCAA
GGAAAACCCCGCCGATCTCACGCTAGCAGCGAGCGCCGTTAGCTGCTACCTCCAGGCAGCGGGATTGTACAAGTG
TGGGAAGAGTCGGCCACTCCTGATGCGCGTACTCTATCTCCTCAGTCTCGACAACGACGCTTTGATCATCGGTCG
AAGCTTCGATGGCTACAAGGGAGACGCCGCATTCTGGTACTGGATCGCGCTTGTTCCACAACTCTGCGTCTCGCT
GTCGCACAAGGAGAACAAGCCCGCGCGATATATTTTGCTCAACCTCGCCAAACATTTCCCTCAGGGTATCTTTTA
CCACCTCCGGACGACTCGCGAAGAGCTCCAGGTCGTCAAAAAGGCTATCGCGGCGAAGGCTGCGCAACAGCAGGC
ATTGGAGGCTTCTCGTCGTGCAAGCGTGGATGCCAGCGGAGACGTTGCGATGGCCGATGGAACTGGGACTCCGTC
CACAGAGGGCAACCCCCCTCCTGCTCAGACACCGGCCATTTCAACACCGGCTCAGCCCCAAGCACAACCTCAGAA
CCCGCCTCAACCCCGAGCATCGCCTGCACCTCCCGCTGTCGGAGGAAGCGAGGCCACTCGCGCCGCCTGGGAATA
TGTCGATGAGATTCTCCAAATTCTGAAAACCGCTTTCCCCCTCCTCATCCTCAGCTTGGAGACCGTTGTGGACCA
AATTCAACACAAATTCAAGCCGCAGCCGGAGGAAGAAGTTTACAGGAATGTATGCATGTTGATGCAGGATGCAAT
CCAGAACTACGTCCTTCGCGCCAATGCGCAGGAAGATGATGGGCAACTGACACCTAATACTGTCGCGATGTTGTC
TCGCATGGCAGTGAATATGCCCAACTTCATACGGAAGGACTACGAAGAAGATTTCATTACCAGCAAACCGGATTA
CAGCCAATACATGCAGCGACTTCGGCAATGGAGGGATAGATTCGAAAAGACCCTGGATGCTAGACCGCAACACCA
ACCCCTCGCTCTCCTGAGCCACTACTTGACGGAGTTCCAATACAGCAAAGTGGATGAGATCGAAGTACCAGGGCA
ATACACCGAGGACAAGGACTCGAACCAATCGTTTGTTCGAATTCAGAAGTTTGCCCCAAAATTCGAAACCGTTCG
CTCCAACGGCGCCTATTGGAAACGCTTTACACTCATTGGCAACGACCACTCCAAGACGTCCTTCATCGTGCAACT
TCCATGCCATCGTCAGTGGCGTCGCGAAGAACGGGTGATTCAATTACTGAGGACCTTGAATTGTACCCTCGTGCG
TAAGAAAGAGAGCCGAAGGCGAAACCTGGCTTTCCATCTACCCGCTGTTGTGTCTTTGAGTCCCGCAGTCAGGCT
GTTCCAGACCGACTCTTCGTATATATCCTTCGGGGACATCTACGACCTTCACTGCGAAGAGAAAGGTATTGCAAA
GGAGATGCCTATCCTTTACTCCGGTGAGAAGGTCAAACAGGTCCTACGTCAGTGGCAAATGGTGCCCAACAAGAT
TCTATCAAAAACGGAGTACATCACTCTCAAGAAGGATATTTTCGATGAAATCGCCTCTAAGATGGTGCCCGACAC
CGTCATTAGCAACTACATGGTTCGCACCATGGACGGGCCCGTGGAGTTGTGGCGGATGCGCAAACAGTTCACTCT
TCAGCTGGCGACTTGCAGTTTCATGACATATGTTTTCTCGATTTCGAGTCGAAACCCAAGTCGTTATCAAGTTTC
GCGTGCTACCGGCCTGATTGCCATGACAGACTTGCTCCCGGGTCTTGCGACGCATCTTCCTGTCTTTGCTACCAC
GGATACCGTTCCCTTCCGATTCACTCCCAATCTGCAGCACTTCGTTGGACCCGTGTTCACAGATGGAATCCTTGC
GACTGGTATTATGTCCGTCGGACAGGCACTGACAGAGCCAGAATTCGACCTCGAGTATCACCTCTGCTTGTTCAG
TAGAGATGAAGTGGGCGCCTGGATGGGAATGAGGGGCAAGCCTTTCAATATCGATCAAATCTTCCGCCAGAGCAT
GATTGCGAACATGGACAATGTCGTCAAGAAGGCGGAAGCCATGGCGTGCAAACTTGAGAGAGAAAACTCACAGCA
ACCCAACGTCGTCCCCAACAACGTTGTATACCAGACAGTGATTAACCAGATCTCTACCGCTACCAACCCGATCTC
GTTGGCAAAAATGGGAGAGCTGTATCAACCATGGTTCTAAACCCTTTCATGCATTCTTGTCTTGCTTTCTTGGAC
TGTCTCGCTATCACCGTCATCGCTCTGTAACATTATCAGTTGCCAAATTCTTTGTATTATCTTTCGTCCTGTAGG
CTACTAGCTCGTGTAATAGTTATATAAAGCAATCGCATTTTTCTCCTTGATGTGCCTATAATTGTAGGCCAGT
Length 10873

Gene

Sequence id CopciAB_444527.T0
Sequence >CopciAB_444527.T0
AACCAGACCGCAGACACACCTGCCGCTACCCTGGAGAATTCTCTCTGCTCTTTGGGCGAGCGAAATGTCCACTAA
TACCGCCTCAGAGGCTGGTCCTTCCTCGGGCTCCTCTGACTTTGAAAACAGAGTTGCACGCATTGCTGACCCTAA
TACCGGTACGCGACCACTTTCTGGGCGTCAAAAGTAGTAATTCTCAAGAGTCTATAGATCTCAAAACTAAACATG
CTGTCGCTTTGGAGATAAAGGAGCTAATTGACACAACAAGGGACTCTGAATTTGGTCGAGTCCTCCCCTACCTAG
TCCCGACCCTCATTGACCTACTTCGTTCTGGACAACCCTCATTCCAACGAGACACAACGGAATACCAGTTCAGGC
GACTACTTCTCGACATCCTCAACAGAATACCGAGTGGGGAGGCCATTCGACCGCACATGCCTTCCGTCTTCCAAT
GCATGATTGCCATAGTTCGTCAAGACAATGAAGAGAACGGCGCCACAGCCTGCAAAACCATGGTCGACGTAGTTC
GGTCCTATAGAATCGTAACAGAACAAGGCCTCGCCGACTTTATCGCTTTATTTCAAGAGTCATTCGCCAACATCA
AAGGAATGGTCGAAGAATATCTTTCGGAAGACTCGACACAACTCGATCCCAACACCATTCTACCTGCGACACGCA
GTTTGAAGGTTCTCGGGGAAATGGGAATGATTATGATTATCATGTCCCAAGTTCAACGCGCTATGGTATCCCCCT
CTATACAAGGCACCATTGCACCGGCATTTGAAATGCTTGCCCAAGAATCAAGCGCCCAACACAAGGCACGAACCG
ACTTCGAGGCGATGGGCGGAATTTGGGCAGGGATGGCACCGACAATCAAAAATCCGACCATCTACAACGACCTTA
TTCAAGCGCAAATCAAGGTACGCAACTCTCAACTCGAGGTGGACAGATAGAGCATATTTCCTGACGCTGGGTTTA
GATGCTTTCGTATCTCGCCTTTGTGATGCGCTACCTGAATGAAACTGAAGCTTCCTACGGAGAAACGTTGGTGTC
CAGTGCCCTAAGAATCTTGCAAGATTGTCCTTCCAATGGAAATACGCTACGAAAGGTGTGTATACTTTCCTTAAC
AATATTCGCCTATCTAAAGCGACTGCCAGGAACTCATGGTCGTGTTCCGCCATCTTCTCGCCACACCCCATAGAC
GGGCTTTACTTGGCCACATCGACAAGCTACTTGACGAGAAGGTTCTTCTAGGAACCGGTCTGGCCAGCAAAGATT
CTCTCAGGTGCGTGTGTCTGTCTTCTGGAGCCCTTCCCCAACTTAGAAATGAATAGGCCAATGGTGTATTCTGCG
GTTGCAGACTTAATCCACAACGTCAAAAGCGACCTCACCTTCCCGCAAATCGTCCGCATTGTTCACGTATACTCA
GCGCTCCTCTTCAACACCTCATTGGGCTTCAACCTCCACATCCTCTTTGCTAAAGTTATCTTTGGCCTCACTGAC
GCCATAGTAGCGAAGGAGGTGCCCCAGACAGCCGCCAAGTTGTTATCCTCCATGCTCGAAACCTGCCTGGAACGA
CTTGAAGGCTTATGCACGGTCCAGGCAGACGTGAGCCAGGCACTGGAACGAATACGGTCTGGCAGCCAGGAGGTG
ACGGTCGATACATTATTCATCGAAAAGTCAAGACCTGTCGGTGGTGCTTTGTATGCATTGGAGAAGCCAGAGGAT
GTGATGCTAGGTGCGTGGCCCATCTCTACGTCCACACCTGTCCAGCTTCCAAGATGGCTCCTTGTCCTTCGCACA
GAATGTAGACAACTCTACCGCGCCCTGTTACACGGTTTGCGGGTCACCATTGTCTGCATGAAGAAGTGCGATGCT
CCGGTACCCGATGGGAAATTGGTCTTTCGTTTGTTCGAGGGATGCGTCCGGTGCATGTCCTTGTATGACGCCGAT
CCTCGGGTCAATGAGCAGAACGATGTCATCGACTGGTTCGGCCATACGCTCCTCGAACTCAACTTGCACGTATTC
CAAGAGGTTTGGACCCATAAGATGGGCTTCTTTTTCGAGCATGCGCAGAAGCGGATCGTCCTCCTCACCGTCTGC
CAGTTCTTGTTCAATCGGGAGTCGACTACCTCTATCCTCTTGGGCATCGTTCTCAAATACCTTGTTGGACGCCTT
CCATTACTGGGGGAATACGACGACATTACTGCGGCGGCCACCATCCGATTGTTCAAGATGGCGTTCAATGCAGTC
ACCACATACCCACATACCAACGAATCCATCCTCGCCTCCCACCTACCAAAGTTGCTGATGGACTGCTTCCCTTTG
GCAGCAAAGGCTTCGAAACCAACACATTACTTCTACCTCCTTCGTGCTCTCTTCCGAGCGATAGGCGTAGGTGGC
GGCCGGTTCGAATTACTTTACAGCGCAGTTCTACCCCTCCTCCCGGAGTTGCTGGAGAGTTTGAACCGGCAACTA
CTCGCTTCGGAGGGTCAAACAAGGGACATGATCGTCGAACTCTGTCTCACTGTTCCACTACGACTCACCCACCTA
CTTCCCCATCTATCCTACCTCATGCAACCTCTTGCTCTTGCCTTGCGCGGGGGCTTCGAGCTTGCTTCCCAAGGC
CTTAGAACTTTGGAATTGTGCATCGACAACTTGACTCCAGACTTTCTGGATCCGACTTTGAGCGTCGTCCTCCGG
GAATTGATGGAGGCTCTTTTCAGCCACTTGAAGCCGGCACCACAAAGTCACCACCTCGCACACACGACCATTCGC
ATTCTCGGGAAGCTTGGTGGAAGGAACCGCCGCCTTCTATTCAAGGAGCCCGCCTTGATCTACCATCACCCATCG
GAGCCGGCGAAAATGGTGATCTCGTTCAACGGCAATGAGGAGAAGATCCTTTTGGGACCCATCTGCAAACTAGCT
ATTACCACCTTGGCCAAATCGCCACCGGCGGACCAGATGCATGCCTACAGCTTCCTAGAGAACTGTGCATCGTTA
TTTCTGTACGAGGTACTGCATTCATCATCTTTTCCATTGTCTATTGATTAACCTTGTCTGGTAGGGTATCAAGGG
ACGCAACGTCGAGGACTTCTTTGTCCGGACGGTTGAAGGAATATTCGACAGCATTTACATTCCTACCATCCAGAA
TGAAGCTGAGAGCTATTTGCGAAAGCTCGCCTCGACGGTTTTCGAGAATGAGATCCGCCGCAACCAGTCTCGCGA
AGTCGGGGCGAGGCCCACTCCAAGTCCAGTACTCAACAGCTTCTTGGAGGCAATTCCTCACGGACTCGCACGAGA
GCAACCGGCGCAATGCGAGCGAGCGAAAGAGGTAGTGGCCATCCTCATCAACGATCTCATAGAGATGCGGACCCG
CCCCAACATTGGGCTTCAAGGCATCTTCCCCCTCCTTCATTCCCTTGCCAACCGGTTCACAGGGCTCTGCCTTGA
CGAATCATGGATCCGCAAAGCCGCTGGTTGCAACGGAATCAAGCTCATGCTCAACGCGCCCGTTGTTGCCCAGAA
ATGGGTATCCGATCGGGAAATCGAACTCGTTCGAAACCTCATGCACGCCTTGAAGGACCTTCCATACGACCTTCC
CCGCGATGTTGAAGATGTTATTGAAACACTCCTCGACGTGCTGCGACTCAGCAACTCTAGTCTGGACTTCACAGG
CGACGGTGCAGCTCATGCTCGCAACAAGATCGTCCACCTCGCTGGCATGTTCTTCCCAGAATTCCAGAGTTCGAA
CAGAATCATCCGCGATGCCGCCCAACGATGCATCAACTACATGGTCACATTGTCGGGTCGCACTCCAGGAGAACT
CTTCTTACCTCACCGTGAACGGATGCTTGCTGGCGTATACACCAAACCCCTCCGCGCGTTGCCGTTCCTTAAGCA
GATCGGGATCATGGAATCTATGCGGTACTGCCTGAAGCTCGAGCCTCAGGTGATTGACGCAAGCGAAGAACTGCT
TCGGCTTTTGCATGAGGCGCTGGCGCTGGCGGATGCTGAAGATGTGCAGCTCGTTGGTCCGAGAACGACACGATC
GAGTGCACTCGAAATCTTGAAGCTTCGGGAATCCTGCATCAAACTCCTCACTGCAGCCATGCCAATAACAGACTT
CTTCGGAAAGATCCCACATACCCGCCAACGGTATGTCGCGTCTCCCTTCGATCTCATTCACCCTCTAATCAATTG
TATAGTGTCACGAGTGTGTACTTCAAATCGCTCTATTCACCGTCCGCTGAGGTAAAGGAGGCTGCGCATACCGGC
TTGCGAATGGTCCTCGCCCACCAAAACCGCCTGCCGAAAGAGCTCCTTCAGTCTGGATTGCGTCCAATCCTTATG
AATCTCGCCGACCCGAAAAGGCTGACAGTGTCTGGCCTGGAAGGGCTTGCCCGGGTCCTTTCTCTTCTAAACAAT
TATTTCAAAGTCGAGATTGGTCACAAACTTTTGGAGCACTTCAGGGTGGTGGCAGACCCCCAGTCTCTCCAAGCC
ACAGCGCGGTTACCATTCTCCGAAACCGAAGGCGTCCCGAAACTAGTCCGCCTTGCCAACATCTTCCACCTATTA
CCGAGTGCCGCCAACGTTTTCCTCGACCCTCTCGTCAACCTTATTATTCAAACTGAAACACAAATGCACTTCTCA
ACCGTCAACCCGTTCTCAGAACCCCTGGCGAAATATTTGGACCGCTATCCAGTAGAGGGCATCGACTTCTTGGTA
CGGAATCTCCAGCTACCGCGTACGGTTCGCACTTTCCGAAGCGCCCTGCAGGCGAAAGTTTCCCCAAACCTGGAG
CGGGAGTTGGTGTCAAGGACGCCTATCCTTGCTCCCAGATTGTCTGGCGGCGCGGACCAGAACCAGATGAGAGCA
ATTCTGGAAATAATAGACGACCTCATCACACTCGAACCAACATTCCTCTCCCAGCACGCTTATGTCACCGACCAG
TTGGTAGCCGTGTGGAGGTCATTGGGTTTGACGCCAAATGACGGAAACGACAAAGCGGAAATCACCTATTGGCAT
TCAATCATCCAATCTTCCTTCATTAAAGCCATGAAACAGACTCCTCGAATTGACTTGCTCTTCGAGCTGATCGCC
ATCTACAGCCGCAATCTCGAAATTGACACGGTCAAGACCACCACCTTCCTCTACCAACATGTCGCTCTCAGCGAG
GACATCATCTTCCGGCGCAATGTCCTCATGCGATTCCTTACCTGGTTCAACGACTCGTCGGTGCCCCTGGACACG
AAGGGCTACTTTATCCGCTACGTGGTGACTCCAACACTCTTAGTCCAGGCAAACCGATCACCTACAAGCGACCGA
CTTATCAACCTCGACTTCATCTCTCAACTTCACCGCATCATTTGGTCACCGATCACAGAGAATGACGCATTCTTG
GGGTCCGAGGAGTACTTCAAGATTGAAATTCTCAACCTCACGACAGTCCTGGTGCAGTATTACTCTGACTTACTC
GACGATGTGAAAAAAGACATCATCCGCTGCGCTTGGGCTCCTATACAAAACAACGATGACGTTCTCATCCGGCAA
ATGGCCTTCCTCCTCCTGGCGCGATTCTTTTCGGTTTTCCCAAGCCCCCCTAAATTTGTCCTTCGAGCCTGGACG
GACCTTTTGCGTTTGCCACACTCTGAAGGTCGTGCTTCGGTCCGATACGAAGCCCTCTCCATTCTTGCGCCGTCC
TTGCCAAAGTCGGATGGCGATGATCCCGAGTTCCCTCAGTGGGCGAAAGCAACTCGACGCCTCTTGACTGAGGAA
GGTGCCGGCCAAGCATTCGCCATCTACCACCTCATCGTCAAGCAACCCGACCTATTCTACCCCGTTCGCTCGTTA
TTCGTACCCCACATGACCAACTCCCTAAACAAACTCGGCATGTCACCATCCTCAACTACGGAATCACGACACCTC
TCCCTGGACATCCTCCAGACTGTGTTTAATTGGGAGGAGCAAGCAGCTCGACAGGCGCAAGATGCGGGTGAGAAT
AAAGGTGGCATATGGCGGACCCCCCTTTCCCTTCGGGAGAATATGGTCAGCTATCTCATGCGCCTTGCGACTATT
GCCCATGACCAGCCCACCAGAGGTATTTATGTCTCCCGAGCGCTGGGTTTGTTGCAAAATATTGTCGGTCCAAGC
GGCTGGACGGACGTCACAGTTGGACTGCGATTCTTTTCCAGGGCTCTGGAGCAGGTAAGTGCTATCCTGCGTAAT
TTCGGACCTTGCTCACCTTCCCATCAGACTGAACTCAGCGATGCTACTCTGCTACAAGCGTTGTCTGCTGCTAAA
GTACTCCATGTTGTCTCCAAGGAACAGCCCGATTCGTGGTATCTGAGCAATGCCGTTCTCCTCGAAAAACTCGTT
CAGAAAGGGTTGCTTTATGATGACGCCAATCTGCAAGACGCCTTGTATCCCATTTTTGACAAGCTGGTTACGCTA
TTCCCCCTTCCTGAAGCTGCTCCCAGTGCAGGCGACACAGAGCATGCGGCATTCCATCAATATATTCATGATGCC
CTTGGGGAGAACCTCCTCAATTCGCCGAGTTTGCGGGGGTCTCTCCTCATGCTCAAATCCGTCATCTCCGTCACC
CCTGAAAGGTTGAACACTCTCTCAACTCCTCTCATGAAGCTATTGAGCAAGCTCGCAAAGGACCATATCCACTCC
ACTCCAAACACCCCAGCGTTTGACAGCAATGTCCGCCTCATCACCGCCATCCTCGACATTTCCCGCAACAATGTC
ACATTCCTCGGAGAGCAACGCCGCTGGCTCCTAACCGCACTCGTCATCCTTATCGAGAAATCGAAGAGTATCCCC
CTGTGCAAATACATCCTCGAACTTTCGCGGACCTGGGCAATGAACCGACAGGATCCGTACCCGACGGCGAAGGAA
AAGGCGAGCCTTCTCCAAAAGATGGCACACTTCGAAGGCCGAGGAGAGCCTTTATTCACCTCATATCTCGAACTC
ATCTATGATGTGTACACTGAACCAGCTCTTCGACGAAGCGACCTTACAACCCGCCTGGAAAATTCGTTCCTCATT
GGTTGCCGGGCAAGGGATACAGCTCTACGCGAAAGGTTCATGGACCTTCTTGACGTTAGCGTGTCTAGATCAGTC
TTCAATCGACTGACTTACGTCCTTGGCGTGCAGAACTGGGAAGCCCTCGCTGATCACAATTGGATTTACCTTGCA
TTGCATCTGATTCTGGGGGCAGTTGATCTGCAGCATTCCTCGGCCTACGATCGACGGTTGTCAGCGAACACGACG
CAGCAAATTCAACGTCCGCTGGTACAAAACATCGTCCGTCCCATGCAGCGACTCCTCTTCCTCGACCCTCAAGTT
GCACATGACACATGGGTATCTGGTACGTCCTTCATTGTCCGCCCATCGTTTGTTCTCGTTGAAATGATAATCCTT
GTTAGTGTTCCCTGCGGTATGGTCGTCTCTCTCGCGCAGGGAGCAAGCCGATATCACAAACCACATGATCAACCT
CTTGAGCAAGGACTATCACATCAAGCAATCGTCCTTGCGCCCCAACGTGGTTCAATCCTTACTAGCTGGCATCCA
TCGTTGCTCACCTCCAATGACCCTCCCTCCCCATCTCGTCAAATACCTTGCCAAAACCTTTGGGTGCTGGCACAT
CGGCCTCGAGATCTTAGGCGACGCTCTGGATTATCTCAAAGATGACGACCCCGCCCTTCGAGACTATGTCTATGA
CTCACTTGCGGAAATTTACGCTGAGCTCGCGGAAGAGGATATGTTCTACGGTCTGTGGCGCCGACGGTCTGTCAT
ACCAGACACAAATGTCGGTTTGGCCTTCGAACAAGTAGGGATGTGGGAGCAGGCGTCCAGTGTATACGAAGCGGC
GCAAACCAAGGTCAAGGCGGGCAACCTCCCCTTCAACGAACTCGAGTACTGCCTATGGGAGGATCATTGGGTGCT
GGCAACAGAAAAACTACAGCATTGGGACATTCTATATGACTTTGCGAAGAGCGAAGGGAATCAGGAGTTGATGCT
TGAGAGCGCTTGGCGCACGTTGGAGTGGGCAGGCCACAAGGAAGAGCTGGACGAGCAGATCGCCCAGTTACCCGA
CGTTGCCACCCCAAGGAGAAGGGTATTCGAAGCTTTCATTGCGCTACTGAAACAGCCAGCAGCTATCGACAAAAA
CGTCGACTTTACGCGGTTCCTGGAAGACGCGATGCAGCTTTCCCTTCGGAAGTGGGTCGGCCTACCGCAACATTT
TTCCGTCGCGCACATCCCACTCCTGCAGCATTTCCAGCAGTTCGTCGAGCTTCAAGAAGCTGTGCAAATCTTTGG
CTCTCTCTCTCAAACCAACGCCCAGAATCTAGAAAAGAAGTCTTCGGAGTTGAAGATGGTCCTTCAGGCCTGGCG
CGAACGTCTACCAAACGTGTACGATGACATCAATATCTGGAGCGATCTGGTCGCTTGGAGGCAAAACGTCTTCCA
TTCTATAAATTTGGCATACGTCCCTCTGATCGAAAACCTTGCTCAATCCGCCCCCGGTGGAAACCAGAACACCAA
CACCTACGGTTACCGAGGCTACCACGAGACTGCTTGGATCATCAACCGTTTCGCTCATGTCGCTCGAAAACATGG
ATTGTTGGACGTCTGCTTCACCTATCTCAACAAGATCTATACCCTTCCCAACATCGAAATATCGGAGGCCTTCTT
GAAGCTCAGGGAGCAGGCTCGATGTCATTATCAGAAGCCCAGCGACCTACAGATCGGCTTAGAAGTCATCAACAA
CACGAACCTCATGTTCTTCACAGCGGCCCAAAAAGCAGAGTTCCATACCTTGAAGGGCATGTTCTACGCAAGACT
CGGGAGACTCGACGAGGCCAGCGCTGCTTTTGGTCAGGCTGTTCAGTTGGATATGACACAAGCAAAGGTCTGGGC
TGAATGGGGCCGTTATAACGACCAGCGATTCAAGGAAAACCCCGCCGATCTCACGCTAGCAGCGAGCGCCGTTAG
CTGCTACCTCCAGGCAGCGGGATTGTACAAGTGTGGGAAGAGTCGGCCACTCCTGATGCGCGTACTCTATCTCCT
CAGTCTCGACAACGACGCTTTGATCATCGGTCGAAGCTTCGATGGCTACAAGGGAGACGCCGCATTCTGGTACTG
GATCGCGCTTGTTCCACAACTCTGCGTCTCGCTGTCGCACAAGGAGAACAAGCCCGCGCGATATATTTTGCTCAA
CCTCGCCAAACATTTCCCTCAGGTAAGACCTTGATCGCTACTTACTGACCTATTGATTGCTCAAAAACCATTTAG
GGTATCTTTTACCACCTCCGGACGACTCGCGAAGAGCTCCAGGTCGTCAAAAAGGCTATCGCGGCGAAGGCTGCG
CAACAGCAGGCATTGGAGGCTTCTCGTCGTGCAAGCGTGGATGCCAGCGGAGACGTTGCGATGGCCGATGGAACT
GGGACTCCGTCCACAGAGGGCAACCCCCCTCCTGCTCAGACACCGGCCATTTCAACACCGGCTCAGCCCCAAGCA
CAACCTCAGAACCCGCCTCAACCCCGAGCATCGCCTGCACCTCCCGCTGTCGGAGGAAGCGAGGCCACTCGCGCC
GCCTGGGAATATGTCGATGAGATTCTCCAAATTCTGAAAACCGCTTTCCCCCTCCTCATCCTCAGCTTGGAGACC
GTTGTGGACCAAATTCAACACAAATTCAAGCCGCAGCCGGAGGAAGAAGTTTACAGGAATGTATGCATGTTGATG
CAGGATGCAATCCAGGTGAGATACCTGCGCGACTTTCCGAAGCCCTATTTCTCACTTGATTGAAAGAACTACGTC
CTTCGCGCCAATGCGCAGGAAGATGATGGGCAACTGACACCTAATACTGTCGCGATGTTGTCTCGCATGGCAGTG
AATATGCCCAACTTCATACGGGCAAGTGCATCTGGTCTCCACCTCTGTGCGTTCACTGAACGACTTTGTAGAAGG
ACTACGAAGAAGATTTCATTACCAGCAAACCGGATTACAGCCAATACATGCAGCGACTTCGGCAATGGAGGGATA
GATTCGAAAAGACCCTGGATGCTAGACCGCAACACCAACCCCTCGCTCTCCTGAGCCACTACTTGACGGAGTTCC
AATACAGCAAAGTGGATGAGATCGAAGTACCAGGGCAATACACCGAGGTTCGTGGGCGTGTAGAGTCAAGGGTAG
CCGGATGTTGATCTGTGTTTCAGGACAAGGACTCGAACCAATCGTTTGTTCGAATTCAGAAGTTTGCCCCAAAAT
TCGAAACCGTTCGCTCCAACGGCGCCTATTGGAAACGCTTTACACTCATTGGCAACGACCACTCCAAGACGTCCT
TCATCGTGCAACTTCCATGCCATCGTCAGTGGCGTCGCGAAGAACGGGTGATTCAATTACTGAGGACCTTGAATT
GGTTAGTCGTCTCCTGTTCCGGTGGCCGTTCAGTGTTGACACCTTTATAGTACCCTCGTGCGTAAGAAAGAGAGC
CGAAGGCGAAACCTGGCTTTCCATCTACCCGCTGTTGTGTCTTTGAGTCCCGCAGTCAGGCTGTTCCAGACCGAC
TCTTCGTATATATCCTTCGGGGACATCTACGACCTTCACTGCGAAGAGAAAGGTATTGCAAAGGAGATGCCTATC
CTTTACTCCGGTGAGAAGGTCAAACAGGTCCTACGTCAGTGGCAAATGGTGCCCAACAAGATTGTAAGTTGGCAG
TCAGCTTGCGACTACTTTCAATGTCTCAATTATGCTTTCAGCTATCAAAAACGGAGTACATCACTCTCAAGAAGG
ATATTTTCGATGAAATCGCCTCTAAGATGGTGCCCGACACCGTCATTAGCAACGTGAGTCAGCCATAATAGCCCA
GCCGATAGCCAAACTCTGACCCGCGCCCTCTAGTACATGGTTCGCACCATGGACGGGCCCGTGGAGTTGTGGCGG
ATGCGCAAACAGTTCACTCTTCAGCTGGCGACTTGCAGTTTCATGACATATGTTTTCTCGATTTCGAGTCGAAAC
CCAAGTCGTTATCAAGTTTCGCGTGCTACCGGCCTGATTGCCATGACAGACTTGCTCCCGGGTCTTGCGACGCAT
CTTCCTGTCTTTGCTACCACGGATACCGTTCCCTTCCGATTCACTCCCAATCTGCAGCACTTCGTTGGACCCGTG
TTCACAGATGGAATCCTTGCGACTGGTATTATGTCCGTCGGACAGGCACTGACAGAGCCAGAAGTATGTTGATTG
CCAGCATCTGCCTTGCATTTGTTCTAATTCTTTGCCTCTCAGTTCGACCTCGAGTATCACCTCTGCTTGTTCAGT
AGAGATGAAGTGGGCGCCTGGATGGGAATGAGGGGCAAGCCTTTCAATATCGATCAAATCTTCCGCCAGAGCATG
ATTGCGAACATGGACAATGTCGTCAAGAAGGCGGAAGCCATGGCGTGCAAACTTGAGAGAGAAAACGTGGGTCAC
TTCCTGTTTTCCCAAGACACCCTCGAGGCTCATTTGTTCCGTACACAGTCACAGCAACCCAACGTCGTCCCCAAC
AACGTTGTATACCAGACAGTGATTAACCAGATCTCTACCGCTACCAACCCGATCTCGTTGGCAAAAATGGGAGAG
CTGTATCAACCATGGTTCTAAACCCTTTCATGCATTCTTGTCTTGCTTTCTTGGACTGTCTCGCTATCACCGTCA
TCGCTCTGTAACATTATCAGTTGCCAAATTCTTTGTATTATCTTTCGTCCTGTAGGCTACTAGCTCGTGTAATAG
TTATATAAAGCAATCGCATTTTTCTCCTTGATGTGCCTATAATTGTAGGCCAGT
Length 11829