CopciAB_357231
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_357231 Strain Coprinopsis cinerea Okayama 7
Standard name CHK1 Synonyms 357231
Uniprot id Functional description GAF domain
Location scaffold_1:2087695..2098068 Strand +
Gene length (nt) 10374 Transcript length (nt) 7237
CDS length (nt) 6855 Protein length (aa) 2284

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Neurospora crassa NCU01823

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB29051 73.1 0 3379
Agrocybe aegerita Agrae_CAA7259981 73.4 0 3375
Pleurotus ostreatus PC15 PleosPC15_2_1111282 68.5 0 3179
Pleurotus eryngii ATCC 90797 Pleery1_1487811 67.8 0 3169
Pleurotus ostreatus PC9 PleosPC9_1_115588 67.7 0 3150
Lentinula edodes NBRC 111202 Lenedo1_28479 67.6 0 3123
Lentinula edodes W1-26 v1.0 Lentinedodes1_114 65.8 0 3023
Ganoderma sp. 10597 SS1 v1.0 Gansp1_124609 64 0 2953
Schizophyllum commune H4-8 Schco3_2140343 63.4 0 2912
Flammulina velutipes Flave_chr08AA00630 60.8 0 2786
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_123967 58.6 0 2680
Grifola frondosa Grifr_OBZ79765 57.2 0 2472
Auricularia subglabra Aurde3_1_140870 52.1 0 2327
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_114318 57.1 0 2032
Lentinula edodes B17 Lened_B_1_1_16476 57.3 4.447E-304 1060

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 708.5189 154.256 89.0598
oidia 192.648 22.5319 13.0088
vegetative_mycelium 169.7282 32.0532 18.5059
primordia 131.448 4.1981 2.4238
hyphal_knot 598.4138 11.7997 6.8125
young_fruiting_body 178.1164 22.3364 12.8959
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 475.7961 138.499 79.9625
Wheat bran 154.6173 54.0625 31.213
Horse manure 238.5998 62.9642 36.3524
Oak leaves 302.965 79.8729 46.1147
Hay 219.5692 64.7142 37.3628
Corn stalk 223.1923 20.2223 11.6753
Pectine 451.6189 9.6186 5.5533
Microcrystalline cellulose 266.7349 119.6562 69.0835
Xylose 321.432 7.0572 4.0745
Cellobiose 274.8726 71.0064 40.9956
Lignin 350.4316 143.1351 82.6391
Apple peels 565.2161 122.5419 70.7496
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 189.2619 17.6413 10.1852
Bsubtilis 344.1143 64.6467 37.3238
Ecoli 368.3239 74.2139 42.8474
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 410.2968 35.1266 20.2804
BS 4h 192.2013 22.5807 13.037
BS 8h 126.2424 36.3339 20.9774
BS 12h 84.3836 27.8102 16.0562
Oidia 0 h 197.0184 45.0743 26.0237
Oidia 18 h 109.6809 37.256 21.5098
Sclerotia 197.1533 15.8508 9.1515
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 45.9102 11.382 6.5714
DM 36h 60.3253 4.2177 2.4351
DM 60h 51.1114 10.6683 6.1594
DM 84h 59.5469 8.1702 4.7171
DM 108h 48.4256 9.233 5.3307
DM 132h 52.6885 7.9066 4.5649
DM 156hAE 64.966 16.4555 9.5006
ELI1hAE 55.4075 10.9398 6.3161
ELI2hAE 58.9858 5.8917 3.4016
LI2hAE 61.2582 2.485 1.4347
LI6hAE 54.627 12.7235 7.3459
LI12hAE 50.9689 12.4519 7.1891
LI18hAE 73.7106 16.0411 9.2613
LI 24hAE 84.5028 17.614 10.1695
DM 156hAM 74.8889 19.0453 10.9958
ELI1hAM 68.5971 8.5574 4.9406
ELI2hAM 76.3599 21.9571 12.6769
LI2hAM 59.0581 15.9263 9.1951
LI6hAM 67.4544 5.825 3.3631
LI12hAM 65.2187 14.3197 8.2675
LI18hAM 86.6552 8.4548 4.8814
LI 24hAM 138.5457 19.0185 10.9803
LI 24hHK 146.6715 31.4389 18.1512
L/D 6h 143.6853 29.6859 17.1392
L/D 12h 122.3426 43.4273 25.0728
L/D 18h 106.6012 1.0343 0.5972
L/D 24h 91.4539 9.2486 5.3397
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 193.3131 39.9382 23.0583
Hyphal knots 256.6367 137.4557 79.3601
Primordium 1 127.1812 3.5255 2.0354
Primordium 2 127.644 27.6155 15.9438
Young Fruiting body cap 228.7195 116.975 67.5355
Younf fruiting body gill 80.4789 41.0961 23.7268
Young fruiting body stipe 141.0744 33.7533 19.4875
Mature fruiting body cap_gill 264.5531 92.7224 53.5333
Mature fruiting body stipe 198.4384 57.3528 33.1126
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 703.3766 210.6362 121.6108
NH4NO3 423.1609 194.2593 112.1557
Proline 422.0188 157.9441 91.1891
Tryptophan 277.3747 86.9766 50.2159
Isoleucin 432.4499 154.7673 89.3549
Arginine 834.8871 119.9655 69.2621
Metionine 564.0426 64.3656 37.1615
NaNO3 720.0692 56.1114 32.3959
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 703.3766 210.6362 121.6108
Citrus peel 1010.4133 168.4777 97.2706
Poplar leaves 476.0435 49.1688 28.3876
Typha leaves 527.2906 209.0454 120.6924
Overwintered Salix leaves 619.776 267.5106 154.4473
Reed flowering 808.3503 240.4563 138.8275
Tigernut 459.1632 29.4241 16.988
Energy cane 520.5599 127.0202 73.3352
Guar gum 689.0708 613.1315 353.9917
Apple peels 554.1609 178.028 102.7845
Cellobiose 647.3773 207.4881 119.7933
Corn stalk 420.022 67.7625 39.1227
Horse manure 466.9644 175.4649 101.3047
Lignin 1038.5364 474.7423 274.0926
Microcrystalline cellulose 709.6777 185.3973 107.0392
Oak leaves 355.5415 109.7231 63.3487
Pectin esterified 427.1868 67.7561 39.119
Poplar sawdust 375.8684 46.9416 27.1018
Wheat bran 274.528 113.8111 65.7089
Chlamydomonas reinhardtii 393.8705 71.837 41.4751
Vertatryl alcohol 192.0488 7.2522 4.1871
Furfural 362.7947 147.0099 84.8762
Autoclaved mycelium 555.7789 103.3428 59.665
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 121.4022 0.5992 0.346
Ribose 199.3502 11.2472 6.4936
Mannose 161.8484 15.8489 11.2069
Fructose 173.1914 28.9245 16.6996
Arabinose 220.8318 26.3311 15.2023
Xylose 153.2495 10.9985 6.35
Galacturonic acid 216.7389 14.1111 8.1471
Rhamnogalacturonan 185.2537 14.4149 8.3225
Pectin esterified 189.8481 28.5173 16.4645
Polygalacturonic acid 171.0015 14.687 8.4796
Sodium acetate 183.5827 12.6539 7.3057
No nitrogen 183.018 28.3996 16.3965
BSA 210.9641 10.2023 5.8903
Glutamine 199.1098 36.4191 21.0266
No phosphate 177.2464 27.8908 16.1028
No carbon 287.8603 22.9616 16.2363
No sulphur 215.6194 29.0316 16.7614
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 703.3766 210.6362 121.6108
Amylose 318.4747 31.0066 17.9017
Fucose 351.7563 51.4054 29.6789
Galactose 441.7134 74.861 43.221
Lactose 364.6285 42.0392 24.2713
Maltose 375.4859 109.804 63.3954
Mannitol 405.7126 64.5125 37.2463
Rhamnose 445.4762 32.406 18.7096
Sorbitol 345.8402 80.7382 46.6142
Trehalose 305.3433 20.2701 11.7029
Glycerol 619.7869 392.635 226.6879
Glucuronic acid 271.165 66.0489 38.1334
Arabinan 253.969 126.6521 73.1226
Galactan 477.8545 103.7194 59.8824
Galactomannan 367.4655 122.8633 70.9352
Glucan 553.7662 82.4424 47.5982
Xylan 233.6659 97.6143 56.3576
Xyloglucan 177.006 39.3447 22.7157
Arabinogalactan 314.4184 58.7395 33.9133
Pectin 872.4375 505.523 291.8638
Rhamnogalacturonan 1098.0504 352.2439 203.3681
Polygalacturonic acid 352.0517 53.9446 31.1449
Mannan 452.108 67.0573 38.7156
Amylopectin 480.7478 76.9105 44.4043
Inulin 490.4986 134.7701 77.8095
BSA 1150.1996 162.7105 93.9409
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 51.1114 10.6683 6.1594
2h WAT 68.7848 4.8929 2.8249
4h WAT 51.1603 3.3811 1.9521
8h WAT 50.3025 7.5958 4.3854
16h WAT 50.319 7.3287 4.2313
24h WAT 56.8986 13.9178 8.0354
WAT hyphal knot -30h 57.651 6.5274 3.7686
WAT hyphal knot -22h 50.1195 3.3631 1.9417
WAT hyphal knot -15h 44.5235 3.1455 1.816
WAT hyphal knot -7.5h 48.9159 6.7948 3.923
WAT hyphal knot 52.915 4.6892 2.7073
WAT hyphal knot +7.5h 50.0487 8.9355 5.1589
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 485.5262 196.2476 113.3036
Straw 3h 741.3667 213.905 123.4981
Straw 6h 651.6761 114.7532 66.2528
Straw 12h 598.7624 133.4077 77.0229
Straw 24h 714.5781 185.6365 107.1773
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 191.4984 48.1805 27.817
Frost (-20C, 30min) 148.0979 6.1685 3.5614
Heat shock (47C, 2h) 112.3308 12.5941 7.2712
High CO2 108.2422 8.6412 4.989
Drought (4% agar, 12h) 97.9171 29.625 17.104
Oxidative (1mM H2O2, 3h) 194.3916 39.3229 22.7031
Acidic (pH4, 3h) 186.3761 29.4438 16.9994
Alkaline (pH9, 3h) 169.7541 26.2166 15.1361
Osmotic (sorbitol 2h) 274.5799 31.9277 18.4335
CongoRed (3h) 249.3712 30.0542 17.3518
Cobalt chloride control 158.673 26.1762 15.1128
Cobalt chloride 2mM 128.0444 29.1668 16.8395
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 109.0096 73.3132 42.3274
Cold stimulation 58.9584 15.7387 9.0868
Scratched surface 86.6039 5.1283 2.9608
Ca2+, 200mM, 24h 55.715 12.9549 7.4795
Cu2+, 2mM, 6h 124.2192 14.9562 8.635
Voriconazole 71.9486 14.3917 8.3091
Trichoderma interaction, early 71.4965 8.7197 5.0343
Trichoderma interaction 60h 125.093 19.846 11.4581
Cobalt chloride 2mM repeat 59.4759 16.0264 9.2528
Hypoxia 92.9514 10.0237 5.7872
Hypoxia control 74.5995 4.4312 2.5584
Protoplastation control 160.1441 19.3166 13.6589
Protoplastation 3.5h 372.8908 68.4026 48.3679
Protoplastation 1.5h 288.3649 94.9802 67.1612

General data

Systematic name CHK1
Protein id CopciAB_357231.T0
Description GAF domain

Annotation summary

0 600 1200 1800 2284

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd00082 HisKA IPR003661 1744 1804
CDD cd16922 HATPase_EvgS-ArcB-TorS-like - 1859 1971
CDD cd17546 REC_hyHK_CKI1_RcsC-like - 2155 2273
Pfam PF00069 Protein kinase domain IPR000719 170 341
Pfam PF13191 AAA ATPase domain IPR041664 491 657
Pfam PF13185 GAF domain IPR003018 1559 1700
Pfam PF00512 His Kinase A (phospho-acceptor) domain IPR003661 1744 1807
Pfam PF02518 Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase IPR003594 1855 1971
Pfam PF00072 Response regulator receiver domain IPR001789 2155 2272

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR003594 Histidine kinase/HSP90-like ATPase
IPR005467 Histidine kinase domain
IPR029016 GAF-like domain superfamily
IPR011006 CheY-like superfamily
IPR001789 Signal transduction response regulator, receiver domain
IPR004358 Signal transduction histidine kinase-related protein, C-terminal
IPR003661 Signal transduction histidine kinase, dimerisation/phosphoacceptor domain
IPR003018 GAF domain
IPR011009 Protein kinase-like domain superfamily
IPR036890 Histidine kinase/HSP90-like ATPase superfamily
IPR036097 Signal transduction histidine kinase, dimerisation/phosphoacceptor domain superfamily
IPR000719 Protein kinase domain
IPR027417 P-loop containing nucleoside triphosphate hydrolase
IPR041664 Orc1-like, AAA ATPase domain

GO

Go id Term Ontology
GO:0000160 phosphorelay signal transduction system BP
GO:0016310 phosphorylation BP
GO:0016772 transferase activity, transferring phosphorus-containing groups MF
GO:0000155 phosphorelay sensor kinase activity MF
GO:0007165 signal transduction BP
GO:0005515 protein binding MF
GO:0004672 protein kinase activity MF
GO:0005524 ATP binding MF
GO:0006468 protein phosphorylation BP

KEGG

KEGG Orthology
K19690

EggNOG

COG category Description
T GAF domain

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_357231 across fungi.

Arrow shows the origin of gene family containing CopciAB_357231.

Protein

Sequence id CopciAB_357231.T0
Sequence >CopciAB_357231.T0
MRRRLGQHAQPTLFYKDSVLSVPGYTFEKAVQWHDTGSMTELAEGSCLKDSSSVLAKIAPAQSNGSMCLEREAHI
LNRVAADGSSTVLRMIDFFKIPKEHGDSVVLLLAHPGPNLLGRYLPPSKVNDLLLADANHGRPSSSNGDITMHGS
FEGSDLAEEMEPFDIMDLASFLEFAIKATQCLQTMHKAGVVHREVRANAFHLNAHSGFVRLVHFGNRAISLESFG
SPSSLVIRANDEPEKLKVKEALCYLAPEQTGSIETMTQDHRTDLYSLGILFWTLLVGRGQMPFEGGPLELLHAIV
QKRPMPVHEVRRDVPQVLANIIDKLLAKNPDHRYQSAHGLKADLLECQRRLLAVVSSLSGEPQELIPFFEIAQED
RFVEFTIPIALFGREKELEQIRNVIRNTSTSFSQHHAPGKGFITLASTSSGTQAMEASESNSSRSGSPSTSMAAD
SVMHPPESHIGHDPSQTTSGSPSRHASDGLRRAAFRGGRSKYSRTQAVLVVGPPGIGKSSIVLANQAKWRAHGLW
GQAKFQGAESAPFAALLSCLSAVLRQLMVFHTDLQRFVAGLQERLGPQMQNVPLLFQGTPELKDVLATFNIVLEE
PQEPLDSTDLRSRFQSLVEKVFAVIAETRLFALFLDDLHEADDSTLDLVSTLLNSRSRMLIFATLRSDKPGFVDR
VKSMFSHKARPTWIDVEPLSYAAILSLISKTLHRTKEDCTPLTQFVFKASSGNVFSARNILHTLHRQNHIQFNWD
KNHWIYDMAAIEGSFVDQQISDPADLSFLVDYMRNLPEEARKYLTWAAFFGETFKVTEVALMMDWEDSSNGSSSE
EEADDKWNVHKAVTNFREKSSDRTRGSMRGLQLALAEGWLIQRAREMCSFAHDRFRQAAQAEAAALPPDIIAKMS
FRIVLMMLHEHPVDVYRVAEHAKKCLSLLHEHPKKEELLNVLIDAGESAWARGAHELATRSFLNARTLLTEDPWA
QHPSRTLVLYSRLAALHTWKGELNESDALLKECFARADHPEDKSNILRLKSRNQWLRGNFTEAFNFTITALSILG
IEICHSPSRKQADVMFDQIKNEILAVGFDEILAIPRTTDRKTELAVTLLNDAGINAYWSPSPSIFLDVIGLTTIQ
LALRSGMAPGTALGFFWALGAERRELYRFSADLAKLALRIADKYGNSAEKCRAQVLYCSMVSGFDNVHMRSSIPR
LEEALKYGYSAGDSIYTSFASIHIITTKLYLCEHLGELLGAAEECVNDVTLLTPGGEPVILATGILNCIRVLAGQ
TANQPPISVDTLFDTDSFVESNYVQTILKTSGNVSLALNWYNSFKVVSLFCVGFYDEAASLGFSVYESRSVHPNH
RHVRYALFFHNLSMIACIRMGRLTNETRAKYFSQIKLNQIYIRKWLSSSPVNTSAWVAIVDAEMAALLGDSNALR
LYDVAVRLAGENDWLMEEGWALFLQGSHFVRCGVESLGTELQRRGIARHAQWGANGIVSHLTSLIGSRARPPPRR
QAFTADVATQTEALAVDPSSQMQVHSATIDLHEDHDTVLSASDLASILKWSKDISSDINLSSALRRLTEIATETS
GSHRTCVVIAREAGDYIVATSMSQPDPCQVHENPKSIRTIDDPLQKAIIQHTLNSKERVYYHDASLDSRFSSEAA
QSIHRSVICIPIFSNRGQTFGVVYLSSRYPFSQNTLTVLTLLCQQASISISNALLFRSVQAGTRENLKMIAAQRD
ALETARKSREDALKATKIKSNFLASMSHELRTPFSSFYGLLDLLSGTELNPGQSEIVQTAKQSCELLLKIIDSIL
DYSKLEASAVKLEPSGFLVENIIADCMELLLPMAAKKLDLSFNIEPDVPSWVFADYARIRQVLMNLIGNAVKFTA
QGYVRVTCSVDNSTKVVPGEVNLKFEIQDTGIGLSASDVDHLFMPFQQADNSSTRRFGGTGLGLSISRQLVKLMG
GAIGVQSDLNSGSTFWFTIPVKLFQSPESQQSAADIERLKAVLATPTPLRILVCSGSDTTRSFLSNLLEGFDVHS
SSSVEESHEFLRSLPPEDKSLDFVILDDQSETNADEMARFIKSLSSRPLNDTRVIHLYTPTTSRTGQDVFGNSSV
LGVVKMTKPPRKARLLQTLAGLKDIPNTISTNPTSEVAKAMEEQAAARCTLYGNVLIAEDNPIAQNLLVKQLERY
QLTVTATSNGEEAIAAWESHPPGYFSVALFDHHMPICDGVEAAKRLRLLERKRKIPIQLPIAALSADCQESTKNL
CLSAGMNTFFSKPLKKNDLLSLLSMFGTPTPQGT
Length 2284

Coding

Sequence id CopciAB_357231.T0
Sequence >CopciAB_357231.T0
ATGCGACGAAGGCTTGGACAGCACGCGCAACCGACGCTATTCTACAAAGACAGCGTTCTCTCAGTCCCAGGCTAC
ACTTTTGAGAAGGCGGTTCAATGGCACGACACAGGGAGTATGACTGAATTGGCGGAGGGGAGTTGTCTAAAGGAC
AGCTCAAGCGTACTAGCCAAGATTGCGCCAGCGCAATCGAATGGCTCGATGTGCTTGGAGAGGGAAGCTCATATT
CTGAACAGAGTCGCAGCAGACGGCTCAAGTACAGTTCTGCGCATGATTGATTTCTTCAAAATACCCAAAGAACAT
GGAGATTCTGTCGTCCTCCTTCTCGCCCATCCTGGTCCGAACCTCTTGGGTCGCTACCTACCGCCTTCCAAAGTC
AACGATCTCCTCCTGGCCGACGCCAATCACGGGAGACCAAGTTCATCCAATGGAGACATCACTATGCACGGCAGC
TTCGAGGGATCCGACCTGGCCGAAGAAATGGAACCTTTCGACATCATGGACTTGGCTTCGTTCCTCGAATTTGCT
ATCAAAGCTACACAGTGCTTACAAACAATGCACAAGGCTGGCGTCGTACACCGAGAAGTCCGCGCCAATGCATTT
CACCTCAACGCTCACTCCGGCTTTGTTCGGCTCGTCCACTTTGGAAACCGTGCGATTTCACTTGAAAGCTTTGGA
TCGCCGTCGTCTTTGGTTATTCGCGCCAATGACGAACCTGAGAAGCTCAAGGTGAAGGAAGCGTTATGTTATCTC
GCTCCAGAACAGACAGGCAGCATCGAAACGATGACTCAAGACCACAGAACGGACCTGTACTCCCTTGGAATCTTG
TTTTGGACCTTACTGGTGGGAAGAGGACAGATGCCGTTCGAAGGGGGCCCTCTGGAATTGCTACACGCCATTGTC
CAGAAGCGACCAATGCCCGTTCACGAAGTCCGTCGTGATGTACCCCAGGTGCTCGCGAACATCATCGACAAGTTA
CTCGCCAAGAATCCCGACCATCGCTATCAAAGCGCACACGGACTGAAGGCGGATTTACTGGAGTGTCAGAGGAGG
TTGTTGGCCGTGGTTTCGTCCCTCTCGGGAGAGCCGCAAGAGCTGATCCCATTCTTCGAGATTGCACAGGAAGAC
CGGTTCGTGGAATTCACCATCCCAATCGCACTGTTCGGTCGGGAGAAGGAACTTGAGCAAATCCGAAACGTTATC
CGCAACACTTCCACAAGCTTCTCTCAACATCACGCACCCGGGAAAGGGTTCATAACCCTCGCCTCTACAAGTTCC
GGTACACAAGCGATGGAAGCCAGCGAGTCCAACTCGTCGCGTAGTGGGTCTCCGAGCACCAGCATGGCAGCAGAT
TCCGTCATGCATCCGCCAGAATCGCATATCGGTCACGATCCCTCTCAGACAACATCAGGGAGCCCCTCAAGGCAT
GCATCGGATGGTCTCAGGAGGGCCGCGTTTCGAGGCGGGCGTAGCAAGTATTCCCGAACGCAAGCAGTTCTAGTT
GTCGGGCCTCCTGGCATCGGCAAAAGCTCGATTGTTCTTGCAAATCAAGCCAAGTGGAGAGCTCACGGCCTGTGG
GGACAAGCAAAGTTTCAGGGTGCAGAGTCAGCACCTTTTGCCGCGCTGTTAAGCTGTCTCTCCGCTGTCTTGCGA
CAGCTGATGGTGTTCCACACAGACCTCCAACGCTTTGTTGCCGGACTTCAAGAACGTTTAGGACCTCAAATGCAG
AACGTCCCGCTTCTTTTCCAAGGGACGCCTGAGCTGAAGGACGTATTGGCGACATTCAACATTGTGCTGGAAGAA
CCGCAAGAGCCTCTTGATTCCACTGACCTTCGCTCCCGCTTCCAATCGCTTGTTGAAAAGGTCTTCGCAGTCATT
GCCGAAACGCGATTGTTTGCATTGTTTCTGGACGACTTGCATGAGGCAGATGATTCGACTCTTGACCTTGTTTCG
ACCTTGCTGAACTCTCGCAGCAGGATGTTGATCTTTGCGACGTTGCGCTCAGACAAGCCGGGATTCGTCGATCGT
GTCAAGTCCATGTTTTCTCATAAAGCACGACCAACTTGGATTGATGTGGAACCCCTATCATACGCCGCGATACTC
TCATTGATATCCAAAACCTTGCACAGGACGAAGGAAGACTGCACGCCGCTGACTCAATTCGTTTTCAAGGCTTCG
TCTGGGAACGTCTTCTCGGCCAGGAACATTTTGCATACTCTCCATCGACAAAACCATATACAATTCAACTGGGAT
AAGAACCATTGGATCTACGACATGGCCGCAATCGAGGGGAGCTTTGTCGACCAGCAAATATCCGACCCTGCCGAC
CTTTCATTCCTGGTTGATTACATGCGAAATTTGCCCGAAGAGGCCCGGAAGTATCTTACATGGGCTGCTTTCTTC
GGCGAAACTTTCAAAGTTACTGAAGTGGCATTGATGATGGACTGGGAGGATTCCAGTAATGGAAGCAGCAGTGAG
GAAGAGGCAGATGACAAATGGAACGTCCACAAAGCCGTCACAAACTTCCGAGAGAAGAGTTCTGACAGGACTCGT
GGATCAATGCGCGGCCTGCAGTTGGCCCTGGCGGAAGGGTGGCTTATACAACGCGCCAGGGAGATGTGTAGCTTC
GCCCATGATCGATTCCGTCAAGCAGCACAGGCTGAAGCTGCTGCATTGCCGCCCGATATAATTGCTAAGATGTCA
TTCCGCATCGTCCTGATGATGCTTCATGAGCACCCCGTTGATGTCTATCGCGTCGCTGAACATGCCAAGAAGTGT
TTATCCCTCCTCCATGAACATCCTAAGAAAGAAGAATTGCTGAACGTCCTCATCGACGCTGGAGAGTCGGCGTGG
GCTAGAGGTGCTCACGAGCTTGCGACTCGCTCTTTCCTCAATGCCCGAACTCTCTTAACTGAGGACCCATGGGCT
CAACATCCCTCACGCACACTCGTCCTGTACTCACGACTCGCAGCGCTCCATACCTGGAAAGGGGAACTAAACGAG
TCGGATGCGCTCCTCAAAGAATGTTTTGCCCGTGCAGATCATCCGGAAGACAAGAGCAACATTCTCCGGCTCAAG
TCCCGCAATCAATGGTTGCGCGGCAACTTCACAGAGGCGTTCAATTTCACCATCACGGCTCTCAGCATCCTCGGC
ATTGAGATCTGCCATTCTCCATCACGGAAACAAGCGGATGTCATGTTCGACCAAATCAAGAACGAGATACTGGCT
GTTGGATTTGATGAGATTCTCGCTATCCCACGGACGACGGATAGGAAGACTGAGCTTGCGGTAACGCTGTTAAAC
GATGCTGGCATCAACGCTTACTGGAGTCCATCTCCTTCCATCTTCTTGGACGTCATTGGTCTAACTACTATTCAA
CTCGCCTTACGGTCTGGGATGGCTCCTGGCACGGCGCTTGGCTTTTTCTGGGCTCTGGGAGCGGAACGGAGAGAA
CTGTACCGTTTTTCCGCTGACCTTGCGAAGCTAGCGCTCAGAATTGCGGATAAATATGGTAACTCTGCAGAGAAA
TGCCGCGCGCAGGTGCTATATTGCAGCATGGTTTCTGGATTCGACAATGTTCACATGCGGTCGAGTATTCCTCGT
CTGGAGGAAGCACTGAAGTATGGCTATTCAGCCGGTGACAGCATTTACACCAGCTTCGCCAGTATTCACATCATC
ACCACCAAATTGTATCTTTGCGAACACTTGGGAGAATTGCTAGGTGCAGCAGAAGAGTGTGTTAACGACGTCACG
CTGCTGACACCGGGAGGAGAACCCGTGATTCTTGCTACCGGCATTCTCAATTGCATTCGAGTCCTCGCCGGACAA
ACCGCCAACCAACCTCCTATATCGGTTGATACATTGTTCGACACAGACAGCTTCGTCGAAAGCAATTACGTCCAG
ACGATCCTTAAAACATCGGGCAACGTATCTCTAGCCCTGAATTGGTACAATTCGTTCAAGGTCGTTAGCCTTTTT
TGTGTAGGCTTCTACGACGAAGCGGCATCTCTTGGCTTTTCCGTCTACGAGAGCCGCTCTGTACATCCCAATCAC
CGCCACGTTCGCTATGCGCTTTTCTTCCACAACCTCTCCATGATTGCATGCATTCGAATGGGAAGGTTGACGAAT
GAGACCAGAGCAAAGTATTTCTCGCAGATCAAACTGAACCAGATCTACATTCGCAAATGGTTGTCCTCTAGCCCT
GTCAATACCAGTGCCTGGGTTGCCATTGTGGATGCCGAAATGGCGGCCCTTCTAGGTGATTCCAACGCTTTGCGT
CTCTATGACGTGGCCGTCAGACTGGCCGGCGAGAATGACTGGTTAATGGAAGAAGGATGGGCATTATTTCTGCAA
GGATCTCATTTCGTTCGATGTGGAGTGGAAAGTTTAGGCACAGAATTACAACGTAGGGGCATTGCTAGGCATGCA
CAATGGGGGGCCAACGGGATTGTGTCGCACCTGACGTCTCTTATCGGATCCCGAGCACGCCCTCCCCCCAGACGC
CAAGCATTCACTGCAGACGTCGCTACCCAAACCGAAGCTCTTGCTGTCGATCCATCATCACAGATGCAGGTCCAT
AGCGCAACCATCGACCTTCACGAGGATCACGACACTGTACTGAGTGCCTCTGATCTTGCCTCTATCCTGAAATGG
AGCAAGGACATTTCCAGCGATATCAACCTATCGTCAGCGCTTCGACGTCTCACAGAGATCGCGACTGAAACATCC
GGGTCACACAGGACTTGCGTCGTTATCGCTCGAGAAGCCGGGGATTACATCGTCGCCACTAGCATGTCGCAGCCC
GATCCGTGTCAAGTCCACGAGAACCCCAAATCCATACGCACCATAGATGATCCACTGCAGAAGGCGATCATCCAA
CACACGTTGAACTCGAAGGAAAGGGTGTATTACCATGACGCTTCCTTGGATTCTAGGTTCTCTTCGGAAGCTGCT
CAATCTATACATCGCTCGGTCATTTGCATCCCCATCTTCAGCAACCGGGGTCAAACCTTTGGCGTCGTTTATCTT
TCCTCCAGATACCCTTTTTCGCAGAATACTCTCACAGTCTTGACGCTCCTTTGCCAACAAGCCAGTATCAGCATT
TCGAACGCCCTTCTGTTCCGCTCAGTCCAAGCCGGCACAAGGGAGAATTTGAAGATGATCGCAGCTCAACGTGAT
GCTCTAGAGACAGCCAGGAAAAGTCGGGAGGATGCGCTGAAGGCTACCAAGATTAAGAGCAATTTCTTGGCGTCG
ATGAGCCACGAGCTCAGAACCCCTTTTAGTTCCTTCTATGGACTGCTGGATTTGTTAAGCGGAACAGAGCTGAAC
CCCGGGCAAAGTGAAATCGTCCAAACGGCAAAGCAGTCGTGTGAATTGCTGCTCAAGATCATTGATTCTATTCTG
GATTACAGCAAACTGGAAGCTTCAGCCGTCAAACTCGAGCCGAGCGGCTTTTTAGTTGAGAATATTATCGCGGAT
TGCATGGAGCTGCTGTTACCGATGGCTGCCAAGAAATTGGACCTGTCTTTTAACATCGAACCCGACGTGCCATCT
TGGGTTTTCGCGGACTACGCCCGCATACGTCAAGTTTTGATGAATTTGATTGGCAATGCCGTCAAGTTCACTGCA
CAAGGATACGTCCGAGTGACCTGCTCTGTCGATAACTCCACAAAGGTCGTCCCAGGTGAAGTGAATCTGAAGTTC
GAGATCCAGGACACGGGCATCGGCTTGTCTGCAAGTGACGTTGATCATCTCTTCATGCCGTTTCAACAAGCCGAC
AACTCATCGACTCGTCGATTTGGAGGCACCGGCCTGGGATTATCTATCTCACGACAGTTGGTCAAACTCATGGGT
GGCGCTATTGGTGTTCAATCAGATTTAAATTCGGGATCAACGTTCTGGTTCACCATTCCCGTCAAGCTGTTCCAG
TCACCCGAGTCGCAACAATCCGCTGCCGACATTGAACGACTGAAGGCTGTATTGGCAACCCCCACCCCCCTTCGC
ATCCTTGTGTGCTCTGGGTCGGATACGACAAGATCTTTCCTCTCCAATCTACTCGAAGGATTCGATGTTCATTCT
TCTTCTTCTGTGGAAGAGTCGCACGAGTTTCTCCGCTCTCTTCCACCTGAAGACAAGTCCCTCGACTTTGTCATT
CTCGACGACCAATCCGAGACCAATGCCGACGAAATGGCTCGCTTCATAAAGTCCCTTTCGTCACGTCCGCTCAAC
GATACCCGAGTCATTCATCTCTACACTCCCACGACTAGCCGGACTGGACAAGACGTGTTTGGGAATAGCAGTGTC
CTCGGTGTGGTCAAAATGACCAAACCGCCGCGGAAAGCGCGCTTGCTGCAAACCCTCGCTGGTTTGAAAGACATT
CCGAATACCATCTCGACTAACCCCACAAGTGAGGTTGCCAAGGCTATGGAGGAGCAGGCAGCTGCTAGATGTACT
CTATATGGAAACGTTCTCATTGCCGAAGACAACCCTATCGCCCAGAACCTACTGGTGAAGCAGCTGGAAAGGTAT
CAGCTGACTGTGACGGCCACGAGCAACGGAGAAGAAGCAATTGCAGCTTGGGAATCACACCCGCCAGGCTACTTC
AGTGTCGCTTTGTTCGATCATCACATGCCTATCTGCGACGGGGTAGAAGCTGCCAAGAGGCTGAGGCTGCTGGAA
AGGAAGCGGAAGATCCCAATTCAATTGCCGATCGCTGCGCTCAGTGCCGACTGCCAAGAGTCGACGAAGAATCTT
TGCCTGAGTGCGGGTATGAACACGTTCTTCAGCAAGCCGCTGAAAAAGAACGACCTCCTCTCACTCCTCTCCATG
TTCGGAACGCCAACCCCTCAAGGCACCTAG
Length 6855

Transcript

Sequence id CopciAB_357231.T0
Sequence >CopciAB_357231.T0
GGACTCCGTACAGAGTAATTTTGTCGCAACTTGGACATCCGCCAGTCGCAGTCGCTGCAATGCGACGAAGGCTTG
GACAGCACGCGCAACCGACGCTATTCTACAAAGACAGCGTTCTCTCAGTCCCAGGCTACACTTTTGAGAAGGCGG
TTCAATGGCACGACACAGGGAGTATGACTGAATTGGCGGAGGGGAGTTGTCTAAAGGACAGCTCAAGCGTACTAG
CCAAGATTGCGCCAGCGCAATCGAATGGCTCGATGTGCTTGGAGAGGGAAGCTCATATTCTGAACAGAGTCGCAG
CAGACGGCTCAAGTACAGTTCTGCGCATGATTGATTTCTTCAAAATACCCAAAGAACATGGAGATTCTGTCGTCC
TCCTTCTCGCCCATCCTGGTCCGAACCTCTTGGGTCGCTACCTACCGCCTTCCAAAGTCAACGATCTCCTCCTGG
CCGACGCCAATCACGGGAGACCAAGTTCATCCAATGGAGACATCACTATGCACGGCAGCTTCGAGGGATCCGACC
TGGCCGAAGAAATGGAACCTTTCGACATCATGGACTTGGCTTCGTTCCTCGAATTTGCTATCAAAGCTACACAGT
GCTTACAAACAATGCACAAGGCTGGCGTCGTACACCGAGAAGTCCGCGCCAATGCATTTCACCTCAACGCTCACT
CCGGCTTTGTTCGGCTCGTCCACTTTGGAAACCGTGCGATTTCACTTGAAAGCTTTGGATCGCCGTCGTCTTTGG
TTATTCGCGCCAATGACGAACCTGAGAAGCTCAAGGTGAAGGAAGCGTTATGTTATCTCGCTCCAGAACAGACAG
GCAGCATCGAAACGATGACTCAAGACCACAGAACGGACCTGTACTCCCTTGGAATCTTGTTTTGGACCTTACTGG
TGGGAAGAGGACAGATGCCGTTCGAAGGGGGCCCTCTGGAATTGCTACACGCCATTGTCCAGAAGCGACCAATGC
CCGTTCACGAAGTCCGTCGTGATGTACCCCAGGTGCTCGCGAACATCATCGACAAGTTACTCGCCAAGAATCCCG
ACCATCGCTATCAAAGCGCACACGGACTGAAGGCGGATTTACTGGAGTGTCAGAGGAGGTTGTTGGCCGTGGTTT
CGTCCCTCTCGGGAGAGCCGCAAGAGCTGATCCCATTCTTCGAGATTGCACAGGAAGACCGGTTCGTGGAATTCA
CCATCCCAATCGCACTGTTCGGTCGGGAGAAGGAACTTGAGCAAATCCGAAACGTTATCCGCAACACTTCCACAA
GCTTCTCTCAACATCACGCACCCGGGAAAGGGTTCATAACCCTCGCCTCTACAAGTTCCGGTACACAAGCGATGG
AAGCCAGCGAGTCCAACTCGTCGCGTAGTGGGTCTCCGAGCACCAGCATGGCAGCAGATTCCGTCATGCATCCGC
CAGAATCGCATATCGGTCACGATCCCTCTCAGACAACATCAGGGAGCCCCTCAAGGCATGCATCGGATGGTCTCA
GGAGGGCCGCGTTTCGAGGCGGGCGTAGCAAGTATTCCCGAACGCAAGCAGTTCTAGTTGTCGGGCCTCCTGGCA
TCGGCAAAAGCTCGATTGTTCTTGCAAATCAAGCCAAGTGGAGAGCTCACGGCCTGTGGGGACAAGCAAAGTTTC
AGGGTGCAGAGTCAGCACCTTTTGCCGCGCTGTTAAGCTGTCTCTCCGCTGTCTTGCGACAGCTGATGGTGTTCC
ACACAGACCTCCAACGCTTTGTTGCCGGACTTCAAGAACGTTTAGGACCTCAAATGCAGAACGTCCCGCTTCTTT
TCCAAGGGACGCCTGAGCTGAAGGACGTATTGGCGACATTCAACATTGTGCTGGAAGAACCGCAAGAGCCTCTTG
ATTCCACTGACCTTCGCTCCCGCTTCCAATCGCTTGTTGAAAAGGTCTTCGCAGTCATTGCCGAAACGCGATTGT
TTGCATTGTTTCTGGACGACTTGCATGAGGCAGATGATTCGACTCTTGACCTTGTTTCGACCTTGCTGAACTCTC
GCAGCAGGATGTTGATCTTTGCGACGTTGCGCTCAGACAAGCCGGGATTCGTCGATCGTGTCAAGTCCATGTTTT
CTCATAAAGCACGACCAACTTGGATTGATGTGGAACCCCTATCATACGCCGCGATACTCTCATTGATATCCAAAA
CCTTGCACAGGACGAAGGAAGACTGCACGCCGCTGACTCAATTCGTTTTCAAGGCTTCGTCTGGGAACGTCTTCT
CGGCCAGGAACATTTTGCATACTCTCCATCGACAAAACCATATACAATTCAACTGGGATAAGAACCATTGGATCT
ACGACATGGCCGCAATCGAGGGGAGCTTTGTCGACCAGCAAATATCCGACCCTGCCGACCTTTCATTCCTGGTTG
ATTACATGCGAAATTTGCCCGAAGAGGCCCGGAAGTATCTTACATGGGCTGCTTTCTTCGGCGAAACTTTCAAAG
TTACTGAAGTGGCATTGATGATGGACTGGGAGGATTCCAGTAATGGAAGCAGCAGTGAGGAAGAGGCAGATGACA
AATGGAACGTCCACAAAGCCGTCACAAACTTCCGAGAGAAGAGTTCTGACAGGACTCGTGGATCAATGCGCGGCC
TGCAGTTGGCCCTGGCGGAAGGGTGGCTTATACAACGCGCCAGGGAGATGTGTAGCTTCGCCCATGATCGATTCC
GTCAAGCAGCACAGGCTGAAGCTGCTGCATTGCCGCCCGATATAATTGCTAAGATGTCATTCCGCATCGTCCTGA
TGATGCTTCATGAGCACCCCGTTGATGTCTATCGCGTCGCTGAACATGCCAAGAAGTGTTTATCCCTCCTCCATG
AACATCCTAAGAAAGAAGAATTGCTGAACGTCCTCATCGACGCTGGAGAGTCGGCGTGGGCTAGAGGTGCTCACG
AGCTTGCGACTCGCTCTTTCCTCAATGCCCGAACTCTCTTAACTGAGGACCCATGGGCTCAACATCCCTCACGCA
CACTCGTCCTGTACTCACGACTCGCAGCGCTCCATACCTGGAAAGGGGAACTAAACGAGTCGGATGCGCTCCTCA
AAGAATGTTTTGCCCGTGCAGATCATCCGGAAGACAAGAGCAACATTCTCCGGCTCAAGTCCCGCAATCAATGGT
TGCGCGGCAACTTCACAGAGGCGTTCAATTTCACCATCACGGCTCTCAGCATCCTCGGCATTGAGATCTGCCATT
CTCCATCACGGAAACAAGCGGATGTCATGTTCGACCAAATCAAGAACGAGATACTGGCTGTTGGATTTGATGAGA
TTCTCGCTATCCCACGGACGACGGATAGGAAGACTGAGCTTGCGGTAACGCTGTTAAACGATGCTGGCATCAACG
CTTACTGGAGTCCATCTCCTTCCATCTTCTTGGACGTCATTGGTCTAACTACTATTCAACTCGCCTTACGGTCTG
GGATGGCTCCTGGCACGGCGCTTGGCTTTTTCTGGGCTCTGGGAGCGGAACGGAGAGAACTGTACCGTTTTTCCG
CTGACCTTGCGAAGCTAGCGCTCAGAATTGCGGATAAATATGGTAACTCTGCAGAGAAATGCCGCGCGCAGGTGC
TATATTGCAGCATGGTTTCTGGATTCGACAATGTTCACATGCGGTCGAGTATTCCTCGTCTGGAGGAAGCACTGA
AGTATGGCTATTCAGCCGGTGACAGCATTTACACCAGCTTCGCCAGTATTCACATCATCACCACCAAATTGTATC
TTTGCGAACACTTGGGAGAATTGCTAGGTGCAGCAGAAGAGTGTGTTAACGACGTCACGCTGCTGACACCGGGAG
GAGAACCCGTGATTCTTGCTACCGGCATTCTCAATTGCATTCGAGTCCTCGCCGGACAAACCGCCAACCAACCTC
CTATATCGGTTGATACATTGTTCGACACAGACAGCTTCGTCGAAAGCAATTACGTCCAGACGATCCTTAAAACAT
CGGGCAACGTATCTCTAGCCCTGAATTGGTACAATTCGTTCAAGGTCGTTAGCCTTTTTTGTGTAGGCTTCTACG
ACGAAGCGGCATCTCTTGGCTTTTCCGTCTACGAGAGCCGCTCTGTACATCCCAATCACCGCCACGTTCGCTATG
CGCTTTTCTTCCACAACCTCTCCATGATTGCATGCATTCGAATGGGAAGGTTGACGAATGAGACCAGAGCAAAGT
ATTTCTCGCAGATCAAACTGAACCAGATCTACATTCGCAAATGGTTGTCCTCTAGCCCTGTCAATACCAGTGCCT
GGGTTGCCATTGTGGATGCCGAAATGGCGGCCCTTCTAGGTGATTCCAACGCTTTGCGTCTCTATGACGTGGCCG
TCAGACTGGCCGGCGAGAATGACTGGTTAATGGAAGAAGGATGGGCATTATTTCTGCAAGGATCTCATTTCGTTC
GATGTGGAGTGGAAAGTTTAGGCACAGAATTACAACGTAGGGGCATTGCTAGGCATGCACAATGGGGGGCCAACG
GGATTGTGTCGCACCTGACGTCTCTTATCGGATCCCGAGCACGCCCTCCCCCCAGACGCCAAGCATTCACTGCAG
ACGTCGCTACCCAAACCGAAGCTCTTGCTGTCGATCCATCATCACAGATGCAGGTCCATAGCGCAACCATCGACC
TTCACGAGGATCACGACACTGTACTGAGTGCCTCTGATCTTGCCTCTATCCTGAAATGGAGCAAGGACATTTCCA
GCGATATCAACCTATCGTCAGCGCTTCGACGTCTCACAGAGATCGCGACTGAAACATCCGGGTCACACAGGACTT
GCGTCGTTATCGCTCGAGAAGCCGGGGATTACATCGTCGCCACTAGCATGTCGCAGCCCGATCCGTGTCAAGTCC
ACGAGAACCCCAAATCCATACGCACCATAGATGATCCACTGCAGAAGGCGATCATCCAACACACGTTGAACTCGA
AGGAAAGGGTGTATTACCATGACGCTTCCTTGGATTCTAGGTTCTCTTCGGAAGCTGCTCAATCTATACATCGCT
CGGTCATTTGCATCCCCATCTTCAGCAACCGGGGTCAAACCTTTGGCGTCGTTTATCTTTCCTCCAGATACCCTT
TTTCGCAGAATACTCTCACAGTCTTGACGCTCCTTTGCCAACAAGCCAGTATCAGCATTTCGAACGCCCTTCTGT
TCCGCTCAGTCCAAGCCGGCACAAGGGAGAATTTGAAGATGATCGCAGCTCAACGTGATGCTCTAGAGACAGCCA
GGAAAAGTCGGGAGGATGCGCTGAAGGCTACCAAGATTAAGAGCAATTTCTTGGCGTCGATGAGCCACGAGCTCA
GAACCCCTTTTAGTTCCTTCTATGGACTGCTGGATTTGTTAAGCGGAACAGAGCTGAACCCCGGGCAAAGTGAAA
TCGTCCAAACGGCAAAGCAGTCGTGTGAATTGCTGCTCAAGATCATTGATTCTATTCTGGATTACAGCAAACTGG
AAGCTTCAGCCGTCAAACTCGAGCCGAGCGGCTTTTTAGTTGAGAATATTATCGCGGATTGCATGGAGCTGCTGT
TACCGATGGCTGCCAAGAAATTGGACCTGTCTTTTAACATCGAACCCGACGTGCCATCTTGGGTTTTCGCGGACT
ACGCCCGCATACGTCAAGTTTTGATGAATTTGATTGGCAATGCCGTCAAGTTCACTGCACAAGGATACGTCCGAG
TGACCTGCTCTGTCGATAACTCCACAAAGGTCGTCCCAGGTGAAGTGAATCTGAAGTTCGAGATCCAGGACACGG
GCATCGGCTTGTCTGCAAGTGACGTTGATCATCTCTTCATGCCGTTTCAACAAGCCGACAACTCATCGACTCGTC
GATTTGGAGGCACCGGCCTGGGATTATCTATCTCACGACAGTTGGTCAAACTCATGGGTGGCGCTATTGGTGTTC
AATCAGATTTAAATTCGGGATCAACGTTCTGGTTCACCATTCCCGTCAAGCTGTTCCAGTCACCCGAGTCGCAAC
AATCCGCTGCCGACATTGAACGACTGAAGGCTGTATTGGCAACCCCCACCCCCCTTCGCATCCTTGTGTGCTCTG
GGTCGGATACGACAAGATCTTTCCTCTCCAATCTACTCGAAGGATTCGATGTTCATTCTTCTTCTTCTGTGGAAG
AGTCGCACGAGTTTCTCCGCTCTCTTCCACCTGAAGACAAGTCCCTCGACTTTGTCATTCTCGACGACCAATCCG
AGACCAATGCCGACGAAATGGCTCGCTTCATAAAGTCCCTTTCGTCACGTCCGCTCAACGATACCCGAGTCATTC
ATCTCTACACTCCCACGACTAGCCGGACTGGACAAGACGTGTTTGGGAATAGCAGTGTCCTCGGTGTGGTCAAAA
TGACCAAACCGCCGCGGAAAGCGCGCTTGCTGCAAACCCTCGCTGGTTTGAAAGACATTCCGAATACCATCTCGA
CTAACCCCACAAGTGAGGTTGCCAAGGCTATGGAGGAGCAGGCAGCTGCTAGATGTACTCTATATGGAAACGTTC
TCATTGCCGAAGACAACCCTATCGCCCAGAACCTACTGGTGAAGCAGCTGGAAAGGTATCAGCTGACTGTGACGG
CCACGAGCAACGGAGAAGAAGCAATTGCAGCTTGGGAATCACACCCGCCAGGCTACTTCAGTGTCGCTTTGTTCG
ATCATCACATGCCTATCTGCGACGGGGTAGAAGCTGCCAAGAGGCTGAGGCTGCTGGAAAGGAAGCGGAAGATCC
CAATTCAATTGCCGATCGCTGCGCTCAGTGCCGACTGCCAAGAGTCGACGAAGAATCTTTGCCTGAGTGCGGGTA
TGAACACGTTCTTCAGCAAGCCGCTGAAAAAGAACGACCTCCTCTCACTCCTCTCCATGTTCGGAACGCCAACCC
CTCAAGGCACCTAGTCGGTTCTTCAAACATCTATCTCGCTCCATCTCTGTCTCCATGGCATCTCAACAGCTAACT
TATATACGAGCACACTTACTGTATCATAGTCGTTTCTGTCTTCTTGGTGGTTTCGCTCTCTTCTCGTCACAGGTA
ACTCGGTACATACTTATTGGTCATGGTTGTATTAAGCTAGGGTGCATACACGCAGTTTATGTAGGATATGAAATA
TGATCTCTGGGCATTTGGTTCATAGTTTCACAAAACTAATGTTAAGGGTACAAACCTAGATAAGCCGAATTGAGA
AGAAAGGGGGAATCTTGAACAAGGAGGCCACAGAGGA
Length 7237

Gene

Sequence id CopciAB_357231.T0
Sequence >CopciAB_357231.T0
GGACTCCGTACAGAGTAATTTTGTCGCAACTTGGACATCCGCCAGTCGCAGTCGCTGCAATGCGACGAAGGCTTG
GACAGCACGCGCAACCGACGCTATTCTACAAAGACAGCGTTCTCTCAGTCCCAGGCTACACTTTTGAGAAGGTAG
GCATTGGGTGCTTTTGCTCAAGCAAGCGCTATTGACGACTTCCAACCAGGCGGTTCAATGGCACGACACAGGGAG
TATGACTGAATTGGCGGAGGGGAGTTGTCTAAAGGACAGCTCAAGCGTACTAGCCAAGATTGCGCCAGCGCAATC
GAATGGCTCGATGTGCTTGGAGAGGGAAGCTCATATGTGCGTTATCGCTACCTTTGCTCTGCTATTCAATGCTCA
CAACATATCTCAGTCTGAACAGAGTCGCAGCAGACGGCTCAAGTACAGTTCTGCGCATGATTGATTTCTTCAAAA
TACCCAAAGAACATGGAGATTCTGTCGTCCTCCTTCTCGCCCATCCTGGTCCGAACCTCTTGGGTCGCTACCTAC
CGCCTTCCAAAGTCAACGATCTCCTCCTGGCCGACGCCAATCACGGGAGACCAAGTTCATCCAATGGAGACATCA
CTATGCACGGCAGCTTCGAGGGATCCGACCTGGCCGAAGAAATGGAACCTTTCGACATCATGGACTTGGCTTCGT
TCCTCGAGTGCGTTAAGCGTTTGCACTGTTATCACATTCCCATCTCACAGACATTAGATTTGCTATCAAAGCTAC
ACAGTGCTTACAAACAATGCACAAGTAGGTTAAATGTCTTTCCCCTTGCCTTCACTTAAACTCACCCTTCTTTGC
AGGGCTGGCGTCGTACACCGAGAAGGTCAAGCGCTCCATCACCCTTCGCGCCTATTCAAAACTGACGCCGTCGTC
TTTAGTCCGCGCCAATGCATTTCACCTCAACGCTCACTCCGGCTTTGTTCGGCTCGTCCACTTTGGAAACCGTGC
GATTTCACTTGAAAGCTTTGGATCGCCGTCGTCTTTGGTTATTCGCGCCAATGACGAACCTGAGAAGCTCAAGGT
GAAGGAAGCGTTATGTTATCTCGCTCCAGAACAGACAGGCAGCATCGAAACGATGACTCAAGACCACAGAACGGA
CCTGTACTCCCTTGGAATCTTGTTTTGGACCTTACTGGTGGGAAGAGGACAGATGCCGTTCGAAGGGGGCCCTCT
GGAATTGCTACACGCCATTGTCCAGAAGCGACCAATGCCCGTTCACGAAGTCCGTCGTGATGTACCCCAGGTGCT
CGCGAACATCATCGACAAGGTATGCCAATGACCATACAATGCCCGTTGTATTCTTGGTTTAATCCAATCGTATAG
TTACTCGCCAAGAATCCCGACCATCGCTATCAAAGCGCACACGGACTGAAGGCGGATTTACTGGAGTGTCAGAGG
AGGTTGTTGGCCGTGGTTTCGTCCCTCTCGGGAGAGCCGCAAGAGGTCGGGACTAGATTAGCCTTCTGACGAGCG
TTATTCACCATATCCTTGCAGCTGATCCCATTCTTCGAGATTGCACAGGAAGACCGGTTCGTGGTGCGTGCTATC
CGCTTCCCTAGGGGAGCTTTCATCACTAAACGTGGACCAGGAATTCACCATCCCAATCGCACTGTTCGGTCGGGA
GAAGGAACTTGAGCAAATCCGAAACGTTAGTAAGTATATATGTTTAACTTCCATGTCTTTATTCCATCTGACCAC
CGCCGTAGTCCGCAACACTTCCACAAGCTTCTCTCAACATCACGCACCCGGGAAAGGGTTCATAACCCTCGCCTC
TACAAGTTCCGGTACACAAGCGATGGAAGCCAGCGAGTCCAACTCGTCGCGTAGTGGGTCTCCGAGCACCAGCAT
GGCAGCAGATTCCGTCATGCATCCGCCAGAATCGCATATCGGTCACGATCCCTCTCAGACAACATCAGGGAGCCC
CTCAAGGCATGCATCGGATGGTCTCAGGAGGGCCGCGTTTCGAGGCGGGCGTAGCAAGTATTCCCGAACGCAAGC
AGTTCTAGTTGTCGGGCCTCCTGGGTTGGTCTCCCAAATCCAGTTTCATTGCTTCCCCTGGCTAATTCAATCTCA
GCATCGGCAAAAGCTCGATTGTTCTTGCAAATCAAGCCAAGTGGAGAGGTGATGTCTTTTCATGTATCAAGCGGA
GTGGAGCTTACTGACGTCGTGAAAGCTCACGGCCTGTGGGGACAAGCAAAGTTTCAGGGTGCAGAGTCAGCACCT
TTTGCCGCGCTGGTATTGAGCATGTCCAGCTAGTTCTAATGATTGAATCACTTACCCGGTTTCTAGTTAAGCTGT
CTCTCCGCTGTCTTGCGACAGCTGATGGTGTTCCACACAGACCTCCAACGCTTTGTTGCCGGACTTCAAGAACGT
TTAGGACCTCAAATGCAGAACGTCCCGCTTCTTTTCCAAGGGACGCCTGAGCTGAAGGACGTATTGGCGACATTC
AACATTGTGCTGGAAGAACCGCAAGAGCCTCTTGATTCCACTGACCTTCGCTCCCGCTTCCAATCGCTTGTTGAA
AAGGTCTTCGCAGTCATTGCCGAAACGCGATTGTTTGCATTGTTTCTGGACGACTTGCATGAGGCAGATGATTCG
TGAGTTCATGATCCCCTTCGGACCTTCCGAATGCGGTCTAATTCAACTAATAGGACTCTTGACCTTGTTTCGACC
TTGCTGAACTCTCGCAGCAGGATGGTATGTCTCGTACCCATTTTCGCATTCCTCACTTCCTCATCATCAATTACC
AGTTGATCTTTGCGACGTTGCGCTCAGACAAGCCGTAAGTCGTCTCGTACGGGAATGTCGTGATGTAATGACGAC
ATCTTTCTCAAGGGGATTCGTCGATCGTGTCAAGTCCATGTTTTCTCATAAAGCACGACCAACTTGGATTGATGT
GGAACCCCTATCATACGCCGCGATACTCTCATTGATATCCAAAACCTTGCACAGGACGAAGGAAGACTGCACGCC
GCTGACTCAATTCGTTTTCAAGGCTTCGTCTGGGAACGTCTTCTCGGCCAGGAACATTTTGCATACTCTCCATCG
ACAAAACCATGTGAGAATCCTGGTTCCACCCATGACGCGCGATGATACTGAAGTACATCTGTAGATACAATTCAA
CTGGGATAAGAACCATTGGATGTATGTCTCTCCTATGCGCCTTGTCGTTTAACGTACTTGCTAATGACGTTAACA
GCTACGACATGGCCGCAATCGAGGGGAGCTTTGTCGACCAGCAAATATCCGACCCTGCCGACCTTTCATTCCTGG
TTGATTACATGCGAAATTTGCCCGAAGAGGCCCGGAAGTATCTTACATGGGCTGCTTTCTTCGGCGAAACGTTTG
TGCCTTCCCCTCGCTATCTGCATAGGGATTGTGCTGACCTCAACCTAGTTTCAAAGTTACTGAAGTGGCATTGAT
GATGGACTGGGAGGATTCCAGTAATGGAAGCAGCAGTGAGGAAGAGGCAGATGACAAATGGAACGTCCACAAAGC
CGTCACAAACTTCCGAGAGAAGAGTTCTGACAGGACTCGTGGATCAATGCGCGGCCTGCAGTTGGCCCTGGCGGA
AGGGTGGCTTATACAACGCGCCAGGGAGATGTGTAGCTTCGCCCATGATCGATTCCGTCAAGCAGCACAGGCTGA
AGCTGCTGCATTGCCGCCCGATATAATTGCTAAGATGTCATTCCGCGTATGTGATACTTTTCCTCTCCTGACTGT
TTGTATTCGACTCATTTTTTCTTCCAGATCGTCCTGATGATGCTTCATGAGCACCCCGTTGATGTCTATCGCGTC
GCTGAACATGCCAAGAAGTACGTCACTTATTACTGCCGTCCGTAAATGTGCTCATATTTGTCTAGGTGTTTATCC
CTCCTCCATGAACATCCTAAGAAAGAAGAATTGCTGAACGTCCTCATCGACGCTGGAGAGTCGGCGTGGGCTAGA
GGTGCTCACGAGGTGTGTGTGTGAAAGACTGTCCGGTGGAGATCCTCTGCTGATGGTGTTTGCAGCTTGCGACTC
GCTCTTTCCTCAATGCCCGAACTCTCTTAACTGAGGACCCATGGGCTCAACATCCCTCACGCACACTCGTCCTGT
ACTCACGACTCGCAGCGTGCGTTGTCTTTACCTTTCCTCGATACTTTTAGCTCACCTTACCAATTGCTTAGGCTC
CATACCTGGAAAGGTAACTTGCCTCCTGCTCCGTAGCAAAGCAGTAATTGACATCTTCTCAGGGGAACTAAACGA
GTCGGATGCGCTCCTCAAAGAATGTTTTGCCCGTGCAGATCATCCGGAAGACAAGAGCAACATTCTCCGGCTCAA
GTCCCGCAATCAATGGTTGCGCGGCAACTTCACAGAGGCGTTCAATTTCACCATCACGGCTCTCAGCATCCTCGG
CATTGAGATCTGCCATTCTCCATCACGGAAACAAGCGGATGTCATGTTCGACCAAATCAAGAACGAGATACTGGC
TGTTGGATTTGATGAGATTCTCGCTATCCCACGGACGACGGATAGGAAGACTGAGCTTGCGGTAACGCTGTTAAA
CGATGCTGGTAAGTTTTGGAAATGTACGGCTATTCTATTCGTTTCGTTCTGACTTTCATGCAAGGCATCAACGCT
TACTGGAGTCCATCTCCTTCCATCTTCTTGGACGTCATTGGTCTAACTGTAAGTCGTCTCGTGTGGAAGAGTTTA
CCTTGGACTGATACATATCCCATATTTGAAGACTATTCAACTCGCCTTACGGTATGTTGTCCTTTCTCCTGCATA
GACCCGTTTGACACTGGGTCAGGTCTGGGATGGCTCCTGGCACGGCGCTTGGCTTTTTCTGGGCTCTGGGAGGTA
TGTTCATCTATGTTACAATCTACCCAAGAAGAAATTGACGGACTGTAGCTGCAGCGGAACGGAGAGAACTGTACC
GTTTTTCCGCTGACCTTGCGAAGCTAGCGCTCAGAATTGCGGATAAATATGGTAACTCTGCAGAGAAATGGTAGG
TGTCTTGCCAGAAGCGAAACTACGCGTCGCTGATGACCCCCGTAGCCGCGCGCAGGTGCTATATTGCAGCATGGT
TTCTGGATTCGACAATGTTCACATGCGGTCGAGTATTCCTCGTCTGGAGGAAGCACTGAAGTATGGCTATTCAGC
CGGTGACAGGTTCGCACTCTCCCTTGATGCCCCGACACTCGACTGATTGTTTTGCAGCATTTACACCAGCTTCGC
CAGTATTCACATCATCACCACCAAATTGTATCTTTGCGAACACTGTACGCTTCTCTCTCGCGCAGTTAAATGATC
CCCTCCTAACTTTCTCAAAGTGGGAGAATTGCTAGGTGCAGCAGAAGAGGTATAATCTCTTTTCATTGAACCTGA
TCCCGTTCTCATTGCCGCGCTTCAGTGTGTTAACGACGTCACGCTGCTGACACCGGGAGGAGAACCCGTGATTCT
TGCTACCGGTGAGTCGGTGTCACGCGGTCTCTCATGTACACTGGGCTCAAAGAACATCAGGCATTCTCAATTGCA
TTCGAGTCCTCGCCGGACAAACCGCCAACCAACCTCCTATATCGGTTGATACATTGTTCGACACAGACAGCTTCG
TCGAAAGCAATTACGTCCAGACGATCCTTAAAACATCGGGCAACGTATCTCTAGCCCTGAATTGGTCAGTTAAGA
CAGTCTCAATTGACATCAACATCATAACCTTTACAACTATTTCCCCTTTCAGGTACAATTCGTTCAAGGTCGTTA
GCCTTTTTTGTGTAGGCTTCTACGACGAAGCGGCATCTCTTGGCTTTTCCGTCTACGAGAGCCGCTCTGTACATC
CCAAGTACGTCGGGTCATCAGCGACTATGGCATCCGGCTGACATATGTCAACAGTCACCGCCACGTTCGCTATGC
GCTTTTCTTCCACAACCTCTCCATGATTGCATGCATTCGAATGGGAAGGTTGACGAATGAGACCAGAGCAAAGTA
TTTCTCGCAGATCAAACTGAACCAGATCTACATTCGCAAATGGTTGTCCTCTAGCCCTGTCAATACCAGTGCCTG
GGTTGCCATTGTGGTGAGTTGTTCAATGCATAAAATACGAGGCGACCTACTGAAGGGGCAAAAGGATGCCGAAAT
GGCGGCCCTTCTAGGTGATTCCAACGCTTTGCGTCTCTATGACGTGGCCGTCAGGTATTGTCAAGCTCCCCGTGT
TCTGTGTAATAGACTATTGACGTCCGATGTCCAGACTGGCCGGCGAGAATGACTGGTTAATGGAAGAAGGATGGG
CATTATTTCTGGTAAGCGCCACTCTTAAGCCACGGTTTGGGCGAGCGCTGAGGTTGGTATAGCAAGGATCTCATT
TCGTTCGATGTGGAGTGGAAAGTTTAGGCACAGAATTACAACGTAGGGGCATTGCTAGGCATGCACAATGGGGGG
CCAACGGGATTGTGTACGTGCATTTAGGCATTTCAACACTACTACTGACACCCTGTCCAGGTCGCACCTGACGTC
TCTTATCGGATCCCGAGCACGCCCTCCCCCCAGACGCCAAGCATTCACTGCAGACGTCGCTACCCAAACCGAAGC
TCTTGCTGTCGATCCATCATCACAGATGCAGGTCCATAGCGCAACCATCGACCTTCACGAGGATCACGACACTGT
ACTGAGTGCCTCTGATCTTGCCTCTATCCTGAAATGGAGCAAGGACATTTCCAGCGATATCAACCTATCGTCAGG
TAATTGGGCCTCAAACTCTAGAGTTAAGACAAGCTGACGTCGCTTGGCAGCGCTTCGACGTCTCACAGAGATCGC
GACTGGTATGCCTTCATTATGTCGAGATGGGGATCTTATTCCGAATGTCTATCAGAAACATCCGGGTCACACAGG
ACTTGCGGTAGGCGTTTACGTCGTTTGGCCGTCGGTACTCGTTTATGTACCTGTCTTTTTTTTCCAAGTCGTTAT
CGCTCGAGAAGCCGGGGATTACATCGTCGCCACTAGCATGTCGCAGCCCGATCCGTGTCAAGTCCACGAGTGAGC
AAAATAATTCGCCGGCCTGTCGCGAAACTAATGACCGACCCCCAGGAACCCCAAATCCATACGCACCATAGATGA
TCCACTGCAGAAGGCGATCATCCAACACAGTTAGTCCTGTCCAGTTGTCCAACTGATTGTGGTATTGACATCCCT
CACCAAGCGTTGAACTCGAAGGAAAGGGTGTATTACCATGACGCTTCCTTGGATTCTAGGTTCTCTTCGGAAGCT
GCTCAATCTATACATCGCTCGGTCATTTGCATCCCCATCTTCAGCAACCGGGGTCAAACCTTTGGCGTCGTTTAT
CTTTCCTCCAGATACCCTTTTTCGCAGAATACTCTCACAGTCTTGACGCTCCTTTGCCAACAAGCCAGTATCAGC
ATTTCGAACGCCCTTCTGTTCCGCTCAGTCCAAGCCGGCACAAGGGAGAATTTGAAGATGATCGCAGCTCAACGT
GATGCTCTAGAGACAGCCAGGAAAAGTCGGGAGGATGCGCTGAAGGCTACCAAGGTCAGTCTGCGGTCCCTCGGA
TGGAGCTAGCAGCTGATGGGTTGCTCGTAGATTAAGAGCAATTTCTTGGCGTCGATGAGCCACGAGCTCAGAACC
CCTTTTAGGTAGGACTTGCCCTTTTCGGGACCTGACCACCGTACTGATGGACGTTTAGTTCCTTCTATGGACTGC
TGGATTTGTTAAGCGGAACAGAGCTGAACCCCGGGCAAAGTGAAATCGGTATGCGCTTGCCCATTAATGCCATGG
GATCACGCTTCCTCTGACACCTTGTCGTAGTCCAAACGGCAAAGCAGTCGTGTGAATTGCTGCTCAAGGTAGAGC
ACTTTAAAAGCATCGAGTTTTTATTGCATAACGCTCACAACACACGACAGATCATTGATTCTATTCTGGATTACA
GCAAACTGGAAGCTTCAGGTAGGTTCAAATCCCATAAAGAAGCAAAAGTTTCTGAATTATCCTGCGGCTATCAGC
CGTCAAACTCGAGCCGAGCGGCTTTTTAGTTGAGGTGAGTTTCCGATCACCTGTATCCAACAAAGCAGAAGCTGA
CCTCAGGCAACAGAATATTATCGCGGTCAGTTATGACCAATCGCCTTATCAGCTGCTCTTCGACTGACGATGTAT
CAGGATTGCATGGAGCTGCTGTTACCGATGGCTGCCAAGAAATTGGACCTGTCTTTTAACATCGAACCCGACGTG
CCATCTTGTTTGTGCCCTTTCCTTTGCGAATCTTTTCAAGTGACTGATACATTTGCCATTAGGGGTTTTCGCGGA
CTACGCCCGCATACGTCAAGGTAAGAGGCGTTCCAGCTGCTGGAACAGCATATACTCAACGTCTTCCTCAGTTTT
GATGAATTTGATTGGCAATGCCGTCAAGTTCACTGCACAAGGATACGTCCGAGTGACCTGCTCTGTCGATAACTC
CACAAAGGTCGTCCCAGGTGAAGTGAATCTGAAGTTCGAGATCCAGTAAGTTGGCCCTCCCTTCCCTGGTTAAGG
AATTGTGACCAATGTTGATTTCAGGGACACGGGCATCGGCTTGTCTGCAAGTGACGTTGATCATCTCTTCATGCC
GTTTCAACAAGCCGACGTAAGTGTCGTCGGGTGCTACTCACATGTCCCTATGCTCAATTCTTTATTCAGAACTCA
TCGACTCGTCGATTTGGAGGCACCGGCCTGGGATTATCTATCTCACGACAGTTGGTCAAACTCATGGGTGGCGCT
ATTGGTGTTCAATCAGATTTAAATTCGGGATCAACGTTCTGGTTCACCATTCCCGTCAAGCTGTTCCAGTCACCC
GAGTCGCAACAAGTAAGTAGACTATCCGGTGGTATTGACCATAGCTGACATTGTCCGACAGTCCGCTGCCGACAT
TGAACGACTGAAGGCTGTATTGGCAACCCCCACCCCCCTTCGCATCCTTGTGTGCTCTGGGTCGGATACGACAAG
ATCTTTCCTCTCCAATCTACTCGAAGGATTCGATGTTCATTCTTCTTCTTCTGTGGAAGAGTCGCACGAGTTTCT
CCGCTCTCTTCCACCTGAAGACAAGTCCCTCGACTTTGTCATTCTCGACGACCAATCCGAGACCAATGCCGACGA
AATGGCTCGCTTCATAAAGTCCCTTTCGTCACGTCCGCTCAACGATACCCGAGTCATTCATCTCTACACTCCCAC
GACTAGCCGGACTGGACAAGACGTGTTTGGGAATAGCAGTGTCCTCGGTGTGGTCAAAATGACCAAACCGCCGCG
GAAAGCGCGCTTGCTGCAAACCCTCGCTGGTTTGAAAGACATTCCGAATACCATCTCGACTAACCCCACAAGTGA
GGTTGCCAAGGCTATGGAGGAGCAGGCAGCTGCTAGATGTACTCTATATGGAAACGTTCTCATTGCCGAAGGTAG
GCGTTTCCCATGGCGGTCGCGATACTAAGAATTTGTCTGATCCTATTTCCTTGCAGACAACCCTATCGCCCAGAA
CCTACTGGTGAAGCAGCTGGAAAGGTATCAGCTGACTGTGACGGCCACGAGCAACGGAGAAGAAGCAATTGCAGC
TTGGGAATCACACCCGCCAGGCTACTTCAGTGTCGCTTTGTTCGATCATCGTCAGTACCTCCCTTTCTGCTATCC
CTTCGCCCCATACTCACTGTTCTGAAAGACATGCCTATCTGCGACGGGGTAGAAGCTGCCAAGAGGCTGAGGCTG
CTGGAAAGGAAGCGGAAGATCCCAATTCAATTGCCGAGTAAGTGGCGAAGGGCGGATATGCGGATGAGATCATTG
ACCACTTTGTGTCTCGTTTCCAGTCGCTGCGCTCAGTGCCGACTGCCAAGAGTCGACGAAGAATCTTTGCCTGAG
TGCGGGTATGAACACGTTCTTCAGCAAGCCGCTGAAAAAGAGTGGGTGTTCTATTTCGTCACAGTTTACTAGTTC
TCTGACCAGTCGATTGGCAGACGACCTCCTCTCACTCCTCTCCATGTTCGGAACGCCAACCCCTCAAGGCACCTA
GTCGGTTCTTCAAACATCTATCTCGCTCCATCTCTGTCTCCATGGCATCTCAACAGCTAACTTATATACGAGCAC
ACTTACTGTATCATAGTCGTTTCTGTCTTCTTGGTGGTTTCGCTCTCTTCTCGTCACAGGTAACTCGGTACATAC
TTATTGGTCATGGTTGTATTAAGCTAGGGTGCATACACGCAGTTTATGTAGGATATGAAATATGATCTCTGGGCA
TTTGGTTCATAGTTTCACAAAACTAATGTTAAGGGTACAAACCTAGATAAGCCGAATTGAGAAGAAAGGGGGAAT
CTTGAACAAGGAGGCCACAGAGGA
Length 10374