CopciAB_470504
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_470504 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 470504
Uniprot id Functional description Phytochrome region
Location scaffold_7:1487355..1493899 Strand +
Gene length (nt) 6545 Transcript length (nt) 5593
CDS length (nt) 5076 Protein length (aa) 1691

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Aspergillus nidulans AN9008_fphA
Neurospora crassa phy-1

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7261458 60.5 0 1623
Hypsizygus marmoreus strain 51987-8 Hypma_RDB17975 55.2 0 1592
Ganoderma sp. 10597 SS1 v1.0 Gansp1_46262 59.6 0 1566
Schizophyllum commune H4-8 Schco3_76719 60.8 0 1549
Lentinula edodes W1-26 v1.0 Lentinedodes1_2180 50.8 0 1533
Lentinula edodes NBRC 111202 Lenedo1_1039320 58.3 0 1504
Flammulina velutipes Flave_chr05AA00379 50 0 1412
Pleurotus ostreatus PC15 PleosPC15_2_25802 58.3 0 1383
Auricularia subglabra Aurde3_1_1200027 47.2 0 1145
Grifola frondosa Grifr_OBZ71696 62.2 0 1102
Pleurotus ostreatus PC9 PleosPC9_1_85271 60.8 6.144E-282 917

Expression

Name Summary Attribution Assay type
Carbon metabolism Transcriptional changes along alternative morphogenetic paths of C. cinerea Xie et al. 2020 RNA-Seq
Sample Mean cpm SD cpm Se of mean
sclerotia 399.9413 79.0252 45.6252
oidia 170.1621 10.586 6.1118
vegetative_mycelium 171.3732 70.0305 40.4321
primordia 160.9657 16.0037 9.2398
hyphal_knot 296.2775 38.0474 21.9667
young_fruiting_body 293.683 47.6845 27.5306
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 206.4163 18.9863 10.9618
Wheat bran 96.5675 15.4768 8.9355
Horse manure 140.365 42.009 24.2539
Oak leaves 140.0789 35.0271 20.2229
Hay 136.9252 11.4295 6.5988
Corn stalk 147.0712 17.4451 10.0719
Pectine 174.6222 5.4981 3.1743
Microcrystalline cellulose 157.3412 39.7742 22.9636
Xylose 180.7094 7.0858 4.091
Cellobiose 137.7827 15.2473 8.803
Lignin 170.7022 52.2517 30.1675
Apple peels 212.4963 35.3949 20.4352
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 138.5281 16.6458 9.6105
Bsubtilis 270.632 13.8607 8.0025
Ecoli 219.9787 40.5797 23.4287
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 332.2573 23.1029 13.3384
BS 4h 116.4933 8.1243 4.6906
BS 8h 67.4457 11.7186 6.7657
BS 12h 52.0442 1.3826 0.7983
Oidia 0 h 58.4131 7.0779 4.0864
Oidia 18 h 81.206 16.876 9.7433
Sclerotia 158.7637 63.9 36.8927
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 35.3619 6.2796 3.6256
DM 36h 38.8029 4.8446 2.797
DM 60h 48.0778 9.5875 5.5354
DM 84h 42.8184 9.7944 5.6548
DM 108h 44.0961 2.7456 1.5852
DM 132h 56.1897 17.4443 10.0715
DM 156hAE 53.306 8.1349 4.6967
ELI1hAE 30.7674 3.3917 1.9582
ELI2hAE 38.8968 10.4865 6.0544
LI2hAE 45.0917 3.234 1.8672
LI6hAE 66.0656 11.2092 6.4716
LI12hAE 43.4534 10.2285 5.9054
LI18hAE 58.4914 17.6023 10.1627
LI 24hAE 58.8144 5.8134 3.3564
DM 156hAM 47.9871 3.4888 2.0143
ELI1hAM 45.5118 8.0167 4.6285
ELI2hAM 43.0121 4.7949 2.7683
LI2hAM 34.556 11.4696 6.622
LI6hAM 61.2177 10.3351 5.967
LI12hAM 50.3324 3.0189 1.743
LI18hAM 57.6197 12.527 7.2325
LI 24hAM 75.1396 14.1684 8.1801
LI 24hHK 71.5679 26.542 15.324
L/D 6h 29.9773 8.2471 4.7615
L/D 12h 23.3766 4.2704 2.4655
L/D 18h 47.0744 11.2491 6.4947
L/D 24h 46.7771 4.6497 2.6845
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 141.2881 28.3847 16.3879
Hyphal knots 166.9898 146.697 84.6955
Primordium 1 75.809 10.902 6.2943
Primordium 2 87.8785 25.7592 14.8721
Young Fruiting body cap 210.9866 119.8193 69.1777
Younf fruiting body gill 127.864 42.5047 24.5401
Young fruiting body stipe 656.9723 185.1607 106.9026
Mature fruiting body cap_gill 1164.8508 897.2648 518.0361
Mature fruiting body stipe 720.6431 328.9109 189.8968
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 198.0437 24.9595 14.4104
NH4NO3 219.371 19.5306 11.276
Proline 246.1949 83.767 48.3629
Tryptophan 192.8397 42.6749 24.6384
Isoleucin 269.486 84.7792 48.9473
Arginine 318.2227 27.3998 15.8193
Metionine 260.1147 43.0011 24.8267
NaNO3 217.0336 25.7792 14.8836
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 198.0437 24.9595 14.4104
Citrus peel 127.0177 21.4311 12.3733
Poplar leaves 198.9656 14.9366 8.6236
Typha leaves 133.6508 21 12.1244
Overwintered Salix leaves 143.3692 20.7718 11.9926
Reed flowering 157.8606 15.7228 9.0776
Tigernut 111.045 12.4706 7.1999
Energy cane 147.3724 20.7341 11.9709
Guar gum 153.2531 27.055 15.6202
Apple peels 106.1014 17.1723 9.9144
Cellobiose 124.6169 15.2551 8.8075
Corn stalk 140.1526 12.6998 7.3322
Horse manure 182.7602 27.8913 16.1031
Lignin 178.1125 66.5046 38.3964
Microcrystalline cellulose 205.5224 63.0506 36.4023
Oak leaves 122.6221 24.3424 14.0541
Pectin esterified 119.7384 10.9309 6.311
Poplar sawdust 119.8799 17.1684 9.9122
Wheat bran 99.2437 21.2775 12.2845
Chlamydomonas reinhardtii 166.7947 10.8248 6.2497
Vertatryl alcohol 167.9666 17.7347 10.2391
Furfural 155.3806 9.1113 5.2604
Autoclaved mycelium 201.3553 19.2633 11.1216
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 157.3958 10.4009 6.005
Ribose 187.8892 23.409 13.5152
Mannose 167.8149 1.4611 1.0332
Fructose 188.962 7.3846 4.2635
Arabinose 193.8918 11.4564 6.6143
Xylose 169.9823 4.2378 2.4467
Galacturonic acid 190.2916 9.9318 5.7341
Rhamnogalacturonan 184.5398 9.0715 5.2374
Pectin esterified 217.6059 12.2765 7.0878
Polygalacturonic acid 169.4129 11.0346 6.3708
Sodium acetate 183.8126 4.9976 2.8853
No nitrogen 202.292 15.7445 9.0901
BSA 206.8338 8.5561 4.9399
Glutamine 193.7406 4.6523 2.686
No phosphate 163.0779 17.381 10.0349
No carbon 239.1468 3.2573 2.3032
No sulphur 262.3007 18.0586 10.4261
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 198.0437 24.9595 14.4104
Amylose 186.5984 10.5191 6.0732
Fucose 186.9678 5.6182 3.2437
Galactose 282.1249 19.6568 11.3489
Lactose 198.0087 5.4953 3.1727
Maltose 183.8336 37.1548 21.4514
Mannitol 214.4832 7.4599 4.307
Rhamnose 221.5786 19.8563 11.464
Sorbitol 148.2474 21.3343 12.3173
Trehalose 140.313 31.2965 18.069
Glycerol 225.1284 14.372 8.2977
Glucuronic acid 171.4554 23.4369 13.5313
Arabinan 110.9731 9.7676 5.6393
Galactan 158.8945 27.936 16.1289
Galactomannan 120.5799 21.2532 12.2706
Glucan 167.9454 21.4375 12.3769
Xylan 127.9393 36.1216 20.8548
Xyloglucan 130.0082 19.1959 11.0827
Arabinogalactan 173.028 0.4626 0.2671
Pectin 188.8779 52.7714 30.4676
Rhamnogalacturonan 233.9598 52.4849 30.3021
Polygalacturonic acid 171.9858 21.5627 12.4492
Mannan 176.1001 4.8172 2.7812
Amylopectin 193.0862 60.9888 35.2119
Inulin 365.7651 68.0397 39.2827
BSA 110.7204 10.4775 6.0492
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 48.0778 9.5875 5.5354
2h WAT 72.9266 21.6124 12.4779
4h WAT 47.223 6.2252 3.5941
8h WAT 63.5282 8.1763 4.7206
16h WAT 62.197 4.5873 2.6485
24h WAT 63.3747 7.3002 4.2148
WAT hyphal knot -30h 45.9347 14.1808 8.1873
WAT hyphal knot -22h 34.596 5.1662 2.9827
WAT hyphal knot -15h 41.4284 5.742 3.3152
WAT hyphal knot -7.5h 63.7732 18.3188 10.5764
WAT hyphal knot 74.256 27.8127 16.0577
WAT hyphal knot +7.5h 72.9891 22.2903 12.8693
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 134.7339 32.0504 18.5043
Straw 3h 175.2168 30.4837 17.5998
Straw 6h 140.4873 29.0541 16.7744
Straw 12h 126.0877 6.008 3.4687
Straw 24h 109.892 27.5446 15.9029
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 86.8498 8.0287 4.6354
Frost (-20C, 30min) 86.4402 11.1403 6.4319
Heat shock (47C, 2h) 84.6698 2.8899 1.6685
High CO2 66.8092 18.7749 10.8397
Drought (4% agar, 12h) 73.6635 10.1082 5.836
Oxidative (1mM H2O2, 3h) 160.5313 2.0437 1.1799
Acidic (pH4, 3h) 107.2486 12.0286 6.9447
Alkaline (pH9, 3h) 80.0496 6.4716 3.7364
Osmotic (sorbitol 2h) 177.2281 7.5243 4.3441
CongoRed (3h) 126.3394 16.4461 9.4952
Cobalt chloride control 147.8847 9.0078 5.2006
Cobalt chloride 2mM 153.6586 17.8415 10.3008
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 71.6207 53.4138 30.8385
Cold stimulation 58.1196 4.8162 2.7807
Scratched surface 47.3095 0.6589 0.3804
Ca2+, 200mM, 24h 76.3464 10.7485 6.2056
Cu2+, 2mM, 6h 130.0645 9.8447 5.6838
Voriconazole 75.5945 22.8283 13.1799
Trichoderma interaction, early 71.6224 21.4202 12.367
Trichoderma interaction 60h 96.6836 22.9182 13.2319
Cobalt chloride 2mM repeat 63.8121 19.0368 10.9909
Hypoxia 56.7068 11.7956 6.8102
Hypoxia control 62.5325 9.8639 5.6949
Protoplastation control 163.2292 26.5689 18.787
Protoplastation 3.5h 152.7359 10.7295 7.5869
Protoplastation 1.5h 180.8369 0.1514 0.1071

General data

Systematic name -
Protein id CopciAB_470504.T0
Description Phytochrome region

Annotation summary

0 400 800 1200 1600 1691

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd00082 HisKA IPR003661 1126 1182
CDD cd17546 REC_hyHK_CKI1_RcsC-like - 1505 1630
Pfam PF08446 PAS fold IPR013654 463 509
Pfam PF01590 GAF domain IPR003018 755 923
Pfam PF00360 Phytochrome region IPR013515 933 1099
Pfam PF00512 His Kinase A (phospho-acceptor) domain IPR003661 1126 1186
Pfam PF02518 Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase IPR003594 1232 1354
Pfam PF00072 Response regulator receiver domain IPR001789 1505 1630

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR035965 PAS domain superfamily
IPR013654 PAS fold-2
IPR003018 GAF domain
IPR003661 Signal transduction histidine kinase, dimerisation/phosphoacceptor domain
IPR003594 Histidine kinase/HSP90-like ATPase
IPR036890 Histidine kinase/HSP90-like ATPase superfamily
IPR029016 GAF-like domain superfamily
IPR013515 Phytochrome, central region
IPR011006 CheY-like superfamily
IPR005467 Histidine kinase domain
IPR036097 Signal transduction histidine kinase, dimerisation/phosphoacceptor domain superfamily
IPR043150 Phytochrome, PHY domain superfamily
IPR001789 Signal transduction response regulator, receiver domain
IPR004358 Signal transduction histidine kinase-related protein, C-terminal
IPR016132 Phytochrome chromophore attachment domain

GO

Go id Term Ontology
GO:0006355 regulation of transcription, DNA-templated BP
GO:0005515 protein binding MF
GO:0000155 phosphorelay sensor kinase activity MF
GO:0007165 signal transduction BP
GO:0009584 detection of visible light BP
GO:0000160 phosphorelay signal transduction system BP
GO:0016310 phosphorylation BP
GO:0016772 transferase activity, transferring phosphorus-containing groups MF

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
T Phytochrome region

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_470504 across fungi.

Arrow shows the origin of gene family containing CopciAB_470504.

Protein

Sequence id CopciAB_470504.T0
Sequence >CopciAB_470504.T0
MPFGKSKPDANDPRIPQLAPPPSSSSFVYPVKTLLTGKIQPAIEQASSSTSSESSSKAERRRSLSDIDSGSLFHV
DHHQSAELAPSPGQRAQEAADESKVEGTSGTTSTKTGYFSTPSAGHSPQVAGEPPPAAIRRRSNTFSSINSPSND
DDAPPRQVKAPDTPKKQKKRRKNTNYYHYPAGEQTTPRRFSTVAPTSPESRASDSSAPQSPVVSSLSATDYAYTE
EPEVVPDVPLPLLAADALAATAAILPFATPPMPTVTPTNTAPEIGYFPPMAAESDSLPSTESQSKPSNQEESNPP
PSDQLITPGLNPVDDVKEEEPEPSEYLPFNLSETGIVHLPSLPPSKENTEDDSSRGTSRSPYWPGSGSGRRSTHS
SNPGSSDHRRKTSKRGKKGSSRSHEFTSSPLLQTASQPYSSSGEHDDSHSSRLSISSGEHHMTVQFEHVETEDGH
HVIMGREGKLQRCEDEPIRTPGAVQGFGVLIALDDLEDVLLVRQVSENATEMLGLPPKYLFSLECFSDALPDHQV
DVLWDNIHFLTEPDTTADDDSNSPHVFRLSGWGAPGSALPGDPDAVDGRRTWTCWCAAHRAEGFSAPDSINPGLI
IIEFELERDKLNPLYPPMDASAVSSPSTSSGASEPLFTGGKSSPASGHTSSGTSVGTPSGISDKSKPSGIEGEES
WLPSASNILESTTSYSKPIPALERLRRMSRPASSSTPQTGTRRDRKGRNRPPNERGGAVGMMDVFAVMAQINEQI
GAAPDLDTFLKIVVGVIKDLTQFHRVMIYQFDEMWNGEVVAELVDWAQSHDLFKGLHFPSGDIPAQARALYAVNK
VRLLYDRAQPTARIVCRAKEDLDTPLDMTHCYLRAMSPIHVKYLENMGVRASMSISIMAFDQLWGLVACHTYGNY
GMRVSFPVRQILRLLSQSISRNIERLSYAQRLHTRKLVNTITSEQHPTGYIVSNADDLLGLFDADFGILVIGEGA
KILGPNQHGQEILVVAEYLRLKQFDTIQASQSVIADYPDLKLTTGLEVIAGLLYVPLSRGGGDFIAFLRRGQPRH
VNWAGKPLKEGQNAPSLEPRKSFKIWSETVAGRCRAWNDEQLETAGVLALVYGKFIEVWRQKQTAMQSTKLANLI
LNNASHEVRTPLNHIINYLEMALNGSLDQETRENLSRSHAASKSLLFTINDLLDLTRIESGNETSFYEPFNIHSA
IEEATYVYKAEADRRGLNFTLELQSSPCTVIGDSKKIKTVVQNLTANALKYTAKGSITVTCTTFCEPEGLRDEDQ
IVVEIVVADTGCGIESVKLESIFREFEQVESTEGKSNTDAGVGLGLAVVARIVEQLGGQLRVDSVVDEGSRFSFL
IPLSLSNRVDSEYNQSEGSSQRSSGRSSLARSAGSPGAGSGHSNDIDTLVDVLASNKLVDDITEGPPPRRNGSNG
SSGSRHAPGTFPVTGSKYPVRPVKIDNFEKAAAAFASGSGPAPLRSPPAEREHRKVFVSSPSPQVDAPPPSQPES
PKLRVLIVEDNDINRVILAKRLTMKGHTVVNTTNGQEGLDMVKRDQAFDVIFMDIQMPILNGFEATEQIRQVEPQ
PSMPSRPSCKLNDGRIPIFAVSASLKESQRDELAEHGMDGWILKPIDFKRLNTILKGVLDPDQRKRDMYRMGYNW
EDGGWLHRPESKSGSRKELEEGDTTPQGKRQTPESTSVVAM
Length 1691

Coding

Sequence id CopciAB_470504.T0
Sequence >CopciAB_470504.T0
ATGCCATTCGGCAAATCAAAACCAGATGCCAACGATCCGCGAATCCCTCAGCTGGCCCCACCACCGTCTTCCTCT
TCCTTCGTATATCCTGTAAAGACCCTGCTCACTGGCAAGATCCAACCTGCAATTGAACAGGCTTCGTCGTCGACA
TCATCAGAATCATCGAGCAAGGCAGAAAGGAGAAGGTCGCTTAGCGATATCGATTCTGGATCCCTATTCCATGTC
GATCATCACCAAAGTGCAGAATTGGCGCCCTCTCCAGGCCAGCGTGCGCAGGAGGCGGCCGACGAGAGCAAAGTT
GAGGGAACTAGCGGGACTACTTCAACCAAAACAGGCTATTTCAGCACTCCCAGTGCAGGACACTCACCTCAGGTC
GCTGGAGAACCCCCTCCCGCCGCGATCAGACGACGGTCAAATACATTTTCTTCAATAAACAGCCCCTCGAATGAC
GATGACGCTCCTCCGCGGCAAGTCAAGGCACCCGACACTCCCAAAAAGCAGAAGAAACGTCGGAAGAACACAAAT
TATTACCATTACCCCGCAGGCGAGCAGACAACTCCCCGACGATTTTCGACCGTCGCACCCACAAGTCCAGAATCA
AGGGCAAGCGATAGCTCTGCGCCTCAATCCCCGGTGGTTTCGTCTTTGAGTGCGACCGACTATGCCTATACAGAG
GAGCCAGAGGTTGTTCCAGACGTTCCCTTGCCGTTGTTGGCAGCAGACGCCCTTGCTGCGACTGCGGCTATCCTC
CCATTCGCCACCCCGCCGATGCCCACTGTCACACCGACCAACACAGCTCCTGAGATAGGGTACTTCCCACCCATG
GCAGCGGAATCTGATTCTCTACCATCGACTGAATCACAATCAAAACCTTCCAACCAAGAAGAGTCCAACCCGCCA
CCGTCTGATCAACTCATAACACCTGGACTCAACCCAGTAGACGATGTCAAGGAAGAGGAGCCGGAACCTTCAGAA
TATCTGCCGTTCAACCTTTCCGAGACTGGCATCGTCCATCTCCCTTCTTTACCGCCTTCGAAAGAGAACACTGAA
GATGACTCATCCCGCGGTACTTCACGTTCTCCCTACTGGCCAGGCTCTGGTTCAGGCAGGCGTTCAACTCATTCC
TCGAACCCGGGTAGCTCAGACCATAGGCGAAAAACCTCGAAGAGGGGAAAGAAAGGGTCGTCGAGAAGCCACGAG
TTCACTTCCAGCCCCCTTCTGCAAACGGCCTCTCAACCTTATTCCTCAAGCGGAGAGCATGACGATTCACATTCC
AGTCGGTTGAGCATTAGCTCGGGAGAACACCATATGACTGTTCAGTTTGAACATGTGGAAACAGAGGATGGGCAT
CATGTTATTATGGGTCGTGAAGGGAAGCTCCAGCGGTGTGAAGATGAGCCCATCCGGACTCCTGGTGCGGTACAA
GGATTTGGGGTGCTCATTGCGTTGGACGACCTGGAAGATGTTTTGCTCGTTCGACAAGTCTCCGAGAATGCGACC
GAGATGCTTGGACTCCCACCCAAATACCTTTTCTCCCTGGAATGCTTCAGCGATGCACTGCCAGACCACCAAGTC
GATGTTTTGTGGGACAACATTCATTTCCTCACTGAACCGGACACTACAGCAGACGACGATAGCAACTCCCCTCAT
GTCTTCCGCCTTTCTGGCTGGGGAGCACCTGGGTCAGCGCTTCCCGGTGATCCCGACGCTGTCGATGGACGGCGG
ACGTGGACTTGTTGGTGTGCAGCCCACCGTGCAGAAGGGTTCAGTGCGCCAGACTCTATTAATCCAGGGCTAATC
ATCATCGAATTCGAACTGGAGCGCGACAAGTTGAATCCACTTTACCCGCCGATGGATGCTTCCGCAGTATCTTCC
CCAAGTACTTCGTCCGGCGCTTCGGAACCGCTGTTTACAGGGGGGAAGTCCTCCCCCGCATCCGGCCACACCAGT
TCTGGAACCAGCGTTGGAACTCCGTCGGGCATATCGGACAAGTCCAAACCCAGCGGCATTGAAGGCGAGGAAAGT
TGGCTGCCATCTGCGTCGAACATACTCGAGAGTACCACTAGTTACTCTAAACCAATCCCAGCGTTGGAGAGGCTG
AGGCGCATGTCTCGTCCTGCGTCATCCTCAACTCCTCAAACTGGTACCCGCCGCGATCGAAAGGGACGGAACAGA
CCGCCCAACGAACGGGGTGGCGCTGTAGGCATGATGGACGTCTTTGCAGTTATGGCGCAGATTAACGAGCAGATT
GGGGCTGCGCCTGACCTTGACACCTTTTTGAAGATTGTTGTGGGTGTCATAAAAGACTTGACACAGTTTCATAGG
GTTATGATCTATCAGTTTGACGAGATGTGGAATGGGGAGGTCGTGGCGGAGCTTGTAGATTGGGCACAGTCGCAT
GATTTATTTAAGGGTTTGCATTTCCCTTCTGGTGATATTCCAGCTCAGGCAAGGGCCCTATATGCCGTCAACAAA
GTCCGGCTTCTGTATGACCGGGCGCAACCAACTGCCCGCATCGTCTGCAGGGCAAAGGAGGACCTCGATACCCCG
CTTGACATGACACATTGTTATTTGCGGGCTATGAGTCCTATCCACGTCAAATATCTGGAAAACATGGGAGTACGC
GCATCGATGTCCATATCTATCATGGCTTTTGATCAGTTGTGGGGTTTGGTGGCTTGTCACACTTATGGAAATTAT
GGGATGCGCGTTTCTTTCCCAGTCCGTCAAATATTGCGTCTTCTAAGCCAGTCGATCTCGAGGAACATCGAGCGG
CTGAGTTATGCGCAGAGGTTGCATACGAGGAAGCTGGTCAACACTATTACCTCGGAGCAGCATCCGACTGGATAT
ATCGTCAGCAACGCTGATGATCTTCTAGGTCTTTTCGATGCTGATTTTGGTATCCTGGTGATCGGTGAAGGGGCC
AAAATCCTTGGCCCGAACCAGCACGGTCAGGAGATCCTGGTCGTTGCCGAGTATCTGCGACTCAAGCAGTTCGAC
ACCATTCAAGCCTCGCAGTCTGTCATCGCAGACTACCCAGATCTGAAGTTGACGACAGGGCTGGAGGTCATCGCT
GGATTGCTCTATGTTCCCCTCTCCCGGGGTGGAGGCGATTTCATTGCCTTCTTGCGTCGTGGCCAGCCTCGCCAT
GTGAACTGGGCTGGCAAGCCTCTCAAAGAAGGACAAAACGCGCCGTCCCTCGAGCCTCGCAAGTCTTTCAAGATA
TGGTCGGAGACTGTAGCCGGAAGGTGCAGGGCCTGGAACGACGAGCAGCTGGAGACAGCCGGAGTGTTAGCTCTC
GTCTATGGCAAGTTCATCGAAGTGTGGAGGCAGAAGCAAACGGCGATGCAGAGTACTAAATTGGCAAATCTCATC
CTGAACAATGCGAGCCATGAAGTGCGAACGCCGTTGAACCACATAATCAACTATCTCGAGATGGCCCTCAATGGA
TCTCTGGACCAGGAGACAAGAGAGAACCTGAGCCGCTCACATGCTGCTTCAAAGAGCCTCCTCTTCACGATCAAT
GACCTGCTAGACCTCACCCGCATCGAGAGTGGCAACGAAACATCATTCTATGAACCTTTCAACATCCATTCGGCG
ATTGAGGAGGCGACCTACGTTTACAAGGCTGAGGCGGACCGTCGTGGCCTGAACTTTACTCTGGAACTTCAAAGC
AGTCCTTGCACCGTCATCGGTGATTCCAAGAAGATCAAAACTGTCGTCCAGAACTTGACTGCGAATGCTTTGAAA
TACACGGCGAAAGGATCTATCACCGTCACGTGTACGACGTTCTGCGAGCCTGAAGGTCTTCGAGATGAGGATCAA
ATCGTCGTGGAGATTGTGGTCGCCGACACAGGGTGTGGTATCGAATCTGTCAAACTTGAAAGCATCTTCCGCGAA
TTCGAACAAGTAGAGTCTACAGAAGGCAAGAGCAACACTGATGCTGGCGTAGGACTCGGCTTGGCCGTCGTGGCA
CGGATAGTCGAACAGCTAGGAGGCCAACTACGGGTCGACTCTGTCGTGGACGAAGGCAGCCGGTTCTCGTTCTTA
ATTCCACTCTCCCTTTCGAACCGCGTCGATTCCGAATACAACCAATCGGAAGGGTCCTCTCAACGATCGTCTGGG
CGCTCGTCCCTTGCTCGGAGTGCAGGCTCTCCAGGAGCCGGAAGCGGCCACTCCAATGACATTGACACACTGGTG
GACGTGCTTGCATCCAACAAGCTAGTGGACGACATCACCGAAGGACCGCCGCCTCGACGGAATGGCTCCAATGGC
AGTTCAGGGTCTCGTCACGCACCTGGTACATTCCCCGTTACAGGATCCAAGTATCCTGTTCGACCGGTCAAGATT
GACAACTTCGAGAAGGCAGCCGCCGCGTTTGCAAGTGGATCGGGACCTGCGCCTCTACGATCGCCCCCCGCTGAA
AGGGAGCACCGGAAGGTGTTCGTCTCGTCTCCATCACCGCAAGTGGATGCCCCGCCACCCTCCCAGCCAGAATCG
CCAAAGCTTCGAGTTCTCATTGTCGAGGACAATGACATCAATAGGGTTATCCTGGCAAAACGGCTGACGATGAAG
GGGCACACTGTGGTCAATACCACTAATGGTCAAGAAGGTTTGGATATGGTGAAGCGCGACCAAGCATTCGATGTA
ATTTTCATGGACATACAAATGCCAATCCTGAATGGCTTTGAAGCAACCGAGCAGATCCGCCAAGTCGAGCCGCAG
CCGTCCATGCCATCCCGGCCGTCTTGCAAGCTCAACGATGGTCGTATCCCGATCTTTGCGGTGTCGGCGTCGTTG
AAAGAGAGTCAGAGGGATGAGTTGGCGGAACACGGGATGGATGGGTGGATACTGAAGCCGATTGATTTTAAGAGG
CTTAACACGATCTTAAAAGGTGTGTTGGATCCTGATCAGAGGAAGAGGGACATGTATAGGATGGGGTATAATTGG
GAGGATGGAGGGTGGTTGCATAGGCCTGAGAGTAAGAGTGGGAGTCGGAAGGAGCTAGAGGAAGGGGATACCACG
CCACAAGGGAAAAGGCAGACGCCAGAAAGCACCAGTGTCGTCGCGATGTGA
Length 5076

Transcript

Sequence id CopciAB_470504.T0
Sequence >CopciAB_470504.T0
GTTTGCTTGTTGCCTGTGGATTTTATCATCCTCCGTCTTTTTTATCGTACACGGCCTCCCCTCGAAGCTTGAATG
CCATTCGGCAAATCAAAACCAGATGCCAACGATCCGCGAATCCCTCAGCTGGCCCCACCACCGTCTTCCTCTTCC
TTCGTATATCCTGTAAAGACCCTGCTCACTGGCAAGATCCAACCTGCAATTGAACAGGCTTCGTCGTCGACATCA
TCAGAATCATCGAGCAAGGCAGAAAGGAGAAGGTCGCTTAGCGATATCGATTCTGGATCCCTATTCCATGTCGAT
CATCACCAAAGTGCAGAATTGGCGCCCTCTCCAGGCCAGCGTGCGCAGGAGGCGGCCGACGAGAGCAAAGTTGAG
GGAACTAGCGGGACTACTTCAACCAAAACAGGCTATTTCAGCACTCCCAGTGCAGGACACTCACCTCAGGTCGCT
GGAGAACCCCCTCCCGCCGCGATCAGACGACGGTCAAATACATTTTCTTCAATAAACAGCCCCTCGAATGACGAT
GACGCTCCTCCGCGGCAAGTCAAGGCACCCGACACTCCCAAAAAGCAGAAGAAACGTCGGAAGAACACAAATTAT
TACCATTACCCCGCAGGCGAGCAGACAACTCCCCGACGATTTTCGACCGTCGCACCCACAAGTCCAGAATCAAGG
GCAAGCGATAGCTCTGCGCCTCAATCCCCGGTGGTTTCGTCTTTGAGTGCGACCGACTATGCCTATACAGAGGAG
CCAGAGGTTGTTCCAGACGTTCCCTTGCCGTTGTTGGCAGCAGACGCCCTTGCTGCGACTGCGGCTATCCTCCCA
TTCGCCACCCCGCCGATGCCCACTGTCACACCGACCAACACAGCTCCTGAGATAGGGTACTTCCCACCCATGGCA
GCGGAATCTGATTCTCTACCATCGACTGAATCACAATCAAAACCTTCCAACCAAGAAGAGTCCAACCCGCCACCG
TCTGATCAACTCATAACACCTGGACTCAACCCAGTAGACGATGTCAAGGAAGAGGAGCCGGAACCTTCAGAATAT
CTGCCGTTCAACCTTTCCGAGACTGGCATCGTCCATCTCCCTTCTTTACCGCCTTCGAAAGAGAACACTGAAGAT
GACTCATCCCGCGGTACTTCACGTTCTCCCTACTGGCCAGGCTCTGGTTCAGGCAGGCGTTCAACTCATTCCTCG
AACCCGGGTAGCTCAGACCATAGGCGAAAAACCTCGAAGAGGGGAAAGAAAGGGTCGTCGAGAAGCCACGAGTTC
ACTTCCAGCCCCCTTCTGCAAACGGCCTCTCAACCTTATTCCTCAAGCGGAGAGCATGACGATTCACATTCCAGT
CGGTTGAGCATTAGCTCGGGAGAACACCATATGACTGTTCAGTTTGAACATGTGGAAACAGAGGATGGGCATCAT
GTTATTATGGGTCGTGAAGGGAAGCTCCAGCGGTGTGAAGATGAGCCCATCCGGACTCCTGGTGCGGTACAAGGA
TTTGGGGTGCTCATTGCGTTGGACGACCTGGAAGATGTTTTGCTCGTTCGACAAGTCTCCGAGAATGCGACCGAG
ATGCTTGGACTCCCACCCAAATACCTTTTCTCCCTGGAATGCTTCAGCGATGCACTGCCAGACCACCAAGTCGAT
GTTTTGTGGGACAACATTCATTTCCTCACTGAACCGGACACTACAGCAGACGACGATAGCAACTCCCCTCATGTC
TTCCGCCTTTCTGGCTGGGGAGCACCTGGGTCAGCGCTTCCCGGTGATCCCGACGCTGTCGATGGACGGCGGACG
TGGACTTGTTGGTGTGCAGCCCACCGTGCAGAAGGGTTCAGTGCGCCAGACTCTATTAATCCAGGGCTAATCATC
ATCGAATTCGAACTGGAGCGCGACAAGTTGAATCCACTTTACCCGCCGATGGATGCTTCCGCAGTATCTTCCCCA
AGTACTTCGTCCGGCGCTTCGGAACCGCTGTTTACAGGGGGGAAGTCCTCCCCCGCATCCGGCCACACCAGTTCT
GGAACCAGCGTTGGAACTCCGTCGGGCATATCGGACAAGTCCAAACCCAGCGGCATTGAAGGCGAGGAAAGTTGG
CTGCCATCTGCGTCGAACATACTCGAGAGTACCACTAGTTACTCTAAACCAATCCCAGCGTTGGAGAGGCTGAGG
CGCATGTCTCGTCCTGCGTCATCCTCAACTCCTCAAACTGGTACCCGCCGCGATCGAAAGGGACGGAACAGACCG
CCCAACGAACGGGGTGGCGCTGTAGGCATGATGGACGTCTTTGCAGTTATGGCGCAGATTAACGAGCAGATTGGG
GCTGCGCCTGACCTTGACACCTTTTTGAAGATTGTTGTGGGTGTCATAAAAGACTTGACACAGTTTCATAGGGTT
ATGATCTATCAGTTTGACGAGATGTGGAATGGGGAGGTCGTGGCGGAGCTTGTAGATTGGGCACAGTCGCATGAT
TTATTTAAGGGTTTGCATTTCCCTTCTGGTGATATTCCAGCTCAGGCAAGGGCCCTATATGCCGTCAACAAAGTC
CGGCTTCTGTATGACCGGGCGCAACCAACTGCCCGCATCGTCTGCAGGGCAAAGGAGGACCTCGATACCCCGCTT
GACATGACACATTGTTATTTGCGGGCTATGAGTCCTATCCACGTCAAATATCTGGAAAACATGGGAGTACGCGCA
TCGATGTCCATATCTATCATGGCTTTTGATCAGTTGTGGGGTTTGGTGGCTTGTCACACTTATGGAAATTATGGG
ATGCGCGTTTCTTTCCCAGTCCGTCAAATATTGCGTCTTCTAAGCCAGTCGATCTCGAGGAACATCGAGCGGCTG
AGTTATGCGCAGAGGTTGCATACGAGGAAGCTGGTCAACACTATTACCTCGGAGCAGCATCCGACTGGATATATC
GTCAGCAACGCTGATGATCTTCTAGGTCTTTTCGATGCTGATTTTGGTATCCTGGTGATCGGTGAAGGGGCCAAA
ATCCTTGGCCCGAACCAGCACGGTCAGGAGATCCTGGTCGTTGCCGAGTATCTGCGACTCAAGCAGTTCGACACC
ATTCAAGCCTCGCAGTCTGTCATCGCAGACTACCCAGATCTGAAGTTGACGACAGGGCTGGAGGTCATCGCTGGA
TTGCTCTATGTTCCCCTCTCCCGGGGTGGAGGCGATTTCATTGCCTTCTTGCGTCGTGGCCAGCCTCGCCATGTG
AACTGGGCTGGCAAGCCTCTCAAAGAAGGACAAAACGCGCCGTCCCTCGAGCCTCGCAAGTCTTTCAAGATATGG
TCGGAGACTGTAGCCGGAAGGTGCAGGGCCTGGAACGACGAGCAGCTGGAGACAGCCGGAGTGTTAGCTCTCGTC
TATGGCAAGTTCATCGAAGTGTGGAGGCAGAAGCAAACGGCGATGCAGAGTACTAAATTGGCAAATCTCATCCTG
AACAATGCGAGCCATGAAGTGCGAACGCCGTTGAACCACATAATCAACTATCTCGAGATGGCCCTCAATGGATCT
CTGGACCAGGAGACAAGAGAGAACCTGAGCCGCTCACATGCTGCTTCAAAGAGCCTCCTCTTCACGATCAATGAC
CTGCTAGACCTCACCCGCATCGAGAGTGGCAACGAAACATCATTCTATGAACCTTTCAACATCCATTCGGCGATT
GAGGAGGCGACCTACGTTTACAAGGCTGAGGCGGACCGTCGTGGCCTGAACTTTACTCTGGAACTTCAAAGCAGT
CCTTGCACCGTCATCGGTGATTCCAAGAAGATCAAAACTGTCGTCCAGAACTTGACTGCGAATGCTTTGAAATAC
ACGGCGAAAGGATCTATCACCGTCACGTGTACGACGTTCTGCGAGCCTGAAGGTCTTCGAGATGAGGATCAAATC
GTCGTGGAGATTGTGGTCGCCGACACAGGGTGTGGTATCGAATCTGTCAAACTTGAAAGCATCTTCCGCGAATTC
GAACAAGTAGAGTCTACAGAAGGCAAGAGCAACACTGATGCTGGCGTAGGACTCGGCTTGGCCGTCGTGGCACGG
ATAGTCGAACAGCTAGGAGGCCAACTACGGGTCGACTCTGTCGTGGACGAAGGCAGCCGGTTCTCGTTCTTAATT
CCACTCTCCCTTTCGAACCGCGTCGATTCCGAATACAACCAATCGGAAGGGTCCTCTCAACGATCGTCTGGGCGC
TCGTCCCTTGCTCGGAGTGCAGGCTCTCCAGGAGCCGGAAGCGGCCACTCCAATGACATTGACACACTGGTGGAC
GTGCTTGCATCCAACAAGCTAGTGGACGACATCACCGAAGGACCGCCGCCTCGACGGAATGGCTCCAATGGCAGT
TCAGGGTCTCGTCACGCACCTGGTACATTCCCCGTTACAGGATCCAAGTATCCTGTTCGACCGGTCAAGATTGAC
AACTTCGAGAAGGCAGCCGCCGCGTTTGCAAGTGGATCGGGACCTGCGCCTCTACGATCGCCCCCCGCTGAAAGG
GAGCACCGGAAGGTGTTCGTCTCGTCTCCATCACCGCAAGTGGATGCCCCGCCACCCTCCCAGCCAGAATCGCCA
AAGCTTCGAGTTCTCATTGTCGAGGACAATGACATCAATAGGGTTATCCTGGCAAAACGGCTGACGATGAAGGGG
CACACTGTGGTCAATACCACTAATGGTCAAGAAGGTTTGGATATGGTGAAGCGCGACCAAGCATTCGATGTAATT
TTCATGGACATACAAATGCCAATCCTGAATGGCTTTGAAGCAACCGAGCAGATCCGCCAAGTCGAGCCGCAGCCG
TCCATGCCATCCCGGCCGTCTTGCAAGCTCAACGATGGTCGTATCCCGATCTTTGCGGTGTCGGCGTCGTTGAAA
GAGAGTCAGAGGGATGAGTTGGCGGAACACGGGATGGATGGGTGGATACTGAAGCCGATTGATTTTAAGAGGCTT
AACACGATCTTAAAAGGTGTGTTGGATCCTGATCAGAGGAAGAGGGACATGTATAGGATGGGGTATAATTGGGAG
GATGGAGGGTGGTTGCATAGGCCTGAGAGTAAGAGTGGGAGTCGGAAGGAGCTAGAGGAAGGGGATACCACGCCA
CAAGGGAAAAGGCAGACGCCAGAAAGCACCAGTGTCGTCGCGATGTGACATTGGCCAAAGCGCCCTCATCTCTAT
GCCTCCATTGCCTTTCGTTAATCATTTTCTCTTGCTTCATATTCAGCTCGACATGCTTTGTTTCTTCACGGGTCT
AGAACTAGACGTTTCTCCTATTTTTTACTGGTGTATTTTTATGTGGGTTGGGTTTGGTAACCGGTTGTAACAGTA
CGGGGTATGGGATTTAGGTTAGCTGGATGGGGACATTCAGTTCATACAGCACGGGTACCAGAAACGTTTCATAAT
GTACTGGACTATCGTTCTGACTAACGCACCTATCATGTATTAACGGGTATGTTTCTACGATTTATCGTCGCACCT
TGTTTTCTTTTTTTGAGTTCTTCGCTTTCCTTCTTGCTTTCGAGCTGCATTTTGTACAGCATAGCACATACACGG
ACACTACGCATGCAATTACGAGTTTCTTTCGACTTTGTCTCAA
Length 5593

Gene

Sequence id CopciAB_470504.T0
Sequence >CopciAB_470504.T0
GTTTGCTTGTTGCCTGTGGATTTTATCATCCTCCGTCTTTTTTATCGTACACGGCCTCCCCTCGAAGCTTGAATG
CCATTCGGCAAATCAAAACCAGATGCCAACGATCCGCGAATCCCTCAGCTGGCCCCACCACCGTCTTCCTCTTCC
TTCGTATATCCTGTAAAGACCCTGCTCACTGGCAAGATCCAACCTGCAATTGAACAGGCTTCGTCGTCGACATCA
TCAGAATCATCGAGCAAGGCAGAAAGGAGAAGGTCGCTTAGCGATATCGATTCTGGATCCCTATTCCATGTCGAT
CATCACCAAAGTGCAGAATTGGCGCCCTCTCCAGGCCAGCGTGCGCAGGAGGCGGCCGACGAGAGCAAAGTTGAG
GGAACTAGCGGGACTACTTCAACCAAAACAGGCTATTTCAGCACTCCCAGTGCAGGACACTCACCTCAGGTCGCT
GGAGAACCCCCTCCCGCCGCGATCAGACGACGGTCAAATACATTTTCTTCAATAAACAGCCCCTCGAATGACGAT
GACGCTCCTCCGCGGCAAGTCAAGGCACCCGACACTCCCAAAAAGCAGAAGAAACGTCGGAAGAACACAAATTAT
TACCATTACCCCGCAGGCGAGCAGACAACTCCCCGACGATTTTCGACCGTCGCACCCACAAGTCCAGAATCAAGG
GCAAGCGATAGCTCTGCGCCTCAATCCCCGGTGGTTTCGTCTTTGAGTGCGACCGACTATGCCTATACAGAGGAG
CCAGAGGTTGTTCCAGACGTTCCCTTGCCGTTGTTGGCAGCAGACGCCCTTGCTGCGACTGCGGCTATCCTCCCA
TTCGCCACCCCGCCGATGCCCACTGTCACACCGACCAACACAGCTCCTGAGATAGGGTACTTCCCACCCATGGCA
GCGGAATCTGATTCTCTACCATCGACTGAATCACAATCAAAACCTTCCAACCAAGAAGAGTCCAACCCGCCACCG
TCTGATCAACTCATAACACCTGGACTCAACCCAGTAGACGATGTCAAGGAAGAGGAGCCGGAACCTTCAGAATAT
CTGCCGTTCAACCTTTCCGAGACTGGCATCGTCCATCTCCCTTCTTTACCGCCTTCGAAAGAGAACACTGAAGAT
GACTCATCCCGCGGTACTTCACGTTCTCCCTACTGGCCAGGCTCTGGTTCAGGCAGGCGTTCAACTCATTCCTCG
AACCCGGGTAGCTCAGACCATAGGCGAAAAACCTCGAAGAGGGGAAAGAAAGGGTCGTCGAGAAGCCACGAGTTC
ACTTCCAGCCCCCTTCTGCAAACGGCCTCTCAACCTTATTCCTCAAGCGGAGAGCATGACGATTCACATTCCAGT
CGGTTGAGCATTAGCTCGGGAGAACACCATATGACTGTTCAGTTTGAACATGTGGAAACAGAGGATGGGCATCAT
GTTATTATGGGTCGTGAAGGGAAGCTCCAGCGGTGTGAAGATGAGGTATGCTCGGTGCTGTTGTCACCCCAGATT
TTGGGGCACTGGACTCAATCGCTGATATTATTTAATCCACAGCCCATCCGGACTCCTGGTGCGGTACAAGGATTT
GGGGTGCTCATTGCGTTGGACGACCTGGAAGATGTTTTGCTCGTTCGACAAGTCTCCGAGGTGAGAGCGATAGCG
TTGTGTAGGGTTTGTTCTATGGGCATTTACTTATTTACTTTGTTGGTTGGCAGAATGCGACCGAGATGCTTGGAC
TCCCACCCAAATACCTTTTCTCCCTGGAATGCTTCAGCGATGCACTGCCAGACCACCAAGTCGATGTTTTGTGGG
ACAACATTCATTTCCTCACTGAACCGGACACTACAGCAGACGACGATAGCAACTCCCCTCATGTCTTCCGCCTTT
CTGGCTGGGGAGCACCTGGGTCAGCGCTTCCCGGTGATCCCGACGCTGTCGATGGACGGCGGACGTGGACTTGTT
GGTGTGCAGCCCACCGTGCAGAAGGGTTCAGTGCGCCAGACTCTATTAATCCAGGGCTAATCATCATCGAATTCG
AACTGGAGCGCGACAAGTTGAATCCACTTTACCCGCCGATGGATGCTTCCGCAGTATCTTCCCCAAGTACTTCGT
CCGGCGCTTCGGAACCGCTGTTTACAGGGGGGAAGTCCTCCCCCGCATCCGGCCACACCAGTTCTGGAACCAGCG
TTGGAACTCCGTCGGGCATATCGGACAAGTCCAAACCCAGCGGCATTGAAGGCGAGGAAAGTTGGCTGCCATCTG
CGTCGAACATACTCGAGAGTACCACTAGTTACTCTAAACCAATCCCAGCGTTGGAGAGGCTGAGGCGCATGTCTC
GTCCTGCGTCATCCTCAACTCCTCAAACTGGTACCCGCCGCGATCGAAAGGGACGGAACAGACCGCCCAACGAAC
GGGGTGGCGCTGTAGGCATGATGGACGTCTTTGCAGTTATGGCGCAGATTAACGAGCAGATTGGGGCTGCGCCTG
ACCTTGACACCTTTTTGAAGATTGTTGTGGGTGTCATAAAAGACTTGACACAGTTTCATAGGGTTATGATCTATC
AGTTTGACGAGATGTGGAATGGGGAGGTCGTGGCGGAGCTTGTAGATTGGGCACAGTCGCATGATTTATTTAAGG
GTTTGCATTTCCCTTCTGGTGATATTCCAGCTCAGGTGCGTGTCCTGTGTCATACCAGTCTTCTTGTTGTATTAA
CATGTCCTGTGTAATAGGCAAGGGCCCTATATGCCGTCAGTGAGTGCATTTCAGTTATGATGATAGTGGTGACAC
TGACACTCTCCTCTAGACAAAGTCCGGCTTCTGTATGACCGGGCGCAACCAACTGCCCGCATCGTCTGCAGGGCA
AAGGAGGACCTCGATACCCCGCTTGTGAGTTCCCTTTCATCCCAGTGAGCCGCATCGCTGAATCCAGGCCTCTCA
TGGAATCACAGGACATGACACATTGTTATTTGCGGGCTATGAGTCCTATCCACGTCAAATGTATGCCTTTGGTTT
GTATTGCATCCCCCGCTAAGACGAGCCCTCAGATCTGGAAAACATGGGAGTACGCGCATCGATGTCCATATCTAT
CATGGCTTTTGATCAGTTGTGGGGTTTGGTGGCTTGTCACACTTATGGAAATTATGGGATGCGCGTTTCTTTCCC
AGTCCGTCAAATATTGCGTCTTCTAAGCCAGTCGATCTCGAGGAACATCGAGCGGCTGAGTTATGCGCAGAGGTT
GCATACGAGGAAGCTGGTGTGTGGCTTTGTGTGGCTTGGTTTCGCCATTTAAAATGTTTCGTTTCGGACTGGGTC
TAGGTCAACACTATTACCTCGGAGCAGCATCCGGTCAGTAGCTTCTATTTGGATTCTGAGCACGCCGTCTGATTC
CTTCCTTTACCGTGCAGACTGGATATATCGTCAGCAACGCTGATGATCTTCTAGGTCTTTTCGATGCTGATTTTG
GTATCCTGGTGATCGGTGAAGGGGCCAAAATCCTTGGCCCGAACCAGCACGGTCAGGAGATCCTGGTCGTTGCCG
AGTATCTGCGACTCAAGCAGTTCGAGTAAGGCTCTTTAGCCTCCAATTTTTTGACTTTGTTCTAATGCTCGATCA
GCACCATTCAAGCCTCGCAGTCTGTCATCGCAGACTACCCAGATCTGAAGTTGACGACAGGTTGGTACACTCGCG
CCTAGCATTACGCCAATATACTCAACTCTTCTCAGGGCTGGAGGTCATCGCTGGATTGCTCTATGTTCCCCTCTC
CCGGGGTGGAGGCGATTTCATTGCCTTCTTGCGTCGTGGCCAGCCTCGCCATGTGAACTGGGCTGGCAAGCCTCT
CAAAGAAGGACAAAACGCGCCGTCCCTCGAGCCTCGCAAGTCTTTCAAGATATGGTCGGAGACTGTAGCCGGAAG
GTGCAGGGCCTGGAACGACGAGCAGCTGGAGACAGCCGGAGTGTTAGCTCTCGTCTATGGCAAGGTGAGAGCAAT
GGGAGTGTGATGTGTAATCTTGTCTTTACCTTTGTCGTTCTAGTTCATCGAAGTGTGGAGGCAGAAGCAAACGGC
GATGCAGAGTACTAAATTGGCAAATCTCATCCTGAACAATGCGAGCCATGAAGGTCAGTCGTCACCAGTATCAAG
AACTGCGGTGTCTAACTGATGCCACAGTGCGAACGCCGTTGAACCACATAATCAAGTGAGTCCCTTGCCCACTCA
GCTTACAATTGGTATCTGACGAAAAACACAGCTATCTCGAGATGGCCCTCAATGGATCTCTGGACCAGGAGACAA
GAGAGAACCTGAGCCGCTCACATGCTGCTTCAAAGGTGAGGGAATACGTTCATGTTCTTATCACTGGCTAACTCT
CCTTTTAGAGCCTCCTCTTCACGATCAATGACCTGCTAGACCTCACCCGCATCGAGAGTGGCAACGAAACATCAT
TCTATGAACCTTTCAACATCCATTCGGCGATTGAGGAGGCGACCTACGTTTACAAGGCTGAGGCGGACCGTCGTG
GCCTGAACTTTACTCTGGAACTTCAAAGCAGTCCTTGCACCGTCATCGGTGATTCCAAGAAGATCAAAACTGTCG
TCCAGAACTTGACTGCGAATGCTTGTGAGTGCAGTTTTCGGCCCATCAGTTTGACTTTCAGTGACCTAAACCGTC
TCTGCTAGTGAAATACACGGCGAAAGGATCTATCACCGTCACGTGTACGACGTTCTGCGAGCCTGAAGGTCTTCG
AGATGAGGATCAAATCGTCGTGGAGATTGTGGTCGCCGACACAGGGTGTGGTATCGAATCTGTCAAACTTGAAAG
CATCTTCCGCGAATTCGAACAAGTAGAGTCTACAGAAGGCAAGAGCAACACTGATGCTGGCGTAGGACTCGGCTT
GGCCGTCGTGGCACGGATAGTCGAACAGCTAGGAGGCCAACTACGGGTCGACTCTGTCGTGGACGAAGGCAGCCG
GTTCTCGTTCTTAATTCCACTCTCCCTTTCGAACCGCGTCGATTCCGAATACAACCAATCGGAAGGGTCCTCTCA
ACGATCGTCTGGGCGCTCGTCCCTTGCTCGGAGTGCAGGCTCTCCAGGAGCCGGAAGCGGCCACTCCAATGACAT
TGACACACTGGTGGACGTGCTTGCATCCAACAAGCTAGTGGACGACATCACCGAAGGACCGCCGCCTCGACGGAA
TGGCTCCAATGGCAGTTCAGGGTCTCGTCACGCACCTGGTACATTCCCCGTTACAGGATCCAAGTATCCTGTTCG
ACCGGTCAAGATTGACAACTTCGAGAAGGCAGCCGCCGCGTTTGCAAGTGGATCGGGACCTGCGCCTCTACGATC
GCCCCCCGCTGAAAGGGAGCACCGGAAGGTGTTCGTCTCGTCTCCATCACCGCAAGTGGATGCCCCGCCACCCTC
CCAGCCAGAATCGCCAAAGCTTCGAGTTCTCATTGTCGAGGTAGGTTGACCCAGCAGCCTACTTGGGTCGCTCTG
GTTGACCTGAAGGTTTACAGGACAATGACATCAATAGGGTTATCCTGGCAAAACGGCTGACGATGAAGGGGCACA
CTGTGGTCAATACCACTAATGGTCAAGAAGGTTTGGATATGGTGAAGCGCGACCAAGCATTCGATGTAATTTTCA
TGGACATACAGTGCGTTCTCTCCTACTCTTTTTTCGCCTCATTGACTGACCGCCCGAACCACCCAGAATGCCAAT
CCTGAATGGCTTTGAAGCAACCGAGCAGATCCGCCAAGTCGAGCCGCAGCCGTCCATGCCATCCCGGCCGTCTTG
CAAGCTCAACGATGGTCGTATCCCGATCTTTGCGGTGTCGGCGTCGTTGAAAGAGAGTCAGAGGGATGAGTTGGC
GGAACACGGGATGGATGGGTGGATACTGAAGCCGATTGATTTTAAGAGGCTTAACACGATCTTAAAAGGTGTGTT
GGATCCTGATCAGAGGAAGAGGGACATGTATAGGATGGGGTATAATTGGGAGGATGGAGGGTGGTTGCATAGGCC
TGAGAGTAAGAGTGGGAGTCGGAAGGAGCTAGAGGAAGGGGATACCACGCCACAAGGGAAAAGGCAGACGCCAGA
AAGCACCAGTGTCGTCGCGATGTGACATTGGCCAAAGCGCCCTCATCTCTATGCCTCCATTGCCTTTCGTTAATC
ATTTTCTCTTGCTTCATATTCAGCTCGACATGCTTTGTTTCTTCACGGGTCTAGAACTAGACGTTTCTCCTATTT
TTTACTGGTGTATTTTTATGTGGGTTGGGTTTGGTAACCGGTTGTAACAGTACGGGGTATGGGATTTAGGTTAGC
TGGATGGGGACATTCAGTTCATACAGCACGGGTACCAGAAACGTTTCATAATGTACTGGACTATCGTTCTGACTA
ACGCACCTATCATGTATTAACGGGTATGTTTCTACGATTTATCGTCGCACCTTGTTTTCTTTTTTTGAGTTCTTC
GCTTTCCTTCTTGCTTTCGAGCTGCATTTTGTACAGCATAGCACATACACGGACACTACGCATGCAATTACGAGT
TTCTTTCGACTTTGTCTCAA
Length 6545