CopciAB_358738
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_358738 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 358738
Uniprot id Functional description Domain present in phytochromes and cGMP-specific phosphodiesterases.
Location scaffold_3:1437204..1443648 Strand -
Gene length (nt) 6445 Transcript length (nt) 5004
CDS length (nt) 4662 Protein length (aa) 1553

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB26087 56.4 0 1628
Agrocybe aegerita Agrae_CAA7266924 58.4 0 1598
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_201390 52.5 0 1405
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_59639 51.8 0 1401
Lentinula edodes W1-26 v1.0 Lentinedodes1_4034 49.5 0 1384
Lentinula edodes NBRC 111202 Lenedo1_390962 64.1 0 1342
Pleurotus ostreatus PC9 PleosPC9_1_116161 53.8 0 1267
Pleurotus ostreatus PC15 PleosPC15_2_1067353 53.5 0 1266
Grifola frondosa Grifr_OBZ72215 60.8 0 1216
Ganoderma sp. 10597 SS1 v1.0 Gansp1_112078 45.2 0 1102
Schizophyllum commune H4-8 Schco3_2541638 43.5 0 1099
Pleurotus eryngii ATCC 90797 Pleery1_1434413 53.2 2.723E-281 910
Auricularia subglabra Aurde3_1_1275710 44.7 3.803E-265 863
Lentinula edodes B17 Lened_B_1_1_8533 50.8 1.15E-51 201

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 443.4539 181.198 104.6147
oidia 105.1189 25.7742 14.8808
vegetative_mycelium 88.3338 41.4483 23.9302
primordia 130.5381 9.2629 5.3479
hyphal_knot 308.3611 66.1501 38.1918
young_fruiting_body 104.2883 10.757 6.2106
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 205.9084 21.4201 12.3669
Wheat bran 131.0576 17.7184 10.2297
Horse manure 155.974 31.8243 18.3738
Oak leaves 189.1324 10.7187 6.1885
Hay 155.4471 9.376 5.4132
Corn stalk 171.6401 25.1851 14.5406
Pectine 170.0994 9.5194 5.496
Microcrystalline cellulose 174.2403 54.4449 31.4338
Xylose 227.0082 23.0262 13.2942
Cellobiose 130.9361 15.6078 9.0112
Lignin 211.2681 66.5954 38.4489
Apple peels 264.053 81.6095 47.1173
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 132.2099 20.539 11.8582
Bsubtilis 571.3479 113.2122 65.3631
Ecoli 389.5273 150.6446 86.9747
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 183.8849 51.3186 29.6288
BS 4h 60.1335 11.335 6.5443
BS 8h 21.4028 2.1274 1.2283
BS 12h 16.9675 3.2898 1.8994
Oidia 0 h 45.0049 1.5004 0.8662
Oidia 18 h 43.6156 18.7124 10.8036
Sclerotia 44.0597 5.7477 3.3184
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 18.0255 4.368 2.5219
DM 36h 13.2162 3.8215 2.2064
DM 60h 12.9543 5.4111 3.1241
DM 84h 15.8129 5.8941 3.403
DM 108h 11.6406 1.7757 1.0252
DM 132h 22.8167 13.3226 7.6918
DM 156hAE 30.5558 2.0128 1.1621
ELI1hAE 13.263 2.7739 1.6015
ELI2hAE 15.423 3.0688 1.7718
LI2hAE 14.0453 3.8208 2.206
LI6hAE 31.5087 14.8427 8.5694
LI12hAE 13.1693 1.4293 0.8252
LI18hAE 14.4269 7.7237 4.4593
LI 24hAE 24.1748 5.69 3.2851
DM 156hAM 13.4793 1.0686 0.617
ELI1hAM 8.1402 2.0272 1.1704
ELI2hAM 8.3173 2.2436 1.2953
LI2hAM 11.8821 0.1752 0.1012
LI6hAM 20.6181 4.9669 2.8677
LI12hAM 13.4065 5.9849 3.4554
LI18hAM 14.8978 3.0273 1.7478
LI 24hAM 30.3783 23.8917 13.7939
LI 24hHK 14.3701 7.6912 4.4405
L/D 6h 12.3121 3.9927 2.3052
L/D 12h 17.8188 3.3237 1.919
L/D 18h 18.5501 9.8672 5.6968
L/D 24h 17.4845 1.929 1.1137
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 181.4049 77.633 44.8214
Hyphal knots 438.1177 516.7942 298.3713
Primordium 1 78.6422 38.683 22.3336
Primordium 2 135.9395 49.228 28.4218
Young Fruiting body cap 410.6911 179.2554 103.4932
Younf fruiting body gill 105.6893 3.1658 1.8278
Young fruiting body stipe 112.3145 62.8299 36.2749
Mature fruiting body cap_gill 1008.9584 83.3086 48.0982
Mature fruiting body stipe 803.7136 98.986 57.1496
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 199.3509 38.6652 22.3234
NH4NO3 165.8158 33.4416 19.3075
Proline 309.3959 187.4502 108.2244
Tryptophan 218.1051 56.5849 32.6693
Isoleucin 261.4733 179.7473 103.7771
Arginine 358.0677 25.1291 14.5083
Metionine 339.1229 78.3713 45.2477
NaNO3 252.1289 47.2338 27.2704
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 199.3509 38.6652 22.3234
Citrus peel 224.6689 41.8595 24.1676
Poplar leaves 204.5276 10.6916 6.1728
Typha leaves 159.5641 23.9797 13.8447
Overwintered Salix leaves 169.5887 39.7569 22.9536
Reed flowering 215.5259 68.8894 39.7733
Tigernut 112.2147 14.7796 8.533
Energy cane 183.3345 27.5901 15.9292
Guar gum 204.3919 152.1833 87.8631
Apple peels 165.5686 27.9209 16.1202
Cellobiose 130.2504 43.9237 25.3593
Corn stalk 165.6856 23.3939 13.5065
Horse manure 220.794 49.6556 28.6687
Lignin 285.2466 132.5173 76.5089
Microcrystalline cellulose 306.653 114.5379 66.1285
Oak leaves 147.5174 24.6126 14.2101
Pectin esterified 188.8991 18.2677 10.5469
Poplar sawdust 118.3069 1.291 0.7454
Wheat bran 115.7739 31.6181 18.2547
Chlamydomonas reinhardtii 183.1274 15.0796 8.7062
Vertatryl alcohol 76.9159 3.4598 1.9975
Furfural 205.052 12.8335 7.4094
Autoclaved mycelium 218.9118 27.9954 16.1632
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 106.7004 2.071 1.1957
Ribose 172.6959 29.3108 16.9226
Mannose 130.6773 5.2763 3.7309
Fructose 137.8382 7.6412 4.4117
Arabinose 177.8575 16.059 9.2716
Xylose 126.9045 3.9431 2.2765
Galacturonic acid 159.704 13.6905 7.9042
Rhamnogalacturonan 154.8746 8.3353 4.8124
Pectin esterified 195.4999 26.4581 15.2756
Polygalacturonic acid 125.3469 4.7574 2.7467
Sodium acetate 170.5603 17.1954 9.9278
No nitrogen 135.1873 32.608 18.8262
BSA 177.3093 16.1864 9.3452
Glutamine 149.3249 8.486 4.8994
No phosphate 129.6365 12.5439 7.2422
No carbon 229.576 8.4156 5.9507
No sulphur 162.5975 30.4403 17.5747
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 199.3509 38.6652 22.3234
Amylose 198.601 18.2164 10.5172
Fucose 196.4944 6.1946 3.5765
Galactose 325.0825 19.5118 11.2652
Lactose 161.6267 23.0195 13.2903
Maltose 163.129 28.5698 16.4948
Mannitol 188.1814 0.4925 0.2844
Rhamnose 216.8718 52.754 30.4575
Sorbitol 142.1711 19.9718 11.5307
Trehalose 126.1578 22.9246 13.2355
Glycerol 253.1654 84.5213 48.7984
Glucuronic acid 176.1006 29.5907 17.0842
Arabinan 123.6974 53.4223 30.8434
Galactan 216.4063 48.8118 28.1815
Galactomannan 135.7113 9.0436 5.2213
Glucan 196.094 8.7671 5.0617
Xylan 121.4483 45.2881 26.1471
Xyloglucan 116.441 25.3955 14.6621
Arabinogalactan 192.5123 15.9028 9.1815
Pectin 245.7485 96.0807 55.4722
Rhamnogalacturonan 275.5972 47.7924 27.5929
Polygalacturonic acid 154.0499 19.7611 11.4091
Mannan 178.145 28.0743 16.2087
Amylopectin 246.2291 70.3728 40.6297
Inulin 530.9652 111.1846 64.1925
BSA 217.7975 30.2856 17.4854
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 12.9543 5.4111 3.1241
2h WAT 29.0664 13.853 7.998
4h WAT 16.6739 6.4106 3.7012
8h WAT 11.8019 0.5965 0.3444
16h WAT 17.251 3.8966 2.2497
24h WAT 17.2732 2.7663 1.5971
WAT hyphal knot -30h 8.3673 0.8824 0.5095
WAT hyphal knot -22h 8.87 1.1109 0.6414
WAT hyphal knot -15h 10.3106 0.8342 0.4817
WAT hyphal knot -7.5h 18.606 6.3594 3.6716
WAT hyphal knot 15.9003 3.2688 1.8872
WAT hyphal knot +7.5h 21.6847 3.4485 1.991
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 205.986 44.9673 25.9619
Straw 3h 253.5002 118.39 68.3525
Straw 6h 236.8758 39.1162 22.5837
Straw 12h 186.9664 34.6261 19.9914
Straw 24h 199.5511 49.2042 28.408
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 26.8896 1.6901 0.9758
Frost (-20C, 30min) 19.8157 5.207 3.0063
Heat shock (47C, 2h) 71.7507 6.953 4.0143
High CO2 16.3586 8.8483 5.1086
Drought (4% agar, 12h) 8.8203 1.1682 0.6745
Oxidative (1mM H2O2, 3h) 80.1147 22.1637 12.7962
Acidic (pH4, 3h) 35.0554 10.4424 6.0289
Alkaline (pH9, 3h) 14.2523 2.2838 1.3185
Osmotic (sorbitol 2h) 60.2364 3.8251 2.2084
CongoRed (3h) 29.3087 1.2075 0.6972
Cobalt chloride control 22.9382 4.7511 2.743
Cobalt chloride 2mM 23.9612 3.618 2.0888
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 14.3319 4.3621 2.5184
Cold stimulation 17.3104 0.1188 0.0686
Scratched surface 5.8092 1.2419 0.717
Ca2+, 200mM, 24h 22.4336 2.1406 1.2359
Cu2+, 2mM, 6h 68.1134 0.8038 0.4641
Voriconazole 11.8317 2.2362 1.2911
Trichoderma interaction, early 13.5613 5.3643 3.0971
Trichoderma interaction 60h 22.1413 10.2688 5.9287
Cobalt chloride 2mM repeat 31.6687 7.7659 4.4836
Hypoxia 19.5753 8.3911 4.8446
Hypoxia control 26.4431 8.0686 4.6584
Protoplastation control 54.4354 13.129 9.2836
Protoplastation 3.5h 203.7511 87.4621 61.845
Protoplastation 1.5h 138.4367 50.6988 35.8495

General data

Systematic name -
Protein id CopciAB_358738.T0
Description Domain present in phytochromes and cGMP-specific phosphodiesterases.

Annotation summary

0 400 800 1200 1553

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd00082 HisKA IPR003661 888 951
CDD cd17546 REC_hyHK_CKI1_RcsC-like - 1426 1545
Pfam PF00512 His Kinase A (phospho-acceptor) domain IPR003661 891 953
Pfam PF02518 Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase IPR003594 1042 1157
Pfam PF00072 Response regulator receiver domain IPR001789 1426 1545

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR001789 Signal transduction response regulator, receiver domain
IPR003594 Histidine kinase/HSP90-like ATPase
IPR036097 Signal transduction histidine kinase, dimerisation/phosphoacceptor domain superfamily
IPR003661 Signal transduction histidine kinase, dimerisation/phosphoacceptor domain
IPR004358 Signal transduction histidine kinase-related protein, C-terminal
IPR036890 Histidine kinase/HSP90-like ATPase superfamily
IPR003018 GAF domain
IPR029016 GAF-like domain superfamily
IPR005467 Histidine kinase domain
IPR011006 CheY-like superfamily

GO

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

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
T Domain present in phytochromes and cGMP-specific phosphodiesterases.

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_358738 across fungi.

Arrow shows the origin of gene family containing CopciAB_358738.

Protein

Sequence id CopciAB_358738.T0
Sequence >CopciAB_358738.T0
MQAHCEPSVLNPVGKLHTNGLFVLNTAIANNRYQTSDSTGIDPRSLTQSINAAKRHTVSLPTSPYQEGSSRSYAE
GTPLGQANGLATFSNEALLPRTSSSDDLEVPSDSNLLSTHGRSLSGDTECDWATFITAYANGRWDPHKPPNRPHP
CHGYDSETGYMKKLEPVQLSTSLQVTASDFDQDRDGTSKLRDGRDKVSISLQAMQDQAGSIIASSTNGRKFHNLK
MDFPLKLPVSGRSRISFPPSTSTASIGSNSSMASTAASNSDLQTTVATMRWAAARVDISPLALPSPEHELTDPMR
GVITPVPGSHPPDDDEPHDQVITPGGSRRSRLSSFWEGTIDVDPKAFKMGSIPRKHSRLSLGGNSADGRVTPDSV
QTNKQDIPDKVPKKTEHSPATQLSILAAQPPPATAPIPDKKTSSRSVEDSDYFGNFQQSPKPITAPILVEPVREV
HSTSSNPAAADSGSRTVPALPRRICLTRQTSSPLPISLAPPEARIPGGRVPSDSANPNAKGRAVKEEQMFSELGY
LAPPNPPDELERRRALYKFNIWYTGPDLNFDRIAHLAKLVFNTKGVIVSLIDGNEQWFKSEWGLKSPSCPRTHSL
CGHAILQQGDEPMIVLDTHLDWRFARNPLVINSPRIRFYAGAPLRTQDGYNIGTLALIDDVSREDFSPRQRHTLK
EFAAIAMREMELWRDKIQLRIRDRIQSSMEEFTRECLEIDSEVHPKVDKASIVIGTSMDRVYDRAAKLVQRTLDV
EGVIVMDVTHCEVLETMGDEGNVSVTLHHGTPGSEMEKRPLSREDYQSLNNFFAAYPEGKISEGILPPSFRPYMP
THIRYALLVPIFNIDKRPFALLCAYNTNLHSKRFLEGHELSYLRAIGVIILSAVLKRRMILADKAKSLFISNISH
ELRTPLHGILAAAELLSDSPLNHSQMSFIQTVQACGTSLVETVNHVLDFTKLSGNVKAGGVENVIVPITNDMMQL
IEEAIDGSWIGYKARTANLVDSGIGSVYSPPSDETTDQGHQPSQPHVETVIDIGYRREGWLLKYEKGGIRRVLMN
LFGNSLKFTTDGYVHVRLRLLPRLPDDPPNKVRLELAIEDTGKGISQNFLKNQLFHPFSQENPLQTGTGLGLAIV
NSIVSSENVGGKVDVRSEEGQGTEIKVFFPAEIPEDDPRLADAAQDMEHFRADKNSPLPKISMLGFESQHKGIQL
LYRVLRTYITEWWGLDIVDDSQDSDIVVLNEDLGPIRSAIERNDIRRPFVILWVTRGNPTVLAAATEYERIGGFC
RILYKPTGPSKLRGVLKLCMHSIKINRYYRDSAPMTAVRKNTVSGFAEDKDVSHGGVLRRNSDENSTYASKSLSR
PPMSPRSATIHPSVSSLRHQLLLSALPEKDRGQEGEVGSPVSDGTGLRPMVSIGPGGSVLKSSVQPTDIRGRKLR
VLVIEDNNILRNLLAKWLIKKGYDFEEAVDGQAGVTAFQEHGPFDVALIDLSMPVLDGVAATKEIRRIESSKAGG
DDSYPSVKILALTGMSSLEDKRRAFEAGVDGYLVKPVAFKTLDEMFHKLGISS
Length 1553

Coding

Sequence id CopciAB_358738.T0
Sequence >CopciAB_358738.T0
ATGCAAGCACACTGCGAACCCTCAGTACTCAACCCGGTAGGGAAGCTTCATACGAATGGGCTGTTCGTTCTGAAT
ACAGCCATCGCCAACAATCGCTACCAGACCAGCGACAGCACTGGGATCGACCCGAGGTCATTGACGCAGAGCATA
AATGCCGCCAAACGCCATACCGTCTCGCTTCCGACCTCCCCATATCAGGAGGGCTCATCACGATCGTACGCCGAA
GGCACTCCCCTCGGGCAGGCCAACGGCCTAGCCACCTTCAGTAATGAGGCTCTGCTTCCGCGAACGTCGAGCTCC
GATGATCTCGAAGTGCCTTCGGATAGCAATCTACTTTCCACACATGGACGGTCATTATCTGGAGACACAGAGTGC
GACTGGGCGACCTTTATCACGGCTTATGCCAATGGGCGATGGGACCCTCACAAGCCGCCGAACCGGCCTCACCCG
TGTCATGGCTACGATTCCGAGACTGGGTACATGAAGAAGTTGGAGCCAGTGCAACTGTCTACCTCGCTACAAGTC
ACCGCGTCGGATTTCGACCAGGACCGCGATGGAACTTCCAAGTTGCGAGACGGGCGAGACAAGGTTTCAATCTCT
CTGCAGGCTATGCAGGACCAGGCCGGTTCAATCATCGCATCATCTACGAACGGACGCAAGTTCCACAATCTAAAA
ATGGATTTCCCTCTCAAGCTCCCTGTTTCTGGGAGGTCACGGATCTCTTTTCCTCCTTCGACGTCTACTGCATCC
ATTGGAAGCAATTCCTCCATGGCGAGCACGGCGGCCTCCAACTCGGATTTGCAGACGACCGTGGCCACAATGCGA
TGGGCTGCGGCCAGAGTGGACATCTCGCCTCTGGCCCTTCCATCTCCCGAGCACGAGCTAACAGATCCCATGCGC
GGTGTCATCACTCCTGTACCTGGTTCCCACCCTCCCGACGACGACGAACCTCATGACCAAGTCATAACGCCTGGT
GGAAGCCGACGATCAAGGTTATCCAGCTTTTGGGAAGGTACGATAGATGTCGATCCTAAGGCCTTCAAGATGGGG
TCTATTCCACGGAAACATTCGCGCTTGAGCCTGGGTGGCAACAGCGCAGATGGTAGGGTCACTCCAGATAGTGTG
CAGACGAACAAACAGGATATACCAGATAAAGTTCCAAAGAAAACCGAACACTCACCCGCTACTCAACTTTCCATA
CTCGCTGCTCAACCACCGCCTGCCACTGCACCAATTCCGGACAAGAAAACTTCCAGTCGATCGGTAGAAGACTCT
GACTACTTTGGAAATTTTCAACAATCTCCCAAACCTATTACCGCCCCGATCCTGGTGGAACCCGTACGAGAGGTG
CATTCGACTTCCTCCAACCCCGCTGCGGCGGACAGTGGATCTAGGACAGTCCCAGCGCTTCCTCGCCGCATTTGC
CTCACCAGGCAAACATCCTCTCCTCTTCCGATTTCCCTGGCACCACCCGAAGCTCGTATCCCTGGAGGAAGGGTA
CCATCAGACTCGGCAAATCCAAATGCCAAAGGAAGAGCTGTCAAGGAGGAACAGATGTTCTCGGAACTCGGATAC
CTTGCTCCTCCAAATCCTCCAGATGAGCTTGAGCGCCGGCGAGCCTTGTATAAATTCAACATATGGTACACCGGG
CCCGACCTCAACTTTGACCGAATAGCCCATCTCGCCAAGCTGGTTTTCAATACGAAGGGTGTCATCGTATCGCTC
ATCGATGGCAACGAGCAGTGGTTCAAATCAGAATGGGGGCTCAAGTCACCAAGCTGTCCCAGGACACATTCACTG
TGTGGCCATGCCATCCTTCAACAAGGAGATGAGCCTATGATCGTTCTAGACACCCATCTCGATTGGAGATTTGCC
AGGAATCCATTGGTGATAAATTCCCCACGTATTCGCTTCTATGCCGGAGCCCCCTTGCGCACCCAAGATGGCTAC
AACATTGGCACGCTTGCCCTCATCGACGACGTCTCTCGAGAAGACTTCTCCCCCCGTCAAAGACATACTCTCAAG
GAATTCGCTGCAATTGCTATGCGGGAAATGGAACTTTGGCGAGACAAAATTCAGTTGAGAATACGGGATCGAATA
CAAAGCTCTATGGAGGAGTTCACTCGAGAATGCTTAGAAATCGATTCCGAAGTACATCCCAAAGTCGACAAAGCT
TCCATCGTGATCGGTACTTCCATGGACCGTGTTTACGACCGCGCAGCGAAGCTTGTCCAGAGAACGCTTGACGTA
GAGGGAGTGATTGTCATGGATGTAACGCACTGCGAAGTTTTGGAGACTATGGGTGACGAAGGAAATGTGTCTGTG
ACCTTGCACCATGGCACTCCAGGGAGTGAAATGGAGAAGCGCCCGTTGTCGAGAGAAGATTACCAGAGCCTGAAT
AATTTCTTCGCAGCCTACCCAGAGGGCAAAATTTCTGAAGGAATTCTTCCTCCTTCTTTCAGGCCCTACATGCCC
ACTCATATCCGATATGCACTACTTGTACCGATATTCAATATAGACAAGCGCCCATTTGCCCTGCTATGCGCATAT
AATACTAATCTTCATTCAAAACGATTTTTAGAAGGGCATGAGTTATCATACCTGCGAGCTATTGGTGTGATCATT
CTGTCCGCTGTCCTCAAGAGACGCATGATTCTAGCCGACAAAGCGAAGAGCCTATTCATTTCAAATATTTCTCAC
GAGCTACGAACACCCTTGCATGGGATCCTTGCCGCTGCAGAGTTACTCAGTGACAGCCCCTTGAATCACTCACAG
ATGTCCTTCATCCAGACCGTCCAAGCTTGTGGCACTTCTTTAGTTGAAACAGTCAATCATGTCCTAGACTTCACA
AAGCTCAGCGGCAACGTCAAAGCCGGCGGAGTGGAGAATGTCATCGTCCCCATCACAAACGACATGATGCAACTC
ATAGAAGAGGCAATTGACGGAAGTTGGATCGGCTATAAAGCCAGGACGGCCAATCTGGTGGATTCGGGCATCGGC
AGTGTCTACTCACCTCCAAGTGACGAAACCACCGACCAGGGCCACCAACCGTCGCAACCACATGTCGAGACGGTT
ATAGACATTGGGTATCGAAGAGAGGGATGGCTGCTGAAGTACGAGAAGGGTGGAATTCGCCGTGTGCTGATGAAT
CTCTTCGGAAACAGCCTCAAATTCACCACGGATGGGTATGTTCACGTCAGGCTGCGGTTACTCCCTCGCTTGCCA
GACGACCCGCCAAACAAAGTGAGGTTAGAGCTTGCCATCGAAGATACAGGGAAGGGTATCAGTCAGAACTTCCTC
AAGAATCAACTCTTTCACCCGTTCTCGCAGGAGAATCCTCTCCAAACAGGCACCGGCCTCGGATTGGCGATAGTT
AACAGTATCGTGTCTTCCGAGAATGTCGGAGGAAAGGTGGACGTCCGAAGTGAAGAGGGTCAAGGAACCGAGATC
AAGGTCTTCTTCCCTGCAGAAATCCCAGAGGACGACCCCAGGTTGGCTGATGCGGCACAAGACATGGAACACTTC
CGGGCGGACAAGAACAGCCCGTTACCCAAGATATCCATGCTAGGCTTCGAGTCTCAGCACAAAGGCATCCAACTC
TTGTACAGAGTGCTTCGGACGTACATAACAGAGTGGTGGGGCCTTGACATAGTGGATGACTCTCAGGACAGTGAC
ATCGTCGTCCTCAACGAGGACCTTGGGCCAATTCGTTCCGCCATCGAGCGCAACGACATACGTCGCCCGTTCGTG
ATTTTATGGGTCACACGCGGGAACCCTACTGTTCTGGCAGCCGCCACAGAATACGAACGGATAGGCGGATTCTGC
CGCATCCTCTACAAGCCCACTGGCCCATCGAAACTACGGGGGGTCCTCAAACTCTGCATGCACTCCATCAAGATC
AATCGGTATTATCGCGACTCGGCACCCATGACAGCTGTACGGAAGAACACGGTATCGGGGTTTGCAGAGGACAAG
GATGTATCGCATGGAGGGGTGTTGAGAAGGAACTCGGATGAAAACTCGACTTACGCCAGCAAGTCGCTTAGTCGA
CCCCCAATGTCCCCGCGGTCAGCGACCATTCATCCCTCCGTTTCCTCACTTCGGCATCAACTGTTATTATCCGCG
CTTCCGGAGAAGGATCGTGGACAGGAAGGGGAAGTTGGTTCACCTGTCTCTGATGGAACAGGTCTTCGTCCGATG
GTTTCTATCGGCCCTGGGGGCTCAGTCCTGAAGTCATCCGTCCAGCCGACAGACATCCGAGGCCGGAAGCTCAGG
GTTTTAGTCATCGAGGACAACAACATTCTGAGGAACCTCCTGGCCAAATGGCTGATCAAGAAAGGGTATGATTTC
GAAGAAGCTGTGGATGGGCAGGCAGGCGTGACGGCGTTCCAGGAACATGGTCCATTCGATGTTGCGTTGATTGAC
CTGTCAATGCCAGTCCTCGACGGCGTCGCGGCTACCAAAGAGATCCGTCGTATAGAGTCCAGTAAAGCAGGGGGA
GACGACAGCTACCCCTCAGTCAAGATACTTGCCCTTACTGGAATGTCTTCATTAGAAGATAAGCGGCGAGCGTTT
GAAGCAGGAGTGGACGGATACCTTGTCAAACCGGTGGCCTTTAAGACCCTGGACGAGATGTTCCACAAGCTCGGG
ATCTCTTCATAG
Length 4662

Transcript

Sequence id CopciAB_358738.T0
Sequence >CopciAB_358738.T0
ACCCTTGAGATCCAACCAACGTACCGCCATTCTTCACTCATCTTTGCCTGTTCCATACGTCTACAACGTGCAGGG
TCACGATATACTACTACCGCTTGCTCTCCGGAATCTGCCAATGAATAGGCGCCAGGATTATCCATCGTAAATCCA
CCTTCAGCCCAGAATACGGTAGTTCAAGGGAAGAAGAAACCAGGAATGCAAGCACACTGCGAACCCTCAGTACTC
AACCCGGTAGGGAAGCTTCATACGAATGGGCTGTTCGTTCTGAATACAGCCATCGCCAACAATCGCTACCAGACC
AGCGACAGCACTGGGATCGACCCGAGGTCATTGACGCAGAGCATAAATGCCGCCAAACGCCATACCGTCTCGCTT
CCGACCTCCCCATATCAGGAGGGCTCATCACGATCGTACGCCGAAGGCACTCCCCTCGGGCAGGCCAACGGCCTA
GCCACCTTCAGTAATGAGGCTCTGCTTCCGCGAACGTCGAGCTCCGATGATCTCGAAGTGCCTTCGGATAGCAAT
CTACTTTCCACACATGGACGGTCATTATCTGGAGACACAGAGTGCGACTGGGCGACCTTTATCACGGCTTATGCC
AATGGGCGATGGGACCCTCACAAGCCGCCGAACCGGCCTCACCCGTGTCATGGCTACGATTCCGAGACTGGGTAC
ATGAAGAAGTTGGAGCCAGTGCAACTGTCTACCTCGCTACAAGTCACCGCGTCGGATTTCGACCAGGACCGCGAT
GGAACTTCCAAGTTGCGAGACGGGCGAGACAAGGTTTCAATCTCTCTGCAGGCTATGCAGGACCAGGCCGGTTCA
ATCATCGCATCATCTACGAACGGACGCAAGTTCCACAATCTAAAAATGGATTTCCCTCTCAAGCTCCCTGTTTCT
GGGAGGTCACGGATCTCTTTTCCTCCTTCGACGTCTACTGCATCCATTGGAAGCAATTCCTCCATGGCGAGCACG
GCGGCCTCCAACTCGGATTTGCAGACGACCGTGGCCACAATGCGATGGGCTGCGGCCAGAGTGGACATCTCGCCT
CTGGCCCTTCCATCTCCCGAGCACGAGCTAACAGATCCCATGCGCGGTGTCATCACTCCTGTACCTGGTTCCCAC
CCTCCCGACGACGACGAACCTCATGACCAAGTCATAACGCCTGGTGGAAGCCGACGATCAAGGTTATCCAGCTTT
TGGGAAGGTACGATAGATGTCGATCCTAAGGCCTTCAAGATGGGGTCTATTCCACGGAAACATTCGCGCTTGAGC
CTGGGTGGCAACAGCGCAGATGGTAGGGTCACTCCAGATAGTGTGCAGACGAACAAACAGGATATACCAGATAAA
GTTCCAAAGAAAACCGAACACTCACCCGCTACTCAACTTTCCATACTCGCTGCTCAACCACCGCCTGCCACTGCA
CCAATTCCGGACAAGAAAACTTCCAGTCGATCGGTAGAAGACTCTGACTACTTTGGAAATTTTCAACAATCTCCC
AAACCTATTACCGCCCCGATCCTGGTGGAACCCGTACGAGAGGTGCATTCGACTTCCTCCAACCCCGCTGCGGCG
GACAGTGGATCTAGGACAGTCCCAGCGCTTCCTCGCCGCATTTGCCTCACCAGGCAAACATCCTCTCCTCTTCCG
ATTTCCCTGGCACCACCCGAAGCTCGTATCCCTGGAGGAAGGGTACCATCAGACTCGGCAAATCCAAATGCCAAA
GGAAGAGCTGTCAAGGAGGAACAGATGTTCTCGGAACTCGGATACCTTGCTCCTCCAAATCCTCCAGATGAGCTT
GAGCGCCGGCGAGCCTTGTATAAATTCAACATATGGTACACCGGGCCCGACCTCAACTTTGACCGAATAGCCCAT
CTCGCCAAGCTGGTTTTCAATACGAAGGGTGTCATCGTATCGCTCATCGATGGCAACGAGCAGTGGTTCAAATCA
GAATGGGGGCTCAAGTCACCAAGCTGTCCCAGGACACATTCACTGTGTGGCCATGCCATCCTTCAACAAGGAGAT
GAGCCTATGATCGTTCTAGACACCCATCTCGATTGGAGATTTGCCAGGAATCCATTGGTGATAAATTCCCCACGT
ATTCGCTTCTATGCCGGAGCCCCCTTGCGCACCCAAGATGGCTACAACATTGGCACGCTTGCCCTCATCGACGAC
GTCTCTCGAGAAGACTTCTCCCCCCGTCAAAGACATACTCTCAAGGAATTCGCTGCAATTGCTATGCGGGAAATG
GAACTTTGGCGAGACAAAATTCAGTTGAGAATACGGGATCGAATACAAAGCTCTATGGAGGAGTTCACTCGAGAA
TGCTTAGAAATCGATTCCGAAGTACATCCCAAAGTCGACAAAGCTTCCATCGTGATCGGTACTTCCATGGACCGT
GTTTACGACCGCGCAGCGAAGCTTGTCCAGAGAACGCTTGACGTAGAGGGAGTGATTGTCATGGATGTAACGCAC
TGCGAAGTTTTGGAGACTATGGGTGACGAAGGAAATGTGTCTGTGACCTTGCACCATGGCACTCCAGGGAGTGAA
ATGGAGAAGCGCCCGTTGTCGAGAGAAGATTACCAGAGCCTGAATAATTTCTTCGCAGCCTACCCAGAGGGCAAA
ATTTCTGAAGGAATTCTTCCTCCTTCTTTCAGGCCCTACATGCCCACTCATATCCGATATGCACTACTTGTACCG
ATATTCAATATAGACAAGCGCCCATTTGCCCTGCTATGCGCATATAATACTAATCTTCATTCAAAACGATTTTTA
GAAGGGCATGAGTTATCATACCTGCGAGCTATTGGTGTGATCATTCTGTCCGCTGTCCTCAAGAGACGCATGATT
CTAGCCGACAAAGCGAAGAGCCTATTCATTTCAAATATTTCTCACGAGCTACGAACACCCTTGCATGGGATCCTT
GCCGCTGCAGAGTTACTCAGTGACAGCCCCTTGAATCACTCACAGATGTCCTTCATCCAGACCGTCCAAGCTTGT
GGCACTTCTTTAGTTGAAACAGTCAATCATGTCCTAGACTTCACAAAGCTCAGCGGCAACGTCAAAGCCGGCGGA
GTGGAGAATGTCATCGTCCCCATCACAAACGACATGATGCAACTCATAGAAGAGGCAATTGACGGAAGTTGGATC
GGCTATAAAGCCAGGACGGCCAATCTGGTGGATTCGGGCATCGGCAGTGTCTACTCACCTCCAAGTGACGAAACC
ACCGACCAGGGCCACCAACCGTCGCAACCACATGTCGAGACGGTTATAGACATTGGGTATCGAAGAGAGGGATGG
CTGCTGAAGTACGAGAAGGGTGGAATTCGCCGTGTGCTGATGAATCTCTTCGGAAACAGCCTCAAATTCACCACG
GATGGGTATGTTCACGTCAGGCTGCGGTTACTCCCTCGCTTGCCAGACGACCCGCCAAACAAAGTGAGGTTAGAG
CTTGCCATCGAAGATACAGGGAAGGGTATCAGTCAGAACTTCCTCAAGAATCAACTCTTTCACCCGTTCTCGCAG
GAGAATCCTCTCCAAACAGGCACCGGCCTCGGATTGGCGATAGTTAACAGTATCGTGTCTTCCGAGAATGTCGGA
GGAAAGGTGGACGTCCGAAGTGAAGAGGGTCAAGGAACCGAGATCAAGGTCTTCTTCCCTGCAGAAATCCCAGAG
GACGACCCCAGGTTGGCTGATGCGGCACAAGACATGGAACACTTCCGGGCGGACAAGAACAGCCCGTTACCCAAG
ATATCCATGCTAGGCTTCGAGTCTCAGCACAAAGGCATCCAACTCTTGTACAGAGTGCTTCGGACGTACATAACA
GAGTGGTGGGGCCTTGACATAGTGGATGACTCTCAGGACAGTGACATCGTCGTCCTCAACGAGGACCTTGGGCCA
ATTCGTTCCGCCATCGAGCGCAACGACATACGTCGCCCGTTCGTGATTTTATGGGTCACACGCGGGAACCCTACT
GTTCTGGCAGCCGCCACAGAATACGAACGGATAGGCGGATTCTGCCGCATCCTCTACAAGCCCACTGGCCCATCG
AAACTACGGGGGGTCCTCAAACTCTGCATGCACTCCATCAAGATCAATCGGTATTATCGCGACTCGGCACCCATG
ACAGCTGTACGGAAGAACACGGTATCGGGGTTTGCAGAGGACAAGGATGTATCGCATGGAGGGGTGTTGAGAAGG
AACTCGGATGAAAACTCGACTTACGCCAGCAAGTCGCTTAGTCGACCCCCAATGTCCCCGCGGTCAGCGACCATT
CATCCCTCCGTTTCCTCACTTCGGCATCAACTGTTATTATCCGCGCTTCCGGAGAAGGATCGTGGACAGGAAGGG
GAAGTTGGTTCACCTGTCTCTGATGGAACAGGTCTTCGTCCGATGGTTTCTATCGGCCCTGGGGGCTCAGTCCTG
AAGTCATCCGTCCAGCCGACAGACATCCGAGGCCGGAAGCTCAGGGTTTTAGTCATCGAGGACAACAACATTCTG
AGGAACCTCCTGGCCAAATGGCTGATCAAGAAAGGGTATGATTTCGAAGAAGCTGTGGATGGGCAGGCAGGCGTG
ACGGCGTTCCAGGAACATGGTCCATTCGATGTTGCGTTGATTGACCTGTCAATGCCAGTCCTCGACGGCGTCGCG
GCTACCAAAGAGATCCGTCGTATAGAGTCCAGTAAAGCAGGGGGAGACGACAGCTACCCCTCAGTCAAGATACTT
GCCCTTACTGGAATGTCTTCATTAGAAGATAAGCGGCGAGCGTTTGAAGCAGGAGTGGACGGATACCTTGTCAAA
CCGGTGGCCTTTAAGACCCTGGACGAGATGTTCCACAAGCTCGGGATCTCTTCATAGCATACATGTCATCTTTCA
ACCTACTTTCTAGCGCTTGGCGCTCCAACTGTTTATTTTAACCTTTTTAGGACTTTATTGTTACGTTCATAGTCG
ACTGTTATATTTTTTCTTGACCCTACTAATGCAGGATACTCCCACCCATGGCAA
Length 5004

Gene

Sequence id CopciAB_358738.T0
Sequence >CopciAB_358738.T0
ACCCTTGAGATCCAACCAACGTACCGCCATTCTTCACTCATCTTTGCCTGTTCCATACGTCTACAACGTGCAGGG
TCACGATATACTACTACCGCTTGCTCTCCGGAATCTGCCAATGAATAGGCGCCAGGATTATCCATCGTAAATCCA
CCTTCAGCCCAGAATACGGTAGTTCAAGGGAAGAAGAAACCAGGAATGCAAGCACACTGCGAACCCTCAGTACTC
AACCCGGTAGGGAAGCTTCATACGAATGGGCTGTTCGTTCTGAATACAGCCATCGCCAACAATCGCTACCAGACC
AGCGACAGCACTGGGATCGACCCGAGGTCATTGACGCAGAGCATAAATGCCGCCAAACGTGCGTGTAAGACCGTA
TCAGGGTGCCTGCGACCCGAACACAGAAAAGGACAAATTCTGACGTCGTGGATCTCTGTAGGCCATACCGTCTCG
CTTCCGACCTCCCCATATCAGGAGGGCTCATCACGATCGTACGCCGAAGGCACTCCCCTCGGGCAGGCCAACGGC
CTAGCCACCTTCAGTAATGAGGCTCTGCTTCCGCGAACGTCGAGCTCCGGTACGTTTTTGTAAGGAAATGTTCTC
AATGTATGTCTAACATGTCGTCCAGATGATCTCGAAGTGCCTTCGGATAGCAATCTACTTTCCACACATGGACGG
TCATTATCTGGAGACACAGAGTGCGACTGGGCGACCTTTATCACGGCTTATGCCAATGGGCGATGGGACCCTCAC
AAGCCGCCGAACCGGCCTCACCCGTGTCATGGCTACGATTCCGAGACTGGGTACATGAAGAAGTTGGAGCCAGTG
CAACTGTCTACCTCGCTACAAGTCACCGCGTCGGATTTCGACCAGGACCGCGATGGAACTTCCAAGTTGCGAGAC
GGGCGAGACAAGGTTTCAATCTCTCTGCAGGCTATGCAGGACCAGGCCGGTTCAATCATCGCATCATCTACGAAC
GGACGCAAGTTCCACAATCTAAAAATGGATTTCCCTCTCAAGCTCCCTGTTTCTGGGAGGTCACGGATCTCTTTT
CCTCCTTCGACGTCTACTGCATCCATTGGAAGCAATTCCTCCATGGCGAGCACGGCGGCCTCCAACTCGGATTTG
CAGACGACCGTGGCCACAATGCGATGGGCTGCGGCCAGAGTGGACATCTCGCCTCTGGCCCTTCCATCTCCCGAG
CACGAGCTAACAGATCCCATGCGCGGTGTCATCACTCCTGTACCTGGTTCCCACCCTCCCGACGACGACGAACCT
CATGACCAAGTCATAACGCCTGGTGGAAGCCGACGATCAAGGTTATCCAGCTTTTGGGAAGGTACGATAGATGTC
GATCCTAAGGCCTTCAAGATGGGGTCTATTCCACGGAAACATTCGCGCTTGAGCCTGGGTGGCAACAGCGCAGAT
GGTAGGGTCACTCCAGATAGTGTGCAGACGAACAAACAGGATATACCAGATAAAGTTCCAAAGAAAACCGAACAC
TCACCCGCTACTCAACTTTCCATACTCGCTGCTCAACCACCGCCTGCCACTGCACCAATTCCGGACAAGAAAACT
TCCAGTCGATCGGTAGAAGACTCTGACTACTTTGGAAATTTTCAACAATCTCCCAAACCTATTACCGCCCCGATC
CTGGTGGAACCCGTACGAGAGGTGCATTCGACTTCCTCCAACCCCGCTGCGGCGGACAGTGGATCTAGGACAGTC
CCAGCGCTTCCTCGCCGCATTTGCCTCACCAGGCAAACATCCTCTCCTCTTCCGATTTCCCTGGCACCACCCGAA
GCTCGTATCCCTGGAGGAAGGGTACCATCAGACTCGGCAAATCCAAATGCCAAAGGAAGAGCTGTCAAGGAGGAA
CAGATGTTCTCGGAACTCGGATACCTTGCTCCTCCAAATCCTCCAGATGAGCTTGAGCGCCGGCGAGCCTTGTAT
AAGTGCGTTGCCACGTAAAAGTCGTCTGCATGACCACTGAAGTTTTTCAGATTCAACATATGGTACACCGGGCCC
GACCTCAACTTTGACCGAATAGCCCATCTCGCCAAGCTGGTTTTCAATACGAAGGGTGTCATCGTATCGCTCATC
GATGGCAACGAGCAGTCAGTCTAGTTCCTGCGCATTTAGTTATCTCAGTTAGCTCACACGGTGCATTCTAGGTGG
TTCAAATCAGAATGTGAATGTCTCTTCCTTTCTTGCGCGCTTGCTTGTTCTAATTTACTTACCCTTTTTTTCCCC
CTTCCTATGGGGTTTCAATTTTAACTGGTGGCTCGATTTTGACACAAGGGGGGCTCAAGTCACCAAGCTGTCCCA
GGACACATTCACTGTGTGGCCATGCCATCCTTCAACAGTTGAGTATGGTCTCCATCCTTTCGTCCCTCCCACGTG
TGGACGTTCTCGAGTTGGATTGCACTCGGGTTTATCTTCCGAGGGTGCCACTCGCTCGAAACTTCGCGCTTGAGG
CAAACGACTAACTTAATTGAGCAGAGGAGATGAGCCTATGATCGTTCTAGACACCCATCTCGATTGGAGATTTGC
CAGGAATGTGAGTAGTAAAGAGTCTTTTTTTCCCTTCTCCGACCCGAGAATATTTCCCTATAGTTCTCTCTGTAT
TCTCAGCACGTTCCTAATGCATGCATTTCTAGCCATTGGTGATAAATTCCCCACGTATTCGCTTCTATGCCGGAG
CCCCCTTGCGCACCCAAGATGGCTACAACATTGGCACGTGCGTTAAAACGAGGTTCTTCAGAAGATGGTGACGGA
CTCAGATACGCCATTTCCCACTAGGCTTGCCCTCATCGACGACGTCTCTCGAGAAGACTTCTCCCCCCGTCAAAG
ACATACTCTCAAGGAATTCGCTGTAGGTATATTTGTCGCATGTTTCCCTGACAAGCACTGACATGCCATGGCAGG
CAATTGCTATGCGGGAAATGGAACTTTGGCGAGACAAAGTCAGTGTTTCGTGAAATTCGAGTTCCAAGGCTAATT
TGGCCTTTAGATTCAGTTGAGAATACGGGATCGAATACAAAGCTCTGTAAGTCTTGGTTGACTTGGAATGAAACA
GAAACTCAATCCATTCTATCTAAATTTCGACAGATGGAGGAGTTCACTCGAGAATGCTTAGAAATCGATTCCGAA
GTACATCCCAAAGTCGACAAAGCTTCCATCGTGATCGGTACTTCCATGGACCGTGTTTACGACCGCGCAGCGAAG
CTTGTCCAGAGAACGCTTGACGTAGAGGGAGTGATTGTCATGGATGTAACGCACTGCGAAGTTTTGGAGACTATG
GGTGACGAAGGAAATGTGTCTGTGACCTTGCACCATGGCACTCCAGGGAGTGAAATGGAGAAGCGCCCGTTGTCG
AGAGAAGATTACCAGAGCCTGAATAATTTCTTCGCAGCCTACCCAGAGGGCAAAATTTCTGAAGGAATTCTTCCT
CCTTCTTTCAGGCCCTACATGCCCACTCATATCCGATATGCACTACGTTTGTCCTCCTCGCCTTTCCATCGCCAC
GCAGCTGACCCTTTCTGGACAGTTGTACCGATATTCAATATAGACAAGCGCCCATTTGCCCTGCTATGCGCATAT
AATACTAATCTTCATTCAAAACGATTTGTGAGTTCTCTTCCCTCTTTATCTCCTTTCATGCACTGACTTCTGCTT
AGTTAGAAGGGCATGAGTTATCATACCTGCGAGCTATTGGCAAGACCTTTTCCCGTTTCGTCAATCCATTTCGAC
TGATTTATTTCAGGTGTGATCATTCTGTCCGCTGTCCTCAAGAGACGCATGATTCTAGCCGACAAAGCGAAGAGC
CTATTCATTTCAAAGTGCGTTACTTCAGCAACAATGTTCACGATATTGCTGACTGCAAAGTAGTATTTCTCACGA
GCTACGAACACCCTTGCATGGGGTCAGTACTGCCGCTTTACTGTCCGAAACGCGTCCACTGACGACGCGCTGAGC
AGATCCTTGCCGCTGCAGAGTTACTCAGTGACAGCCCCTTGAATCACTCACAGATGTCCTTCATCCAGACCGTCC
AAGCTTGTGGCACTTCTTTAGTTGAAACAGTCAATCATGTCCTAGACTTCACAAAGCTCAGCGGCAACGTCAAAG
CCGGCGGAGTGGAGAATGTCATCGTCCCCATCACGTCAGTGACTTCGTACGTTCCTGGAGGAGCTTTATTCACAA
TTCCAGTAGAAACGACATGATGCAACTCATAGAAGAGGCAATTGACGGAAGTTGGATCGGCTATAAAGCCAGGAC
GGCCAATCTGGTGGATTCGGGCATCGGCAGTGTCTACTCACCTCCAAGTGACGAAACCACCGACCAGGGCCACCA
ACCGTCGCAACCACATGTCGAGACGGTTATAGACATTGGGTATCGAAGAGAGGTATGGCCGATGTGTTGCATGTT
CCGTGCCATGTTATTAATGCTTTTGTCCACAGGGATGGCTGCTGAAGTACGAGAAGGGTGGAATTCGCCGTGTGC
TGATGAATCTCTTCGGAAACAGCCTCAAATTCACCACGGATGGGTATGTTCACGTCAGGCTGCGGTTACTCCCTC
GCTTGCCAGACGACCCGCCAAACAAAGTGAGGTTAGAGCTTGCCATCGAAGATACAGGGAAGGGTATCAGTCAGA
ACTTCCTCAAGGTGAGCTTGCTGATCTAGCGATCGGAATCGCACTACTTACTGTCCACTCAGAATCAACTCTTTC
ACCCGTTCTCGCAGGAGAATCCTCTCCAAACAGGCACCGGCCTCGGATTGGCGATAGTTAACAGTATCGTGTCTT
CCGAGAATGTCGGAGGAAAGGTGGACGTCCGAAGTGAAGAGGGTCAAGGAACCGAGATCAAGGTCTTCTTCCCTG
CAGAAATCCCAGAGGACGACCCCAGGTTGGCTGATGCGGCACAAGACATGGAACACTTCCGGGCGGACAAGAACA
GCCCGTTACCCAAGATATCCATGCTAGGCTTCGAGTCTCAGCACAAAGGCATCCAACTCTTGTACAGAGTGCTTC
GGACGTACATAACAGAGTGGTGGGGCCTTGACATAGTGGATGACTCTCAGGACAGTGACATCGTCGTCCTCAACG
AGGACCTTGGGCCAATTCGTTCCGCCATCGAGCGCAACGACATACGTCGCCCGTTCGTGATTTTATGGGTCACAC
GCGGGAACCCTACTGTTCTGGCAGCCGCCACAGAATACGAACGGATAGGCGGATTCTGCCGCATCCTCTACAAGC
CCACTGGCCCATCGAAACTACGGGGGGTCCTCAAACTCTGCATGCACTCCATCAAGATCAATCGGTATTATCGCG
ACTCGGCACCCATGACAGCTGTACGGAAGAACACGGTATCGGGGTTTGCAGAGGACAAGGATGTATCGCATGGAG
GGGTGTTGAGAAGGAACTCGGATGAAAACTCGACTTACGCCAGCAAGTCGCTTAGTCGACCCCCAATGTCCCCGC
GGTCAGCGACCATTCATCCCTCCGTTTCCTCACTTCGGCATCAACTGTTATTATCCGCGCTTCCGGAGAAGGATC
GTGGACAGGAAGGGGAAGTTGGTTCACCTGTCTCTGATGGAACAGGTCTTCGTCCGATGGTTTCTATCGGCCCTG
GGGGCTCAGTCCTGAAGTCATCCGTCCAGCCGACAGACATCCGAGGCCGGAAGCTCAGGGTTTTAGTCATCGAGG
ACAACAACATTCTGAGGAACCTCCTGTAAGTTCTACTCTAAATCACAATGGTGGGACTCCTTGAGAGCTGACACG
TATGTCTTTCTTCCAGGGCCAAATGGCTGATCAAGAAAGGGTATGATTTCGAAGAAGCTGTGGATGGGCAGGCAG
GCGTGACGGCGTTCCAGGAACATGGTCCATTCGAGTGCGTCGTCACCGGTTTCTGCAGTGGGCACTGTTTCTGAC
GTTCTCGATTCATAGTGTTGCGTTGATTGACCTGTCAATGCCAGTCCTCGACGGTGCGTCCATATGCGTATCCTT
TTTAACGGCGCGCTAATGACGCGGTATAGGCGTCGCGGCTACCAAAGAGATCCGTCGTATAGAGTCCAGTAAAGC
AGGGGGAGACGACAGCTACCCCTCAGTCAAGATACTTGCCCTTACTGGAATGTCTTCATTAGAAGATAAGCGGCG
AGCGTTTGAAGCAGGAGTGGACGGATAGTGCGTTCGTTTCGTTATTCTTAGTTCTGCTGCTGACGGTCTTGGAAC
TCATAGCCTTGTCAAACCGGTGGCCTTTAAGACCCTGGACGAGATGTTCCACAAGCTCGGGATCTCTTCATAGCA
TACATGTCATCTTTCAACCTACTTTCTAGCGCTTGGCGCTCCAACTGTTTATTTTAACCTTTTTAGGACTTTATT
GTTACGTTCATAGTCGACTGTTATATTTTTTCTTGACCCTACTAATGCAGGATACTCCCACCCATGGCAA
Length 6445