CopciAB_373460
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_373460 Strain Coprinopsis cinerea Okayama 7
Standard name KIN2 Synonyms 373460
Uniprot id Functional description Non-specific serine threonine protein kinase
Location scaffold_3:3288987..3294362 Strand +
Gene length (nt) 5376 Transcript length (nt) 5067
CDS length (nt) 4023 Protein length (aa) 1340

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7266729 64.1 0 1639
Hypsizygus marmoreus strain 51987-8 Hypma_RDB21955 60.2 0 1519
Pleurotus eryngii ATCC 90797 Pleery1_1468126 58 0 1472
Lentinula edodes W1-26 v1.0 Lentinedodes1_15637 55.5 0 1390
Lentinula edodes NBRC 111202 Lenedo1_1036489 55.9 0 1369
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_78686 54.8 0 1306
Ganoderma sp. 10597 SS1 v1.0 Gansp1_56398 56.2 0 1305
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_181164 52.7 0 1240
Flammulina velutipes Flave_chr10AA00178 52.8 0 1207
Schizophyllum commune H4-8 Schco3_2702254 49.4 0 1156
Pleurotus ostreatus PC15 PleosPC15_2_1069072 48.4 0 1049
Pleurotus ostreatus PC9 PleosPC9_1_80403 48.5 0 1049
Auricularia subglabra Aurde3_1_1201090 44.8 6.361E-277 889
Lentinula edodes B17 Lened_B_1_1_4663 66.8 8.768E-240 779
Grifola frondosa Grifr_OBZ72950 51.2 7.86E-95 341

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 103.3375 13.44 7.7596
oidia 143.8398 10.0211 5.7857
vegetative_mycelium 146.8143 19.6449 11.342
primordia 116.4922 13.6562 7.8844
hyphal_knot 147.8368 13.8849 8.0164
young_fruiting_body 75.6283 6.9361 4.0045
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 89.2159 10.9872 6.3435
Wheat bran 43.529 12.6455 7.3009
Horse manure 86.3745 50.486 29.1481
Oak leaves 115.3244 16.6883 9.635
Hay 74.9055 8.491 4.9023
Corn stalk 90.1334 11.1493 6.437
Pectine 108.1828 9.0776 5.2409
Microcrystalline cellulose 92.3111 12.1197 6.9973
Xylose 92.7925 13.9648 8.0626
Cellobiose 77.1669 6.4542 3.7263
Lignin 92.2611 8.9799 5.1846
Apple peels 92.7896 15.6663 9.0449
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 49.3188 8.1649 4.714
Bsubtilis 68.7795 10.2142 5.8972
Ecoli 57.5258 5.46 3.1523
Early development 1 Time series expression profiling of basidiospore and oidium germination Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
BS 0h 69.1221 3.8879 2.2447
BS 4h 38.1245 5.6541 3.2644
BS 8h 32.2081 2.7094 1.5642
BS 12h 26.9752 3.9594 2.286
Oidia 0 h 62.6583 24.5455 14.1713
Oidia 18 h 49.1928 9.4058 5.4304
Sclerotia 30.6787 2.5671 1.4821
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 30.4685 4.9675 2.868
DM 36h 39.471 9.7496 5.629
DM 60h 49.7261 8.2468 4.7613
DM 84h 30.2678 1.6772 0.9683
DM 108h 34.808 1.244 0.7182
DM 132h 37.5045 5.2025 3.0037
DM 156hAE 34.9027 5.0152 2.8955
ELI1hAE 33.3372 3.3984 1.9621
ELI2hAE 30.7637 2.6006 1.5014
LI2hAE 31.7897 1.612 0.9307
LI6hAE 34.3288 4.4462 2.567
LI12hAE 33.4331 6.3773 3.6819
LI18hAE 32.0214 5.0001 2.8868
LI 24hAE 41.7628 8.0262 4.6339
DM 156hAM 33.1087 1.6554 0.9558
ELI1hAM 30.6197 5.2532 3.0329
ELI2hAM 29.6949 4.8671 2.81
LI2hAM 32.8267 4.1695 2.4072
LI6hAM 41.2495 1.71 0.9872
LI12hAM 32.5439 5.0216 2.8992
LI18hAM 37.9743 7.855 4.5351
LI 24hAM 32.0619 5.459 3.1518
LI 24hHK 34.3615 4.6463 2.6825
L/D 6h 32.931 4.9624 2.865
L/D 12h 39.6771 2.8263 1.6318
L/D 18h 46.4577 3.6031 2.0803
L/D 24h 45.0606 1.9775 1.1417
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 49.2226 6.842 3.9502
Hyphal knots 70.8223 15.3692 8.8734
Primordium 1 61.0942 4.4873 2.5908
Primordium 2 51.4882 1.434 0.8279
Young Fruiting body cap 52.9985 7.878 4.5484
Younf fruiting body gill 36.6275 8.8378 5.1025
Young fruiting body stipe 71.4057 14.756 8.5194
Mature fruiting body cap_gill 40.1569 20.8617 12.0445
Mature fruiting body stipe 42.478 8.3391 4.8146
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 137.3341 18.484 10.6718
NH4NO3 143.0725 14.4398 8.3368
Proline 150.3633 24.8738 14.3609
Tryptophan 103.0317 32.1658 18.5709
Isoleucin 148.8519 8.4616 4.8853
Arginine 157.6741 16.5413 9.5501
Metionine 126.7999 9.7984 5.6571
NaNO3 127.4758 5.0154 2.8956
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 137.3341 18.484 10.6718
Citrus peel 86.3875 12.6765 7.3188
Poplar leaves 180.0937 29.8508 17.2344
Typha leaves 139.0226 34.7084 20.0389
Overwintered Salix leaves 135.5385 20.5417 11.8597
Reed flowering 116.9193 32.14 18.556
Tigernut 117.5126 19.3101 11.1487
Energy cane 126.0135 8.5317 4.9258
Guar gum 90.9622 15.2581 8.8093
Apple peels 87.286 31.7026 18.3035
Cellobiose 138.8162 12.1892 7.0374
Corn stalk 106.8205 2.8967 1.6724
Horse manure 121.8922 8.1921 4.7297
Lignin 71.653 30.1011 17.3789
Microcrystalline cellulose 132.2433 27.698 15.9915
Oak leaves 94.4514 26.7201 15.4269
Pectin esterified 69.9842 15.7446 9.0901
Poplar sawdust 93.7399 37.1336 21.4391
Wheat bran 62.5997 19.3957 11.1981
Chlamydomonas reinhardtii 133.3357 16.2387 9.3754
Vertatryl alcohol 94.7874 9.4201 5.4387
Furfural 90.8078 10.2482 5.9168
Autoclaved mycelium 176.0039 24.8152 14.3271
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 68.6488 5.9548 3.438
Ribose 92.7607 3.544 2.0461
Mannose 84.0192 13.9203 9.8432
Fructose 83.3229 6.4041 3.6974
Arabinose 79.5003 10.0167 5.7832
Xylose 87.891 2.81 1.6224
Galacturonic acid 83.6317 7.4519 4.3023
Rhamnogalacturonan 85.7976 13.4757 7.7802
Pectin esterified 94.2102 8.5633 4.944
Polygalacturonic acid 84.9183 0.8363 0.4828
Sodium acetate 94.5867 8.882 5.128
No nitrogen 79.4512 5.1201 2.9561
BSA 83.9696 3.3241 1.9192
Glutamine 82.3503 1.5614 0.9015
No phosphate 76.8934 5.3942 3.1144
No carbon 86.6806 2.4668 1.7443
No sulphur 80.9919 5.9925 3.4597
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 137.3341 18.484 10.6718
Amylose 109.1355 2.8974 1.6728
Fucose 115.282 6.5503 3.7818
Galactose 124.1742 12.5554 7.2489
Lactose 139.338 15.6469 9.0337
Maltose 125.1645 18.3831 10.6135
Mannitol 162.3753 22.6773 13.0928
Rhamnose 170.716 31.1622 17.9915
Sorbitol 110.0706 17.2035 9.9325
Trehalose 120.7034 14.6297 8.4464
Glycerol 132.007 30.9969 17.8961
Glucuronic acid 108.3778 5.4959 3.1731
Arabinan 88.5916 1.7267 0.9969
Galactan 115.8362 6.2029 3.5813
Galactomannan 91.1988 28.294 16.3355
Glucan 126.2822 13.59 7.8462
Xylan 117.8922 13.8721 8.0091
Xyloglucan 112.693 15.3367 8.8547
Arabinogalactan 116.1564 2.1197 1.2238
Pectin 84.1493 43.0339 24.8456
Rhamnogalacturonan 148.0677 54.5072 31.4697
Polygalacturonic acid 133.0908 26.3245 15.1985
Mannan 120.1991 14.2639 8.2353
Amylopectin 105.4957 25.0187 14.4445
Inulin 163.8148 18.1703 10.4906
BSA 114.9436 8.9804 5.1848
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 49.7261 8.2468 4.7613
2h WAT 31.5324 2.419 1.3966
4h WAT 35.1344 6.8187 3.9368
8h WAT 30.2965 2.2036 1.2722
16h WAT 37.4545 0.3162 0.1826
24h WAT 34.8381 1.7831 1.0295
WAT hyphal knot -30h 41.1016 6.0687 3.5037
WAT hyphal knot -22h 44.4931 6.8121 3.933
WAT hyphal knot -15h 42.574 11.4733 6.6241
WAT hyphal knot -7.5h 37.5434 8.9809 5.1851
WAT hyphal knot 38.109 4.3881 2.5335
WAT hyphal knot +7.5h 29.8506 6.5025 3.7542
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 99.753 52.1912 30.1326
Straw 3h 82.2792 25.2613 14.5846
Straw 6h 67.0355 34.7038 20.0363
Straw 12h 98.8405 4.9178 2.8393
Straw 24h 86.0316 22.3756 12.9186
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 28.403 7.7675 4.4846
Frost (-20C, 30min) 27.4636 3.2379 1.8694
Heat shock (47C, 2h) 46.8783 2.4024 1.387
High CO2 25.1757 0.6607 0.3814
Drought (4% agar, 12h) 25.2292 3.4392 1.9856
Oxidative (1mM H2O2, 3h) 30.7098 3.7357 2.1568
Acidic (pH4, 3h) 33.8846 5.6824 3.2808
Alkaline (pH9, 3h) 26.8638 4.0328 2.3284
Osmotic (sorbitol 2h) 26.0462 2.8089 1.6217
CongoRed (3h) 26.3436 3.2054 1.8506
Cobalt chloride control 29.7763 3.3298 1.9225
Cobalt chloride 2mM 33.7983 4.2675 2.4639
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 29.461 1.0948 0.6321
Cold stimulation 21.7114 7.6344 4.4077
Scratched surface 43.3552 4.6398 2.6788
Ca2+, 200mM, 24h 18.0766 1.2122 0.6998
Cu2+, 2mM, 6h 21.8932 4.517 2.6079
Voriconazole 21.9279 3.3059 1.9086
Trichoderma interaction, early 33.9434 4.8061 2.7748
Trichoderma interaction 60h 16.7361 6.1759 3.5656
Cobalt chloride 2mM repeat 37.2933 5.4945 3.1723
Hypoxia 27.7609 6.9375 4.0054
Hypoxia control 26.4824 7.7942 4.5
Protoplastation control 29.7095 7.1302 5.0418
Protoplastation 3.5h 30.3359 13.1644 9.3087
Protoplastation 1.5h 35.8281 10.9141 7.7174

General data

Systematic name KIN2
Protein id CopciAB_373460.T0
Description Non-specific serine threonine protein kinase

Annotation summary

0 300 600 900 1200 1340

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd14077 STKc_Kin1_2 - 144 418
Pfam PF00069 Protein kinase domain IPR000719 202 418
Pfam PF02149 Kinase associated domain 1 IPR001772 1297 1340

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR000719 Protein kinase domain
IPR008271 Serine/threonine-protein kinase, active site
IPR011009 Protein kinase-like domain superfamily
IPR017441 Protein kinase, ATP binding site
IPR028375 KA1 domain/Ssp2, C-terminal
IPR001772 Kinase associated domain 1 (KA1)

GO

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

KEGG

KEGG Orthology
K19852

EggNOG

COG category Description
T Non-specific serine threonine protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_373460 across fungi.

Arrow shows the origin of gene family containing CopciAB_373460.

Protein

Sequence id CopciAB_373460.T0
Sequence >CopciAB_373460.T0
MTSYPTSLAPVLKQVPEDVEAGHTTPSYGGMIGGHEFDMPISPPTHTQPQQHSASSSPAPVPRSSTSSHRPRPVS
MPPQAFSAVDPGSERPRERDRDRERDRDRDRERDRESSSRQGDENTHRRRHRDEHSSSSRPSRSNRILGDYTLSK
TLGAGSMGKVKLATHNITGEKLAVKILPRVYPNPPPPGSSGPSAESASRQASKDASKEIRTLREAALSMLLYHPY
ICGMREMIVHQHHYYMVFEYVNGGQMLDYIISHGRLRERVARKFARQIGSALEYCHLNNVVHRDLKIENILISQT
GNIKIIDFGLSNLYNPVSHLSTFCGSLYFAAPELLNAKVYTGPEVDVWSFGVVLYVLVCGKVPFDDQSMPALHAK
IKRGLVEYPVWLSAECKHLLSRMLVTNPAARATLNEVMNHPWMIRGFSGPPEIHMVHREPLRVDELDQQVIRGMK
GFEFGTEQEIERKLVEILESESYQRAVQNWERKRGSRANLNGNGTFNNGRWGESFSNSSLAISFDSNKSDTPAPK
KSRRFSGFEYYRKKLFSPVSSPPGSPMSRSPPNSQHTISTLSDREPGDPTRGFHPLISMYYLAREKMERDKVFGP
GQFASSQLSLLDQMSPTAATQPTPHSGNLQQQQHAATNQPHYTAPNVATSRQSTLGARPDYSMPLPRLPPPEASH
YSGTSYDNSIAPSPTTPVFSNQPRARDPGLPVPPSPTVASAPPARQHIEISEQQPPTATAPRRGNLPRAPPASTH
RRSHSMSQRPSVLSRGWGTMFGSHTAEGVNEHGARIPEPPKTVGPEVTSFNEKELGAISDGERQEHGSGGGGVSP
LSSGATLVRKFGSLLVGRGDESRRQQQQQHNQGTIKRGAILNALSPSPRPSAETRSPEEEKHPDNNGVNGSGAAG
QGQGLESEEVVVEKPKPIATSVSQPVGSAHRRAATLLDPHGRASRHERRSSTSAAFGSSTVGTGGGGTIGRHRRP
STGYSTTSGRPLADRLFPQRREGDLVEKREDEEGDGELVDSAHPGFDTEEERDDGNATDRDFKPVFLKGLFSVAT
TSTKPPAAIKLDIRRVLDRMQVQYRETKTGFECIHLPSIDISSIDATSMRQPSHHQSASNDNGRTTPTFNRPSLV
KKASKLSFGMKKGKDREPSADKDKEKEKDKTGTGDEAQSRQSTKLTAASGGSSSFFNVGNAEHGASIQDQLNQPP
QSNGIASSIISNGDEMPSSASAHQQQGSTISSSSSPQPPRSNSPTATMTSNKAKVLPPIPRDFGASSPTPRARSP
SPLPSGEVDREVFEHLGNNSLSVKFEITIVKVPWLPLHGIQFRRASGDGWQYQMLARRVLTELKL
Length 1340

Coding

Sequence id CopciAB_373460.T0
Sequence >CopciAB_373460.T0
ATGACGAGCTACCCGACCTCGCTGGCGCCGGTGCTGAAGCAGGTTCCCGAAGACGTCGAGGCTGGCCACACCACA
CCGTCGTATGGGGGCATGATCGGTGGACACGAGTTTGATATGCCAATTTCGCCGCCAACGCATACGCAGCCACAA
CAACACTCTGCATCATCATCACCAGCGCCCGTGCCAAGGTCCTCAACTTCCTCCCATCGTCCCCGTCCGGTTTCG
ATGCCCCCACAAGCCTTCAGCGCGGTCGACCCGGGCTCAGAACGACCTAGGGAGAGGGACAGGGATAGAGAGCGA
GACAGGGATAGAGATAGGGAGCGAGACAGGGAGTCGTCGTCTAGGCAGGGCGATGAAAACACGCACCGTCGACGC
CATCGAGATGAACACAGCTCCTCGTCGCGGCCGAGCAGGTCCAACCGAATCCTGGGCGACTACACGCTGAGCAAG
ACACTGGGCGCGGGGAGCATGGGCAAAGTCAAGCTGGCGACGCACAACATCACTGGCGAGAAGCTGGCCGTCAAG
ATCTTGCCTCGTGTCTACCCAAATCCCCCGCCACCAGGCAGCTCGGGTCCAAGCGCAGAGTCGGCGTCGAGGCAG
GCGTCAAAGGACGCTTCGAAGGAGATCCGGACGCTGCGCGAGGCGGCGCTCTCGATGCTCCTGTACCACCCCTAC
ATTTGCGGAATGCGCGAAATGATCGTCCACCAACACCACTACTACATGGTATTCGAATATGTCAACGGCGGCCAG
ATGCTCGACTACATCATCAGCCACGGTCGCCTGCGCGAACGGGTCGCCCGCAAGTTTGCACGCCAAATAGGCAGT
GCACTCGAGTACTGCCATCTGAACAATGTCGTTCATCGCGATCTCAAAATTGAAAACATCCTCATCTCCCAGACT
GGGAACATTAAAATCATCGATTTCGGCCTGTCCAACCTCTACAACCCTGTTTCCCACCTGTCGACGTTTTGCGGT
TCGCTGTATTTCGCGGCACCCGAGCTGCTCAATGCAAAGGTCTATACCGGCCCCGAAGTCGATGTTTGGAGCTTC
GGCGTGGTGCTTTACGTGCTAGTCTGCGGAAAGGTTCCGTTCGATGACCAAAGTATGCCCGCACTTCACGCAAAG
ATCAAGCGGGGCCTGGTCGAGTATCCAGTCTGGTTAAGCGCCGAATGCAAGCACCTGCTTTCGAGAATGCTCGTG
ACAAACCCGGCCGCCCGCGCTACTCTCAACGAAGTTATGAACCACCCGTGGATGATACGTGGATTCTCAGGACCC
CCTGAGATCCACATGGTGCATCGAGAGCCGCTACGAGTCGACGAACTTGACCAACAAGTCATCCGAGGGATGAAA
GGGTTCGAATTTGGCACGGAGCAGGAGATCGAGCGCAAGCTGGTCGAAATCCTAGAATCGGAGAGCTATCAACGG
GCAGTGCAGAACTGGGAGCGGAAACGAGGTTCAAGAGCCAACCTCAACGGCAACGGAACCTTCAACAACGGTCGA
TGGGGAGAGTCGTTCTCGAATTCCAGTCTCGCCATTTCCTTTGACAGCAACAAATCCGATACCCCCGCCCCGAAG
AAGTCGCGTAGATTCTCTGGGTTCGAGTACTACCGCAAGAAGCTGTTCTCGCCGGTTTCGTCACCGCCGGGCAGC
CCTATGAGTCGGTCCCCGCCCAACTCGCAGCACACGATATCGACGCTTTCCGATCGTGAGCCGGGCGACCCGACA
CGAGGATTCCACCCCCTGATATCGATGTACTATCTCGCCCGGGAGAAGATGGAACGGGACAAGGTCTTTGGACCT
GGGCAATTTGCCAGCTCTCAGCTGTCTCTTCTCGACCAGATGTCGCCGACTGCGGCTACCCAACCCACACCTCAC
AGCGGAAACCTCCAACAGCAGCAACATGCCGCGACCAACCAACCGCATTACACCGCTCCCAACGTCGCCACCTCA
AGACAAAGCACACTCGGCGCGAGACCGGACTACAGCATGCCTCTCCCCCGCCTTCCACCACCCGAGGCCTCGCAT
TACTCGGGTACTTCGTACGACAACAGCATCGCTCCGTCACCGACGACTCCTGTGTTCAGCAACCAGCCGCGAGCG
AGGGATCCCGGTTTGCCGGTCCCGCCTTCACCAACCGTCGCGAGCGCACCGCCTGCCCGGCAGCATATCGAGATC
TCCGAACAGCAGCCTCCCACCGCTACGGCGCCTCGACGGGGCAACCTCCCGCGAGCTCCACCCGCGAGCACGCAT
AGGCGAAGCCACAGTATGAGCCAGCGCCCGTCTGTCCTCTCGAGAGGATGGGGCACGATGTTTGGTTCGCATACG
GCTGAGGGTGTGAATGAGCATGGTGCGAGGATACCCGAGCCGCCCAAGACCGTCGGGCCTGAAGTCACCTCGTTC
AATGAGAAGGAGTTGGGTGCGATCTCGGATGGGGAGAGGCAGGAGCATGGGAGTGGAGGTGGGGGTGTATCACCG
CTTTCGTCTGGTGCGACCCTTGTTCGCAAGTTTGGAAGTTTGCTGGTTGGGAGGGGTGATGAGTCGAGGAGGCAG
CAGCAGCAGCAGCATAATCAGGGCACGATTAAGCGCGGGGCGATTTTGAATGCGCTGTCGCCTTCGCCGCGTCCT
TCGGCTGAGACGAGGAGTCCGGAGGAGGAGAAGCATCCTGATAACAATGGTGTGAATGGGTCGGGAGCGGCGGGA
CAGGGACAGGGTCTGGAGAGTGAGGAGGTGGTGGTGGAGAAGCCGAAGCCTATCGCGACGAGCGTGAGCCAGCCG
GTCGGGTCTGCGCACAGGCGTGCAGCGACTCTGCTCGACCCACACGGGAGGGCGAGTCGGCACGAGAGGAGGAGT
AGTACCAGTGCTGCGTTTGGGAGCAGCACGGTTGGTACTGGCGGGGGAGGCACGATTGGACGCCATAGGAGGCCG
TCGACTGGGTACTCTACTACGTCTGGCAGGCCGTTGGCGGACAGGCTGTTCCCGCAGAGGAGGGAGGGCGATTTG
GTGGAGAAGAGGGAGGACGAGGAGGGTGATGGTGAGCTTGTTGATTCGGCCCATCCTGGGTTTGATACCGAGGAG
GAGAGGGATGATGGGAATGCGACGGATCGCGACTTTAAGCCTGTGTTCCTCAAGGGGTTGTTCAGTGTGGCTACG
ACTTCGACGAAACCTCCTGCTGCTATCAAGCTTGATATCCGACGGGTGCTGGACCGGATGCAAGTCCAGTATCGC
GAGACCAAGACTGGATTCGAGTGTATCCATTTGCCGTCTATCGATATTTCGTCTATCGATGCCACATCTATGAGG
CAACCCTCGCACCATCAATCAGCTTCCAACGATAACGGCCGTACAACGCCAACCTTCAACCGACCCTCGCTTGTC
AAGAAGGCGTCGAAGCTGTCGTTTGGGATGAAGAAGGGCAAGGACCGGGAACCTTCCGCCGACAAAGACAAGGAG
AAGGAGAAGGATAAGACCGGGACAGGGGATGAGGCGCAGAGTAGGCAGTCTACCAAGTTGACAGCGGCGAGCGGG
GGCTCGTCGTCGTTCTTCAACGTCGGCAACGCCGAGCACGGAGCGTCGATACAGGACCAGCTGAACCAGCCACCG
CAGAGCAACGGGATCGCCTCGTCCATCATTTCGAACGGGGACGAGATGCCCTCGTCTGCGTCTGCGCACCAACAG
CAGGGGTCTACCATCTCCTCGTCGTCGTCGCCGCAGCCCCCGAGGTCGAATTCGCCGACGGCGACAATGACGTCG
AATAAGGCCAAGGTCCTGCCGCCTATCCCGAGAGATTTTGGAGCGAGTTCGCCAACGCCAAGAGCGAGGAGTCCG
AGTCCGCTGCCGTCTGGAGAGGTGGATAGGGAGGTGTTTGAGCACCTTGGGAATAATAGTTTGAGTGTCAAGTTT
GAGATTACGATTGTTAAGGTCCCTTGGTTACCTCTGCATGGTATTCAGTTTAGGCGTGCAAGTGGTGATGGGTGG
CAGTACCAGATGCTTGCGAGGAGGGTGCTAACTGAGCTCAAGCTGTGA
Length 4023

Transcript

Sequence id CopciAB_373460.T0
Sequence >CopciAB_373460.T0
GAGCACGACGACGACGTCGTCACCTACGAACTACACCACACACCGCCCGTGGACCCGTCCGCCACGTCGACTCCA
ACCTTGAAGCGACCCCTTCCAGCTGTTGCTGCTGCTGCTGTGGGTGCACGGACCCAACGTTCGGTTTCGGTTTCA
GACGAACAATGACGAGCTACCCGACCTCGCTGGCGCCGGTGCTGAAGCAGGTTCCCGAAGACGTCGAGGCTGGCC
ACACCACACCGTCGTATGGGGGCATGATCGGTGGACACGAGTTTGATATGCCAATTTCGCCGCCAACGCATACGC
AGCCACAACAACACTCTGCATCATCATCACCAGCGCCCGTGCCAAGGTCCTCAACTTCCTCCCATCGTCCCCGTC
CGGTTTCGATGCCCCCACAAGCCTTCAGCGCGGTCGACCCGGGCTCAGAACGACCTAGGGAGAGGGACAGGGATA
GAGAGCGAGACAGGGATAGAGATAGGGAGCGAGACAGGGAGTCGTCGTCTAGGCAGGGCGATGAAAACACGCACC
GTCGACGCCATCGAGATGAACACAGCTCCTCGTCGCGGCCGAGCAGGTCCAACCGAATCCTGGGCGACTACACGC
TGAGCAAGACACTGGGCGCGGGGAGCATGGGCAAAGTCAAGCTGGCGACGCACAACATCACTGGCGAGAAGCTGG
CCGTCAAGATCTTGCCTCGTGTCTACCCAAATCCCCCGCCACCAGGCAGCTCGGGTCCAAGCGCAGAGTCGGCGT
CGAGGCAGGCGTCAAAGGACGCTTCGAAGGAGATCCGGACGCTGCGCGAGGCGGCGCTCTCGATGCTCCTGTACC
ACCCCTACATTTGCGGAATGCGCGAAATGATCGTCCACCAACACCACTACTACATGGTATTCGAATATGTCAACG
GCGGCCAGATGCTCGACTACATCATCAGCCACGGTCGCCTGCGCGAACGGGTCGCCCGCAAGTTTGCACGCCAAA
TAGGCAGTGCACTCGAGTACTGCCATCTGAACAATGTCGTTCATCGCGATCTCAAAATTGAAAACATCCTCATCT
CCCAGACTGGGAACATTAAAATCATCGATTTCGGCCTGTCCAACCTCTACAACCCTGTTTCCCACCTGTCGACGT
TTTGCGGTTCGCTGTATTTCGCGGCACCCGAGCTGCTCAATGCAAAGGTCTATACCGGCCCCGAAGTCGATGTTT
GGAGCTTCGGCGTGGTGCTTTACGTGCTAGTCTGCGGAAAGGTTCCGTTCGATGACCAAAGTATGCCCGCACTTC
ACGCAAAGATCAAGCGGGGCCTGGTCGAGTATCCAGTCTGGTTAAGCGCCGAATGCAAGCACCTGCTTTCGAGAA
TGCTCGTGACAAACCCGGCCGCCCGCGCTACTCTCAACGAAGTTATGAACCACCCGTGGATGATACGTGGATTCT
CAGGACCCCCTGAGATCCACATGGTGCATCGAGAGCCGCTACGAGTCGACGAACTTGACCAACAAGTCATCCGAG
GGATGAAAGGGTTCGAATTTGGCACGGAGCAGGAGATCGAGCGCAAGCTGGTCGAAATCCTAGAATCGGAGAGCT
ATCAACGGGCAGTGCAGAACTGGGAGCGGAAACGAGGTTCAAGAGCCAACCTCAACGGCAACGGAACCTTCAACA
ACGGTCGATGGGGAGAGTCGTTCTCGAATTCCAGTCTCGCCATTTCCTTTGACAGCAACAAATCCGATACCCCCG
CCCCGAAGAAGTCGCGTAGATTCTCTGGGTTCGAGTACTACCGCAAGAAGCTGTTCTCGCCGGTTTCGTCACCGC
CGGGCAGCCCTATGAGTCGGTCCCCGCCCAACTCGCAGCACACGATATCGACGCTTTCCGATCGTGAGCCGGGCG
ACCCGACACGAGGATTCCACCCCCTGATATCGATGTACTATCTCGCCCGGGAGAAGATGGAACGGGACAAGGTCT
TTGGACCTGGGCAATTTGCCAGCTCTCAGCTGTCTCTTCTCGACCAGATGTCGCCGACTGCGGCTACCCAACCCA
CACCTCACAGCGGAAACCTCCAACAGCAGCAACATGCCGCGACCAACCAACCGCATTACACCGCTCCCAACGTCG
CCACCTCAAGACAAAGCACACTCGGCGCGAGACCGGACTACAGCATGCCTCTCCCCCGCCTTCCACCACCCGAGG
CCTCGCATTACTCGGGTACTTCGTACGACAACAGCATCGCTCCGTCACCGACGACTCCTGTGTTCAGCAACCAGC
CGCGAGCGAGGGATCCCGGTTTGCCGGTCCCGCCTTCACCAACCGTCGCGAGCGCACCGCCTGCCCGGCAGCATA
TCGAGATCTCCGAACAGCAGCCTCCCACCGCTACGGCGCCTCGACGGGGCAACCTCCCGCGAGCTCCACCCGCGA
GCACGCATAGGCGAAGCCACAGTATGAGCCAGCGCCCGTCTGTCCTCTCGAGAGGATGGGGCACGATGTTTGGTT
CGCATACGGCTGAGGGTGTGAATGAGCATGGTGCGAGGATACCCGAGCCGCCCAAGACCGTCGGGCCTGAAGTCA
CCTCGTTCAATGAGAAGGAGTTGGGTGCGATCTCGGATGGGGAGAGGCAGGAGCATGGGAGTGGAGGTGGGGGTG
TATCACCGCTTTCGTCTGGTGCGACCCTTGTTCGCAAGTTTGGAAGTTTGCTGGTTGGGAGGGGTGATGAGTCGA
GGAGGCAGCAGCAGCAGCAGCATAATCAGGGCACGATTAAGCGCGGGGCGATTTTGAATGCGCTGTCGCCTTCGC
CGCGTCCTTCGGCTGAGACGAGGAGTCCGGAGGAGGAGAAGCATCCTGATAACAATGGTGTGAATGGGTCGGGAG
CGGCGGGACAGGGACAGGGTCTGGAGAGTGAGGAGGTGGTGGTGGAGAAGCCGAAGCCTATCGCGACGAGCGTGA
GCCAGCCGGTCGGGTCTGCGCACAGGCGTGCAGCGACTCTGCTCGACCCACACGGGAGGGCGAGTCGGCACGAGA
GGAGGAGTAGTACCAGTGCTGCGTTTGGGAGCAGCACGGTTGGTACTGGCGGGGGAGGCACGATTGGACGCCATA
GGAGGCCGTCGACTGGGTACTCTACTACGTCTGGCAGGCCGTTGGCGGACAGGCTGTTCCCGCAGAGGAGGGAGG
GCGATTTGGTGGAGAAGAGGGAGGACGAGGAGGGTGATGGTGAGCTTGTTGATTCGGCCCATCCTGGGTTTGATA
CCGAGGAGGAGAGGGATGATGGGAATGCGACGGATCGCGACTTTAAGCCTGTGTTCCTCAAGGGGTTGTTCAGTG
TGGCTACGACTTCGACGAAACCTCCTGCTGCTATCAAGCTTGATATCCGACGGGTGCTGGACCGGATGCAAGTCC
AGTATCGCGAGACCAAGACTGGATTCGAGTGTATCCATTTGCCGTCTATCGATATTTCGTCTATCGATGCCACAT
CTATGAGGCAACCCTCGCACCATCAATCAGCTTCCAACGATAACGGCCGTACAACGCCAACCTTCAACCGACCCT
CGCTTGTCAAGAAGGCGTCGAAGCTGTCGTTTGGGATGAAGAAGGGCAAGGACCGGGAACCTTCCGCCGACAAAG
ACAAGGAGAAGGAGAAGGATAAGACCGGGACAGGGGATGAGGCGCAGAGTAGGCAGTCTACCAAGTTGACAGCGG
CGAGCGGGGGCTCGTCGTCGTTCTTCAACGTCGGCAACGCCGAGCACGGAGCGTCGATACAGGACCAGCTGAACC
AGCCACCGCAGAGCAACGGGATCGCCTCGTCCATCATTTCGAACGGGGACGAGATGCCCTCGTCTGCGTCTGCGC
ACCAACAGCAGGGGTCTACCATCTCCTCGTCGTCGTCGCCGCAGCCCCCGAGGTCGAATTCGCCGACGGCGACAA
TGACGTCGAATAAGGCCAAGGTCCTGCCGCCTATCCCGAGAGATTTTGGAGCGAGTTCGCCAACGCCAAGAGCGA
GGAGTCCGAGTCCGCTGCCGTCTGGAGAGGTGGATAGGGAGGTGTTTGAGCACCTTGGGAATAATAGTTTGAGTG
TCAAGTTTGAGATTACGATTGTTAAGGTCCCTTGGTTACCTCTGCATGGTATTCAGTTTAGGCGTGCAAGTGGTG
ATGGGTGGCAGTACCAGATGCTTGCGAGGAGGGTGCTAACTGAGCTCAAGCTGTGATCCTGGATTCATTCATTTA
TTCCACATGTTTCTTATAATTATTGGTGAAGTTCAAGTCCAGCACCGGCGCGCCTATATCCCCGTCGACATCCTC
TACGTCCCTGGTTAATGCACTTCCACCGTGGTCCCTGATCATTGCCCACCTCCGCCGCTCGTTCCGACCTAAACC
ATCGACCATGCCCTCCTTTTACGACGTCCATCATTCCCTGTTACCAGCCTCCACCACCTTCCCTTTGTTTCCATC
ATCTCTGTGCGACAACTTTAAAGCCAACCATCTCCATAATAACCCTTCACCTCTTCCCTTTCCATTCATGTTTCG
TCCTAGTAAATTCTAATGACGTTGCATTCCTACTCCTAGTTACTCCTCTCCACGATTTTTAGGATCTGGCTTTGG
GCCTTCTATCTCTGTCTATCCTTTCTCCGCCCCTTCTCCCCTTTTGTTGCGGTGCTTTTATTTAATGGGTTCCCG
AGTACTTCGTCCGACCAACCCTTCTCCTTTAGCGTTCTCACCTGTTCGCCTCGTTTGATTTACGATCAATTCACG
AACCCTTTATCAACTTGTTCTCCTCGCTGGTCTAGTAGTCTAGTCTATTTTGTTTTTGTGATTTTCTCCTAGCTC
CTAGTACTACTATTTTCTTTTGGTATGTATGCTTGTTTTCGACTTTTTTCTTTCTTTTGTGTTTCGGGTGGGTTG
TTTTTTTCTTCTTTTTCTTCCTCTTCCTCCGCTTTATGTGATGTTTTTCCCTTTCTTTTTTATCGCGTCTCTCTC
TCGTCCCTCTTGATAGGTTAATACTACAATCTTCATTTTTTCTCTATTCTGCGGAAATACATACAACATGATGAA
CAACGACCTAGTTAATGATCTCGCCCTTTTTTTTGGCATGTG
Length 5067

Gene

Sequence id CopciAB_373460.T0
Sequence >CopciAB_373460.T0
GAGCACGACGACGACGTCGTCACCTACGAACTACACCACACACCGCCCGTGGACCCGTCCGCCACGTCGACTCCA
ACCTTGAAGCGACCCCTTCCAGCTGTTGCTGCTGCTGCTGTGGGTGCACGGACCCAACGTTCGGTTTCGGTTTCA
GACGAACAATGACGAGCTACCCGACCTCGCTGGCGCCGGTGCTGAAGCAGGTTCCCGAAGACGTCGAGGCTGGCC
ACACCACACCGTCGTATGGGGGCATGATCGGTGGACACGAGTTTGATATGCCAATTTCGCCGCCAACGCATACGC
AGCCACAACAACACTCTGCATCATCATCACCAGCGCCCGTGCCAAGGTCCTCAACTTCCTCCCATCGTCCCCGTC
CGGTTTCGATGCCCCCACAAGCCTTCAGCGCGGTCGACCCGGGCTCAGAACGACCTAGGGAGAGGGACAGGGATA
GAGAGCGAGACAGGGATAGAGATAGGGAGCGAGACAGGGAGTCGTCGTCTAGGCAGGGCGATGAAAACACGCACC
GTCGACGCCATCGAGATGAACACAGCTCCTCGTCGCGGCCGAGCAGGTCCAACCGAATCCTGGGCGACTACACGC
TGAGCAAGACACTGGGCGCGGGGAGCATGGGCAAAGTCAAGCTGGCGACGCACAACATCACTGGCGAGAAGGTAA
AAGCCCTTTTTTATTTTTTATTTTTTTCCGTGGTGGGCAGCCCTTGATTCATAGTTGGTTCGTTTATAATAGCTG
GCCGTCAAGATCTTGCCTCGTGTCTACCCAAATCCCCCGCCACCAGGCAGCTCGGGTCCAAGCGCAGAGTCGGCG
TCGAGGCAGGCGTCAAAGGACGCTTCGAAGGAGATCCGGACGCTGCGCGAGGCGGCGCTCTCGATGCTCCTGTAC
CACCCCTACATTTGCGGAATGCGCGAAATGATCGTCCACCAACACCACTACTACATGGTATTCGAATATGTCAAC
GGCGGCCAGATGCTCGACTACATCATCAGCCACGGTCGCCTGCGCGAACGGGTCGCCCGCAAGTTTGCACGCCAA
ATAGGCAGTGCACTCGAGTACTGCCATCTGAACAATGTCGTTCATCGCGGTCAGTAGTAATCTCTTTCGTCCTAT
GTTGAACAGCGGGATTGATTGAAACCTAGATCTCAAAATTGAAAACATCCTCATCTCCCAGACTGGGAACATTAA
AATCATCGATTTCGGCCTGTCCAACCTCTACAACCCTGTTTCCCACCTGTCGACGTTTTGCGGTTCGCTGTATTT
CGCGGCACCCGAGCTGCTCAATGCAAAGGTCTATACCGGCCCCGAAGTCGATGTTTGGAGCTTCGGCGTGGTGCT
TTACGTGCTAGTCTGCGGAAAGGTTCCGTTCGATGACCAAAGTATGCCCGCACTTCACGCAAAGATCAAGCGGGG
CCTGGTCGAGTATCCAGTCTGGTTAAGCGCCGGTATGTCGCCCCTGTTGTTCAAAAATTCGCGCTGACGTCCTTT
GCAGAATGCAAGCACCTGCTTTCGAGAATGCTCGTGACAAACCCGGCCGCCCGCGCTACTCTCAACGAAGTTATG
AACCACCCGTGGATGATACGTGGATTCTCAGGACCCCCTGAGATCCACATGGTGCATCGAGAGCCGCTACGAGTC
GACGAACTTGACCAACAAGTCATCCGAGGGATGAAAGGGTTCGAATTTGGCACGGAGCAGGAGATCGAGCGCAAG
CTGGTCGAAATCCTAGAATCGGAGAGCTATCAACGGGCAGTGCAGAACTGGGAGCGGAAACGAGGTTCAAGAGCC
AACCTCAACGGCAACGGAACCTTCAACAACGGTCGATGGGGAGAGTCGTTCTCGAATTCCAGTCTCGCCATTTCC
TTTGACAGCAACAAATCCGATACCCCCGCCCCGAAGAAGTCGCGTAGATTCTCTGGGTTCGAGTACTACCGCAAG
AAGCTGTTCTCGCCGGTTTCGTCACCGCCGGGCAGCCCTATGAGTCGGTCCCCGCCCAACTCGCAGCACACGATA
TCGACGCTTTCCGATCGTGAGCCGGGCGACCCGACACGAGGATTCCACCCCCTGATATCGATGTACTATCTCGCC
CGGGAGAAGATGGAACGGGACAAGGTCTTTGGACCTGGGCAATTTGCCAGCTCTCAGCTGTCTCTTCTCGACCAG
ATGTCGCCGACTGCGGCTACCCAACCCACACCTCACAGCGGAAACCTCCAACAGCAGCAACATGCCGCGACCAAC
CAACCGCATTACACCGCTCCCAACGTCGCCACCTCAAGACAAAGCACACTCGGCGCGAGACCGGACTACAGCATG
CCTCTCCCCCGCCTTCCACCACCCGAGGCCTCGCATTACTCGGGTACTTCGTACGACAACAGCATCGCTCCGTCA
CCGACGACTCCTGTGTTCAGCAACCAGCCGCGAGCGAGGGATCCCGGTTTGCCGGTCCCGCCTTCACCAACCGTC
GCGAGCGCACCGCCTGCCCGGCAGCATATCGAGATCTCCGAACAGCAGCCTCCCACCGCTACGGCGCCTCGACGG
GGCAACCTCCCGCGAGCTCCACCCGCGAGCACGCATAGGCGAAGCCACAGTATGAGCCAGCGCCCGTCTGTCCTC
TCGAGAGGATGGGGCACGATGTTTGGTTCGCATACGGCTGAGGGTGTGAATGAGCATGGTGCGAGGATACCCGAG
CCGCCCAAGACCGTCGGGCCTGAAGTCACCTCGTTCAATGAGAAGGAGTTGGGTGCGATCTCGGATGGGGAGAGG
CAGGAGCATGGGAGTGGAGGTGGGGGTGTATCACCGCTTTCGTCTGGTGCGACCCTTGTTCGCAAGTTTGGAAGT
TTGCTGGTTGGGAGGGGTGATGAGTCGAGGAGGCAGCAGCAGCAGCAGCATAATCAGGGCACGATTAAGCGCGGG
GCGATTTTGAATGCGCTGTCGCCTTCGCCGCGTCCTTCGGCTGAGACGAGGAGTCCGGAGGAGGAGAAGCATCCT
GATAACAATGGTGTGAATGGGTCGGGAGCGGCGGGACAGGGACAGGGTCTGGAGAGTGAGGAGGTGGTGGTGGAG
AAGCCGAAGCCTATCGCGACGAGCGTGAGCCAGCCGGTCGGGTCTGCGCACAGGCGTGCAGCGACTCTGCTCGAC
CCACACGGGAGGGCGAGTCGGCACGAGAGGAGGAGTAGTACCAGTGCTGCGTTTGGGAGCAGCACGGTTGGTACT
GGCGGGGGAGGCACGATTGGACGCCATAGGAGGCCGTCGACTGGGTACTCTACTACGTCTGGCAGGCCGTTGGCG
GACAGGCTGTTCCCGCAGAGGAGGGAGGGCGATTTGGTGGAGAAGAGGGAGGACGAGGAGGGTGATGGTGAGCTT
GTTGATTCGGCCCATCCTGGGTTTGATACCGAGGAGGAGAGGGATGATGGGAATGCGACGGATCGCGACTTTAAG
CCTGTGTTCCTCAAGGGGTTGTTCAGGTGAGTATTGCACAGTTGTGGTTTTCTTAGAGGGCAGGAGGCTGATGGA
CTTTTGGTGTGTAGTGTGGCTACGACTTCGACGAAACCTCCTGCTGCTATCAAGCTTGATATCCGACGGGTGCTG
GACCGGATGCAAGTCCAGTATCGCGAGACCAAGACTGGATTCGAGTGTATCCATTTGCCGTCTATCGATATTTCG
TCTATCGATGCCACATCTATGAGGCAACCCTCGCACCATCAATCAGCTTCCAACGATAACGGCCGTACAACGCCA
ACCTTCAACCGACCCTCGCTTGTCAAGAAGGCGTCGAAGCTGTCGTTTGGGATGAAGAAGGGCAAGGACCGGGAA
CCTTCCGCCGACAAAGACAAGGAGAAGGAGAAGGATAAGACCGGGACAGGGGATGAGGCGCAGAGTAGGCAGTCT
ACCAAGTTGACAGCGGCGAGCGGGGGCTCGTCGTCGTTCTTCAACGTCGGCAACGCCGAGCACGGAGCGTCGATA
CAGGACCAGCTGAACCAGCCACCGCAGAGCAACGGGATCGCCTCGTCCATCATTTCGAACGGGGACGAGATGCCC
TCGTCTGCGTCTGCGCACCAACAGCAGGGGTCTACCATCTCCTCGTCGTCGTCGCCGCAGCCCCCGAGGTCGAAT
TCGCCGACGGCGACAATGACGTCGAATAAGGCCAAGGTCCTGCCGCCTATCCCGAGAGATTTTGGAGCGAGTTCG
CCAACGCCAAGAGCGAGGAGTCCGAGTCCGCTGCCGTCTGGAGAGGTGGATAGGGAGGTGTTTGAGCACCTTGGG
AATAATAGTTTGAGTGTCAAGTTTGAGATTACGATTGTTAAGGTTCGTGTTTGGATTATTTTCCTTTATGGTGTG
CGGTGTTGACGTCTTTGGCTCTTTGTTTCTTGTAGGTCCCTTGGTTACCTCTGCATGGTATTCAGTTTAGGCGTG
CAAGTGGTGATGGGTGGCAGTACCAGATGCTTGCGAGGAGGGTGCTAACTGAGCTCAAGCTGTGATCCTGGATTC
ATTCATTTATTCCACATGTTTCTTATAATTATTGGTGAAGTTCAAGTCCAGCACCGGCGCGCCTATATCCCCGTC
GACATCCTCTACGTCCCTGGTTAATGCACTTCCACCGTGGTCCCTGATCATTGCCCACCTCCGCCGCTCGTTCCG
ACCTAAACCATCGACCATGCCCTCCTTTTACGACGTCCATCATTCCCTGTTACCAGCCTCCACCACCTTCCCTTT
GTTTCCATCATCTCTGTGCGACAACTTTAAAGCCAACCATCTCCATAATAACCCTTCACCTCTTCCCTTTCCATT
CATGTTTCGTCCTAGTAAATTCTAATGACGTTGCATTCCTACTCCTAGTTACTCCTCTCCACGATTTTTAGGATC
TGGCTTTGGGCCTTCTATCTCTGTCTATCCTTTCTCCGCCCCTTCTCCCCTTTTGTTGCGGTGCTTTTATTTAAT
GGGTTCCCGAGTACTTCGTCCGACCAACCCTTCTCCTTTAGCGTTCTCACCTGTTCGCCTCGTTTGATTTACGAT
CAATTCACGAACCCTTTATCAACTTGTTCTCCTCGCTGGTCTAGTAGTCTAGTCTATTTTGTTTTTGTGATTTTC
TCCTAGCTCCTAGTACTACTATTTTCTTTTGGTATGTATGCTTGTTTTCGACTTTTTTCTTTCTTTTGTGTTTCG
GGTGGGTTGTTTTTTTCTTCTTTTTCTTCCTCTTCCTCCGCTTTATGTGATGTTTTTCCCTTTCTTTTTTATCGC
GTCTCTCTCTCGTCCCTCTTGATAGGTTAATACTACAATCTTCATTTTTTCTCTATTCTGCGGAAATACATACAA
CATGATGAACAACGACCTAGTTAATGATCTCGCCCTTTTTTTTGGCATGTG
Length 5376