CopciAB_286805
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_286805 Strain Coprinopsis cinerea Okayama 7
Standard name CDC15 Synonyms 286805
Uniprot id Functional description Serine/Threonine protein kinases, catalytic domain
Location scaffold_7:1884244..1889912 Strand -
Gene length (nt) 5669 Transcript length (nt) 4580
CDS length (nt) 3987 Protein length (aa) 1328

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Aspergillus niger sepH
Neurospora crassa cdc15
Schizosaccharomyces pombe cdc7

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB18907 76 0 1975
Agrocybe aegerita Agrae_CAA7265498 72.9 0 1937
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_186330 68.2 0 1774
Flammulina velutipes Flave_chr05AA00147 71.3 0 1716
Pleurotus eryngii ATCC 90797 Pleery1_1442629 64.2 0 1712
Grifola frondosa Grifr_OBZ71172 67.3 0 1690
Ganoderma sp. 10597 SS1 v1.0 Gansp1_67073 66.8 0 1689
Pleurotus ostreatus PC15 PleosPC15_2_1066586 66.7 0 1689
Pleurotus ostreatus PC9 PleosPC9_1_57416 66.6 0 1688
Schizophyllum commune H4-8 Schco3_2492109 68.5 0 1688
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_120578 65.3 0 1650
Auricularia subglabra Aurde3_1_1413430 61 0 1537
Lentinula edodes NBRC 111202 Lenedo1_1117894 42.4 0 1201
Lentinula edodes W1-26 v1.0 Lentinedodes1_20313 42.6 0 1200
Lentinula edodes B17 Lened_B_1_1_3969 51.6 2.528E-242 786

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 90.4925 12.8717 7.4315
oidia 52.8305 3.4035 1.965
vegetative_mycelium 51.3589 10.9886 6.3443
primordia 82.8525 8.5886 4.9586
hyphal_knot 59.5518 2.3647 1.3653
young_fruiting_body 54.0822 9.5201 5.4964
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 78.2567 22.551 13.0198
Wheat bran 64.6292 22.6483 13.076
Horse manure 85.8762 29.3836 16.9646
Oak leaves 122.8802 8.4041 4.8521
Hay 69.2859 3.1129 1.7973
Corn stalk 102.368 4.2342 2.4446
Pectine 96.5019 7.7983 4.5024
Microcrystalline cellulose 98.7462 17.2821 9.9778
Xylose 57.3572 5.362 3.0957
Cellobiose 54.9535 5.2635 3.0389
Lignin 97.296 11.3549 6.5557
Apple peels 133.1939 4.8828 2.8191
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 90.5625 1.9961 1.1525
Bsubtilis 97.0484 7.5152 4.3389
Ecoli 95.0212 3.6726 2.1204
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 0.8778 0.148 0.0855
BS 4h 5.2051 0.8191 0.4729
BS 8h 17.9184 4.4826 2.588
BS 12h 24.2983 4.0923 2.3627
Oidia 0 h 2.2715 1.6936 0.9778
Oidia 18 h 18.1624 2.0789 1.2002
Sclerotia 29.4707 4.1785 2.4125
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 17.8405 4.9335 2.8484
DM 36h 18.2904 1.4072 0.8124
DM 60h 14.7084 1.0832 0.6254
DM 84h 15.9758 2.2991 1.3274
DM 108h 19.035 2.1564 1.245
DM 132h 18.8865 0.6474 0.3738
DM 156hAE 37.0993 4.1775 2.4119
ELI1hAE 32.8334 1.2094 0.6982
ELI2hAE 32.3787 8.7175 5.0331
LI2hAE 30.7171 3.8583 2.2276
LI6hAE 30.4319 0.3974 0.2295
LI12hAE 39.3614 7.3493 4.2431
LI18hAE 37.3657 13.6327 7.8708
LI 24hAE 27.0604 6.3141 3.6455
DM 156hAM 13.5857 2.5356 1.4639
ELI1hAM 18.1558 3.3689 1.945
ELI2hAM 19.7932 2.1799 1.2585
LI2hAM 19.0045 1.2283 0.7092
LI6hAM 24.7974 5.375 3.1032
LI12hAM 16.6987 5.902 3.4075
LI18hAM 20.0131 5.9045 3.4089
LI 24hAM 15.0968 4.1165 2.3767
LI 24hHK 9.6809 2.4598 1.4202
L/D 6h 40.063 11.7105 6.7611
L/D 12h 66.2408 25.035 14.454
L/D 18h 29.829 12.9765 7.492
L/D 24h 19.397 3.0371 1.7534
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 49.6631 6.3847 3.6862
Hyphal knots 95.6201 17.9215 10.347
Primordium 1 92.2831 78.8425 45.5197
Primordium 2 103.3177 35.4441 20.4637
Young Fruiting body cap 115.6945 123.0211 71.0263
Younf fruiting body gill 76.0375 30.031 17.3384
Young fruiting body stipe 309.4792 111.6615 64.4678
Mature fruiting body cap_gill 1078.5429 331.8582 191.5984
Mature fruiting body stipe 963.5516 358.1238 206.7629
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 59.5565 9.016 5.2054
NH4NO3 43.8398 1.4669 0.8469
Proline 51.9735 4.2139 2.4329
Tryptophan 45.769 11.5813 6.6865
Isoleucin 56.7498 7.0864 4.0913
Arginine 51.0906 4.1378 2.3889
Metionine 51.2884 1.0005 0.5777
NaNO3 45.125 2.5427 1.468
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 59.5565 9.016 5.2054
Citrus peel 51.7766 2.7758 1.6026
Poplar leaves 95.8143 11.4297 6.5989
Typha leaves 62.2396 11.7939 6.8092
Overwintered Salix leaves 65.6553 3.9529 2.2822
Reed flowering 55.2219 8.5922 4.9607
Tigernut 44.3228 4.2843 2.4735
Energy cane 66.7122 10.6397 6.1429
Guar gum 78.727 18.3233 10.579
Apple peels 76.7927 12.699 7.3318
Cellobiose 88.6971 3.6664 2.1168
Corn stalk 87.1515 5.2379 3.0241
Horse manure 88.5615 16.2781 9.3982
Lignin 43.5324 7.4995 4.3299
Microcrystalline cellulose 78.1806 19.999 11.5465
Oak leaves 95.0285 17.4256 10.0607
Pectin esterified 72.6958 24.8541 14.3495
Poplar sawdust 88.9176 13.9603 8.06
Wheat bran 65.7669 10.8203 6.2471
Chlamydomonas reinhardtii 99.293 7.6805 4.4343
Vertatryl alcohol 29.0368 4.2318 2.4432
Furfural 36.1823 2.4092 1.391
Autoclaved mycelium 51.7666 5.6886 3.2843
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 111.2584 11.1313 6.4266
Ribose 150.5763 11.059 6.3849
Mannose 139.3976 5.0551 3.5745
Fructose 128.991 7.5805 4.3766
Arabinose 138.5773 15.1842 8.7666
Xylose 129.5826 3.9501 2.2806
Galacturonic acid 148.5787 12.4919 7.2122
Rhamnogalacturonan 135.1703 6.9709 4.0246
Pectin esterified 142.8893 9.8278 5.6741
Polygalacturonic acid 144.929 3.7965 2.1919
Sodium acetate 138.3179 14.7515 8.5168
No nitrogen 113.5244 4.7904 2.7657
BSA 128.1376 2.7529 1.5894
Glutamine 127.0719 4.4779 2.5853
No phosphate 163.9261 12.9721 7.4894
No carbon 148.2891 12.167 8.6034
No sulphur 121.3797 22.3551 12.9067
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 59.5565 9.016 5.2054
Amylose 131.0478 16.6651 9.6216
Fucose 102.1082 15.7899 9.1163
Galactose 131.8623 22.1692 12.7994
Lactose 58.588 8.173 4.7187
Maltose 77.5959 7.2717 4.1983
Mannitol 69.6162 9.6197 5.5539
Rhamnose 78.3927 14.3797 8.3021
Sorbitol 88.8871 7.0766 4.0857
Trehalose 75.0498 18.1647 10.4874
Glycerol 77.58 21.9972 12.7001
Glucuronic acid 102.5368 15.328 8.8496
Arabinan 80.8475 21.9092 12.6493
Galactan 97.8884 8.8762 5.1247
Galactomannan 57.8606 15.3641 8.8705
Glucan 83.4561 20.8916 12.0618
Xylan 121.877 23.1375 13.3584
Xyloglucan 97.3635 11.3389 6.5465
Arabinogalactan 115.2502 17.3743 10.031
Pectin 53.8422 23.5714 13.6089
Rhamnogalacturonan 54.6628 11.6365 6.7184
Polygalacturonic acid 71.751 11.6602 6.732
Mannan 114.3958 5.6068 3.2371
Amylopectin 54.2774 5.3604 3.0948
Inulin 75.667 9.9574 5.7489
BSA 60.7932 5.4628 3.154
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 14.7084 1.0832 0.6254
2h WAT 19.0953 3.2682 1.8869
4h WAT 16.7841 1.8333 1.0584
8h WAT 24.9176 1.335 0.7707
16h WAT 34.9672 3.5725 2.0626
24h WAT 43.3631 4.5206 2.61
WAT hyphal knot -30h 21.3724 1.1218 0.6477
WAT hyphal knot -22h 33.5405 3.7767 2.1805
WAT hyphal knot -15h 39.5591 2.6937 1.5552
WAT hyphal knot -7.5h 42.7408 9.3399 5.3924
WAT hyphal knot 43.5693 1.9804 1.1434
WAT hyphal knot +7.5h 32.4083 11.2027 6.4679
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 69.2285 18.7414 10.8203
Straw 3h 32.785 6.8247 3.9402
Straw 6h 32.2811 6.8671 3.9647
Straw 12h 59.5194 7.2028 4.1586
Straw 24h 55.1332 11.6381 6.7193
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 21.6943 4.8977 2.8277
Frost (-20C, 30min) 17.8816 1.7861 1.0312
Heat shock (47C, 2h) 6.1501 1.9263 1.1122
High CO2 11.0408 1.9346 1.117
Drought (4% agar, 12h) 11.2326 0.7102 0.41
Oxidative (1mM H2O2, 3h) 23.6881 2.6313 1.5192
Acidic (pH4, 3h) 21.2063 7.6711 4.4289
Alkaline (pH9, 3h) 21.5451 3.7737 2.1787
Osmotic (sorbitol 2h) 10.0474 2.4245 1.3998
CongoRed (3h) 11.8171 0.4899 0.2828
Cobalt chloride control 12.1957 0.4792 0.2767
Cobalt chloride 2mM 10.7535 0.9906 0.5719
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 20.5438 7.9711 4.6021
Cold stimulation 22.1165 5.202 3.0034
Scratched surface 27.0967 6.4852 3.7442
Ca2+, 200mM, 24h 13.8252 0.6328 0.3653
Cu2+, 2mM, 6h 19.4692 0.9229 0.5328
Voriconazole 13.9925 3.4124 1.9702
Trichoderma interaction, early 18.0773 3.04 1.7552
Trichoderma interaction 60h 46.2482 9.1692 5.2938
Cobalt chloride 2mM repeat 28.5335 10.1089 5.8364
Hypoxia 26.4921 6.742 3.8925
Hypoxia control 31.0708 4.5699 2.6384
Protoplastation control 27.1386 9.1074 6.4399
Protoplastation 3.5h 16.0378 1.5706 1.1106
Protoplastation 1.5h 16.7984 1.5609 1.1037

General data

Systematic name CDC15
Protein id CopciAB_286805.T0
Description Serine/Threonine protein kinases, catalytic domain

Annotation summary

0 300 600 900 1200 1328

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd06627 STKc_Cdc7_like - 24 274
Pfam PF00069 Protein kinase domain IPR000719 24 274

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR011989 Armadillo-like helical
IPR016024 Armadillo-type fold
IPR008271 Serine/threonine-protein kinase, active site
IPR011009 Protein kinase-like domain superfamily
IPR000719 Protein kinase domain
IPR017441 Protein kinase, ATP binding site

GO

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

KEGG

KEGG Orthology
K06683

EggNOG

COG category Description
T Serine/Threonine protein kinases, catalytic domain

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_286805 across fungi.

Arrow shows the origin of gene family containing CopciAB_286805.

Protein

Sequence id CopciAB_286805.T0
Sequence >CopciAB_286805.T0
MSTPSRPSSMPAAKPGGSKSLSGYQLGDSLGKGAFGQVYRALNWETGETVAVKEIQLSNIPKGELPEIMSEIDLL
KNLNHENIVKYKGFVKTREFLYIILEFCENGSLHNIIKKFGKFPENLVAVYISQVLEGLVYLHDQGVIHRDIKGA
NILTNKDGTVKLADFGVAARTGGVVDGAVVGSPYWMAPEVIEQSGATTASDIWSVGCVVIELLEGRPPYHNLDPM
PALFRIVQDDCPPIPEGASAIVKDFLYHCFQKDCNLRISAKKLLKHPWMVATRKQMNAGKAQSGEQAGDNASGSQ
GTRRPLSNYNYDEAVLKVQEWNEALKSPTRPSKQPSRYTRPHSPLQRHSELHSSSSSTSLSSHTPGALGWKGGMS
GNPKLGTLVEKIQPHAFVLQPPEEQTDNWDDDFEGGISFTKLQALEKSTHEEDKSEPNEDNAQTIRPTKSPGAKT
VPLAQPPAASIAPIVEDYSDLALDEDEGWLEEKVADFKMKNQPRRGLFHPDDIKTVGLVTNDPAPLSAPPTMLTR
KPSRPMLTPMGLPSTASGSNQPSLGTHGRSSSMSNPGSGSFGRSEARRLQNQAEFGKYTEDDDDDDYDDVFGKPN
SNTTGMSMQTLQLNTRLSSKSWLGDDGDEEDPFAEIDEGFDEDDLESNLQRDKHARLCNAVNQLIDELTPSAPDF
QLRDACDQLLKIIIEAPEMQGQLVSSHGMLAILEVLEGRCSRDVIMKLLQIINVLVTEDVGFLESFCLIGGIPVM
MEFTSKKYPSECRLEASNFIRLLCHTSVLTLQMFISCRGLKVLVDLLDEDYGEQTELVEHALNGIGSVFELQSPT
TKNDFCRMFIREGLLDPLSAALLNVMSNHEPASVDKSTKMKVIQILLVFCQVSQSDIHVRNALGTRKVIRRLLRA
CELLDPECLVQMLKAVKHLSMNATLHEVLQNANALEILIRILEEQSSGPHSTEMANHIFQTCYNLCRLSKSRQEE
AAQAGIIPCLKRVIETSSPLKQFALPILCDLASAGKSCRTLLWQHDGIGMYIRLLDDPYFQVSAVESVLSWLQDE
TARVEDQLLKPYAVEALLKCFVNAKANSFENLLDPFLKILRLSHTLTIALTKSSAFFKRIVDRLGHNSKAVVRLN
LLRILRYVCEIHPNRTVLVERYGLLGIVEKLSRSGGDGAVLVKELAREIVPTLRPALKPAGLGSSGSSHHGGGHG
TGERDRDREHYLGGYRERGGVYESRLRRSPPSGLGHGSSISSSYENSLAMTPGSHSKGLIPKRARRSASEASGVV
PSSPSTGGFGIPKVSRSSSRQRLGEIPWQPTTPPNSSSMNRNNQDRTPTANRW
Length 1328

Coding

Sequence id CopciAB_286805.T0
Sequence >CopciAB_286805.T0
ATGTCGACCCCGTCAAGGCCTTCGTCGATGCCTGCAGCCAAACCGGGAGGGTCTAAATCACTCAGTGGATATCAA
CTCGGTGACTCTCTTGGGAAGGGCGCGTTTGGTCAGGTCTACCGTGCCCTGAACTGGGAGACGGGCGAAACGGTC
GCTGTGAAGGAGATCCAGCTGAGCAATATTCCCAAAGGCGAGCTTCCTGAGATTATGTCAGAGATTGATCTGTTG
AAGAACCTCAATCACGAGAACATTGTCAAGTATAAAGGTTTCGTCAAGACGCGTGAATTTCTCTACATCATCCTG
GAGTTCTGTGAGAATGGGTCCCTACACAATATCATCAAGAAATTTGGAAAGTTCCCGGAAAACCTCGTGGCTGTC
TACATCTCACAAGTTCTCGAAGGTCTAGTGTATTTGCATGATCAGGGTGTGATTCATCGGGATATCAAGGGTGCC
AATATCTTGACCAACAAGGATGGAACGGTTAAGCTGGCTGACTTTGGAGTTGCGGCGAGAACAGGAGGTGTAGTG
GATGGTGCGGTCGTTGGTAGTCCTTATTGGATGGCACCTGAAGTCATCGAGCAATCTGGAGCAACGACTGCGTCA
GACATCTGGAGCGTAGGCTGTGTCGTCATCGAGCTGCTTGAAGGTCGCCCTCCCTACCACAATCTGGACCCCATG
CCGGCGCTCTTTCGTATCGTACAAGACGACTGTCCCCCAATCCCCGAGGGAGCATCTGCCATCGTCAAGGACTTC
CTCTACCATTGCTTCCAGAAGGACTGCAACTTACGAATATCCGCGAAGAAACTGTTGAAGCATCCGTGGATGGTG
GCGACCCGGAAACAGATGAACGCTGGCAAAGCTCAATCTGGTGAACAGGCCGGAGACAACGCGTCTGGCTCCCAA
GGAACGAGAAGGCCCCTATCCAACTATAACTACGACGAAGCTGTTCTCAAGGTGCAGGAATGGAACGAAGCACTC
AAATCCCCAACCCGCCCATCGAAGCAACCGTCTCGATACACTCGACCTCACTCGCCTTTGCAACGTCATTCAGAG
CTTCATTCATCGTCTTCTTCGACCTCTTTAAGCTCACACACCCCTGGAGCTCTCGGTTGGAAAGGTGGAATGTCG
GGCAACCCGAAACTTGGCACGTTGGTTGAGAAGATTCAGCCCCATGCTTTCGTCTTGCAACCACCCGAGGAACAG
ACGGACAATTGGGACGATGATTTCGAGGGAGGGATCTCATTCACCAAACTACAAGCGCTGGAGAAATCTACCCAT
GAAGAGGACAAGTCCGAACCAAATGAGGATAATGCGCAGACTATCCGTCCTACAAAGAGTCCAGGAGCGAAGACT
GTTCCATTAGCTCAGCCTCCGGCTGCAAGCATTGCTCCTATTGTGGAAGACTATTCTGACCTAGCCCTTGACGAA
GATGAAGGGTGGTTAGAGGAAAAGGTGGCTGATTTCAAGATGAAAAATCAGCCCCGTCGGGGCCTCTTCCATCCC
GATGATATAAAGACTGTGGGCCTCGTCACGAACGATCCCGCACCATTATCAGCTCCTCCAACTATGCTTACACGG
AAGCCGTCGCGACCTATGCTCACCCCTATGGGTTTACCCTCGACCGCCAGTGGATCCAACCAACCTTCTTTGGGG
ACCCATGGACGATCCTCCTCCATGTCTAACCCAGGGTCGGGCTCTTTTGGCCGCTCTGAAGCTCGTCGACTGCAG
AATCAAGCGGAATTCGGAAAGTACACGGAGGATGACGATGATGATGATTATGACGATGTCTTCGGGAAGCCAAAC
AGTAACACCACCGGCATGTCTATGCAAACTCTTCAACTCAATACTCGGTTGTCGAGCAAGTCATGGCTGGGTGAC
GATGGCGACGAAGAGGATCCTTTCGCAGAGATCGACGAAGGTTTCGACGAGGACGACCTTGAATCCAACCTGCAG
CGAGACAAGCACGCTCGCTTGTGCAACGCTGTCAATCAGCTTATTGACGAATTGACGCCCTCTGCTCCCGACTTC
CAATTGCGAGATGCTTGTGACCAACTGCTGAAGATCATCATAGAGGCACCAGAAATGCAAGGCCAATTGGTCTCT
TCGCATGGAATGCTTGCTATCTTGGAAGTTCTTGAAGGACGCTGCTCCAGAGATGTCATCATGAAGCTACTGCAG
ATCATCAACGTGTTGGTCACAGAGGATGTGGGCTTCTTGGAGAGCTTTTGCTTGATTGGTGGTATTCCTGTGATG
ATGGAATTCACCTCCAAGAAGTACCCCTCAGAGTGCCGCTTGGAGGCATCCAACTTTATCCGACTTCTTTGCCAC
ACCTCCGTATTGACTCTCCAGATGTTCATCTCATGTCGTGGCTTGAAAGTCTTAGTGGACCTCCTAGACGAAGAC
TATGGAGAGCAAACGGAGCTGGTTGAACATGCTCTGAATGGAATCGGCAGTGTCTTCGAGCTGCAGAGTCCGACG
ACGAAGAATGACTTTTGTCGCATGTTCATCCGGGAAGGCTTGCTTGACCCTCTGTCCGCCGCCTTGCTCAATGTC
ATGTCCAATCATGAACCTGCCTCTGTCGATAAGAGCACCAAGATGAAGGTCATTCAGATCCTTCTGGTGTTCTGC
CAAGTATCACAGTCCGATATCCACGTTCGGAATGCTTTGGGAACGAGGAAGGTTATCCGACGGTTGTTGAGAGCA
TGTGAACTCCTGGATCCAGAATGCCTGGTACAGATGCTGAAGGCTGTGAAGCACTTGTCCATGAATGCTACACTG
CACGAAGTCCTCCAGAATGCCAACGCTCTCGAGATTTTGATTCGGATTCTCGAGGAACAGTCCTCTGGACCTCAT
AGCACTGAAATGGCAAACCATATCTTCCAAACATGTTACAACCTCTGTCGCCTCAGCAAATCCCGACAAGAGGAG
GCTGCACAAGCTGGTATCATCCCCTGTCTCAAGCGTGTCATCGAGACCAGCTCCCCTCTCAAACAATTCGCTCTC
CCTATCCTCTGCGACCTTGCCAGTGCCGGAAAGAGTTGTCGAACCCTCCTCTGGCAGCACGACGGTATCGGGATG
TACATCAGACTCCTCGACGATCCGTACTTCCAAGTCAGTGCCGTCGAATCCGTTCTCTCGTGGTTGCAAGACGAG
ACTGCTCGAGTGGAAGACCAACTTCTCAAGCCATACGCGGTCGAAGCGCTTCTCAAGTGTTTCGTCAACGCAAAG
GCCAACTCCTTCGAGAACCTCCTCGACCCGTTCCTCAAGATCTTGCGTCTCTCTCATACGCTTACAATCGCCCTT
ACCAAGTCCTCTGCGTTTTTCAAGAGGATCGTGGATCGACTGGGTCACAACTCCAAGGCTGTCGTACGACTGAAC
CTCTTGAGGATTCTGCGCTATGTTTGCGAGATCCATCCCAACAGGACTGTCCTTGTCGAGCGGTATGGGCTGCTG
GGTATCGTGGAGAAGCTCAGCAGGAGTGGAGGAGATGGAGCTGTCTTGGTCAAGGAGTTGGCGAGAGAGATTGTG
CCTACTCTTCGCCCTGCTCTGAAACCTGCTGGACTCGGAAGCAGTGGAAGCAGTCATCATGGAGGCGGGCATGGG
ACTGGGGAGAGGGATCGAGACCGTGAGCACTATCTGGGAGGATACAGAGAGCGTGGGGGAGTTTATGAGAGCAGA
CTTCGGAGAAGTCCACCGTCGGGTTTGGGGCATGGGTCGTCGATATCGTCCAGCTATGAGAATAGTCTCGCGATG
ACACCCGGATCTCATTCCAAAGGCTTGATACCGAAGAGAGCCAGGCGGTCGGCGTCGGAGGCGTCGGGCGTGGTC
CCTTCCTCACCTTCGACTGGTGGGTTTGGGATACCCAAAGTTTCGAGGTCTTCGTCGAGGCAGAGGTTGGGCGAA
ATACCATGGCAGCCAACGACACCGCCGAATAGTTCCAGCATGAATCGCAACAACCAAGACCGCACTCCTACCGCC
AATCGATGGTAA
Length 3987

Transcript

Sequence id CopciAB_286805.T0
Sequence >CopciAB_286805.T0
GGCAGAGTCGGCATCAATTAGCCTGTTGCGGCCAAGTTGCGGCAAGGTTTCGGACTTCTTCCCAACAACTCGAGG
TCAGCGCGGGACGCGACTGCAGCGAACGAGGGACGATTCTCGTTTTGACTCTTCACCACCATCTTCCTGGCAAAC
TAGAACTTTACAAAAAGTCCCCCCAGCAGCTTGAGCTGGGAGCCTAGTACCGACCATGTCGACCCCGTCAAGGCC
TTCGTCGATGCCTGCAGCCAAACCGGGAGGGTCTAAATCACTCAGTGGATATCAACTCGGTGACTCTCTTGGGAA
GGGCGCGTTTGGTCAGGTCTACCGTGCCCTGAACTGGGAGACGGGCGAAACGGTCGCTGTGAAGGAGATCCAGCT
GAGCAATATTCCCAAAGGCGAGCTTCCTGAGATTATGTCAGAGATTGATCTGTTGAAGAACCTCAATCACGAGAA
CATTGTCAAGTATAAAGGTTTCGTCAAGACGCGTGAATTTCTCTACATCATCCTGGAGTTCTGTGAGAATGGGTC
CCTACACAATATCATCAAGAAATTTGGAAAGTTCCCGGAAAACCTCGTGGCTGTCTACATCTCACAAGTTCTCGA
AGGTCTAGTGTATTTGCATGATCAGGGTGTGATTCATCGGGATATCAAGGGTGCCAATATCTTGACCAACAAGGA
TGGAACGGTTAAGCTGGCTGACTTTGGAGTTGCGGCGAGAACAGGAGGTGTAGTGGATGGTGCGGTCGTTGGTAG
TCCTTATTGGATGGCACCTGAAGTCATCGAGCAATCTGGAGCAACGACTGCGTCAGACATCTGGAGCGTAGGCTG
TGTCGTCATCGAGCTGCTTGAAGGTCGCCCTCCCTACCACAATCTGGACCCCATGCCGGCGCTCTTTCGTATCGT
ACAAGACGACTGTCCCCCAATCCCCGAGGGAGCATCTGCCATCGTCAAGGACTTCCTCTACCATTGCTTCCAGAA
GGACTGCAACTTACGAATATCCGCGAAGAAACTGTTGAAGCATCCGTGGATGGTGGCGACCCGGAAACAGATGAA
CGCTGGCAAAGCTCAATCTGGTGAACAGGCCGGAGACAACGCGTCTGGCTCCCAAGGAACGAGAAGGCCCCTATC
CAACTATAACTACGACGAAGCTGTTCTCAAGGTGCAGGAATGGAACGAAGCACTCAAATCCCCAACCCGCCCATC
GAAGCAACCGTCTCGATACACTCGACCTCACTCGCCTTTGCAACGTCATTCAGAGCTTCATTCATCGTCTTCTTC
GACCTCTTTAAGCTCACACACCCCTGGAGCTCTCGGTTGGAAAGGTGGAATGTCGGGCAACCCGAAACTTGGCAC
GTTGGTTGAGAAGATTCAGCCCCATGCTTTCGTCTTGCAACCACCCGAGGAACAGACGGACAATTGGGACGATGA
TTTCGAGGGAGGGATCTCATTCACCAAACTACAAGCGCTGGAGAAATCTACCCATGAAGAGGACAAGTCCGAACC
AAATGAGGATAATGCGCAGACTATCCGTCCTACAAAGAGTCCAGGAGCGAAGACTGTTCCATTAGCTCAGCCTCC
GGCTGCAAGCATTGCTCCTATTGTGGAAGACTATTCTGACCTAGCCCTTGACGAAGATGAAGGGTGGTTAGAGGA
AAAGGTGGCTGATTTCAAGATGAAAAATCAGCCCCGTCGGGGCCTCTTCCATCCCGATGATATAAAGACTGTGGG
CCTCGTCACGAACGATCCCGCACCATTATCAGCTCCTCCAACTATGCTTACACGGAAGCCGTCGCGACCTATGCT
CACCCCTATGGGTTTACCCTCGACCGCCAGTGGATCCAACCAACCTTCTTTGGGGACCCATGGACGATCCTCCTC
CATGTCTAACCCAGGGTCGGGCTCTTTTGGCCGCTCTGAAGCTCGTCGACTGCAGAATCAAGCGGAATTCGGAAA
GTACACGGAGGATGACGATGATGATGATTATGACGATGTCTTCGGGAAGCCAAACAGTAACACCACCGGCATGTC
TATGCAAACTCTTCAACTCAATACTCGGTTGTCGAGCAAGTCATGGCTGGGTGACGATGGCGACGAAGAGGATCC
TTTCGCAGAGATCGACGAAGGTTTCGACGAGGACGACCTTGAATCCAACCTGCAGCGAGACAAGCACGCTCGCTT
GTGCAACGCTGTCAATCAGCTTATTGACGAATTGACGCCCTCTGCTCCCGACTTCCAATTGCGAGATGCTTGTGA
CCAACTGCTGAAGATCATCATAGAGGCACCAGAAATGCAAGGCCAATTGGTCTCTTCGCATGGAATGCTTGCTAT
CTTGGAAGTTCTTGAAGGACGCTGCTCCAGAGATGTCATCATGAAGCTACTGCAGATCATCAACGTGTTGGTCAC
AGAGGATGTGGGCTTCTTGGAGAGCTTTTGCTTGATTGGTGGTATTCCTGTGATGATGGAATTCACCTCCAAGAA
GTACCCCTCAGAGTGCCGCTTGGAGGCATCCAACTTTATCCGACTTCTTTGCCACACCTCCGTATTGACTCTCCA
GATGTTCATCTCATGTCGTGGCTTGAAAGTCTTAGTGGACCTCCTAGACGAAGACTATGGAGAGCAAACGGAGCT
GGTTGAACATGCTCTGAATGGAATCGGCAGTGTCTTCGAGCTGCAGAGTCCGACGACGAAGAATGACTTTTGTCG
CATGTTCATCCGGGAAGGCTTGCTTGACCCTCTGTCCGCCGCCTTGCTCAATGTCATGTCCAATCATGAACCTGC
CTCTGTCGATAAGAGCACCAAGATGAAGGTCATTCAGATCCTTCTGGTGTTCTGCCAAGTATCACAGTCCGATAT
CCACGTTCGGAATGCTTTGGGAACGAGGAAGGTTATCCGACGGTTGTTGAGAGCATGTGAACTCCTGGATCCAGA
ATGCCTGGTACAGATGCTGAAGGCTGTGAAGCACTTGTCCATGAATGCTACACTGCACGAAGTCCTCCAGAATGC
CAACGCTCTCGAGATTTTGATTCGGATTCTCGAGGAACAGTCCTCTGGACCTCATAGCACTGAAATGGCAAACCA
TATCTTCCAAACATGTTACAACCTCTGTCGCCTCAGCAAATCCCGACAAGAGGAGGCTGCACAAGCTGGTATCAT
CCCCTGTCTCAAGCGTGTCATCGAGACCAGCTCCCCTCTCAAACAATTCGCTCTCCCTATCCTCTGCGACCTTGC
CAGTGCCGGAAAGAGTTGTCGAACCCTCCTCTGGCAGCACGACGGTATCGGGATGTACATCAGACTCCTCGACGA
TCCGTACTTCCAAGTCAGTGCCGTCGAATCCGTTCTCTCGTGGTTGCAAGACGAGACTGCTCGAGTGGAAGACCA
ACTTCTCAAGCCATACGCGGTCGAAGCGCTTCTCAAGTGTTTCGTCAACGCAAAGGCCAACTCCTTCGAGAACCT
CCTCGACCCGTTCCTCAAGATCTTGCGTCTCTCTCATACGCTTACAATCGCCCTTACCAAGTCCTCTGCGTTTTT
CAAGAGGATCGTGGATCGACTGGGTCACAACTCCAAGGCTGTCGTACGACTGAACCTCTTGAGGATTCTGCGCTA
TGTTTGCGAGATCCATCCCAACAGGACTGTCCTTGTCGAGCGGTATGGGCTGCTGGGTATCGTGGAGAAGCTCAG
CAGGAGTGGAGGAGATGGAGCTGTCTTGGTCAAGGAGTTGGCGAGAGAGATTGTGCCTACTCTTCGCCCTGCTCT
GAAACCTGCTGGACTCGGAAGCAGTGGAAGCAGTCATCATGGAGGCGGGCATGGGACTGGGGAGAGGGATCGAGA
CCGTGAGCACTATCTGGGAGGATACAGAGAGCGTGGGGGAGTTTATGAGAGCAGACTTCGGAGAAGTCCACCGTC
GGGTTTGGGGCATGGGTCGTCGATATCGTCCAGCTATGAGAATAGTCTCGCGATGACACCCGGATCTCATTCCAA
AGGCTTGATACCGAAGAGAGCCAGGCGGTCGGCGTCGGAGGCGTCGGGCGTGGTCCCTTCCTCACCTTCGACTGG
TGGGTTTGGGATACCCAAAGTTTCGAGGTCTTCGTCGAGGCAGAGGTTGGGCGAAATACCATGGCAGCCAACGAC
ACCGCCGAATAGTTCCAGCATGAATCGCAACAACCAAGACCGCACTCCTACCGCCAATCGATGGTAACCCTATCA
CCAATTTCCGTCATATACGACGAACGCTTTTATGCCATTATTGTTTACTTTTTCGTTCTTGTGGATTGGAACATT
TAATACCTTTTTCTCCCGTCGCACTCCAATTTTTGCTGTCGTTCACTCGCATCCCTCGTCATCGTCATCGTCACA
ATCCTTGTCCTCGCATCTCACTCTACTAACATCACGACACATTCCTTCCCTGTGGCATCATCGGCGGTTTCTTGC
GCTGTATTTATCAGTCCTTGATGGAGGTTCTGGTCTTTTATATTATATGGATTATTAAATGGGTAGTTGGAAACC
TCCCGTATACGGTATAATACGCGCATGGTTGTAGTGGTAGCAACTGGTCTAGTCAAGCACTGGGTTAGTTTTCGT
TGCTG
Length 4580

Gene

Sequence id CopciAB_286805.T0
Sequence >CopciAB_286805.T0
GGCAGAGTCGGCATCAATTAGCCTGTTGCGGCCAAGTTGCGGCAAGGTTTCGGACTTCTTCCCAACAACTCGAGG
TCAGCGCGGGACGCGACTGCAGCGAACGAGGGACGATTCTCGTTTTGACTCTTCACCACCATCTTCCTGGCAAAC
TAGAACTTTACAAAAAGTCCCCCCAGCAGCTTGAGCTGGGAGCCTAGTACCGACCATGTCGACCCCGTCAAGGCC
TTCGTCGATGCCTGCAGCCAAACCGGGAGGGTCTAAATCACTCAGTGGATATGTTCGTGTTTCCAAGTTCGAATC
AATGCATTTCGTTGCTTAAAGTGCGCCATATAGCAACTCGGTGACTCTCTTGGGAAGGGCGCGTTTGGTCAGGTC
TACCGTACGTCGACAACGCACTTATTCTAGGACGTGGGGACGGCGTCGTGATGCAAAAGTGTTCTGCAGGTGCCC
TGAACTGGGAGACGGGCGAAACGGTCGCTGTGAAGGAGATCCAGCTGAGCAATATTCCCAAAGGCGAGCTTCCTG
AGATTATGGTGTGTGGCATCGCGATCTTGCCTGTGTCGATGCGCAACTTAACCTTGGATTTCAGTCAGAGATTGA
TCTGTTGAAGAACCTCAATGTCAGTCTGACTCTTCGCGTTATTTCAATTCCCGCCCATCTAATATGCAACCTGGA
TAGCACGAGAACATTGTCAAGTATAAAGGTTTCGTCAAGACGCGTGAATTTCTCTACATCATCCTGGAGTCGGTG
TGGTTTCCTTCCAGCTAGGATGCGGCCTTCTTGACACGCCCCATACAGGTTCTGTGAGAATGGGTCCCTACACAA
TATCATCAAGAAATTTGGAAAGTTCCCGGAAAACCTCGTGGCTGTCTACATCTCACAAGTTCTCGAAGGTCTAGT
GTATTTGCATGATCAGGGTGTGATTCATCGGGATATCAAGGGTGCCAATATCTTGACCAACAAGGATGGAACGGT
TAAGCTGGCTGACTTTGGAGTTGCGGCGAGAACAGGAGGTGTAGTGGATGGTGCGGTCGTTGGTAGTCCTTATTG
GAGTAAGTCCTTCACCCACAGGCCCTGCGTGCTATCTGCCTAACGTCTAGGAAATAGTGGCACCTGAAGTCATCG
AGCAATCTGGAGCAACGACTGCGTCAGACATCTGGTCAGATTAATTCCCTCATCCCCACCCCGTCTTCCTATCTG
ACGGGCAAACTCAGGAGCGTAGGCTGTGTCGTCATCGAGCTGCTTGAAGGTCGCCCTCCCTACCACAATCTGGAC
CCCATGCCGGCGCTCTTTCGTATCGTACAAGACGACTGTCCCCCAATCCCCGAGGGAGCATCTGCCATCGTCAAG
GACTTCCTCTACCATTGCTTCCAGAAGGACTGCAACTTACGAATATCCGCGAAGAAACTGTTGAAGCATCCGTGG
ATGGTGGCGACCCGGAAACAGATGAACGCTGGCAAAGCTCAATCTGGTGAACAGGCCGGAGACAACGCGTCTGGC
TCCCAAGGAACGAGAAGGCCCCTATCCAACTATAACTACGACGAAGCTGTTCTCAAGGTGCAGGAATGGAACGAA
GCACTCAAATGTAAGATCATTGATCATGGCTTCCGGGACCGATGGGATTAACGACTTCCCTTCCATCAGCCCCAA
CCCGCCCATCGAAGCAACCGTCTCGATACACTCGACCTCACTCGCCTTTGCAACGTCATTCAGAGCTTCATTCAT
CGTCTTCTTCGACCTCTTTAAGCTCACACACCCCTGGAGCTCTCGGTTGGAAAGGTGGAATGTCGGGCAACCCGA
AACTTGGCACGTTGGTTGAGAAGATTCAGCCCCATGCTTTCGTCTTGCAACCACCCGAGGAACAGACGGACAATT
GGGACGATGATTTCGAGGGAGGGATCTCATTCACCAAACTACAAGGTAACTATTTTCCCTACACAGGATAATGTC
TCGGTGCTCATGCTACATGTTAGCGCTGGAGAAATCTACCCATGAAGAGGACAAGTCCGAACCAAATGAGGATAA
TGCGCAGACTATCCGTCCTACAAAGAGTCCAGGAGCGAAGACTGTTCCATTAGCTCAGCCTCCGGCTGCAAGCAT
TGCTCCTATTGTGGAAGACTATTCTGACCTAGCCCTTGACGAAGATGAAGGGTGGTTAGAGGAAAAGGTGGCTGA
TTTCAAGGTTAGTTCCAGTCCATCTCTGGAAGGAACTATAAAACAACGATATTACTAGATGAAAAATCAGCCCCG
TCGGGGCCTCTTCCATCCCGATGATATAAAGACTGTGGGCCTCGTCACGAACGATCCCGCACCATTATCAGCTCC
TCCAACTATGCTTACACGGAAGCCGTCGCGACCTATGCTCACCCCTATGGGTTTACCCTCGACCGCCAGTGGATC
CAACCAACCTTCTTTGGGGACCCATGGACGATCCTCCTCCATGTCTAACCCAGGGTCGGGCTCTTTTGGCCGCTC
TGAAGCTCGTCGACTGCAGAATCAAGCGGAATTCGGAAAGTACACGGAGGATGACGATGATGATGATTATGACGA
TGTCTTCGGGAAGCCAAACAGTAACAGTGAGTGGATGGTTAACCTGTCGGGTGATGCTCGATACTGATACTCTAG
TAGCCACCGGCATGTCTATGCAAACTCTTCAACTCAATACTCGGTTGTCGAGCAAGTCATGGGTATGTATCATTC
ATCTTGGTGCCGACAAGAATAATGGACTGACAATCGATTAGCTGGGTGACGATGGCGACGAAGAGGATCCTTTCG
CAGAGGTAAGTCCCAACCAGCCGACTGATGAATAACGCTCTGACCATGCCTTCCAGATCGACGAAGGTTTCGACG
AGGACGACCTTGAATCCAACCTGCAGCGAGACAAGCACGCTCGCTTGTGCAACGCTGTCAATCAGCTTATTGACG
AATTGACGCCCTCTGCTCCCGACTTCCAATTGCGAGATGCTTGTGACCAACTGGTGCGGTTGACTGATACCCTAG
TATTTCCAAGCTAACGATTTGACTATTCGCAGCTGAAGATCATCATAGAGGCACCAGAAATGCAAGGCCAATTGG
TCTCTTCGCATGGAATGCTTGCTATCTTGGAAGTTCTTGAAGGACGCTGCTCCAGAGATGTCATCATGAAGCTAC
TGCAGATCATCAACGTGGTCTGTATCCCTACAGCGCTGCATTTAATCTGTCGATCCTGATTAGTTCTCTTTACCA
GTTGGTCACAGAGGATGTGGGCTTCTTGGAGAGCTTTTGCTTGATTGGGTAAGTCGAGACAATGTTCCTTCCCTC
CAATACTGACGGTTTGGCGCAGTGGTATTCCTGTGATGATGGGTAAGTGACAGGCCAACCATCTAGATCGCGAGT
TCTGACTGTCCTCCTAGAATTCACCTCCAAGAAGTACCCCTCAGAGTGCCGCTTGGAGGCATCCAACTTTATCCG
ACTTCTTTGCCACACCTCCGTATTGACTCTCCAGATGTTCATCTCGTGAGTGGCTACATTCCCACTTCTCTGTCA
GGCCAAAGGCTAAGCGATTGTTAGATGTCGTGGCTTGAAAGTCTTAGTGGACCTCCTAGACGAAGACTATGGAGA
GCAAACGGAGCTGGTTGAACATGCTCTGAATGGAATCGGCAGTGTCTTCGAGCTGCAGAGTCCGACGACGAAGAA
TGACTTTTGTCGCATGTTCATCCGGGAAGGCTTGCTTGACCCTCTGTCCGCCGCCTTGCTCAATGTCATGTCCAA
TCATGAACCTGCCTCTGTCGATAAGAGCACCAAGATGAAGGTCATTCAGATCCTTCTGGTGTTCTGCCAAGTATC
ACAGTCCGATATCCACGTTCGGAATGCTTTGGGAACGAGGAAGGTTATCCGACGTGAGTCAATTCTTCTTTCTTA
TCGCCTTCGTCCACTGAGTGGTTCCTCCAGGGTTGTTGAGAGCATGTGAACTCCTGGATCCAGAATGCCTGGTAC
AGATGCTGAAGGCTGTGAAGCACTTGTCCATGAATGCTACACTGCACGAAGTCCTCCAGAATGCCAACGCTCTCG
AGATTTTGATTCGGATTCTCGAGGAACAGTCCTCTGGACCTCATAGCACTGTATGTCTGCCTCGCCCCGAAGTTC
TGACCATGTCTGATCATATTCGTAGGAAATGGCAAACCATATCTTCCAAACATGTTACAACCTCTGTCGCCTCAG
CAAATCCCGACAAGAGGAGGCTGCACAAGCTGGTATCATCCCCTGTCTCAAGCGTGTCATCGAGACCAGCTCCCC
TCTCAAACAATTCGCTCTCCCTATCCTCTGCGACCTTGCCAGTGCCGGAAAGAGTTGTCGAACCCTCCTCTGGCA
GCACGACGGTATCGGGATGTACATCAGACTCCTCGACGATCCGTACTTCCAAGTCAGTGCCGTCGAATCCGTTCT
CTCGTGGTTGCAAGACGAGACTGCTCGAGTGGAAGACCAACTTCTCAAGCCATACGCGGTCGAAGCGCTTCTCAA
GTGTTTCGTCAACGCAAAGGCCAACTCCTTCGAGAACCTCCTCGACCCGTTCCTCAAGATCTTGCGTCTCTCTCA
TACGCTTACAATCGCCCTTACCAAGTCCTCTGCGTTTTTCAAGAGGATCGTGGATCGACTGGGTCACAACTCCAA
GGCTGTCGTACGACTGAACCTCTTGAGGATTCTGCGCTATGTTTGCGAGATCCATCCCAACAGGACTGTCCTTGT
CGAGCGGTATGGGCTGCTGGGTATCGTGGAGAAGCTCAGCAGGAGTGGAGGAGATGGAGCTGTCTTGGTCAAGGA
GTTGGCGAGAGAGATTGTGCCTACTCTTCGCCCTGCTCTGAAACCTGCTGGACTCGGAAGCAGTGGAAGCAGTCA
TCATGGAGGCGGGCATGGGACTGGGGAGAGGGATCGAGACCGTGAGCACTATCTGGGAGGATACAGAGAGCGTGG
GGGAGTTTATGAGAGCAGACTTCGGAGAAGTCCACCGTCGGGTTTGGGGCATGGGTCGTCGATATCGTCCAGCTA
TGAGAATAGTCTCGCGATGACACCCGGATCTCATTCCAAAGGCTTGATACCGAAGAGAGCCAGGCGGTCGGCGTC
GGAGGCGTCGGGCGTGGTCCCTTCCTCACCTTCGACTGGTGGGTTTGGGATACCCAAAGTTTCGAGGTCTTCGTC
GAGGCAGAGGTTGGGCGAAATACCATGGCAGCCAACGACACCGCCGAATAGTTCCAGCATGAATCGCAACAACCA
AGACCGCACTCCTACCGCCAATCGATGGTAACCCTATCACCAATTTCCGTCATATACGACGAACGCTTTTATGCC
ATTATTGTTTACTTTTTCGTTCTTGTGGATTGGAACATTTAATACCTTTTTCTCCCGTCGCACTCCAATTTTTGC
TGTCGTTCACTCGCATCCCTCGTCATCGTCATCGTCACAATCCTTGTCCTCGCATCTCACTCTACTAACATCACG
ACACATTCCTTCCCTGTGGCATCATCGGCGGTTTCTTGCGCTGTATTTATCAGTCCTTGATGGAGGTTCTGGTCT
TTTATATTATATGGATTATTAAATGGGTAGTTGGAAACCTCCCGTATACGGTATAATACGCGCATGGTTGTAGTG
GTAGCAACTGGTCTAGTCAAGCACTGGGTTAGTTTTCGTTGCTG
Length 5669