CopciAB_506114
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_506114 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 506114
Uniprot id Functional description
Location scaffold_8:524305..526304 Strand +
Gene length (nt) 2000 Transcript length (nt) 1766
CDS length (nt) 1668 Protein length (aa) 555

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
0

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 13.7174 1.8507 1.0685
oidia 16.9275 2.8098 1.6222
vegetative_mycelium 16.6331 1.2556 0.7249
primordia 15.7643 1.6885 0.9748
hyphal_knot 8.9294 1.4516 0.8381
young_fruiting_body 10.5661 1.6899 0.9757
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 30.6749 2.8111 1.623
Wheat bran 24.6392 2.6593 1.5353
Horse manure 32.4881 4.2206 2.4368
Oak leaves 19.4698 7.5161 4.3394
Hay 23.9966 4.1773 2.4118
Corn stalk 23.8612 3.5218 2.0333
Pectine 30.3237 1.0664 0.6157
Microcrystalline cellulose 30.4517 3.825 2.2083
Xylose 34.671 7.7387 4.4679
Cellobiose 38.1547 6.0877 3.5148
Lignin 24.2648 6.1361 3.5427
Apple peels 16.9691 2.33 1.3452
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 44.4263 8.6764 5.0093
Bsubtilis 37.272 3.8177 2.2041
Ecoli 43.0348 2.1571 1.2454
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 2.1636 0.7618 0.4398
BS 4h 3.2073 0.6765 0.3906
BS 8h 8.7351 2.127 1.228
BS 12h 21.6535 1.7456 1.0078
Oidia 0 h 3.3668 0.6664 0.3847
Oidia 18 h 18.4181 4.6662 2.694
Sclerotia 5.8247 3.8393 2.2166
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 11.886 1.4174 0.8184
DM 36h 14.7263 2.8308 1.6344
DM 60h 13.9467 0.4592 0.2651
DM 84h 11.5181 1.6889 0.9751
DM 108h 8.03 1.0358 0.598
DM 132h 9.765 1.4363 0.8292
DM 156hAE 10.8233 0.3921 0.2264
ELI1hAE 9.8402 0.4999 0.2886
ELI2hAE 11.3527 1.2025 0.6943
LI2hAE 9.1509 2.0869 1.2049
LI6hAE 9.1466 1.6672 0.9626
LI12hAE 8.0323 0.6641 0.3834
LI18hAE 6.1069 2.3119 1.3348
LI 24hAE 8.4603 1.0434 0.6024
DM 156hAM 9.6382 0.4916 0.2838
ELI1hAM 8.32 4.7971 2.7696
ELI2hAM 8.1792 1.0097 0.583
LI2hAM 10.9536 1.36 0.7852
LI6hAM 11.0003 2.2651 1.3077
LI12hAM 8.2519 2.9388 1.6967
LI18hAM 5.9291 2.5021 1.4446
LI 24hAM 5.4159 1.6399 0.9468
LI 24hHK 6.3572 2.1456 1.2387
L/D 6h 7.9568 1.4577 0.8416
L/D 12h 9.557 2.4061 1.3892
L/D 18h 8.7452 3.8404 2.2173
L/D 24h 8.7122 2.2343 1.2899
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 11.2283 0.8992 0.5192
Hyphal knots 12.9153 6.1146 3.5303
Primordium 1 19.8167 4.0781 2.3545
Primordium 2 17.2477 1.749 1.0098
Young Fruiting body cap 21.4346 5.6902 3.2852
Younf fruiting body gill 12.6039 5.1192 2.9556
Young fruiting body stipe 22.8505 3.4222 1.9758
Mature fruiting body cap_gill 3.7946 0.8161 0.4711
Mature fruiting body stipe 9.8972 1.428 0.8244
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 11.9145 1.7831 1.0295
NH4NO3 19.293 1.9428 1.1217
Proline 16.0375 2.5385 1.4656
Tryptophan 17.867 1.7696 1.0217
Isoleucin 17.2032 4.0089 2.3146
Arginine 19.7409 1.4338 0.8278
Metionine 15.0162 1.8262 1.0544
NaNO3 17.3137 1.0206 0.5892
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 11.9145 1.7831 1.0295
Citrus peel 7.5205 1.9794 1.1428
Poplar leaves 17.1095 2.1875 1.263
Typha leaves 16.2171 2.4379 1.4075
Overwintered Salix leaves 16.0108 2.2119 1.277
Reed flowering 12.7971 4.0298 2.3266
Tigernut 12.7523 0.9469 0.5467
Energy cane 14.3544 1.6988 0.9808
Guar gum 16.4729 3.8922 2.2472
Apple peels 18.446 1.529 0.8828
Cellobiose 16.2814 0.5495 0.3173
Corn stalk 17.6642 2.0927 1.2082
Horse manure 14.7168 2.3866 1.3779
Lignin 12.6124 7.4227 4.2855
Microcrystalline cellulose 12.9761 5.4152 3.1265
Oak leaves 17.6958 2.1216 1.2249
Pectin esterified 13.4023 0.9071 0.5237
Poplar sawdust 14.0195 0.4691 0.2708
Wheat bran 14.593 0.282 0.1628
Chlamydomonas reinhardtii 14.4326 2.3369 1.3492
Vertatryl alcohol 26.9064 6.3205 3.6491
Furfural 18.8642 3.8466 2.2208
Autoclaved mycelium 14.2813 1.5259 0.881
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 44.7574 3.9544 2.2831
Ribose 48.3284 4.33 2.4999
Mannose 46.4838 2.7652 1.9553
Fructose 50.4219 4.6769 2.7002
Arabinose 45.9571 2.0174 1.1648
Xylose 49.1664 4.4968 2.5962
Galacturonic acid 48.0683 4.7639 2.7504
Rhamnogalacturonan 44.5627 4.5687 2.6377
Pectin esterified 45.8514 4.6069 2.6598
Polygalacturonic acid 49.2031 3.6926 2.1319
Sodium acetate 47.8612 3.0658 1.77
No nitrogen 43.5504 3.1704 1.8304
BSA 46.8909 3.4395 1.9858
Glutamine 43.3114 1.7691 1.0214
No phosphate 44.4704 4.1338 2.3867
No carbon 44.161 0.9981 0.7058
No sulphur 51.3418 1.0069 0.5813
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 11.9145 1.7831 1.0295
Amylose 16.3549 0.9534 0.5504
Fucose 14.37 1.8863 1.0891
Galactose 14.0002 1.6805 0.9702
Lactose 17.0498 1.5159 0.8752
Maltose 17.4516 0.2159 0.1247
Mannitol 18.4564 1.8558 1.0715
Rhamnose 16.9737 0.0341 0.0197
Sorbitol 17.1639 2.17 1.2529
Trehalose 18.2451 1.843 1.0641
Glycerol 13.2696 0.641 0.3701
Glucuronic acid 19.2575 1.9322 1.1155
Arabinan 13.3189 4.4194 2.5515
Galactan 13.8188 1.7034 0.9835
Galactomannan 16.7615 0.9649 0.5571
Glucan 12.3923 0.7218 0.4168
Xylan 16.7402 2.4139 1.3937
Xyloglucan 19.442 1.1176 0.6452
Arabinogalactan 15.0286 1.0173 0.5873
Pectin 8.0243 1.2436 0.718
Rhamnogalacturonan 7.5109 2.0599 1.1893
Polygalacturonic acid 12.9844 1.5283 0.8824
Mannan 13.7797 1.3118 0.7574
Amylopectin 13.374 0.7003 0.4043
Inulin 18.7869 1.5999 0.9237
BSA 8.6689 2.2804 1.3166
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 13.9467 0.4592 0.2651
2h WAT 8.8643 1.2204 0.7046
4h WAT 7.5639 1.593 0.9197
8h WAT 7.0664 1.5818 0.9133
16h WAT 5.7612 0.9904 0.5718
24h WAT 7.495 1.119 0.6461
WAT hyphal knot -30h 7.3545 3.7937 2.1903
WAT hyphal knot -22h 8.9742 1.1975 0.6914
WAT hyphal knot -15h 8.0157 0.8139 0.4699
WAT hyphal knot -7.5h 5.465 2.2124 1.2773
WAT hyphal knot 9.7404 0.4159 0.2401
WAT hyphal knot +7.5h 6.6129 2.1971 1.2685
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 12.3458 2.8343 1.6364
Straw 3h 9.3895 3.6106 2.0846
Straw 6h 10.2222 2.7515 1.5886
Straw 12h 13.6018 0.7214 0.4165
Straw 24h 15.6146 4.2204 2.4366
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 4.139 1.1257 0.6499
Frost (-20C, 30min) 6.5567 0.8915 0.5147
Heat shock (47C, 2h) 6.2262 1.357 0.7835
High CO2 6.4657 1.9158 1.1061
Drought (4% agar, 12h) 8.0337 2.1447 1.2382
Oxidative (1mM H2O2, 3h) 4.6753 1.0205 0.5892
Acidic (pH4, 3h) 5.364 0.968 0.5589
Alkaline (pH9, 3h) 6.8608 0.994 0.5739
Osmotic (sorbitol 2h) 5.4796 0.7562 0.4366
CongoRed (3h) 5.2725 0.5261 0.3037
Cobalt chloride control 7.1394 0.5425 0.3132
Cobalt chloride 2mM 6.411 1.0744 0.6203
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 5.1658 3.6227 2.0916
Cold stimulation 9.8813 1.5998 0.9236
Scratched surface 7.0992 1.7161 0.9908
Ca2+, 200mM, 24h 8.5514 1.3585 0.7843
Cu2+, 2mM, 6h 7.7546 2.4422 1.41
Voriconazole 5.8721 0.7614 0.4396
Trichoderma interaction, early 6.9473 0.9891 0.571
Trichoderma interaction 60h 4.0055 3.5511 2.0502
Cobalt chloride 2mM repeat 7.6871 2.1481 1.2402
Hypoxia 7.9789 2.7873 1.6093
Hypoxia control 10.4555 4.5001 2.5981
Protoplastation control 4.4865 0.7245 0.5123
Protoplastation 3.5h 6.2896 4.097 2.897
Protoplastation 1.5h 3.3661 2.0403 1.4427

General data

Systematic name -
Protein id CopciAB_506114.T0
Description

Annotation summary

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
No records

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR011009 Protein kinase-like domain superfamily

GO

Go id Term Ontology
No records

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
No records

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_506114 across fungi.

Arrow shows the origin of gene family containing CopciAB_506114.

Protein

Sequence id CopciAB_506114.T0
Sequence >CopciAB_506114.T0
MPKPTTVPEDEALPSPPPPSQSSPIHNFTPKHISSLNPPFEARVGDILHWVHQVIFSKLPPITSGKDTPTVPSSG
TQPKNFTRRLFVSPRLHLTQEILDATVTVAARSPVLNRIDNFQDEREATSYNENHITDHVIAPLVSILLATFMAL
CGEGKRGWGTVPTHECTDVKPAVEFDVVFKRRGFPLAPGLSYQLNEMVTSVEMKTPRSCNDPNNKSVADNGPLMD
KKAQEIRDQLGKQGQLLKSLHPDKSFIIHGFSVAPAHLVPLASNGTQYLAIGSDVMNITDLFPVAVEKEMNWLDY
IDKLAAFTLAIVHRHDEDIAGVVNSRFPDQKRQIDALYKVAGEALELTPLEILLNFLSTGLYWLQVVLSLPLLLL
AQRLHLFRPIRSLEQKDCTPVSLDTSWLSFGLKLPPALSVHESNENMVYVYSHWGIGLVIKIFGNPTTYANELLC
YQRLKKLQGTGIPVLYATGSVGTRPCLVLSYEGQRLRQDPTEEDRATLQPVIYYMHQLKIHHHDLHPRNVVRNGD
GKLTLIDFGFSGPCTRGDDCHDEWRLNDWY
Length 555

Coding

Sequence id CopciAB_506114.T0
Sequence >CopciAB_506114.T0
ATGCCCAAGCCAACGACAGTCCCAGAGGATGAGGCGCTACCCTCGCCTCCACCGCCATCTCAATCGTCTCCAATC
CACAATTTTACCCCAAAACATATTTCTTCACTTAATCCACCGTTCGAGGCCAGAGTTGGCGACATCTTGCACTGG
GTACACCAAGTCATTTTCTCCAAATTACCACCAATTACTTCTGGAAAGGACACCCCCACCGTCCCTTCCAGTGGC
ACACAGCCCAAAAACTTTACCCGTCGACTATTTGTGTCCCCCCGTCTTCACTTGACGCAAGAGATTCTTGATGCT
ACCGTCACAGTTGCAGCCCGCTCGCCGGTTCTTAATCGCATCGATAATTTTCAAGATGAACGTGAAGCCACATCC
TACAACGAGAACCATATCACCGATCATGTAATCGCACCTCTAGTGTCCATCCTTCTGGCGACATTCATGGCGCTC
TGTGGGGAAGGCAAGCGGGGTTGGGGCACTGTCCCTACTCATGAATGCACAGATGTCAAGCCTGCAGTCGAATTC
GACGTTGTCTTTAAACGCCGGGGCTTCCCTCTCGCGCCTGGGCTGTCATATCAGCTGAACGAAATGGTGACCTCC
GTGGAGATGAAGACGCCGCGGTCCTGCAATGACCCCAACAACAAGTCGGTGGCCGACAATGGACCTTTGATGGAC
AAAAAAGCGCAGGAAATTCGTGATCAGCTCGGGAAACAAGGGCAACTTCTCAAATCGCTCCATCCTGACAAGTCC
TTCATCATCCACGGCTTTTCCGTTGCTCCCGCGCACTTGGTTCCTCTCGCTTCCAACGGCACTCAATACCTTGCG
ATTGGGTCCGATGTCATGAATATCACCGACCTCTTCCCTGTTGCTGTGGAGAAAGAGATGAATTGGCTCGACTAC
ATCGACAAGCTGGCTGCTTTCACGCTGGCGATCGTCCATCGCCATGACGAAGACATTGCGGGCGTAGTGAACAGT
CGCTTCCCGGACCAAAAGCGACAGATTGATGCGCTTTACAAGGTTGCGGGTGAGGCACTAGAGCTTACCCCTCTT
GAGATCTTGTTAAATTTTCTGTCGACTGGCCTTTATTGGCTTCAGGTCGTGCTTTCCCTCCCACTGCTTCTGCTG
GCTCAGAGACTGCACTTGTTTCGCCCGATCAGGTCCCTTGAGCAGAAGGATTGTACACCCGTTTCTCTCGACACA
AGCTGGCTTTCATTTGGCTTGAAACTGCCTCCTGCTTTGAGTGTTCACGAGTCTAATGAGAACATGGTCTATGTA
TATTCTCACTGGGGCATCGGGCTGGTCATTAAAATCTTCGGAAATCCAACGACATATGCCAATGAACTCCTCTGC
TACCAGCGCTTGAAGAAGCTGCAAGGAACAGGAATCCCCGTACTGTACGCCACTGGCAGCGTGGGTACACGGCCT
TGCCTCGTGCTGTCGTACGAAGGGCAGAGACTCCGCCAAGATCCTACCGAGGAAGACAGAGCCACTCTCCAACCG
GTTATCTATTACATGCACCAACTGAAAATCCACCATCACGACCTTCACCCACGGAATGTCGTTCGAAATGGGGAC
GGAAAGCTTACTCTTATCGACTTTGGCTTTTCGGGACCGTGCACGAGAGGTGACGACTGCCACGACGAGTGGCGA
TTGAATGATTGGTATTGA
Length 1668

Transcript

Sequence id CopciAB_506114.T0
Sequence >CopciAB_506114.T0
ATCATTGTCAAAACGGCGATGCCCAAGCCAACGACAGTCCCAGAGGATGAGGCGCTACCCTCGCCTCCACCGCCA
TCTCAATCGTCTCCAATCCACAATTTTACCCCAAAACATATTTCTTCACTTAATCCACCGTTCGAGGCCAGAGTT
GGCGACATCTTGCACTGGGTACACCAAGTCATTTTCTCCAAATTACCACCAATTACTTCTGGAAAGGACACCCCC
ACCGTCCCTTCCAGTGGCACACAGCCCAAAAACTTTACCCGTCGACTATTTGTGTCCCCCCGTCTTCACTTGACG
CAAGAGATTCTTGATGCTACCGTCACAGTTGCAGCCCGCTCGCCGGTTCTTAATCGCATCGATAATTTTCAAGAT
GAACGTGAAGCCACATCCTACAACGAGAACCATATCACCGATCATGTAATCGCACCTCTAGTGTCCATCCTTCTG
GCGACATTCATGGCGCTCTGTGGGGAAGGCAAGCGGGGTTGGGGCACTGTCCCTACTCATGAATGCACAGATGTC
AAGCCTGCAGTCGAATTCGACGTTGTCTTTAAACGCCGGGGCTTCCCTCTCGCGCCTGGGCTGTCATATCAGCTG
AACGAAATGGTGACCTCCGTGGAGATGAAGACGCCGCGGTCCTGCAATGACCCCAACAACAAGTCGGTGGCCGAC
AATGGACCTTTGATGGACAAAAAAGCGCAGGAAATTCGTGATCAGCTCGGGAAACAAGGGCAACTTCTCAAATCG
CTCCATCCTGACAAGTCCTTCATCATCCACGGCTTTTCCGTTGCTCCCGCGCACTTGGTTCCTCTCGCTTCCAAC
GGCACTCAATACCTTGCGATTGGGTCCGATGTCATGAATATCACCGACCTCTTCCCTGTTGCTGTGGAGAAAGAG
ATGAATTGGCTCGACTACATCGACAAGCTGGCTGCTTTCACGCTGGCGATCGTCCATCGCCATGACGAAGACATT
GCGGGCGTAGTGAACAGTCGCTTCCCGGACCAAAAGCGACAGATTGATGCGCTTTACAAGGTTGCGGGTGAGGCA
CTAGAGCTTACCCCTCTTGAGATCTTGTTAAATTTTCTGTCGACTGGCCTTTATTGGCTTCAGGTCGTGCTTTCC
CTCCCACTGCTTCTGCTGGCTCAGAGACTGCACTTGTTTCGCCCGATCAGGTCCCTTGAGCAGAAGGATTGTACA
CCCGTTTCTCTCGACACAAGCTGGCTTTCATTTGGCTTGAAACTGCCTCCTGCTTTGAGTGTTCACGAGTCTAAT
GAGAACATGGTCTATGTATATTCTCACTGGGGCATCGGGCTGGTCATTAAAATCTTCGGAAATCCAACGACATAT
GCCAATGAACTCCTCTGCTACCAGCGCTTGAAGAAGCTGCAAGGAACAGGAATCCCCGTACTGTACGCCACTGGC
AGCGTGGGTACACGGCCTTGCCTCGTGCTGTCGTACGAAGGGCAGAGACTCCGCCAAGATCCTACCGAGGAAGAC
AGAGCCACTCTCCAACCGGTTATCTATTACATGCACCAACTGAAAATCCACCATCACGACCTTCACCCACGGAAT
GTCGTTCGAAATGGGGACGGAAAGCTTACTCTTATCGACTTTGGCTTTTCGGGACCGTGCACGAGAGGTGACGAC
TGCCACGACGAGTGGCGATTGAATGATTGGTATTGAGCCTCCTTTGTTACGATTAGATAGATTAGATAGAAGACT
AATAAATTTAAGGATATCAAATAGATGCCTCATTCTATACC
Length 1766

Gene

Sequence id CopciAB_506114.T0
Sequence >CopciAB_506114.T0
ATCATTGTCAAAACGGCGATGCCCAAGCCAACGACAGTCCCAGAGGATGAGGCGCTACCCTCGCCTCCACCGCCA
TCTCAATCGTCTCCAATCCACAATTTTACCCCAAAACATATTTCTTCACTTAATCCACCGTTCGAGGCCAGAGTT
GGCGACATCTTGCACTGGGTACACCAAGTCATTTTCTCCAAATTACCACCAATTACTTCTGGAAAGGACACCCCC
ACCGTCCCTTCCAGTGGCACACAGCCCAAAAACTTTACCCGTCGACTATTTGTGTCCCCCCGTCTTCACTTGACG
CAAGAGATTCTTGATGCTACCGTCACAGTTGCAGCCCGCTCGCCGGTTCTTAATCGCATCGATAATTTTCAAGAT
GAACGTGAAGCCACATCCTACAACGAGAACCATATCACCGATCATGTAATCGCACCTCTAGTGTCCATCCTTCTG
GCGACATTCATGGCGCTCTGTGGGGAAGGCAAGCGGGGTTGGGGCACTGTCCCTACTCATGAATGCACAGATGTC
AAGCCTGCAGTCGAATTCGACGTTGTCTTTAAACGCCGGGGCTTCCCTCTCGCGCCTGGGCTGTCATATCAGCTG
AACGAAATGGTGACCTCCGTGGAGATGAAGACGCCGCGGTCCTGCAATGACCCCAACAACAAGTCGGTGGCCGAC
AATGGACCTTTGATGGACAAAAAAGCGCAGGAAATTCGTGATCAGGTGAGTCCGTCTCTGGCTGAACAGGGATAG
TCAACTAAAGGCCACTCACTGGCAGCTCGGGAAACAAGGGCAACTTCTCAAATCGCTCCATCCTGACAAGTCCTT
CATCATCCACGGCTTTTCCGTTGCTCCCGCGCACTTGGTTCCTCTCGCTTCCAACGGCACTCAATACCTTGCGAT
TGGGTCCGATGTCATGAATATCACCGACCTCTGTGAGTGACAGGCCGTTCTCCTTCCTCGATCAAGCTGACATCT
ACACGAGTCCCTGTTGCTGTGGAGAAAGAGATGAATTGGCTCGACTACATCGACAAGCTGGCTGCTTTCACGCTG
GCGATCGTCCATCGCCATGACGAAGACATTGCGGGCGTAGTGAACAGTCGCTTCCCGGACCAAAAGCGACAGATT
GATGCGCTTTACAAGGTTGCGGGTGAGGCACTAGAGCTTACCCCTCTTGAGATCTTGTTAAATTTTCTGTCGACT
GGCCTTTATTGGCTTCAGGTCGTGCTTTCCCTCCCACTGCTTCTGCTGGCTCAGAGACTGCACTTGTTTCGCCCG
ATCAGGTCCCTTGAGCAGAAGGATTGTACACCCGTTTCTCTCGACACAAGGTACGCGCTTCCCTTTCTTGCCCTG
TTTCCAATGTGACTCATACAGTTCCTTCTTTTTCGCTAGCTGGCTTTCATTTGGCTTGAAACTGCCTCCTGCTTT
GAGTGTTCACGAGTCTAATGAGAACATGGTCTATGTATATTCTCACTGGGGCATCGGGCTGGTCATTAAAATCTT
CGGAAATCCAACGACATATGCCAATGAACTCCTCTGCTACCAGCGCTTGAAGAAGCTGCAAGGAACAGGAATCCC
CGTACTGTACGCCACTGGCAGCGTGGGTACACGGCCTTGCCTCGTGCTGTCGTACGAAGGGCAGAGACTCCGCCA
AGATCCTACCGAGGAAGACAGGTATGTGAATCCCTTCGCCTTCTTTTGGCGCCCACAGATGCTAATCGATGATCG
ATATCCACTAGAGCCACTCTCCAACCGGTTATCTATTACATGCACCAACTGAAAATCCACCATCACGACCTTCAC
CCACGGAATGTCGTTCGAAATGGGGACGGAAAGCTTACTCTTATCGACTTTGGCTTTTCGGGACCGTGCACGAGA
GGTGACGACTGCCACGACGAGTGGCGATTGAATGATTGGTATTGAGCCTCCTTTGTTACGATTAGATAGATTAGA
TAGAAGACTAATAAATTTAAGGATATCAAATAGATGCCTCATTCTATACC
Length 2000