CopciAB_500000
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_500000 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 500000
Uniprot id Functional description
Location scaffold_8:125121..127308 Strand -
Gene length (nt) 2188 Transcript length (nt) 1970
CDS length (nt) 1632 Protein length (aa) 543

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_RDB26994 31.5 0.0007 42

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 16.3292 2.082 1.2021
oidia 21.8653 2.8502 1.6456
vegetative_mycelium 25.9285 1.9144 1.1053
primordia 8.4561 2.4028 1.3873
hyphal_knot 21.824 2.7899 1.6107
young_fruiting_body 4.0241 0.4876 0.2815
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 28.5152 4.0536 2.3404
Wheat bran 26.2359 5.7323 3.3096
Horse manure 18.06 6.0416 3.4881
Oak leaves 20.4134 4.8246 2.7855
Hay 18.3835 1.4771 0.8528
Corn stalk 23.4231 0.3473 0.2005
Pectine 25.4436 1.7443 1.0071
Microcrystalline cellulose 17.8541 1.4134 0.816
Xylose 27.8791 5.7002 3.291
Cellobiose 36.1064 3.1922 1.843
Lignin 8.5169 1.7592 1.0157
Apple peels 28.7633 1.0711 0.6184
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 35.7158 0.8412 0.4857
Bsubtilis 34.1768 1.4524 0.8386
Ecoli 45.5321 1.6438 0.9491
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 1.4876 0.3519 0.2032
BS 4h 2.2883 1.0189 0.5883
BS 8h 3.7691 0.2139 0.1235
BS 12h 4.611 0.7572 0.4372
Oidia 0 h 7.4427 1.2971 0.7489
Oidia 18 h 5.9174 1.4637 0.845
Sclerotia 6.1927 2.1397 1.2353
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 16.3074 2.7546 1.5904
DM 36h 16.2272 1.6623 0.9597
DM 60h 20.7493 5.1292 2.9613
DM 84h 21.4365 1.549 0.8943
DM 108h 25.4302 4.2722 2.4665
DM 132h 23.5374 1.5242 0.88
DM 156hAE 16.2212 2.2015 1.271
ELI1hAE 29.2068 7.2824 4.2045
ELI2hAE 23.4529 2.6732 1.5434
LI2hAE 26.0697 1.7875 1.032
LI6hAE 24.2426 2.8806 1.6631
LI12hAE 25.0525 3.2225 1.8605
LI18hAE 21.3103 1.6174 0.9338
LI 24hAE 14.2398 2.8221 1.6293
DM 156hAM 13.4368 3.0544 1.7635
ELI1hAM 22.632 5.5777 3.2203
ELI2hAM 25.2625 4.5812 2.645
LI2hAM 21.3337 3.8103 2.1999
LI6hAM 18.7633 2.8187 1.6274
LI12hAM 24.1026 4.0948 2.3641
LI18hAM 27.9853 6.3641 3.6743
LI 24hAM 10.4653 2.0143 1.1629
LI 24hHK 15.4252 2.2964 1.3259
L/D 6h 20.2898 0.3013 0.174
L/D 12h 20.8875 1.3128 0.758
L/D 18h 16.4947 3.1499 1.8186
L/D 24h 19.6378 5.0507 2.916
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 12.4191 3.5541 2.052
Hyphal knots 19.355 2.7276 1.5748
Primordium 1 18.2938 2.9944 1.7288
Primordium 2 14.4497 1.821 1.0513
Young Fruiting body cap 16.0848 2.0293 1.1716
Younf fruiting body gill 11.0249 1.085 0.6264
Young fruiting body stipe 12.0834 1.8823 1.0867
Mature fruiting body cap_gill 6.7142 1.1644 0.6723
Mature fruiting body stipe 7.4071 2.033 1.1738
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 20.4875 2.1959 1.2678
NH4NO3 23.754 4.4363 2.5613
Proline 26.8518 10.2701 5.9295
Tryptophan 18.2477 6.0143 3.4723
Isoleucin 19.5753 5.2241 3.0161
Arginine 24.3778 2.7314 1.577
Metionine 18.5626 1.9506 1.1262
NaNO3 20.7638 2.1675 1.2514
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 20.4875 2.1959 1.2678
Citrus peel 17.2218 0.9536 0.5506
Poplar leaves 14.0309 1.6082 0.9285
Typha leaves 13.0606 1.7406 1.0049
Overwintered Salix leaves 14.4881 1.2401 0.716
Reed flowering 14.8508 1.1998 0.6927
Tigernut 11.2709 1.0949 0.6321
Energy cane 16.1805 0.6134 0.3542
Guar gum 20.3943 1.8336 1.0586
Apple peels 15.3944 4.0094 2.3148
Cellobiose 22.1788 3.0304 1.7496
Corn stalk 16.8955 0.3835 0.2214
Horse manure 16.0636 5.583 3.2233
Lignin 16.4527 3.8651 2.2315
Microcrystalline cellulose 21.5225 4.2844 2.4736
Oak leaves 16.306 1.0518 0.6072
Pectin esterified 17.4946 0.548 0.3164
Poplar sawdust 25.1553 1.0875 0.6279
Wheat bran 17.8558 5.0454 2.913
Chlamydomonas reinhardtii 16.7509 1.7722 1.0232
Vertatryl alcohol 31.6338 3.2546 1.879
Furfural 12.4956 0.6583 0.3801
Autoclaved mycelium 14.5351 2.1883 1.2634
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 32.1251 2.555 1.4751
Ribose 27.1707 3.6903 2.1306
Mannose 27.6591 0.5065 0.3582
Fructose 31.3436 3.6423 2.1029
Arabinose 27.7962 3.3885 1.9563
Xylose 29.8124 3.55 2.0496
Galacturonic acid 27.8787 2.3943 1.3824
Rhamnogalacturonan 30.5973 1.5431 0.8909
Pectin esterified 31.7896 1.0817 0.6245
Polygalacturonic acid 29.5617 1.1896 0.6868
Sodium acetate 26.5895 1.8934 1.0932
No nitrogen 33.1118 3.9202 2.2633
BSA 33.1334 2.528 1.4595
Glutamine 31.4191 6.6368 3.8318
No phosphate 25.4605 2.639 1.5236
No carbon 25.5875 4.3715 3.0911
No sulphur 27.7002 0.9386 0.5419
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 20.4875 2.1959 1.2678
Amylose 20.437 0.5948 0.3434
Fucose 23.718 1.0796 0.6233
Galactose 21.5337 2.2364 1.2912
Lactose 21.9851 1.6894 0.9753
Maltose 21.4499 2.464 1.4226
Mannitol 18.8094 2.582 1.4907
Rhamnose 20.6087 0.5812 0.3355
Sorbitol 24.3372 1.0162 0.5867
Trehalose 21.3084 3.7209 2.1483
Glycerol 22.3843 0.7929 0.4578
Glucuronic acid 23.1924 0.3947 0.2279
Arabinan 19.9127 1.4597 0.8428
Galactan 15.6563 1.3229 0.7638
Galactomannan 23.4475 6.7364 3.8893
Glucan 22.0961 3.3455 1.9315
Xylan 17.8331 1.2253 0.7074
Xyloglucan 19.449 1.6674 0.9627
Arabinogalactan 18.7779 1.3902 0.8026
Pectin 13.8198 2.9704 1.715
Rhamnogalacturonan 10.3894 1.3193 0.7617
Polygalacturonic acid 20.0661 3.3612 1.9406
Mannan 20.7666 4.3694 2.5227
Amylopectin 21.9324 2.0359 1.1754
Inulin 21.6558 2.5691 1.4833
BSA 9.1777 2.1119 1.2193
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 20.7493 5.1292 2.9613
2h WAT 20.8083 1.6237 0.9375
4h WAT 17.426 2.3606 1.3629
8h WAT 17.0218 0.1227 0.0709
16h WAT 14.876 4.3667 2.5211
24h WAT 12.4654 3.3146 1.9137
WAT hyphal knot -30h 19.6025 3.0455 1.7583
WAT hyphal knot -22h 17.8602 4.5171 2.608
WAT hyphal knot -15h 17.0948 2.7563 1.5913
WAT hyphal knot -7.5h 15.8543 3.1664 1.8281
WAT hyphal knot 11.9251 0.718 0.4146
WAT hyphal knot +7.5h 16.1487 5.5925 3.2288
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 16.1105 7.8016 4.5043
Straw 3h 19.5163 2.2008 1.2707
Straw 6h 13.6551 3.3573 1.9384
Straw 12h 16.8304 2.7114 1.5654
Straw 24h 15.5107 1.3707 0.7914
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 10.4349 2.7304 1.5764
Frost (-20C, 30min) 18.4295 3.2297 1.8647
Heat shock (47C, 2h) 30.7727 4.8512 2.8008
High CO2 19.8543 2.4376 1.4073
Drought (4% agar, 12h) 22.7354 4.3147 2.4911
Oxidative (1mM H2O2, 3h) 15.17 3.2336 1.8669
Acidic (pH4, 3h) 13.0468 2.0078 1.1592
Alkaline (pH9, 3h) 10.0897 3.2147 1.856
Osmotic (sorbitol 2h) 11.2314 0.7613 0.4395
CongoRed (3h) 10.7086 2.3132 1.3355
Cobalt chloride control 19.8786 4.0183 2.32
Cobalt chloride 2mM 16.7445 3.7491 2.1646
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 16.4472 5.8029 3.3503
Cold stimulation 22.0643 1.5115 0.8726
Scratched surface 16.336 1.8526 1.0696
Ca2+, 200mM, 24h 13.8972 2.0943 1.2092
Cu2+, 2mM, 6h 12.2345 3.8682 2.2333
Voriconazole 11.7947 2.4877 1.4363
Trichoderma interaction, early 19.2657 2.4333 1.4049
Trichoderma interaction 60h 14.3322 4.7373 2.7351
Cobalt chloride 2mM repeat 16.8653 2.4227 1.3988
Hypoxia 14.4647 3.8962 2.2495
Hypoxia control 13.6415 2.4025 1.3871
Protoplastation control 17.5621 1.9807 1.4005
Protoplastation 3.5h 12.2097 6.5849 4.6562
Protoplastation 1.5h 23.2619 13.857 9.7984

General data

Systematic name -
Protein id CopciAB_500000.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_500000 across fungi.

Arrow shows the origin of gene family containing CopciAB_500000.

Protein

Sequence id CopciAB_500000.T0
Sequence >CopciAB_500000.T0
MAKGLRIASDSIPEHEPATPPPDRSSPIHKFTPTDISDITSHPTVKIGDILHLLANSTVSRLPEPKPGKGDPTPP
SSHGHVHPYDSRQFKAPNLYLTREVLDATVATQPRLETFIEEFRMKRISEYDEGEFTNKIVGPLVGIFIRIFAFG
TGVSKGWYIAPPAFYDDTSGRKLELDVIIEDSEQVVTAIEMKTPRSCNDSNIRAFSSPVTGMDQKAKEIRDQVGK
QGKFLKGLHPKKPFVLHGLSVAPAHLIPLASNGSDCFAIGSDVMNVSRKFPEAVRDVKNWVEYIDKLAAFTLAMV
CLHDEYAAKEVGSRFPEQKKQLDELYAAAGEALELTFFEVLFNLFSTCLCYLQTAVSLPLLLLAQTLQWFRPINS
LKPMRCNTVSLNSSSWFSLALKLPEASAVYESHENIVYVHSRWGIRLVIKVFGEQSSYAKELVSYQRLEKLQGKG
IPVLYATGTMNARPCLVLSYEGERLREGPTDDQKATLYPVVKAMHDLDIHHHDLHRRNVVQDSSGKLTLIDFGLS
EPCTRKGCEDDWQADEWY
Length 543

Coding

Sequence id CopciAB_500000.T0
Sequence >CopciAB_500000.T0
ATGGCGAAAGGGCTTCGCATAGCGTCTGACTCAATCCCTGAGCATGAACCGGCAACCCCACCTCCCGATAGGAGT
TCTCCCATCCACAAATTTACTCCAACCGACATTTCTGACATTACTTCGCATCCTACAGTGAAGATTGGCGACATC
CTCCATTTGCTGGCCAATAGCACAGTGTCGCGTCTTCCTGAGCCAAAACCAGGGAAGGGCGACCCTACTCCCCCT
TCTAGCCACGGCCATGTACACCCTTATGATTCTCGACAATTCAAAGCCCCCAATCTCTACTTGACGCGCGAAGTT
CTTGACGCTACCGTCGCCACTCAGCCTCGTCTCGAAACATTTATTGAGGAGTTTCGAATGAAGCGCATCAGCGAA
TACGACGAGGGGGAATTCACAAACAAGATAGTGGGACCTCTGGTGGGGATCTTTATTCGGATCTTCGCTTTTGGA
ACGGGAGTGTCCAAGGGATGGTACATCGCTCCGCCAGCCTTCTATGACGATACCAGCGGGCGAAAGCTGGAGTTG
GATGTTATCATAGAGGATTCTGAACAGGTGGTGACAGCCATTGAGATGAAGACGCCGCGCTCCTGCAATGACTCG
AACATCAGAGCATTCTCAAGTCCAGTCACTGGCATGGATCAGAAAGCTAAGGAAATACGCGACCAGGTTGGAAAA
CAAGGGAAGTTTCTGAAAGGATTGCACCCGAAGAAGCCCTTTGTCCTCCACGGATTGTCAGTCGCTCCTGCGCAC
TTGATCCCCCTAGCTTCGAATGGAAGTGATTGCTTTGCAATTGGCTCGGACGTTATGAACGTCTCTAGGAAATTC
CCCGAGGCCGTACGTGATGTGAAGAATTGGGTTGAATACATCGACAAACTTGCGGCCTTCACTCTGGCGATGGTC
TGTCTGCACGACGAGTACGCAGCCAAAGAGGTTGGCAGCCGCTTCCCGGAGCAGAAGAAGCAGCTCGATGAGCTT
TATGCGGCCGCCGGTGAGGCACTCGAGCTTACCTTTTTCGAGGTCTTGTTCAACCTTTTCTCGACTTGCCTCTGT
TACCTTCAGACGGCTGTCTCTCTCCCGCTGCTGCTATTGGCTCAAACGTTACAGTGGTTCCGTCCGATCAACAGC
CTGAAACCGATGCGATGTAATACGGTTTCTCTCAATTCAAGTAGCTGGTTCTCTCTCGCCCTCAAACTGCCCGAA
GCGTCCGCGGTCTACGAGTCTCATGAGAACATCGTCTATGTACATTCTCGCTGGGGTATCAGACTCGTCATCAAA
GTCTTCGGCGAGCAATCGTCGTACGCGAAAGAGCTCGTCTCCTATCAGCGTCTGGAGAAGCTGCAAGGGAAGGGA
ATCCCCGTTCTCTACGCCACTGGCACCATGAATGCACGCCCATGCCTCGTGTTGTCATACGAAGGTGAGAGACTC
CGCGAAGGTCCCACGGATGACCAAAAAGCCACTCTTTACCCGGTTGTAAAGGCAATGCACGATCTAGATATCCAC
CACCACGACCTCCATCGGCGGAACGTCGTCCAAGATTCGAGCGGAAAGCTCACCCTTATCGACTTTGGCCTCTCG
GAACCCTGTACTAGGAAGGGCTGCGAAGACGACTGGCAAGCCGACGAATGGTACTGA
Length 1632

Transcript

Sequence id CopciAB_500000.T0
Sequence >CopciAB_500000.T0
ATTGACCGCGATGGCGAAAGGGCTTCGCATAGCGTCTGACTCAATCCCTGAGCATGAACCGGCAACCCCACCTCC
CGATAGGAGTTCTCCCATCCACAAATTTACTCCAACCGACATTTCTGACATTACTTCGCATCCTACAGTGAAGAT
TGGCGACATCCTCCATTTGCTGGCCAATAGCACAGTGTCGCGTCTTCCTGAGCCAAAACCAGGGAAGGGCGACCC
TACTCCCCCTTCTAGCCACGGCCATGTACACCCTTATGATTCTCGACAATTCAAAGCCCCCAATCTCTACTTGAC
GCGCGAAGTTCTTGACGCTACCGTCGCCACTCAGCCTCGTCTCGAAACATTTATTGAGGAGTTTCGAATGAAGCG
CATCAGCGAATACGACGAGGGGGAATTCACAAACAAGATAGTGGGACCTCTGGTGGGGATCTTTATTCGGATCTT
CGCTTTTGGAACGGGAGTGTCCAAGGGATGGTACATCGCTCCGCCAGCCTTCTATGACGATACCAGCGGGCGAAA
GCTGGAGTTGGATGTTATCATAGAGGATTCTGAACAGGTGGTGACAGCCATTGAGATGAAGACGCCGCGCTCCTG
CAATGACTCGAACATCAGAGCATTCTCAAGTCCAGTCACTGGCATGGATCAGAAAGCTAAGGAAATACGCGACCA
GGTTGGAAAACAAGGGAAGTTTCTGAAAGGATTGCACCCGAAGAAGCCCTTTGTCCTCCACGGATTGTCAGTCGC
TCCTGCGCACTTGATCCCCCTAGCTTCGAATGGAAGTGATTGCTTTGCAATTGGCTCGGACGTTATGAACGTCTC
TAGGAAATTCCCCGAGGCCGTACGTGATGTGAAGAATTGGGTTGAATACATCGACAAACTTGCGGCCTTCACTCT
GGCGATGGTCTGTCTGCACGACGAGTACGCAGCCAAAGAGGTTGGCAGCCGCTTCCCGGAGCAGAAGAAGCAGCT
CGATGAGCTTTATGCGGCCGCCGGTGAGGCACTCGAGCTTACCTTTTTCGAGGTCTTGTTCAACCTTTTCTCGAC
TTGCCTCTGTTACCTTCAGACGGCTGTCTCTCTCCCGCTGCTGCTATTGGCTCAAACGTTACAGTGGTTCCGTCC
GATCAACAGCCTGAAACCGATGCGATGTAATACGGTTTCTCTCAATTCAAGTAGCTGGTTCTCTCTCGCCCTCAA
ACTGCCCGAAGCGTCCGCGGTCTACGAGTCTCATGAGAACATCGTCTATGTACATTCTCGCTGGGGTATCAGACT
CGTCATCAAAGTCTTCGGCGAGCAATCGTCGTACGCGAAAGAGCTCGTCTCCTATCAGCGTCTGGAGAAGCTGCA
AGGGAAGGGAATCCCCGTTCTCTACGCCACTGGCACCATGAATGCACGCCCATGCCTCGTGTTGTCATACGAAGG
TGAGAGACTCCGCGAAGGTCCCACGGATGACCAAAAAGCCACTCTTTACCCGGTTGTAAAGGCAATGCACGATCT
AGATATCCACCACCACGACCTCCATCGGCGGAACGTCGTCCAAGATTCGAGCGGAAAGCTCACCCTTATCGACTT
TGGCCTCTCGGAACCCTGTACTAGGAAGGGCTGCGAAGACGACTGGCAAGCCGACGAATGGTACTGAGGTGGACT
ACTTGGGCGATACTCTGCCTTCCACGTATATCTATCCAATTCTGCTGTCTCTGCTTGGAATTGACCACGACCATC
CGTTGCAGTTAGGTAGCCGCTTCAAAGTACCTCTCTTTTAGAGCGGTGTATTTTGTAGCATATCACCGACTTTGA
TAGCGCACAAAATGGTTCGTTCCGTCGATACTCCATGCCACACCAGCGGAGGTCGTCAGGCGAGGACGTTGGATC
GGCGGTTTGACTATTTTAGAGTTCACTTCTACAATCCTCCTGGACGGCTTGTACTTTGGTATCATTTGGTAGCGC
TTATCGAACTTCATTCTTTT
Length 1970

Gene

Sequence id CopciAB_500000.T0
Sequence >CopciAB_500000.T0
ATTGACCGCGATGGCGAAAGGGCTTCGCATAGCGTCTGACTCAATCCCTGAGCATGAACCGGCAACCCCACCTCC
CGATAGGAGTTCTCCCATCCACAAATTTACTCCAACCGACATTTCTGACATTACTTCGCATCCTACAGTGAAGAT
TGGCGACATCCTCCATTTGCTGGCCAATAGCACAGTGTCGCGTCTTCCTGAGCCAAAACCAGGGAAGGGCGACCC
TACTCCCCCTTCTAGCCACGGCCATGTACACCCTTATGATTCTCGACAATTCAAAGCCCCCAATCTCTACTTGAC
GCGCGAAGTTCTTGACGCTACCGTCGCCACTCAGCCTCGTCTCGAAACATTTATTGAGGAGTTTCGAATGAAGCG
CATCAGCGAATACGACGAGGGGGAATTCACAAACAAGATAGTGGGACCTCTGGTGGGGATCTTTATTCGGATCTT
CGCTTTTGGAACGGGAGTGTCCAAGGGATGGTACATCGCTCCGCCAGCCTTCTATGACGATACCAGCGGGCGAAA
GCTGGAGTTGGATGTTATCATAGAGGATTCTGAACAGGTGGTGACAGCCATTGAGATGAAGACGCCGCGCTCCTG
CAATGACTCGAACATCAGAGCATTCTCAAGTCCAGTCACTGGCATGGATCAGAAAGCTAAGGAAATACGCGACCA
GGTGGGTGAAGGGGTGGGTGGCTGAGGTGCATCAAACTGACGACCTTTGGCCAACTAGGTTGGAAAACAAGGGAA
GTTTCTGAAAGGATTGCACCCGAAGAAGCCCTTTGTCCTCCACGGATTGTCAGTCGCTCCTGCGCACTTGATCCC
CCTAGCTTCGAATGGAAGTGATTGCTTTGCAATTGGCTCGGACGTTATGAACGTCTCTAGGAAATGTGGGTGTAA
GCTGTTTTCAACGTTCTTGAACGTCCTGACATCCTTAATAGTCCCCGAGGCCGTACGTGATGTGAAGAATTGGGT
TGAATACATCGACAAACTTGCGGCCTTCACTCTGGCGATGGTCTGTCTGCACGACGAGTACGCAGCCAAAGAGGT
TGGCAGCCGCTTCCCGGAGCAGAAGAAGCAGCTCGATGAGCTTTATGCGGCCGCCGGTGAGGCACTCGAGCTTAC
CTTTTTCGAGGTCTTGTTCAACCTTTTCTCGACTTGCCTCTGTTACCTTCAGACGGCTGTCTCTCTCCCGCTGCT
GCTATTGGCTCAAACGTTACAGTGGTTCCGTCCGATCAACAGCCTGAAACCGATGCGATGTAATACGGTTTCTCT
CAATTCAAGGTCGGTACCCCCCGGCTGTAACCTCACTTGCGACTGATCCCCTTCCTCCAGTAGCTGGTTCTCTCT
CGCCCTCAAACTGCCCGAAGCGTCCGCGGTCTACGAGTCTCATGAGAACATCGTCTATGTACATTCTCGCTGGGG
TATCAGACTCGTCATCAAAGTCTTCGGCGAGCAATCGTCGTACGCGAAAGAGCTCGTCTCCTATCAGCGTCTGGA
GAAGCTGCAAGGGAAGGGAATCCCCGTTCTCTACGCCACTGGCACCATGAATGCACGCCCATGCCTCGTGTTGTC
ATACGAAGGTGAGAGACTCCGCGAAGGTCCCACGGATGACCAAAAGTACGTGAATCCTCTTCTTTGGCGCCCACA
GCATCTAATCGATGATTGATATACGCAAGAGCCACTCTTTACCCGGTTGTAAAGGCAATGCACGATCTAGATATC
CACCACCACGACCTCCATCGGCGGAACGTCGTCCAAGATTCGAGCGGAAAGCTCACCCTTATCGACTTTGGCCTC
TCGGAACCCTGTACTAGGAAGGGCTGCGAAGACGACTGGCAAGCCGACGAATGGTACTGAGGTGGACTACTTGGG
CGATACTCTGCCTTCCACGTATATCTATCCAATTCTGCTGTCTCTGCTTGGAATTGACCACGACCATCCGTTGCA
GTTAGGTAGCCGCTTCAAAGTACCTCTCTTTTAGAGCGGTGTATTTTGTAGCATATCACCGACTTTGATAGCGCA
CAAAATGGTTCGTTCCGTCGATACTCCATGCCACACCAGCGGAGGTCGTCAGGCGAGGACGTTGGATCGGCGGTT
TGACTATTTTAGAGTTCACTTCTACAATCCTCCTGGACGGCTTGTACTTTGGTATCATTTGGTAGCGCTTATCGA
ACTTCATTCTTTT
Length 2188