CopciAB_372036
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_372036 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 372036
Uniprot id Functional description Aryl-alcohol oxidase
Location scaffold_1:135301..137759 Strand +
Gene length (nt) 2459 Transcript length (nt) 1901
CDS length (nt) 1851 Protein length (aa) 616

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 38.1648 5.7935 3.3449
oidia 56.5581 3.1013 1.7905
vegetative_mycelium 57.6781 4.5403 2.6214
primordia 5.7579 0.9336 0.539
hyphal_knot 52.9578 5.049 2.915
young_fruiting_body 5.7591 0.4884 0.282
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 11.2623 6.9855 4.0331
Wheat bran 16.348 3.9649 2.2891
Horse manure 8.8231 2.8933 1.6705
Oak leaves 6.4405 2.4545 1.4171
Hay 9.2349 1.3173 0.7606
Corn stalk 6.3749 0.1815 0.1048
Pectine 12.9822 2.6661 1.5393
Microcrystalline cellulose 3.2924 0.5319 0.3071
Xylose 22.7401 4.8639 2.8082
Cellobiose 36.9406 1.1617 0.6707
Lignin 5.1072 1.5959 0.9214
Apple peels 16.7023 0.899 0.5191
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 29.2842 2.9438 1.6996
Bsubtilis 29.3159 2.8176 1.6267
Ecoli 27.1631 3.1214 1.8021
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 0.2886 0.1492 0.0861
BS 4h 0.1711 0.0825 0.0476
BS 8h 0.1242 0.1128 0.0651
BS 12h 0.1322 0.1647 0.0951
Oidia 0 h 1.067 0.4118 0.2377
Oidia 18 h 0.1118 0.0478 0.0276
Sclerotia 20.1036 4.7172 2.7235
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 19.6965 4.6033 2.6577
DM 36h 19.3992 3.0475 1.7595
DM 60h 20.0138 3.6035 2.0805
DM 84h 15.4955 0.2504 0.1446
DM 108h 16.8023 1.5173 0.876
DM 132h 18.0989 2.9584 1.7081
DM 156hAE 9.3297 0.4601 0.2656
ELI1hAE 14.7149 1.8464 1.066
ELI2hAE 17.9204 2.6452 1.5272
LI2hAE 15.7446 4.3255 2.4973
LI6hAE 11.6266 1.8486 1.0673
LI12hAE 12.1764 2.0735 1.1971
LI18hAE 13.4261 5.15 2.9733
LI 24hAE 14.1213 5.7182 3.3014
DM 156hAM 18.8182 1.6354 0.9442
ELI1hAM 25.935 8.2093 4.7396
ELI2hAM 23.7349 6.7872 3.9186
LI2hAM 18.5049 4.5414 2.622
LI6hAM 18.9016 3.4004 1.9632
LI12hAM 27.3291 6.2962 3.6351
LI18hAM 15.9463 2.9529 1.7048
LI 24hAM 15.7398 5.4531 3.1484
LI 24hHK 29.5538 10.9603 6.328
L/D 6h 9.7341 2.1423 1.2369
L/D 12h 7.489 2.6003 1.5013
L/D 18h 7.1348 0.5668 0.3272
L/D 24h 5.3398 0.6548 0.378
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 33.394 4.4449 2.5662
Hyphal knots 12.098 2.8621 1.6524
Primordium 1 8.8735 3.1947 1.8445
Primordium 2 10.9367 3.2653 1.8852
Young Fruiting body cap 5.3837 0.893 0.5156
Younf fruiting body gill 10.3668 3.0226 1.7451
Young fruiting body stipe 5.659 2.6252 1.5157
Mature fruiting body cap_gill 11.1632 0.6315 0.3646
Mature fruiting body stipe 11.8424 1.2993 0.7502
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 26.0021 4.459 2.5744
NH4NO3 40.7501 3.3377 1.927
Proline 56.1134 9.3221 5.3821
Tryptophan 44.892 18.1996 10.5075
Isoleucin 67.2187 2.1323 1.2311
Arginine 27.2391 1.5187 0.8768
Metionine 29.8607 3.1282 1.806
NaNO3 33.5313 3.8628 2.2302
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 26.0021 4.459 2.5744
Citrus peel 56.4303 5.0239 2.9006
Poplar leaves 19.6493 1.8973 1.0954
Typha leaves 30.6264 7.9798 4.6071
Overwintered Salix leaves 32.4206 6.7807 3.9148
Reed flowering 43.6659 15.6797 9.0527
Tigernut 24.0868 3.1863 1.8396
Energy cane 25.2104 6.2479 3.6073
Guar gum 43.5914 26.2136 15.1344
Apple peels 34.1889 7.148 4.1269
Cellobiose 40.2829 0.6856 0.3959
Corn stalk 26.2603 1.9083 1.1017
Horse manure 24.2003 7.6143 4.3961
Lignin 57.8391 16.0338 9.2571
Microcrystalline cellulose 45.4942 9.8701 5.6985
Oak leaves 20.3539 1.096 0.6328
Pectin esterified 42.6053 7.8307 4.521
Poplar sawdust 27.2771 0.5643 0.3258
Wheat bran 30.3547 1.6346 0.9437
Chlamydomonas reinhardtii 19.5499 3.7741 2.179
Vertatryl alcohol 151.7641 1.9029 1.0987
Furfural 53.9034 14.9903 8.6547
Autoclaved mycelium 25.5064 2.2119 1.2771
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 140.6917 16.1805 9.3418
Ribose 88.2145 12.2233 7.0571
Mannose 88.7608 6.0564 4.2825
Fructose 99.425 7.4006 4.2727
Arabinose 87.4247 10.1264 5.8465
Xylose 93.9438 8.6185 4.9759
Galacturonic acid 106.1668 27.8691 16.0902
Rhamnogalacturonan 97.249 12.0686 6.9678
Pectin esterified 109.3859 7.7344 4.4655
Polygalacturonic acid 98.9766 8.8464 5.1075
Sodium acetate 73.9 3.2576 1.8808
No nitrogen 166.7609 23.0429 13.3038
BSA 89.5569 3.4887 2.0142
Glutamine 83.2553 12.5576 7.2501
No phosphate 130.137 10.9978 6.3496
No carbon 69.648 3.6531 2.5831
No sulphur 83.8068 7.6218 4.4005
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 26.0021 4.459 2.5744
Amylose 21.2331 1.2753 0.7363
Fucose 25.4055 3.5765 2.0649
Galactose 28.6858 2.7543 1.5902
Lactose 44.5128 5.3547 3.0916
Maltose 35.5896 8.8798 5.1267
Mannitol 44.1011 11.8677 6.8518
Rhamnose 34.1966 2.9027 1.6759
Sorbitol 33.2179 0.6475 0.3739
Trehalose 31.0527 5.3707 3.1008
Glycerol 38.7586 2.7429 1.5836
Glucuronic acid 26.5206 6.8419 3.9502
Arabinan 27.5456 9.5615 5.5203
Galactan 33.7487 2.5831 1.4914
Galactomannan 24.1507 6.3351 3.6576
Glucan 39.0656 2.4568 1.4185
Xylan 23.2268 2.7738 1.6015
Xyloglucan 13.9886 0.8015 0.4627
Arabinogalactan 22.2937 0.8211 0.474
Pectin 42.3071 9.9815 5.7628
Rhamnogalacturonan 55.3631 11.3068 6.528
Polygalacturonic acid 34.0384 2.121 1.2246
Mannan 28.5745 1.8894 1.0909
Amylopectin 35.7489 8.7687 5.0626
Inulin 20.148 4.8214 2.7836
BSA 29.1616 2.7029 1.5605
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 20.0138 3.6035 2.0805
2h WAT 21.8134 2.2502 1.2992
4h WAT 23.2951 1.7194 0.9927
8h WAT 34.0052 7.6466 4.4147
16h WAT 19.6786 2.7059 1.5622
24h WAT 22.3779 2.6766 1.5453
WAT hyphal knot -30h 13.1731 4.5887 2.6493
WAT hyphal knot -22h 6.4821 1.5657 0.904
WAT hyphal knot -15h 11.4982 1.5276 0.8819
WAT hyphal knot -7.5h 16.9425 2.3965 1.3836
WAT hyphal knot 17.1657 5.9079 3.4109
WAT hyphal knot +7.5h 13.0402 3.6716 2.1198
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 57.5408 9.2974 5.3678
Straw 3h 42.9179 5.3746 3.103
Straw 6h 38.7567 7.3502 4.2437
Straw 12h 27.4661 3.8169 2.2037
Straw 24h 20.5057 1.2275 0.7087
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 28.0882 3.6286 2.095
Frost (-20C, 30min) 33.0162 4.0532 2.3401
Heat shock (47C, 2h) 3.5451 0.3882 0.2241
High CO2 28.5695 6.2278 3.5956
Drought (4% agar, 12h) 64.5236 4.2375 2.4465
Oxidative (1mM H2O2, 3h) 23.1865 1.8144 1.0475
Acidic (pH4, 3h) 35.4785 6.1729 3.5639
Alkaline (pH9, 3h) 24.0661 1.7543 1.0128
Osmotic (sorbitol 2h) 38.1004 5.9113 3.4129
CongoRed (3h) 27.5705 3.5769 2.0652
Cobalt chloride control 21.8848 0.2931 0.1692
Cobalt chloride 2mM 41.1641 11.2167 6.476
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 28.7385 23.8138 13.7489
Cold stimulation 15.813 6.1853 3.5711
Scratched surface 20.6762 1.0832 0.6254
Ca2+, 200mM, 24h 37.2522 4.0397 2.3323
Cu2+, 2mM, 6h 20.1671 2.0813 1.2016
Voriconazole 18.6954 5.6171 3.2431
Trichoderma interaction, early 22.7287 4.2447 2.4507
Trichoderma interaction 60h 12.8249 4.8855 2.8206
Cobalt chloride 2mM repeat 2.4899 1.0681 0.6166
Hypoxia 22.4698 2.1393 1.2351
Hypoxia control 24.0166 5.339 3.0824
Protoplastation control 26.1751 2.1713 1.5354
Protoplastation 3.5h 10.5971 7.7688 5.4934
Protoplastation 1.5h 19.7661 1.7993 1.2723

General data

Systematic name -
Protein id CopciAB_372036.T0
Description Aryl-alcohol oxidase

Annotation summary

0 200 400 600 616

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF00732 GMC oxidoreductase IPR000172 41 367
Pfam PF05199 GMC oxidoreductase IPR007867 459 599

SignalP

Prediction Start End Score
SP(Sec/SPI) 1 23 0.8409

Transmembrane domains

Domain n Start End Length
1 7 26 19

InterPro

Accession Description
IPR036188 FAD/NAD(P)-binding domain superfamily
IPR007867 Glucose-methanol-choline oxidoreductase, C-terminal
IPR000172 Glucose-methanol-choline oxidoreductase, N-terminal
IPR012132 Glucose-methanol-choline oxidoreductase

GO

Go id Term Ontology
GO:0016614 oxidoreductase activity, acting on CH-OH group of donors MF
GO:0050660 flavin adenine dinucleotide binding MF

KEGG

KEGG Orthology
K00108
K20154

EggNOG

COG category Description
E Aryl-alcohol oxidase

CAZy

Class Family Subfamily
AA AA3 AA3_2

Transcription factor

Group
No records

Conservation of CopciAB_372036 across fungi.

Arrow shows the origin of gene family containing CopciAB_372036.

Protein

Sequence id CopciAB_372036.T0
Sequence >CopciAB_372036.T0
MVRQPFAFVLATLLPFVVTLVTGQVAQNVFDVHGDIVDEDYDFIIVGGGTAGSVLASRLSENADWKVLLVEAGPD
NDGVQDLQIPYYWLRINSTYNWNYVTTPQVGLGNRSIEFPRGRVLGGSSSINAMSYTRGAKDDYDLWGRVTKDER
WGWDALWPYMLRNEQWTPPLGGRDPTGQFDPQYHNTESGKTVVSLPQDEETEYDRRALRKIELDSHQHRDFRFNL
DVNSGSPAGLSWNQDSVGNGERSSAATAYLSREVRERANLRILVDTSATRVLPTTEGSELDIRTVEVTIRGGPGN
PSSDISNSNATRTMTAKKELMILSAGAFNTPHILMNSGIGDENELRVVGVTPIHHLPAVGKGMSDHPSVRLRWGT
TFTPQPLDEAAALLQWQTNRTGPLAKPTDHLYLYYRLPNDSVVFEGYDDPSPGPTAVHFELPLWAMPMEESGPVL
PGDLILLTPYSRGSVKLRSSNPFDPPLIDVGYFTHPFDFDAMREGIRIAKQFYEGEAWEGFIMHFIGPDPDTLSE
EDFEQSVKENTETLSHPIGTTSMSAVDDPLDKGVVDPELRVKGVKGLRIVDAGVIPYVTSGHTQVPVYVLAERAA
DLVRESWEEVREVVVC
Length 616

Coding

Sequence id CopciAB_372036.T0
Sequence >CopciAB_372036.T0
ATGGTCAGGCAACCTTTCGCGTTTGTTCTCGCTACCCTACTACCATTCGTTGTCACGCTCGTCACTGGGCAAGTT
GCACAAAACGTATTCGACGTCCATGGTGACATCGTCGATGAAGACTACGACTTCATCATTGTAGGAGGTGGAACG
GCGGGATCTGTTCTCGCTTCTCGTCTCTCTGAGAATGCGGATTGGAAGGTTCTACTGGTGGAAGCCGGACCAGAC
AATGACGGCGTTCAAGACCTTCAGATACCCTATTACTGGCTACGAATCAACAGCACTTACAATTGGAATTACGTT
ACTACACCTCAGGTTGGGCTGGGTAATCGGTCGATTGAGTTTCCGAGAGGAAGGGTGCTTGGTGGGAGTAGTTCG
ATAAATGCGATGTCGTACACTCGAGGAGCGAAGGACGACTACGATCTTTGGGGGCGAGTCACGAAAGACGAGAGA
TGGGGCTGGGACGCCTTATGGCCCTACATGCTTCGAAACGAACAATGGACACCGCCCCTAGGAGGACGTGATCCA
ACAGGCCAATTCGACCCTCAATACCACAATACAGAGAGTGGTAAAACGGTCGTTTCGCTACCTCAAGATGAGGAG
ACGGAATATGACAGGCGAGCGCTCAGGAAGATCGAACTCGATTCTCATCAACATCGCGATTTCCGGTTTAATTTG
GATGTTAATTCGGGGAGTCCAGCAGGTCTCAGTTGGAATCAAGATTCCGTCGGAAATGGGGAGAGGAGCAGTGCT
GCGACCGCTTACCTGTCAAGAGAAGTAAGAGAGCGTGCTAATTTGAGAATATTAGTCGATACATCCGCGACGAGG
GTTTTACCCACCACCGAAGGTAGCGAGTTGGACATTCGAACAGTGGAAGTGACAATTCGAGGCGGTCCTGGGAAT
CCAAGCTCTGACATATCGAATTCAAACGCCACTCGGACGATGACAGCAAAGAAAGAACTGATGATCCTCTCAGCT
GGAGCGTTTAACACCCCACACATCCTCATGAACTCCGGGATCGGCGACGAGAACGAGCTGCGAGTGGTTGGAGTG
ACGCCAATCCATCATCTCCCCGCCGTCGGTAAAGGGATGAGCGATCATCCAAGTGTCAGACTCAGATGGGGGACA
ACGTTTACTCCACAGCCCTTGGACGAGGCTGCAGCTCTACTTCAGTGGCAAACGAATCGTACTGGGCCGCTGGCA
AAGCCCACGGACCACTTGTATCTATACTACAGGTTACCGAACGACTCTGTAGTCTTTGAGGGTTATGACGATCCT
TCCCCAGGGCCGACGGCTGTCCACTTCGAGTTGCCTCTCTGGGCAATGCCCATGGAGGAATCTGGACCCGTCTTA
CCTGGCGATCTCATCCTCCTGACACCGTATTCCCGCGGGTCCGTGAAACTTCGCTCCTCCAACCCCTTCGATCCA
CCTCTAATCGACGTCGGGTACTTCACTCACCCATTCGACTTTGACGCCATGAGGGAAGGTATCCGCATTGCCAAG
CAGTTCTACGAAGGCGAAGCTTGGGAGGGCTTCATCATGCACTTCATAGGACCCGATCCAGACACACTCTCGGAG
GAAGACTTTGAGCAGAGCGTCAAGGAGAACACGGAGACGCTGTCTCACCCTATTGGGACGACATCCATGTCAGCG
GTAGACGATCCGTTGGACAAGGGTGTTGTCGATCCAGAGTTGAGAGTCAAGGGCGTGAAGGGGTTGAGAATTGTC
GATGCTGGTGTGATTCCGTATGTGACGTCTGGTCATACTCAGGTACCTGTGTATGTCCTGGCTGAGAGAGCAGCC
GATCTCGTTCGAGAGTCGTGGGAGGAAGTACGAGAAGTCGTGGTCTGTTGA
Length 1851

Transcript

Sequence id CopciAB_372036.T0
Sequence >CopciAB_372036.T0
GGATTTCCTTATCTATGCACCGCCATGGTCAGGCAACCTTTCGCGTTTGTTCTCGCTACCCTACTACCATTCGTT
GTCACGCTCGTCACTGGGCAAGTTGCACAAAACGTATTCGACGTCCATGGTGACATCGTCGATGAAGACTACGAC
TTCATCATTGTAGGAGGTGGAACGGCGGGATCTGTTCTCGCTTCTCGTCTCTCTGAGAATGCGGATTGGAAGGTT
CTACTGGTGGAAGCCGGACCAGACAATGACGGCGTTCAAGACCTTCAGATACCCTATTACTGGCTACGAATCAAC
AGCACTTACAATTGGAATTACGTTACTACACCTCAGGTTGGGCTGGGTAATCGGTCGATTGAGTTTCCGAGAGGA
AGGGTGCTTGGTGGGAGTAGTTCGATAAATGCGATGTCGTACACTCGAGGAGCGAAGGACGACTACGATCTTTGG
GGGCGAGTCACGAAAGACGAGAGATGGGGCTGGGACGCCTTATGGCCCTACATGCTTCGAAACGAACAATGGACA
CCGCCCCTAGGAGGACGTGATCCAACAGGCCAATTCGACCCTCAATACCACAATACAGAGAGTGGTAAAACGGTC
GTTTCGCTACCTCAAGATGAGGAGACGGAATATGACAGGCGAGCGCTCAGGAAGATCGAACTCGATTCTCATCAA
CATCGCGATTTCCGGTTTAATTTGGATGTTAATTCGGGGAGTCCAGCAGGTCTCAGTTGGAATCAAGATTCCGTC
GGAAATGGGGAGAGGAGCAGTGCTGCGACCGCTTACCTGTCAAGAGAAGTAAGAGAGCGTGCTAATTTGAGAATA
TTAGTCGATACATCCGCGACGAGGGTTTTACCCACCACCGAAGGTAGCGAGTTGGACATTCGAACAGTGGAAGTG
ACAATTCGAGGCGGTCCTGGGAATCCAAGCTCTGACATATCGAATTCAAACGCCACTCGGACGATGACAGCAAAG
AAAGAACTGATGATCCTCTCAGCTGGAGCGTTTAACACCCCACACATCCTCATGAACTCCGGGATCGGCGACGAG
AACGAGCTGCGAGTGGTTGGAGTGACGCCAATCCATCATCTCCCCGCCGTCGGTAAAGGGATGAGCGATCATCCA
AGTGTCAGACTCAGATGGGGGACAACGTTTACTCCACAGCCCTTGGACGAGGCTGCAGCTCTACTTCAGTGGCAA
ACGAATCGTACTGGGCCGCTGGCAAAGCCCACGGACCACTTGTATCTATACTACAGGTTACCGAACGACTCTGTA
GTCTTTGAGGGTTATGACGATCCTTCCCCAGGGCCGACGGCTGTCCACTTCGAGTTGCCTCTCTGGGCAATGCCC
ATGGAGGAATCTGGACCCGTCTTACCTGGCGATCTCATCCTCCTGACACCGTATTCCCGCGGGTCCGTGAAACTT
CGCTCCTCCAACCCCTTCGATCCACCTCTAATCGACGTCGGGTACTTCACTCACCCATTCGACTTTGACGCCATG
AGGGAAGGTATCCGCATTGCCAAGCAGTTCTACGAAGGCGAAGCTTGGGAGGGCTTCATCATGCACTTCATAGGA
CCCGATCCAGACACACTCTCGGAGGAAGACTTTGAGCAGAGCGTCAAGGAGAACACGGAGACGCTGTCTCACCCT
ATTGGGACGACATCCATGTCAGCGGTAGACGATCCGTTGGACAAGGGTGTTGTCGATCCAGAGTTGAGAGTCAAG
GGCGTGAAGGGGTTGAGAATTGTCGATGCTGGTGTGATTCCGTATGTGACGTCTGGTCATACTCAGGTACCTGTG
TATGTCCTGGCTGAGAGAGCAGCCGATCTCGTTCGAGAGTCGTGGGAGGAAGTACGAGAAGTCGTGGTCTGTTGA
ATGCAACGAGGATTTTGCATGCCCCG
Length 1901

Gene

Sequence id CopciAB_372036.T0
Sequence >CopciAB_372036.T0
GGATTTCCTTATCTATGCACCGCCATGGTCAGGCAACCTTTCGCGTTTGTTCTCGCTACCCTACTACCATTCGTT
GTCACGCTCGTCACTGGGCAAGTTGCACAAAACGTATTCGACGTCCATGGTGACATCGTCGATGAAGACTACGAC
TTCATCATTGTAGGAGGTGGAACGGCGGGATCTGTTCTCGCTTCTCGTCTCTCTGAGAATGCGGATTGGAAGGTT
CTACTGGTGGAAGCCGGACCAGAGTGCGTCTTCAGAGGCATTCGAGTTTCGCTAGCTGACAACCCGACTACTATC
CCTTCATGAAGCAATGACGGCGTTCAAGACCTTCAGATACCCTATTACTGGCTACGAATCAACAGCACTTACAAT
TGGAATTACGTTACTACACCTCAGGTTGGGCTGGGTAATCGGTCGATTGAGTTTCCGAGAGGAAGGGTGCTTGGT
GGGAGTAGTTCGATAAGTGGGTATCGCTAAGTTTCTCACGACGTACTATGGAGGAATGTGGGAAGCTGATTTGGA
CATGCATAGATGCGATGTCGTACACTCGAGGAGCGAAGGACGACTACGATCTTTGGGGGCGAGTCACGAAAGACG
AGAGATGGGGCTGGGACGCCTTATGGCCCTACATGCTTCGAGTGCGCCCTCTTCTCCCTCCCTTCTTCCTCCTTC
CGCCTTTGCTGTCTTCCTAACCACCGTCTTCCGTGGTTCTAGAACGAACAATGGACACCGCCCCTAGGAGGACGT
GATCCAACAGGCCAATTCGACCCTCAATACCACAATACAGAGAGTGGTAAAACGGTCGTTTCGCTACCTCAAGAT
GAGGAGACGGAATATGACAGGCGAGCGCTCAGGAAGATCGAACTCGATTCTCATCAACATCGCGATTTCCGGTTT
AATTTGGATGTTAATTCGGGGAGTCCAGCAGGTCTCAGTGCGTATTCTAGCTGTACCCTCTATGTGGACAAGCAT
GGATTGACGCCGGAATGGCAGGTTGGAATCAAGATTCCGTCGGAAATGGGGAGAGGAGCAGTGCTGCGACCGCTT
ACCTGTCAAGAGAAGTAAGAGAGCGTGCTAATTTGAGAATATTAGTCGATACATCCGCGACGAGGGTTTTACCCA
CCACCGAAGGTAGCGAGTTGGACATTCGAACAGTGGAAGTGACAATTCGAGGCGGTCCTGGGAATCCAAGTACGT
TCTCTTCCTGTCATTTAGCCCTTTCACCTTCAGCCCTTTCACCAGGCTCTGACATATCGAATTCAAACGCCACTC
GGACGATGACAGCAAAGAAAGAACTGATGATCCTCTCAGCTGGAGCGTTTAACACCCCACACATCCTCATGAACT
CCGGGATCGGCGACGAGAACGAGCTGCGAGTGGTTGGAGTGACGCCAATCCATCATCTCCCCGCCGTCGGTAAAG
GGATGAGCGATCATCCAAGTGTCAGACTCAGATGGGGGACAACGTTTACTCCACAGCCGTGCGTTCATTTTACTC
CTAGTTGGTTCTCACTGAGCACAGGATTGACTGATCATCCCTCATTTAGCTTGGACGAGGCTGCAGCTCTACTTC
AGTGGCAAACGAATCGTACTGGGCCGCTGGCAAAGCCCACGGACCACTTGTATCTATACTACAGGTTACCGAACG
ACTCTGTAGTCTTTGAGGGTTATGACGATCCTTCCCCAGGGCCGACGGCTGTCCACTTCGAGTTGCCTCTCTGGG
TAGGTTCTTTGCAAGATGTAGAGTCGAGAGTCTGACCGATATGTCCAACTAGGCAATGCCCATGGAGGAATCTGG
ACCCGTCTTACCTGGCGATCTCATCCTCCTGACACCGTATTCCCGTACGTCTAAGCTTCCCTCTCCCGAAAACTT
GACAGACTGAATGGACACCCTTGTTGAAGGCGGGTCCGTGAAACTTCGCTCCTCCAACCCCTTCGATCCACCTCT
AATCGACGTCGGGTACTTCACTCACCCATTCGACTTTGACGCCATGAGGGAAGGTATCCGCATTGCCAAGCAGTT
CTACGAAGGCGAAGCTTGGGAGGGCTTCATCATGCACTTCATAGGACCCGATCCAGACACACTCTCGGAGGAAGA
CTTTGAGCAGAGCGTCAAGGAGAACACGGAGACGCTGTCTCACCCTATTGGGACGACATCCATGTCAGCGGTAGA
CGATCCGTTGGACAAGGGTGTTGTCGATCCAGAGTTGAGAGTCAAGGGCGTGAAGGGGTTGAGAATTGTCGATGC
TGGTGTGATTGTGAGTTCCTTTCCGTGGCTGGGTGGTTTGGGATAGCTTGCTAATCGTGGTGGGGCGGATAGCCG
TATGTGACGTCTGGTCATACTCAGGTACCTGTGTATGTCCTGGCTGAGAGAGCAGCCGATCTCGTTCGAGAGTCG
TGGGAGGAAGTACGAGAAGTCGTGGTCTGTTGAATGCAACGAGGATTTTGCATGCCCCG
Length 2459