CopciAB_514476
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_514476 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 514476
Uniprot id Functional description Aryl-alcohol oxidase
Location scaffold_11:1362155..1365303 Strand -
Gene length (nt) 3149 Transcript length (nt) 2515
CDS length (nt) 1245 Protein length (aa) 414

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 7.5074 0.8579 0.4953
oidia 7.3083 0.4918 0.2839
vegetative_mycelium 6.8063 0.6571 0.3794
primordia 11.7879 1.5083 0.8708
hyphal_knot 6.9651 0.8097 0.4675
young_fruiting_body 23.2133 3.4123 1.9701
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 8.052 1.923 1.1102
Wheat bran 19.7681 2.3181 1.3384
Horse manure 12.914 2.357 1.3608
Oak leaves 10.3263 2.2885 1.3212
Hay 19.4649 3.0584 1.7657
Corn stalk 17.9418 1.1594 0.6694
Pectine 15.2725 2.1422 1.2368
Microcrystalline cellulose 15.8578 3.8046 2.1966
Xylose 12.385 1.9091 1.1022
Cellobiose 9.8629 1.5607 0.9011
Lignin 8.6391 3.22 1.8591
Apple peels 11.0491 2.2679 1.3093
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 7.612 0.3025 0.1747
Bsubtilis 7.0126 0.4779 0.2759
Ecoli 6.3459 1.1165 0.6446
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 11.4733 0.9235 0.5332
BS 4h 6.7312 1.3979 0.8071
BS 8h 7.4672 1.6574 0.9569
BS 12h 10.2709 2.2041 1.2725
Oidia 0 h 6.4584 1.3281 0.7668
Oidia 18 h 5.8987 1.6385 0.946
Sclerotia 2.6212 0.9613 0.555
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 4.8833 0.5763 0.3327
DM 36h 4.6389 1.0772 0.6219
DM 60h 4.6658 0.6413 0.3702
DM 84h 4.3111 1.3048 0.7534
DM 108h 4.2923 0.1477 0.0853
DM 132h 4.1582 0.6593 0.3807
DM 156hAE 2.8887 0.5326 0.3075
ELI1hAE 5.5267 0.9987 0.5766
ELI2hAE 3.6517 0.4948 0.2856
LI2hAE 4.0333 0.6974 0.4027
LI6hAE 2.3979 0.4243 0.245
LI12hAE 4.6691 0.5335 0.308
LI18hAE 3.8679 0.9919 0.5727
LI 24hAE 2.6327 0.7983 0.4609
DM 156hAM 5.9508 1.3914 0.8033
ELI1hAM 6.7016 1.4052 0.8113
ELI2hAM 6.6963 1.828 1.0554
LI2hAM 6.3145 0.4543 0.2623
LI6hAM 5.1741 1.4558 0.8405
LI12hAM 5.9191 0.2193 0.1266
LI18hAM 6.9201 2.132 1.2309
LI 24hAM 3.701 0.8906 0.5142
LI 24hHK 4.6141 0.3572 0.2062
L/D 6h 3.5248 0.4283 0.2473
L/D 12h 3.9285 1.2403 0.7161
L/D 18h 3.249 1.0503 0.6064
L/D 24h 2.6899 0.6021 0.3476
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 6.5706 0.8077 0.4663
Hyphal knots 5.6691 0.5823 0.3362
Primordium 1 6.9138 1.3865 0.8005
Primordium 2 6.8799 1.0526 0.6077
Young Fruiting body cap 10.2367 5.9576 3.4396
Younf fruiting body gill 12.8079 4.3114 2.4892
Young fruiting body stipe 9.459 3.7962 2.1917
Mature fruiting body cap_gill 5.2873 2.2519 1.3001
Mature fruiting body stipe 21.6475 2.6854 1.5504
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 5.9682 0.6941 0.4007
NH4NO3 6.0123 1.3999 0.8082
Proline 5.557 0.9496 0.5482
Tryptophan 4.3247 0.5902 0.3407
Isoleucin 5.8644 0.7728 0.4461
Arginine 6.4023 1.365 0.7881
Metionine 3.9943 0.2949 0.1703
NaNO3 4.6267 0.7706 0.4449
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 5.9682 0.6941 0.4007
Citrus peel 3.3169 0.6829 0.3943
Poplar leaves 4.1055 0.5362 0.3096
Typha leaves 3.2193 0.6587 0.3803
Overwintered Salix leaves 3.7388 0.732 0.4226
Reed flowering 4.785 0.4787 0.2764
Tigernut 5.9523 0.4999 0.2886
Energy cane 4.2332 0.3938 0.2273
Guar gum 5.2359 0.8503 0.4909
Apple peels 3.1719 0.7453 0.4303
Cellobiose 6.7373 0.5272 0.3044
Corn stalk 3.7493 1.6664 0.9621
Horse manure 3.5241 0.2966 0.1712
Lignin 8.1027 6.8564 3.9585
Microcrystalline cellulose 3.9927 0.9615 0.5551
Oak leaves 4.7278 0.6328 0.3653
Pectin esterified 4.5482 1.2977 0.7492
Poplar sawdust 4.2408 0.9094 0.5251
Wheat bran 5.0074 1.6971 0.9798
Chlamydomonas reinhardtii 4.1163 0.4176 0.2411
Vertatryl alcohol 9.9487 1.3452 0.7766
Furfural 5.9198 1.6977 0.9802
Autoclaved mycelium 5.3385 0.7718 0.4456
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 10.8424 0.196 0.1132
Ribose 8.3961 2.147 1.2396
Mannose 11.2849 1.8479 1.3067
Fructose 10.7014 0.3939 0.2274
Arabinose 8.5384 2.446 1.4122
Xylose 9.3442 1.2637 0.7296
Galacturonic acid 8.8035 1.7029 0.9832
Rhamnogalacturonan 7.406 0.187 0.108
Pectin esterified 9.5949 2.2229 1.2834
Polygalacturonic acid 8.5536 0.0974 0.0563
Sodium acetate 8.7579 1.5534 0.8969
No nitrogen 9.6824 2.0084 1.1595
BSA 8.2609 0.8019 0.463
Glutamine 7.0088 2.661 1.5363
No phosphate 8.1515 0.181 0.1045
No carbon 8.066 0.6978 0.4934
No sulphur 10.0273 2.8584 1.6503
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 5.9682 0.6941 0.4007
Amylose 5.4843 1.3041 0.7529
Fucose 4.9659 0.3874 0.2237
Galactose 5.4564 0.6616 0.3819
Lactose 6.4992 0.5647 0.326
Maltose 5.497 1.1172 0.645
Mannitol 6.5767 1.2399 0.7159
Rhamnose 4.7836 0.1427 0.0824
Sorbitol 4.8913 0.8826 0.5095
Trehalose 5.7146 0.7499 0.433
Glycerol 4.4224 0.9638 0.5564
Glucuronic acid 6.3011 0.8256 0.4767
Arabinan 5.277 0.7072 0.4083
Galactan 4.7369 1.0724 0.6192
Galactomannan 5.3319 1.8521 1.0693
Glucan 5.0303 0.5982 0.3454
Xylan 5.0348 1.0131 0.5849
Xyloglucan 5.9597 1.2662 0.731
Arabinogalactan 4.2076 0.6336 0.3658
Pectin 5.6658 1.5384 0.8882
Rhamnogalacturonan 6.2333 0.5306 0.3063
Polygalacturonic acid 5.5065 1.9516 1.1267
Mannan 5.8478 1.1367 0.6562
Amylopectin 4.7168 1.302 0.7517
Inulin 5.1509 0.5669 0.3273
BSA 4.8082 1.0853 0.6266
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 4.6658 0.6413 0.3702
2h WAT 6.1539 1.4235 0.8218
4h WAT 4.8052 1.3853 0.7998
8h WAT 5.5829 0.7668 0.4427
16h WAT 5.7113 1.1335 0.6544
24h WAT 3.2473 1.1031 0.6369
WAT hyphal knot -30h 5.5728 0.351 0.2026
WAT hyphal knot -22h 4.0628 1.6851 0.9729
WAT hyphal knot -15h 3.6239 1.0966 0.6331
WAT hyphal knot -7.5h 3.3591 1.8622 1.0752
WAT hyphal knot 4.7484 1.2385 0.7151
WAT hyphal knot +7.5h 3.8056 1.1097 0.6407
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 4.0331 1.3236 0.7642
Straw 3h 3.852 1.9843 1.1457
Straw 6h 2.4714 1.5553 0.898
Straw 12h 4.3331 0.5314 0.3068
Straw 24h 4.1085 1.3087 0.7556
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 3.1408 0.9696 0.5598
Frost (-20C, 30min) 5.9523 0.6085 0.3513
Heat shock (47C, 2h) 10.4412 3.9229 2.2649
High CO2 4.0307 0.5547 0.3203
Drought (4% agar, 12h) 5.9801 0.8695 0.502
Oxidative (1mM H2O2, 3h) 9.3877 0.1829 0.1056
Acidic (pH4, 3h) 4.9286 1.167 0.6738
Alkaline (pH9, 3h) 4.3636 1.3973 0.8067
Osmotic (sorbitol 2h) 6.5011 0.9372 0.5411
CongoRed (3h) 4.2617 0.8706 0.5026
Cobalt chloride control 3.7234 0.2804 0.1619
Cobalt chloride 2mM 4.9875 2.1858 1.262
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 4.8363 1.0362 0.5983
Cold stimulation 10.9962 3.8992 2.2512
Scratched surface 4.8472 0.3112 0.1797
Ca2+, 200mM, 24h 7.9629 0.9538 0.5507
Cu2+, 2mM, 6h 16.0127 10.0709 5.8144
Voriconazole 4.9948 2.2014 1.271
Trichoderma interaction, early 5.2861 2.529 1.4601
Trichoderma interaction 60h 15.8175 14.5314 8.3897
Cobalt chloride 2mM repeat 6.5538 2.604 1.5034
Hypoxia 6.7788 2.5912 1.496
Hypoxia control 6.4993 1.1291 0.6519
Protoplastation control 3.7945 1.8315 1.2951
Protoplastation 3.5h 2.5444 3.5984 2.5444
Protoplastation 1.5h 8.8848 0.2202 0.1557

General data

Systematic name -
Protein id CopciAB_514476.T0
Description Aryl-alcohol oxidase

Annotation summary

0 100 200 300 400 414

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF00732 GMC oxidoreductase IPR000172 31 344

SignalP

Prediction Start End Score
SP(Sec/SPI) 1 17 0.9677

Transmembrane domains

Domain n Start End Length
No records

InterPro

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

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
No records

EggNOG

COG category Description
E Aryl-alcohol oxidase

CAZy

Class Family Subfamily
AA AA3 AA3_2

Transcription factor

Group
No records

Conservation of CopciAB_514476 across fungi.

Arrow shows the origin of gene family containing CopciAB_514476.

Protein

Sequence id CopciAB_514476.T0
Sequence >CopciAB_514476.T0
MLRTIVVLAALAGSCSAALYQNIKAVPRREYDFIIVGGGTAGSVLANRLSENPRHQVLLIESGPSNEGVLNSIIP
YFHPFLHGSPYDWNFTTSPQTGLDGRVLDYNRGHILGGSSSINAMFWTKGTAEDYDRWAKVTGDPGWSWKSLFKY
SLKIERLVPPVDGHDTTGQVDPSLHGTDGNLKISVSGWPLEVDSRVAGAVEELGEEFKAIVDMNSGEPLGTSWLQ
SSIGDGERSSAAVSYLAPKHLERRNLHVVVNTRVTRVLPSNSKGLRLAFRAVEVATEKNADAPRVKLTAKKEVIL
AAGAVGSPHILLHSGIGNPSDLSALGIKPLVDLPEVGRNLTDHPLVMVLWNANSTTTGDALVRDPIAQAAALEEW
NTTRTGPFTSIGINQVAWLRIPDDAPILPILQRVERLHM
Length 414

Coding

Sequence id CopciAB_514476.T0
Sequence >CopciAB_514476.T0
ATGTTGCGCACCATTGTGGTCCTCGCCGCACTCGCTGGGAGCTGTAGCGCTGCCCTTTACCAGAACATCAAGGCT
GTTCCTCGTCGGGAATATGATTTCATCATTGTCGGTGGTGGAACGGCAGGTTCTGTTCTTGCGAACAGACTTTCA
GAAAACCCTCGTCACCAGGTTCTACTAATCGAATCAGGACCGTCCAACGAGGGCGTTCTGAACTCGATAATTCCT
TATTTTCATCCGTTCCTGCACGGTTCGCCGTATGACTGGAATTTCACCACTTCGCCTCAGACAGGTCTCGATGGC
CGCGTTCTCGATTATAATCGTGGCCATATCCTGGGTGGGAGTTCTTCGATAAATGCCATGTTTTGGACGAAGGGC
ACTGCGGAAGATTATGATCGATGGGCGAAGGTTACAGGAGACCCTGGATGGTCATGGAAGAGTTTGTTCAAGTAC
TCTCTCAAGATTGAACGTCTGGTTCCTCCTGTTGATGGCCACGACACTACTGGCCAGGTTGACCCTTCTCTACAC
GGCACTGATGGAAACCTTAAGATCTCGGTTTCTGGATGGCCTCTTGAAGTCGACTCTCGTGTGGCAGGGGCCGTG
GAGGAGCTGGGAGAGGAATTCAAGGCGATCGTTGATATGAACTCAGGGGAGCCTTTAGGAACGAGTTGGCTCCAG
TCGAGCATTGGCGATGGCGAACGTAGCAGCGCGGCCGTCTCATACCTTGCTCCTAAGCATCTCGAGCGACGAAAC
CTCCACGTTGTGGTGAATACCCGCGTTACGAGGGTGCTCCCCAGTAATAGCAAGGGTCTGCGATTGGCGTTCAGA
GCTGTTGAGGTTGCGACCGAGAAGAATGCTGATGCTCCTCGAGTCAAGCTGACAGCGAAGAAAGAGGTCATCTTA
GCCGCTGGTGCCGTCGGATCTCCTCATATCCTGCTACATTCCGGCATTGGAAATCCAAGTGATCTCAGTGCACTA
GGGATCAAGCCGCTTGTTGACCTCCCAGAAGTGGGAAGGAACCTTACGGATCACCCCTTGGTTATGGTGCTCTGG
AATGCTAACTCTACCACCACTGGGGATGCGCTCGTGCGTGACCCTATTGCCCAAGCAGCAGCATTAGAAGAGTGG
AACACGACGCGTACAGGGCCATTTACCTCTATTGGCATTAATCAAGTTGCGTGGTTGAGGATTCCGGACGACGCC
CCGATCTTGCCGATCCTGCAGCGGGTAGAAAGACTCCACATGTAG
Length 1245

Transcript

Sequence id CopciAB_514476.T0
Sequence >CopciAB_514476.T0
CAAGTTACAACTCTTGACCGCGACCATAACCATCGATTTCTGTCCTCCCGGCACCCAGGCCATACAAAAACAGCA
AGGGCTCTCGTGGACTGTATTTGGTCCTTGGATCAGTGCAATGTGAACATTGACTGGGAACAGTATTATCACGAT
TAAAACGGAACCTCCCGCAAGGGCGATATGGGCGGCTACCAAAGCCTGGGCAAGACCGCGTCGACCTACTGTCTG
GCCAGTGCTCAATAGAGTTGCTGACTTTCTTTCGTTTGTTCAGATAAGAATTGCAAGTTGCAACAAGCAAGGAAT
TCAATGGATACAATGTTACTACCGCCCTTTCTCCCTCTCTACCACATGTCTCCGCCTACCACGGACTCTCGGGTA
CCAAGGGCACCAAGATGGATTAATATCCTCCAGTCGTGAACCTCATTTCGACTCCTCTCAGAGATCTGCGAGGTC
CTATGACCGCTCTGAAACACCGCCTTGCTACGGGCGGCCAAGTGCAACAATGTTTGTTAGCCATCCGGGCTTTTT
TAGCTTGAGAACGAGGTTTTCGCTGCTTCTAAAGACCTCGAGCGCTCCTTCTGTGTTCTTGTGAGAACATTGGGT
TCTCCCATATAAAAACCCTGGATTATTGCTTGCGTTTTTGGCAAGCCTGCCATGTTGCGCACCATTGTGGTCCTC
GCCGCACTCGCTGGGAGCTGTAGCGCTGCCCTTTACCAGAACATCAAGGCTGTTCCTCGTCGGGAATATGATTTC
ATCATTGTCGGTGGTGGAACGGCAGGTTCTGTTCTTGCGAACAGACTTTCAGAAAACCCTCGTCACCAGGTTCTA
CTAATCGAATCAGGACCGTCCAACGAGGGCGTTCTGAACTCGATAATTCCTTATTTTCATCCGTTCCTGCACGGT
TCGCCGTATGACTGGAATTTCACCACTTCGCCTCAGACAGGTCTCGATGGCCGCGTTCTCGATTATAATCGTGGC
CATATCCTGGGTGGGAGTTCTTCGATAAATGCCATGTTTTGGACGAAGGGCACTGCGGAAGATTATGATCGATGG
GCGAAGGTTACAGGAGACCCTGGATGGTCATGGAAGAGTTTGTTCAAGTACTCTCTCAAGATTGAACGTCTGGTT
CCTCCTGTTGATGGCCACGACACTACTGGCCAGGTTGACCCTTCTCTACACGGCACTGATGGAAACCTTAAGATC
TCGGTTTCTGGATGGCCTCTTGAAGTCGACTCTCGTGTGGCAGGGGCCGTGGAGGAGCTGGGAGAGGAATTCAAG
GCGATCGTTGATATGAACTCAGGGGAGCCTTTAGGAACGAGTTGGCTCCAGTCGAGCATTGGCGATGGCGAACGT
AGCAGCGCGGCCGTCTCATACCTTGCTCCTAAGCATCTCGAGCGACGAAACCTCCACGTTGTGGTGAATACCCGC
GTTACGAGGGTGCTCCCCAGTAATAGCAAGGGTCTGCGATTGGCGTTCAGAGCTGTTGAGGTTGCGACCGAGAAG
AATGCTGATGCTCCTCGAGTCAAGCTGACAGCGAAGAAAGAGGTCATCTTAGCCGCTGGTGCCGTCGGATCTCCT
CATATCCTGCTACATTCCGGCATTGGAAATCCAAGTGATCTCAGTGCACTAGGGATCAAGCCGCTTGTTGACCTC
CCAGAAGTGGGAAGGAACCTTACGGATCACCCCTTGGTTATGGTGCTCTGGAATGCTAACTCTACCACCACTGGG
GATGCGCTCGTGCGTGACCCTATTGCCCAAGCAGCAGCATTAGAAGAGTGGAACACGACGCGTACAGGGCCATTT
ACCTCTATTGGCATTAATCAAGTTGCGTGGTTGAGGATTCCGGACGACGCCCCGATCTTGCCGATCCTGCAGCGG
GTAGAAAGACTCCACATGTAGAAATTACTTTCGATAACAGCGCAGGTTTCTCTGGCATCACGGGAGGATACTATA
TGGGTGCTGGCTTGGCTGTTCCAACCCCGTGGTCTCGAGGCTCGCTGACACTTCGAACCTCGAACCCATTCGACC
AACCAATAATTGATCCAGGCATCTTCAGCTCTCCGTTCGACCAGTACGCGATGCTGCATGCTGTTCGAAGTGCGC
GAAGGTTCTTCAAAGCTAGAGCGTGGGATGGCTACATCCTTGACCCAGTTGCACCGTGGACAGATGAGATTATCG
ACGATGATGAAGCTGCAATTGGTATTTTGAAGTCGACGGTTGGCCATGCGTGGCATCCTGTTGGAACTACGCTCA
TGTCGCCCGGGAATGCGAGGTACGGTGTTGTGGATCCTGACCTGAAGGTCAAGAAGGTGGAAGGGTTGAGGGTTG
TGGATGCGGGTGTGATGCCATTCATTCCTGCTGCCCATACCCAATTCCCGGTGTATCTCGTTGCGGAAAGGGCGG
CGGATTTGATTAAGGAGAAGTATACCTGATTTCTGAATTTCATGTCGCACTAGTGGCTACTAGGTCTGCGCCCTG
CATGAACAAATTTCTAAGCAAGATGTCATTTTACAACCCG
Length 2515

Gene

Sequence id CopciAB_514476.T0
Sequence >CopciAB_514476.T0
CAAGTTACAACTCTTGACCGCGACCATAACCATCGATTTCTGTCCTCCCGGCACCCAGGCCATACAAAAACAGCA
AGGGCTCTCGTGGACTGTATTTGGTCCTTGGATCAGTGCAATGTGAACATTGACTGGGAACAGTATTATCACGAT
TAAAACGGAACCTCCCGCAAGGGCGATATGGGCGGCTACCAAAGCCTGGGCAAGACCGCGTCGACCTACTGTCTG
GCCAGTGCTCAATAGAGTTGCTGACTTTCTTTCGTTTGTTCAGATAAGGTACGCTCGCTTTTTCCATTCGCACGA
AAGGGACAAATCTAATCCTTTGCGCCATGGCTGAACAGAATTGCAAGTTGCAACAAGCAAGGAATTCAATGGATA
CAATGTTACTACCGCCCTTTCTCCCTCTCTACCACATGTCTCCGCCTACCACGGACTCTCGGGTACCAAGGGCAC
CAAGATGGATTAATATCCTCCAGTCGTGAACCTCATTTCGACTCCTCTCAGAGATCTGCGAGGTCCTATGACCGC
TCTGAAACACCGCCTTGCTACGGGCGGCCAAGTGCAACAATGTTTGTTAGCCATCCGGGCTTTTTTAGCTTGAGA
ACGAGGTTTTCGCTGCTTCTAAAGACCTCGAGCGCTCCTTCTGTGTTCTTGTGAGAACATTGGGTTCTCCCATAT
AAAAACCCTGGATTATTGCTTGCGTTTTTGGCAAGCCTGCCATGTTGCGCACCATTGTGGTCCTCGCCGCACTCG
CTGGGAGCTGTAGCGCTGCCCTTTACCAGAACATCAAGGCTGTTCCTCGTCGGGAATATGATTTCATCATTGTCG
GTGGTGCGTTCTTTGCCTTCTCTCGGAAGATCCTTCACTCAAGAGTGTTCATTTGCGCCCTTCTGCAGGTGGAAC
GGCAGGTTCTGTTCTTGCGAACAGACTTTCAGAAAACCCTCGTCACCAGGTTCTACTAATCGAATCAGGACCGTC
GTGAGTGATTAAAAGGTTCTTATTCATCGGCAATCCTCACCGTGCACGTTAGCAACGAGGGCGTTCTGAACTCGA
TAATTCCTTATTTTCATCCGTTCCTGCACGGTTCGCCGTATGACTGGAATTTCACCACTTCGCCTCAGACAGGTC
TCGATGGCCGCGTTCTCGATTATAATCGTGGCCATATCCTGGGTGGGAGTTCTTCGATAAGTACGTGTTTCATTT
CTACTGTGGACAGCGATGCTGATGCAGGACGTGTAGATGCCATGTTTTGGACGAAGGGCACTGCGGAAGATTATG
ATCGATGGGCGAAGGTTACAGGAGACCCTGGATGGTCATGGAAGAGTTTGTTCAAGTACTCTCTCAAGGTGTGCG
AAGAACCTGTCCACTTCCATGTTCCTTGGGATTTAACTGTCGAATTAGATTGAACGTCTGGTTCCTCCTGTTGAT
GGCCACGACACTACTGGCCAGGTTGACCCTTCTCTACACGGCACTGATGGAAACCTTAAGATCTCGGTTTCTGGA
TGGCCTCTTGAAGTCGACTCTCGTGTGGCAGGGGCCGTGGAGGAGCTGGGAGAGGAATTCAAGGCGATCGTTGAT
ATGAACTCAGGGGAGCCTTTAGGAACGAGTGAGCTTAAATCTGAGATTTGATACTTAGGCTGTCACTAATTCGAA
TCTCGATGCATATAGGTTGGCTCCAGTCGAGCATTGGCGATGGCGAACGTAGCAGCGCGGCCGTCTCATACCTTG
CTCCTAAGCATCTCGAGCGACGAAACCTCCACGTTGTGGTGAATACCCGCGTTACGAGGGTGCTCCCCAGTAATA
GCAAGGGTCTGCGATTGGCGTTCAGAGCTGTTGAGGTTGCGACCGAGAAGAATGCTGATGGTGGGTGACGGTACT
CTAATTCCAGATTTCTTGGATTAACTGTCGTCATCAGCTCCTCGAGTCAAGCTGACAGCGAAGAAAGAGGTCATC
TTAGCCGCTGGTGCCGTCGGATCTCCTCATATCCTGCTACATTCCGGCATTGGAAATCCAAGTGATCTCAGTGCA
CTAGGGATCAAGCCGCTTGTTGACCTCCCAGAAGTGGGAAGGAACCTTACGGATCACCCCTTGGTTATGGTGCTC
TGGAATGCTAACTCTACCACCACTGGGGATGCGTAAGTAGACCCTCTTACCTTGCCCGATGCAGACGACTCTCAA
CTTGCCCATGTTCTAGGCTCGTGCGTGACCCTATTGCCCAAGCAGCAGCATTAGAAGAGTGGAACACGACGCGTA
CAGGGCCATTTACCTCTATTGGCATTAATCAAGTTGCGTGGTTGAGGATTCCGGACGACGCCCCGATCTTGCCGA
TCCTGCAGCGGGTAGAAAGACTCCACATGTAGAAATTACTTTCGATGTAAGTGAAGTCGTCTTCACCCTTTGCGG
TCATCAAGTACTAATAATACTCGTTTAGAACAGCGCAGGTTTCTCTGGCATCACGGGAGGATACTATATGGGTGC
TGGCTTGGCTGTTCCAACCCCGTGGTCTCGTATGCCTTTTTCCAAGGACGGTACACCAGGCGCCTGCTAACGATG
CTTCTGTTTTTAGGAGGCTCGCTGACACTTCGAACCTCGAACCCATTCGACCAACCAATAATTGATCCAGGCATC
TTCAGCTCTCCGTTCGACCAGTACGCGATGCTGCATGCTGTTCGAAGTGCGCGAAGGTTCTTCAAAGCTAGAGCG
TGGGATGGCTACATCCTTGACCCAGTTGCACCGTGGACAGATGAGATTATCGACGATGATGAAGCTGCAATTGGT
ATTTTGAAGTCGACGGTTGGCCATGCGTGGCATCCTGTTGGAACTACGCTCATGTCGCCCGGGAATGCGAGGTAC
GGTGTTGTGGATCCTGACCTGAAGGTCAAGAAGGTGGAAGGGTTGAGGGTTGTGGATGCGGGTGTGATGGTAGGT
CTATATGTTTCCTTATTGTCAGAGCTACATTGCTGAACATATCTGCTCCAGCCATTCATTCCTGCTGCCCATACC
CAATTCCCGGTGTATCTCGTTGCGGAAAGGGCGGCGGATTTGATTAAGGAGAAGTATACCTGATTTCTGAATTTC
ATGTCGCACTAGTGGCTACTAGGTCTGCGCCCTGCATGAACAAATTTCTAAGCAAGATGTCATTTTACAACCCG
Length 3149