CopciAB_377865
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_377865 Strain
Standard name - Synonyms 377865
Uniprot id Functional description Aryl-alcohol oxidase
Location scaffold_11:762866..766036 Strand +
Gene length (nt) 3171 Transcript length (nt) 2631
CDS length (nt) 972 Protein length (aa) 323

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 4.0905 1.0913 0.6301
oidia 2.9216 1.073 0.6195
vegetative_mycelium 2.9382 0.417 0.2408
primordia 10.9867 0.9878 0.5703
hyphal_knot 12.6713 2.0277 1.1707
young_fruiting_body 8.737 1.3905 0.8028
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 1.9155 0.6914 0.3992
Wheat bran 3.0866 0.4025 0.2324
Horse manure 3.3916 0.854 0.493
Oak leaves 2.3974 1.3103 0.7565
Hay 1.4778 0.149 0.086
Corn stalk 3.3044 0.6581 0.38
Pectine 3.0277 0.7099 0.4099
Microcrystalline cellulose 4.3161 1.3914 0.8034
Xylose 1.9693 0.6247 0.3607
Cellobiose 1.626 0.3747 0.2163
Lignin 2.3891 0.4369 0.2522
Apple peels 1.8248 0.224 0.1293
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 1.9509 0.156 0.0901
Bsubtilis 1.4109 0.4494 0.2594
Ecoli 2.7358 0.4806 0.2775
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 1.8961 0.3849 0.2222
BS 4h 1.0942 0.1234 0.0712
BS 8h 0.5212 0.2635 0.1521
BS 12h 0.5511 0.0932 0.0538
Oidia 0 h 1.0376 0.2853 0.1647
Oidia 18 h 1.1463 0.6768 0.3907
Sclerotia 0.2908 0.1156 0.0667
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 0.2927 0.0994 0.0574
DM 36h 0.3008 0.1586 0.0916
DM 60h 0.5351 0.3478 0.2008
DM 84h 0.412 0.1981 0.1144
DM 108h 0.5021 0.1188 0.0686
DM 132h 0.4247 0.1382 0.0798
DM 156hAE 0.7838 0.1016 0.0587
ELI1hAE 0.852 0.517 0.2985
ELI2hAE 0.9064 1.1258 0.65
LI2hAE 0.773 0.1437 0.083
LI6hAE 1.179 0.8841 0.5104
LI12hAE 0.8137 0.6287 0.363
LI18hAE 1.0503 0.9474 0.547
LI 24hAE 1.0571 1.1552 0.667
DM 156hAM 0.6219 0.6571 0.3794
ELI1hAM 0.3261 0.2022 0.1167
ELI2hAM 0.7087 0.1813 0.1047
LI2hAM 0.1371 0.1191 0.0688
LI6hAM 0.4326 0.1417 0.0818
LI12hAM 1.3551 0.7238 0.4179
LI18hAM 1.7178 1.3004 0.7508
LI 24hAM 1.1651 0.4527 0.2614
LI 24hHK 1.8864 0.4756 0.2746
L/D 6h 2.2152 0.2784 0.1608
L/D 12h 3.3758 1.418 0.8187
L/D 18h 2.059 0.277 0.1599
L/D 24h 1.877 0.9983 0.5764
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 2.768 1.7673 1.0204
Hyphal knots 2.3803 0.3601 0.2079
Primordium 1 2.1277 0.185 0.1068
Primordium 2 2.2079 0.4425 0.2555
Young Fruiting body cap 4.4562 1.5801 0.9123
Younf fruiting body gill 4.7388 1.4495 0.8369
Young fruiting body stipe 8.4394 1.7379 1.0034
Mature fruiting body cap_gill 0.7935 0.3912 0.2259
Mature fruiting body stipe 1.385 0.3244 0.1873
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 0.8326 0.5332 0.3078
NH4NO3 1.2687 0.3081 0.1779
Proline 0.8797 0.0855 0.0493
Tryptophan 0.5043 0.1947 0.1124
Isoleucin 1.5112 0.4586 0.2648
Arginine 1.048 0.303 0.1749
Metionine 0.9226 0.0948 0.0547
NaNO3 0.9162 0.1681 0.097
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 0.8326 0.5332 0.3078
Citrus peel 0.6992 0.5941 0.343
Poplar leaves 0.8123 0.3093 0.1786
Typha leaves 0.5824 0.2199 0.127
Overwintered Salix leaves 1.1 0.5588 0.3226
Reed flowering 0.7277 0.8555 0.4939
Tigernut 0.5232 0.4101 0.2368
Energy cane 0.5892 0.1915 0.1106
Guar gum 2.0109 1.7032 0.9833
Apple peels 0.3546 0.1868 0.1078
Cellobiose 1.1586 0.4546 0.2625
Corn stalk 1.0466 0.5737 0.3313
Horse manure 1.1014 0.3308 0.191
Lignin 1.596 1.2355 0.7133
Microcrystalline cellulose 0.7801 0.7495 0.4327
Oak leaves 1.1844 0.6364 0.3674
Pectin esterified 1.131 0.5755 0.3323
Poplar sawdust 2.359 0.943 0.5444
Wheat bran 1.3518 0.643 0.3712
Chlamydomonas reinhardtii 0.6678 0.3655 0.211
Vertatryl alcohol 1.241 0.3804 0.2196
Furfural 0.6148 0.475 0.2742
Autoclaved mycelium 1.3303 0.1314 0.0759
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 2.0641 0.2596 0.1499
Ribose 4.5206 1.1178 0.6454
Mannose 2.7582 0.794 0.5615
Fructose 3.6522 0.9335 0.539
Arabinose 3.4705 1.5753 0.9095
Xylose 2.7599 0.6708 0.3873
Galacturonic acid 4.8612 1.51 0.8718
Rhamnogalacturonan 2.7472 1.2588 0.7268
Pectin esterified 4.8253 0.6666 0.3849
Polygalacturonic acid 4.5208 0.2425 0.14
Sodium acetate 2.5744 0.3015 0.1741
No nitrogen 2.4778 0.3366 0.1943
BSA 4.3506 1.2884 0.7438
Glutamine 3.3994 0.4377 0.2527
No phosphate 1.6447 0.7546 0.4356
No carbon 4.8563 0.2168 0.1533
No sulphur 1.8709 0.7869 0.4543
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 0.8326 0.5332 0.3078
Amylose 1.7871 0.246 0.142
Fucose 1.6016 0.6229 0.3596
Galactose 1.8308 0.353 0.2038
Lactose 2.438 1.1149 0.6437
Maltose 2.6591 0.8174 0.4719
Mannitol 2.6075 1.1778 0.68
Rhamnose 1.5391 0.9671 0.5584
Sorbitol 2.4925 0.3508 0.2026
Trehalose 1.7722 1.2712 0.7339
Glycerol 1.3429 0.3366 0.1943
Glucuronic acid 2.1656 0.1217 0.0703
Arabinan 1.5656 1.1587 0.669
Galactan 0.6768 0.3405 0.1966
Galactomannan 1.8518 1.6642 0.9608
Glucan 1.9703 0.2807 0.1621
Xylan 0.955 0.4672 0.2698
Xyloglucan 1.4923 0.6538 0.3775
Arabinogalactan 1.5681 0.4276 0.2469
Pectin 1.0561 0.3309 0.1911
Rhamnogalacturonan 1.2147 0.4919 0.284
Polygalacturonic acid 1.9386 0.6733 0.3887
Mannan 1.5214 0.5832 0.3367
Amylopectin 1.5799 0.9636 0.5563
Inulin 1.5758 0.2553 0.1474
BSA 0.3101 0.2546 0.147
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 0.5351 0.3478 0.2008
2h WAT 1.0504 0.3711 0.2142
4h WAT 0.8444 0.189 0.1091
8h WAT 1.5273 0.5669 0.3273
16h WAT 0.4409 0.1521 0.0878
24h WAT 0.9004 0.4615 0.2664
WAT hyphal knot -30h 0.6622 0.233 0.1345
WAT hyphal knot -22h 0.2877 0.3152 0.182
WAT hyphal knot -15h 0.686 0.2153 0.1243
WAT hyphal knot -7.5h 0.3151 0.3901 0.2252
WAT hyphal knot 0.563 0.5007 0.2891
WAT hyphal knot +7.5h 0.9012 0.6152 0.3552
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 0.5736 0.1277 0.0738
Straw 3h 0.587 0.6808 0.393
Straw 6h 0.8579 0.7096 0.4097
Straw 12h 0.7689 0.3211 0.1854
Straw 24h 0.796 0.5303 0.3061
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 0.2886 0.1013 0.0585
Frost (-20C, 30min) 1.2045 0.4593 0.2652
Heat shock (47C, 2h) 16.1017 2.3224 1.3409
High CO2 1.1448 0.7484 0.4321
Drought (4% agar, 12h) 0.6956 0.4412 0.2547
Oxidative (1mM H2O2, 3h) 0.4319 0.2256 0.1302
Acidic (pH4, 3h) 1.0298 0.9836 0.5679
Alkaline (pH9, 3h) 0.5037 0.1381 0.0798
Osmotic (sorbitol 2h) 0.2817 0.2444 0.1411
CongoRed (3h) 0.3734 0.2874 0.1659
Cobalt chloride control 1.165 0.4744 0.2739
Cobalt chloride 2mM 1.0729 0.3088 0.1783
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 0.5614 0.2788 0.161
Cold stimulation 0.4848 0.6358 0.3671
Scratched surface 0.1776 0.0546 0.0315
Ca2+, 200mM, 24h 0.3472 0.3151 0.1819
Cu2+, 2mM, 6h 0.5653 0.5371 0.3101
Voriconazole 2.5819 0.7063 0.4078
Trichoderma interaction, early 0.405 0.3433 0.1982
Trichoderma interaction 60h 1.9991 2.1245 1.2266
Cobalt chloride 2mM repeat 2.2421 1.2354 0.7133
Hypoxia 0.3987 0.2391 0.1381
Hypoxia control 0.7939 0.7439 0.4295
Protoplastation control 0.8254 0.7062 0.4994
Protoplastation 3.5h 0.2908 0.4112 0.2908
Protoplastation 1.5h 2.2209 1.6762 1.1853

General data

Systematic name -
Protein id CopciAB_377865.T0
Description Aryl-alcohol oxidase

Annotation summary

0 100 200 300 323

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF00732 GMC oxidoreductase IPR000172 34 323

SignalP

Prediction Start End Score
SP(Sec/SPI) 1 20 0.9972

Transmembrane domains

Domain n Start End Length
No records

InterPro

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

GO

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

KEGG

KEGG Orthology
K00108

EggNOG

COG category Description
E Aryl-alcohol oxidase

CAZy

Class Family Subfamily
AA AA3 AA3_2

Transcription factor

Group
No records

Conservation of CopciAB_377865 across fungi.

Arrow shows the origin of gene family containing CopciAB_377865.

Protein

Sequence id CopciAB_377865.T0
Sequence >CopciAB_377865.T0
MNHIPLGVTLLVSLALPAFATIQDSITKFPKTDYDFIVVGGGQAGCVVANRLTENPRFNVLVIEAGPSHEGVLDA
QVPGFVFNLSNTTYEYNYTSVATPHLNNRVFPVPRARVLGGCSMHNGMFYTRGSSSDYDRWATVTGDSNWSWKKL
FPYILKHERWVEPNRDVDTAGMYNPKVHNTKGMTFVSLTNFPDDSDAKVRQAADEIGGDFRWNLDYNSGDPLGVG
WGQYTIGNGERSSAATAYLAPRYLKRKNLHVLINHRVTKLLQTGHGGGHVPTFRTVAFQEEMNPSAPIQKITARK
EVILSAGAIGTPQVLLLSGIGNN
Length 323

Coding

Sequence id CopciAB_377865.T0
Sequence >CopciAB_377865.T0
ATGAATCACATACCTCTAGGAGTCACTCTTCTCGTTTCTCTTGCCCTGCCAGCTTTCGCGACTATTCAGGACTCC
ATTACCAAGTTCCCCAAAACTGATTACGACTTTATAGTTGTCGGAGGGGGTCAAGCAGGATGTGTCGTTGCGAAT
AGGTTGACGGAAAACCCTCGATTCAATGTCCTGGTAATCGAAGCAGGCCCGAGTCACGAGGGCGTTTTGGACGCT
CAAGTGCCGGGGTTTGTGTTTAACCTCTCAAACACTACCTACGAATACAATTACACGAGTGTCGCCACACCGCAT
CTGAACAACCGCGTCTTTCCGGTACCGCGTGCGCGGGTGCTGGGGGGATGCAGCATGCACAATGGAATGTTCTAC
ACCCGCGGTTCTTCCTCCGACTACGATCGATGGGCCACCGTCACCGGCGACTCAAACTGGTCTTGGAAGAAGCTC
TTTCCCTACATCCTCAAGCACGAGCGATGGGTAGAGCCAAATCGCGATGTAGATACCGCAGGGATGTACAATCCG
AAGGTCCACAACACCAAGGGGATGACCTTTGTCAGCCTCACGAACTTCCCAGACGATTCCGATGCAAAGGTCAGA
CAGGCTGCAGACGAAATCGGAGGCGACTTCCGATGGAACCTCGATTACAACAGTGGGGATCCCTTGGGTGTCGGA
TGGGGACAGTATACGATCGGCAACGGGGAGCGGAGCAGCGCTGCAACGGCTTACTTGGCACCGAGGTACCTCAAA
CGGAAGAACCTTCACGTCCTGATTAACCATCGTGTTACCAAGCTCCTCCAGACGGGACATGGTGGTGGGCATGTT
CCAACCTTCCGCACTGTCGCCTTTCAGGAAGAGATGAACCCTTCTGCGCCGATCCAGAAGATTACGGCCAGGAAG
GAAGTCATCCTATCTGCAGGTGCCATTGGGACACCCCAAGTCCTCCTTTTATCGGGAATTGGTAACAACTAG
Length 972

Transcript

Sequence id CopciAB_377865.T0
Sequence >CopciAB_377865.T0
CGACCATCCCATACCATCTCGAAATGGCCCAAACGAACCTAGACTCGCACCCAATCGCAGAAAGGAACCATATGG
ACTTAGAAACAGCGAGGAACTACCACCTTGACAAGAATCACGCCAGTTTGTGGGGCAGACAGCGTCCACAATTAT
TCATCGGGAACGCGCAGCTGGCACCGGAAGGGCGCTTGATGAATCTATTCTGAGCGCTGGGGTCGGACATCTAGG
AACTTTGTCGGCCAAAGCGCTGTACCGGAAATAGGCCTTCAACTTTCTGCCAACGGATGGATGCATCATCGAAAA
CCAGAAAATCCACGGTTTGTACGCATTGTGTCTGGTCGGTGGACATCTTACGTTGGTGGGGCGTTAATATGGCTT
GCTTTGGTCACCTTGCTTCTGCCACTTATATCATATTTGGGCCTTATGGGACTTGCAAACAACCGTTAACACTGG
CACCGAAGTCGACTCTGTTCTTGAATTGACCATCTGGGCGTTCTGCTTATAAGCAGATGCTCTTAGGGGCCATGG
AAAGTGGGCGCGATTCTTTGGCATTATGAATCACATACCTCTAGGAGTCACTCTTCTCGTTTCTCTTGCCCTGCC
AGCTTTCGCGACTATTCAGGACTCCATTACCAAGTTCCCCAAAACTGATTACGACTTTATAGTTGTCGGAGGGGG
TCAAGCAGGATGTGTCGTTGCGAATAGGTTGACGGAAAACCCTCGATTCAATGTCCTGGTAATCGAAGCAGGCCC
GAGTCACGAGGGCGTTTTGGACGCTCAAGTGCCGGGGTTTGTGTTTAACCTCTCAAACACTACCTACGAATACAA
TTACACGAGTGTCGCCACACCGCATCTGAACAACCGCGTCTTTCCGGTACCGCGTGCGCGGGTGCTGGGGGGATG
CAGCATGCACAATGGAATGTTCTACACCCGCGGTTCTTCCTCCGACTACGATCGATGGGCCACCGTCACCGGCGA
CTCAAACTGGTCTTGGAAGAAGCTCTTTCCCTACATCCTCAAGCACGAGCGATGGGTAGAGCCAAATCGCGATGT
AGATACCGCAGGGATGTACAATCCGAAGGTCCACAACACCAAGGGGATGACCTTTGTCAGCCTCACGAACTTCCC
AGACGATTCCGATGCAAAGGTCAGACAGGCTGCAGACGAAATCGGAGGCGACTTCCGATGGAACCTCGATTACAA
CAGTGGGGATCCCTTGGGTGTCGGATGGGGACAGTATACGATCGGCAACGGGGAGCGGAGCAGCGCTGCAACGGC
TTACTTGGCACCGAGGTACCTCAAACGGAAGAACCTTCACGTCCTGATTAACCATCGTGTTACCAAGCTCCTCCA
GACGGGACATGGTGGTGGGCATGTTCCAACCTTCCGCACTGTCGCCTTTCAGGAAGAGATGAACCCTTCTGCGCC
GATCCAGAAGATTACGGCCAGGAAGGAAGTCATCCTATCTGCAGGTGCCATTGGGACACCCCAAGTCCTCCTTTT
ATCGGGAATTGGTAACAACTAGGGATTCAGCCCAAAGTCGATCTCCCTAGTGTTGGGAAGAACTTGACCGAACAT
CCAGCCATTGCAGTGTCTTGGAAACTAGGAATCAACGGAACCTTCAACTCCTCCGCCGACCCCACCCTACCCGAG
AAATGGTTCCAAGAGTGGCAAAACTCGCGAACTGGCCCACTGACCCACATCCGCACCCATTCAGCTGCCTTCATT
CGACTTCCTGACGATTCCCCAATCTATAATCAACATCCTGACCCCTCTTCTGGAAGAAGCACTCCGCAGTTCGAG
ATACCCATTACGGGTTTGGGATATTACCCTATTCCAGGACCGTCTATGTTCGCTGGTGCCGTTGTCGTTCAACCC
AGCTTAGAATCCCGTTGGTCTTTCCTCCACTGTACTTCCAATGGGCCACTAAATCCTTCCTTCTTGTCACAGGAG
GATGGGTCAAACTGGCGTCGACCAACGTCTATGATCAACCGCTCATCGACGTCGGTATGTTGAAATCCGAGTTTG
ACTGGTATGGCCTTCGAGAAACTATTCGGGCTTCCAAGCGGTTCTTTAGCGCTCCGGCATGGGAGAGCTATCAGC
TAACGCTGGAGCCGCCTTTCAATACGGATGTCGATGAGGAGCTTAACGAGGCCATCAAGGCGGCCGTCTCCAGCG
GTGCGCATCCTGTTGGCACTGCTTCCATGTCTCCGAAGAATGCGCAATGGGGTGTTGTGGATCCTGATCTCAGAG
TGAAGAAGGTGAAGGGGTTGCGCATCGTCGACGCTTCAATTATGCCATTCATCGTTTCCGCCCATACCCAAGCCG
CTGTCTACGCAATTGCAGAGCGCGGTTCTGACCTCATTAAGCATGTGTGGAAATAATTCTCGCTACTCCCTATAC
CTTTGTCTCTACCGACTTTGATGAATTCTTGACATTGTATCAGTGGCGATCTTCTTCTATGTGCCTACTTCCTTG
TTAACGCTTTCGATTTCTCCTTCATCAACAGAGAATTGTACTTTTATTTCATTCAGGGAAGACATCATTTCGCCG
GTTAAAGTCTATCATGGCGAGTTTCTTCCGCTAGGTTTTCACTATCGTCCATTTGGGTAATCGTATCGCGCTTCT
AGTGTT
Length 2631

Gene

Sequence id CopciAB_377865.T0
Sequence >CopciAB_377865.T0
CGACCATCCCATACCATCTCGAAATGGCCCAAACGAACCTAGACTCGCACCCAATCGCAGAAAGGAACCATATGG
ACTTAGAAACAGCGAGGAACTACCACCTTGACAAGAATCACGCCAGTTTGTGGGGCAGACAGCGTCCACAATTAT
TCATCGGGAACGCGCAGCTGGCACCGGAAGGGCGCTTGATGAATCTATTCTGAGCGCTGGGGTCGGACATCTAGG
AACTTTGTCGGCCAAAGCGCTGTACCGGAAATAGGCCTTCAACTTTCTGCCAACGGATGGATGCATCATCGAAAA
CCAGAAAATCCACGGTTTGTACGCATTGTGTCTGGTCGGTGGACATCTTACGTTGGTGGGGCGTTAATATGGCTT
GCTTTGGTCACCTTGCTTCTGCCACTTATATCATATTTGGGCCTTATGGGACTTGCAAACAACCGTTAACACTGG
CACCGAAGTCGACTCTGTTCTTGAATTGACCATCTGGTACTGACCCTTCTGATGTTGAATGAATCCATTCCTCAC
ATGATATCAGGGCGTTCTGCTTATAAGCAGATGCTCTTAGGGGCCATGGAAAGTGGGCGCGATTCTTTGGCATTA
TGAATCACATACCTCTAGGAGTCACTCTTCTCGTTTCTCTTGCCCTGCCAGCTTTCGCGACTATTCAGGACTCCA
TTACCAAGTTCCCCAAAACTGATTACGACTTTATAGTTGTCGGAGGTGCGCACCAACCGTTCCTTGCACTCTTCG
TCTCGCTCATCGTCTTCCAGGGGGTCAAGCAGGATGTGTCGTTGCGAATAGGTTGACGGAAAACCCTCGATTCAA
TGTCCTGGTAATCGAAGCAGGCCCGAGGTTTGTTGTTCTCGATCCTACTACTCGCCTGAATCTACTAATCATTTC
TCTCTAGTCACGAGGGCGTTTTGGACGCTCAAGTGCCGGGGTTTGTGTTTAACCTCTCAAACACTACCTACGAAT
ACAATTACACGAGTGTCGCCACACCGCATCTGAACAACCGCGTCTTTCCGGTACCGCGTGCGCGGGTGCTGGGGG
GATGCAGCATGCACAGTGAGCTCCTCTCAATCCTTCTAGAATTCGCCATCCAACCAAACGATAGATGGAATGTTC
TACACCCGCGGTTCTTCCTCCGACTACGATCGATGGGCCACCGTCACCGGCGACTCAAACTGGTCTTGGAAGAAG
CTCTTTCCCTACATCCTCAAGGTCAGTAAACTCTGACAATTTTTATCCGTGTCATCATCAGCGCTAACAATACGC
GCTATCCAGCACGAGCGATGGGTAGAGCCAAATCGCGATGTAGATACCGCAGGGATGTACAATCCGAAGGTCCAC
AACACCAAGGGGATGACCTTTGTCAGCCTCACGAACTTCCCAGACGATTCCGATGCAAAGGTCAGACAGGCTGCA
GACGAAATCGGAGGCGACTTCCGATGGAACCTCGATTACAACAGTGGGGATCCCTTGGGTGTCGGTAGGTGTCCT
CGCCATCTACATAGCTGAGGACAAGCGTTGACTCGGACTGTCGGTGATTAGGATGGGGACAGTATACGATCGGCA
ACGGGGAGCGGAGCAGCGCTGCAACGGCTTACTTGGCACCGAGGTACCTCAAACGGAAGAACCTTCACGTCCTGA
TTAACCATCGTGTTACCAAGCTCCTCCAGACGGGACATGGTGGTGGGCATGTTCCAACCTTCCGCACTGTCGCCT
TTCAGGAAGAGATGAACCCTTCTGGTAAGCCCCACTCCGTTTCCATATCGGACACTTGCTCACCCTTCAAAGCGC
CGATCCAGAAGATTACGGCCAGGAAGGAAGTCATCCTATCTGCAGGTGCCATTGGGACACCCCAAGTCCTCCTTT
TATCGGGAATTGGTAACAACTAGGGATTCAGCCCAAAGTCGATCTCCCTAGTGTTGGGAAGAACTTGACCGAACA
TCCAGCCATTGCAGTGTCTTGGAAACTAGGAATCAACGGAACCTTCAACTCGTATGTCGGTCACGCCTCCTGCGC
GCCGAGGACTAACCTGGGCTCTTTCCTCAGCTCCGCCGACCCCACCCTACCCGAGAAATGGTTCCAAGAGTGGCA
AAACTCGCGAACTGGCCCACTGACCCACATCCGCACCCATTCAGCTGCCTTCATTCGACTTCCTGACGATTCCCC
AATCTATAATCAACATCCTGACCCCTCTTCTGGAAGAAGCACTCCGCAGTTCGAGATACCCATTACGGTGCGTCC
CTCGACCTTCATTCAGCGTTGCTCGTCTGAACAGACAAACGGGAGCAGGGTTTGGGATATTACCCTATTCCAGGA
CCGTCTATGTTCGCTGGTGCCGTTGTCGTTCAACCCAGCTTAGAATCCCGTTGGTCTTTCCTCCACTGTACTTCC
AATGGGCCACTAAATCCTTCCTTCTTGTCACAGGAGGATGGGTCAAACTGGCGTCGACCAACGTCTATGATCAAC
CGCTCATCGACGTCGGTATGTTGAAATCCGAGTTTGACTGGTATGGCCTTCGAGAAACTATTCGGGCTTCCAAGC
GGTTCTTTAGCGCTCCGGCATGGGAGAGCTATCAGCTAACGCTGGAGCCGCCTTTCAATACGGATGTCGATGAGG
AGCTTAACGAGGCCATCAAGGCGGCCGTCTCCAGCGGTGCGCATCCTGTTGGCACTGCTTCCATGTCTCCGAAGA
ATGCGCAATGGGGTGTTGTGGATCCTGATCTCAGAGTGAAGAAGGTGAAGGGGTTGCGCATCGTCGACGCTTCAA
TTATGGTGCGTGCACTAATACTGGAATTCAATGACGTGCTAACCGCCGGTCCTTTGAAGCCATTCATCGTTTCCG
CCCATACCCAAGCCGCTGTCTACGCAATTGCAGAGCGCGGTTCTGACCTCATTAAGCATGTGTGGAAATAATTCT
CGCTACTCCCTATACCTTTGTCTCTACCGACTTTGATGAATTCTTGACATTGTATCAGTGGCGATCTTCTTCTAT
GTGCCTACTTCCTTGTTAACGCTTTCGATTTCTCCTTCATCAACAGAGAATTGTACTTTTATTTCATTCAGGGAA
GACATCATTTCGCCGGTTAAAGTCTATCATGGCGAGTTTCTTCCGCTAGGTTTTCACTATCGTCCATTTGGGTAA
TCGTATCGCGCTTCTAGTGTT
Length 3171