CopciAB_502818
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_502818 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 502818
Uniprot id Functional description other AgaK1 protein kinase
Location scaffold_11:1613863..1615883 Strand -
Gene length (nt) 2021 Transcript length (nt) 1618
CDS length (nt) 1185 Protein length (aa) 394

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_21980 32.3 2.431E-48 178
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_74226 33.2 2.405E-47 175
Auricularia subglabra Aurde3_1_1276487 30.4 2.038E-24 107
Ganoderma sp. 10597 SS1 v1.0 Gansp1_153478 28 9.334E-22 98

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 13.1525 0.4916 0.2838
oidia 18.4184 1.4179 0.8186
vegetative_mycelium 17.0081 1.2358 0.7135
primordia 23.3248 1.7067 0.9854
hyphal_knot 19.0658 1.251 0.7223
young_fruiting_body 6.5145 1.4236 0.8219
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 6.2438 1.864 1.0762
Wheat bran 15.4633 1.6539 0.9549
Horse manure 17.8612 3.5294 2.0377
Oak leaves 15.9828 4.1751 2.4105
Hay 16.4106 4.1685 2.4067
Corn stalk 14.303 2.562 1.4792
Pectine 14.503 0.839 0.4844
Microcrystalline cellulose 7.441 1.9533 1.1277
Xylose 7.6073 2.189 1.2638
Cellobiose 5.9772 0.6712 0.3875
Lignin 4.6267 1.5625 0.9021
Apple peels 9.8437 0.5253 0.3033
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 13.3408 0.9613 0.555
Bsubtilis 11.047 0.8952 0.5168
Ecoli 9.3062 0.9834 0.5677
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 0.0806 0.0776 0.0448
BS 4h 0.0627 0.1086 0.0627
BS 8h 0.1509 0.1256 0.0725
BS 12h 0.3684 0.2488 0.1437
Oidia 0 h 1.3953 0.5942 0.3431
Oidia 18 h 0.3095 0.2158 0.1246
Sclerotia 4.8994 2.1399 1.2354
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 6.099 1.2162 0.7022
DM 36h 3.8418 0.4282 0.2472
DM 60h 4.4458 0.757 0.437
DM 84h 4.5853 0.2327 0.1344
DM 108h 5.2287 1.385 0.7996
DM 132h 4.8184 0.4379 0.2528
DM 156hAE 5.4698 0.8752 0.5053
ELI1hAE 10.6002 2.1617 1.2481
ELI2hAE 8.8567 2.894 1.6709
LI2hAE 8.6925 2.3685 1.3674
LI6hAE 8.8898 1.8787 1.0847
LI12hAE 8.285 1.6888 0.975
LI18hAE 6.7039 3.0988 1.7891
LI 24hAE 7.0328 1.2675 0.7318
DM 156hAM 6.3986 1.2969 0.7487
ELI1hAM 5.3129 1.7014 0.9823
ELI2hAM 6.8218 0.6366 0.3675
LI2hAM 7.0178 1.8274 1.0551
LI6hAM 6.7296 2.1671 1.2512
LI12hAM 4.8053 1.1185 0.6458
LI18hAM 5.1055 0.6818 0.3936
LI 24hAM 4.3753 1.2995 0.7503
LI 24hHK 9.3719 3.5612 2.0561
L/D 6h 7.5287 4.1646 2.4045
L/D 12h 5.9276 0.8085 0.4668
L/D 18h 8.2692 1.4811 0.8551
L/D 24h 9.8871 0.6303 0.3639
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 16.5459 3.5786 2.0661
Hyphal knots 10.9764 0.5593 0.3229
Primordium 1 20.0593 5.0928 2.9404
Primordium 2 13.4203 1.6191 0.9348
Young Fruiting body cap 16.0693 9.6715 5.5839
Younf fruiting body gill 7.9855 2.3138 1.3359
Young fruiting body stipe 38.1917 3.6073 2.0827
Mature fruiting body cap_gill 1.097 0.3058 0.1766
Mature fruiting body stipe 10.5112 1.5501 0.8949
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 6.4908 3.1082 1.7945
NH4NO3 11.705 1.3296 0.7676
Proline 8.3982 1.1708 0.676
Tryptophan 9.6874 1.0383 0.5995
Isoleucin 9.1335 1.7815 1.0286
Arginine 6.9587 1.1322 0.6537
Metionine 6.6969 0.9939 0.5739
NaNO3 5.9023 1.22 0.7044
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 6.4908 3.1082 1.7945
Citrus peel 6.2546 0.4649 0.2684
Poplar leaves 8.6868 1.9557 1.1291
Typha leaves 9.5785 1.0588 0.6113
Overwintered Salix leaves 10.201 2.7395 1.5816
Reed flowering 4.6909 1.9449 1.1229
Tigernut 6.6963 1.8337 1.0587
Energy cane 8.5163 1.62 0.9353
Guar gum 9.7203 4.4787 2.5858
Apple peels 15.5327 2.0352 1.175
Cellobiose 16.2204 2.4985 1.4425
Corn stalk 14.4669 1.7256 0.9963
Horse manure 11.5381 4.3437 2.5079
Lignin 7.7214 3.9575 2.2849
Microcrystalline cellulose 13.6569 6.0665 3.5025
Oak leaves 13.0558 0.6477 0.374
Pectin esterified 10.4522 1.5309 0.8839
Poplar sawdust 11.8274 0.9529 0.5502
Wheat bran 13.5102 1.9372 1.1185
Chlamydomonas reinhardtii 10.8009 3.4817 2.0102
Vertatryl alcohol 11.5464 1.7149 0.9901
Furfural 4.912 1.4931 0.8621
Autoclaved mycelium 6.6605 1.3285 0.767
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 13.5122 1.186 0.6847
Ribose 17.3221 2.3689 1.3677
Mannose 12.7873 0.9242 0.6535
Fructose 16.3429 1.8307 1.057
Arabinose 12.7526 2.8993 1.6739
Xylose 16.6143 2.2834 1.3183
Galacturonic acid 16.9407 1.3834 0.7987
Rhamnogalacturonan 15.1319 2.2359 1.2909
Pectin esterified 15.9695 1.8547 1.0708
Polygalacturonic acid 16.51 0.8846 0.5107
Sodium acetate 14.5769 1.8913 1.0919
No nitrogen 16.2547 1.5087 0.8711
BSA 14.9889 1.8574 1.0724
Glutamine 18.1655 1.688 0.9746
No phosphate 13.641 1.8085 1.0441
No carbon 13.5342 2.1136 1.4945
No sulphur 14.1145 1.6016 0.9247
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 6.4908 3.1082 1.7945
Amylose 12.1752 0.6795 0.3923
Fucose 8.838 0.4776 0.2757
Galactose 8.7034 0.8081 0.4666
Lactose 8.7576 1.783 1.0294
Maltose 8.786 1.5647 0.9034
Mannitol 8.6938 0.9596 0.554
Rhamnose 7.5543 1.8462 1.0659
Sorbitol 10.9263 2.4001 1.3857
Trehalose 8.838 3.1381 1.8118
Glycerol 8.5488 1.5671 0.9048
Glucuronic acid 10.1402 2.5261 1.4585
Arabinan 7.8597 2.0813 1.2017
Galactan 7.4922 1.9119 1.1038
Galactomannan 12.1183 3.0002 1.7322
Glucan 7.3302 0.6063 0.3501
Xylan 12.1723 4.0442 2.3349
Xyloglucan 10.7461 1.8958 1.0946
Arabinogalactan 11.416 0.5684 0.3282
Pectin 6.7776 2.3531 1.3586
Rhamnogalacturonan 3.3742 0.7547 0.4357
Polygalacturonic acid 11.5791 2.3052 1.3309
Mannan 8.5293 0.043 0.0249
Amylopectin 7.915 2.2627 1.3064
Inulin 11.3811 1.4632 0.8448
BSA 4.8913 1.0874 0.6278
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 4.4458 0.757 0.437
2h WAT 5.9582 1.2241 0.7067
4h WAT 4.9631 1.039 0.5998
8h WAT 4.5673 1.2443 0.7184
16h WAT 4.9301 0.6926 0.3998
24h WAT 4.8501 1.3734 0.7929
WAT hyphal knot -30h 5.5624 2.0083 1.1595
WAT hyphal knot -22h 8.8828 1.7812 1.0284
WAT hyphal knot -15h 7.2452 1.4352 0.8286
WAT hyphal knot -7.5h 7.5231 3.6857 2.1279
WAT hyphal knot 7.3264 1.3846 0.7994
WAT hyphal knot +7.5h 8.1887 1.0489 0.6056
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 12.6304 3.1662 1.828
Straw 3h 13.4381 3.4604 1.9978
Straw 6h 16.4395 7.5372 4.3516
Straw 12h 12.8131 4.3936 2.5367
Straw 24h 12.3121 7.393 4.2684
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 2.182 1.1752 0.6785
Frost (-20C, 30min) 4.9164 0.3343 0.193
Heat shock (47C, 2h) 1.8839 0.5616 0.3242
High CO2 3.8683 1.9836 1.1452
Drought (4% agar, 12h) 3.8663 1.0224 0.5903
Oxidative (1mM H2O2, 3h) 2.1273 1.0541 0.6086
Acidic (pH4, 3h) 1.9004 0.419 0.2419
Alkaline (pH9, 3h) 4.0946 1.0273 0.5931
Osmotic (sorbitol 2h) 1.9619 0.2143 0.1237
CongoRed (3h) 1.9518 0.7617 0.4398
Cobalt chloride control 5.1512 2.4139 1.3937
Cobalt chloride 2mM 3.8142 1.3725 0.7924
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 5.8851 3.3013 1.906
Cold stimulation 3.3022 0.3784 0.2185
Scratched surface 13.5316 2.6115 1.5077
Ca2+, 200mM, 24h 3.3571 0.9386 0.5419
Cu2+, 2mM, 6h 2.9694 1.4927 0.8618
Voriconazole 3.0055 0.5593 0.3229
Trichoderma interaction, early 7.192 1.4915 0.8611
Trichoderma interaction 60h 0 0 0
Cobalt chloride 2mM repeat 4.6984 2.5156 1.4524
Hypoxia 2.7191 1.6079 0.9283
Hypoxia control 4.6907 2.1798 1.2585
Protoplastation control 6.0016 1.3479 0.9531
Protoplastation 3.5h 3.0159 1.7977 1.2712
Protoplastation 1.5h 2.0317 1.1022 0.7794

General data

Systematic name -
Protein id CopciAB_502818.T0
Description other AgaK1 protein kinase

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
IPR000719 Protein kinase domain
IPR011009 Protein kinase-like domain superfamily

GO

Go id Term Ontology
GO:0004672 protein kinase activity MF
GO:0005524 ATP binding MF
GO:0006468 protein phosphorylation BP

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
G other AgaK1 protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_502818 across fungi.

Arrow shows the origin of gene family containing CopciAB_502818.

Protein

Sequence id CopciAB_502818.T0
Sequence >CopciAB_502818.T0
MIAMHSWAIRCLTSSRLVLLPSIWRTIYWSFHSWWHRYWVPTDWKSWTSKGQLKGLQEELAATAKRWSDLAPFFA
SHNYYLYERTIGHRTYPSSTGPTRFQGVAEPPFARPKFKNDEDLEFTDIQGCRVWAARDGAGREVVIKLVAAQWE
ESDELKIYRRINTAEARADPRNRTLPVLDYIHYNGLVFVVTPRWGPIMVGAPPFTKVEQVLSMVEQYFEGLAFLH
EHRIAHRDITSGNMVMNVLYYLYRNRDTFEDPTESSTVRYAFIDFEASAILPLETDIEKVEMTRDMRTGARNARL
KRGESNPFKDDVAILGNILQRWNRVIEDVVPEIGPFFDNLVKDGCTNPPTAAVALKNLQDIKSRLNHDQLNKPPS
GRIWDKGKVEPYPYERYQV
Length 394

Coding

Sequence id CopciAB_502818.T0
Sequence >CopciAB_502818.T0
ATGATCGCCATGCATTCGTGGGCCATACGCTGTCTCACAAGCAGCAGGCTGGTGCTGTTACCCTCAATATGGAGA
ACTATCTACTGGAGTTTTCATAGCTGGTGGCATCGCTATTGGGTTCCCACAGACTGGAAATCATGGACATCCAAG
GGACAACTCAAAGGCCTACAGGAAGAGCTTGCGGCCACAGCAAAGCGATGGTCTGACTTGGCGCCATTTTTTGCC
AGTCACAATTATTACCTTTACGAACGCACGATCGGGCATCGCACCTATCCCTCCTCCACTGGGCCCACGCGCTTT
CAGGGTGTTGCTGAACCTCCTTTCGCTCGTCCGAAATTCAAAAACGATGAAGACTTGGAGTTCACCGACATCCAG
GGTTGTAGGGTGTGGGCAGCGCGTGATGGCGCAGGCCGGGAGGTCGTCATCAAGCTCGTTGCAGCCCAATGGGAG
GAGTCCGACGAGCTCAAGATCTATCGTCGCATTAACACTGCTGAAGCGAGAGCAGACCCCCGCAACCGTACACTG
CCAGTTCTGGACTACATCCACTACAACGGCCTGGTATTTGTTGTTACTCCACGGTGGGGTCCAATTATGGTCGGA
GCACCGCCTTTCACCAAGGTTGAACAGGTGCTCTCAATGGTGGAACAGTATTTCGAGGGTCTGGCATTTCTCCAC
GAGCATAGAATCGCACATCGCGACATCACGAGCGGGAATATGGTGATGAACGTCCTCTACTACCTCTATCGCAAC
CGTGACACCTTCGAGGACCCTACAGAATCATCCACCGTCCGGTATGCATTCATTGACTTCGAGGCTTCTGCAATA
CTTCCCCTCGAAACCGACATCGAGAAAGTGGAAATGACACGGGACATGAGGACCGGAGCCAGAAATGCCCGCCTG
AAGAGAGGCGAATCTAATCCATTCAAAGATGACGTCGCTATCCTTGGAAATATTTTGCAGCGCTGGAATCGTGTT
ATCGAAGATGTCGTTCCCGAGATAGGGCCATTCTTTGACAATCTTGTGAAGGACGGCTGCACCAATCCGCCAACC
GCCGCCGTGGCCTTGAAGAATCTGCAGGACATCAAATCAAGGTTAAACCATGACCAACTGAACAAGCCTCCGTCC
GGTCGAATATGGGACAAAGGCAAGGTTGAGCCGTACCCGTACGAGCGGTACCAGGTCTAG
Length 1185

Transcript

Sequence id CopciAB_502818.T0
Sequence >CopciAB_502818.T0
GAAACGTCTTCCTCCTCATGATCGCCATGCATTCGTGGGCCATACGCTGTCTCACAAGCAGCAGGCTGGTGCTGT
TACCCTCAATATGGAGAACTATCTACTGGAGTTTTCATAGCTGGTGGCATCGCTATTGGGTTCCCACAGACTGGA
AATCATGGACATCCAAGGGACAACTCAAAGGCCTACAGGAAGAGCTTGCGGCCACAGCAAAGCGATGGTCTGACT
TGGCGCCATTTTTTGCCAGTCACAATTATTACCTTTACGAACGCACGATCGGGCATCGCACCTATCCCTCCTCCA
CTGGGCCCACGCGCTTTCAGGGTGTTGCTGAACCTCCTTTCGCTCGTCCGAAATTCAAAAACGATGAAGACTTGG
AGTTCACCGACATCCAGGGTTGTAGGGTGTGGGCAGCGCGTGATGGCGCAGGCCGGGAGGTCGTCATCAAGCTCG
TTGCAGCCCAATGGGAGGAGTCCGACGAGCTCAAGATCTATCGTCGCATTAACACTGCTGAAGCGAGAGCAGACC
CCCGCAACCGTACACTGCCAGTTCTGGACTACATCCACTACAACGGCCTGGTATTTGTTGTTACTCCACGGTGGG
GTCCAATTATGGTCGGAGCACCGCCTTTCACCAAGGTTGAACAGGTGCTCTCAATGGTGGAACAGTATTTCGAGG
GTCTGGCATTTCTCCACGAGCATAGAATCGCACATCGCGACATCACGAGCGGGAATATGGTGATGAACGTCCTCT
ACTACCTCTATCGCAACCGTGACACCTTCGAGGACCCTACAGAATCATCCACCGTCCGGTATGCATTCATTGACT
TCGAGGCTTCTGCAATACTTCCCCTCGAAACCGACATCGAGAAAGTGGAAATGACACGGGACATGAGGACCGGAG
CCAGAAATGCCCGCCTGAAGAGAGGCGAATCTAATCCATTCAAAGATGACGTCGCTATCCTTGGAAATATTTTGC
AGCGCTGGAATCGTGTTATCGAAGATGTCGTTCCCGAGATAGGGCCATTCTTTGACAATCTTGTGAAGGACGGCT
GCACCAATCCGCCAACCGCCGCCGTGGCCTTGAAGAATCTGCAGGACATCAAATCAAGGTTAAACCATGACCAAC
TGAACAAGCCTCCGTCCGGTCGAATATGGGACAAAGGCAAGGTTGAGCCGTACCCGTACGAGCGGTACCAGGTCT
AGTACGTACCCGTAATGGCAACTGAGTGAGATGCTGTGGCTCGGAGGTCACACTGGGAGCAAACGAAAGCCAGTC
CTCATTCAACCTTAGAAGTTCGTTTGGTCTATCACCGTGGTAGGTGGCGGGGAAGGATACTACCCTCTACCCTTC
CCTCTCCCCTCCAAGTTGGCGCCCTTACAAACGTTTGTCATACCCCACCCCGTCTCCCTGATGCATGGAGTTATT
TACGAGCGGAGACGTCGAGGTGAGGATTTGTGTATGTTATACCAATGTTGGGCAGGGATGCATGCCAGAGGGTGT
GATTTCGAAATAGAGTCGGTTTGATCCAACTCGAAAGTGCATTCTGTCCAAACTTGACGTAGAAGAAGGTAGTTA
GAACCTCTGGACTGTCAATGGTCACTGGATTCCAGGACACGAA
Length 1618

Gene

Sequence id CopciAB_502818.T0
Sequence >CopciAB_502818.T0
GAAACGTCTTCCTCCTCATGATCGCCATGCATTCGTGGGCCATACGCTGTCTCACAAGCAGCAGGCTGGTGCTGT
TACCCTCAATATGGAGAACTATCTACTGGAGTTTTCATAGCTGGTGGCATCGCTATTGGGTTCCCACAGACTGGA
AATCATGGACATCCAAGGGACAACTCAAAGGCCTACAGGAAGAGCTTGCGGCCACAGCAAAGCGATGGTCTGACT
TGGCGCCATTTTTTGCCAGTCACAATTATTACCTTTACGAACGCACGATCGGGCATCGCACCTATCCCTCCTCCA
CTGGGCCCACGCGCTTTCAGGGTGTTGCTGAACCTCCTTTCGCTCGTCCGAAATTCAAAAACGATGAAGACTTGG
AGTTCACCGACATCCAGGTGCGTTTCGGAGAAGCATCCAGGACATAAGTATATCAATCCAGCTTCCTTGATGTGT
TCTTCCAGGGTTGTAGGGTGTGGGCAGCGCGTGATGGCGCAGGCCGGGAGGTCGTCATCAAGTGTGTAGTTGCCT
CGAGCCAACGAGTCCGATCTATACCTGACCTACAGCCAGGCTCGTTGCAGCCCAATGGGAGGAGTCCGACGAGCT
CAAGATCTATCGTCGCATTAACACTGCTGAAGCGAGAGCAGACCCCCGCAACCGTACACTGCCAGTTCTGGACTA
CATCCACTACAACGGCCTGGTATTTGTTGTTACTCCACGGTAAGTCTACCAGTTCGTCTACTCTTCGCTCGAAAT
TCCTGACGTTCCTTTAAGGTGGGGTCCAATTATGGTCGGAGCACCGCCTTTCACCAAGGTTGAACAGGTGCTCTC
AATGGTGGAACAGTATTTCGAGGTAACCTCCTCTTTGCACACGCCCCTTTGGAAACGTGCTCACGCACTCTTGAT
CAGGGTCTGGCATTTCTCCACGAGCATAGAATCGCACATCGCGACATCACGAGCGGGAATATGGTGATGAACGTC
CTCTACTACCTCTATCGCAACCGTGACACCTTCGAGGACCCTACAGAATCATCCACCGTCCGGTATGCATTCATT
GACTTCGAGGCTTCTGCAATACTTCCCCTCGAAACCGACATCGAGAAAGTGGAAATGACACGGGACATGAGGACC
GGAGCCAGAAATGCCCGCCTGAAGAGAGGCGAATCTAATCCATTCAAAGATGACGTCGCTATCCTTGGAAATATT
TTGCAGCGCTGGAATCGTGTAAGTACCCTCCACCCCGGGACCACTCGCTCAAAGTCATGACTAGACTCAACGGGT
TCCAGGTTATCGAAGATGTCGTTCCCGAGATAGGGCCATTCTTTGACAATCTTGTGAAGGACGGCTGCACCAATC
CGCCAACCGCCGCCGTGGCCTTGAAGAATCTGCAGGACATCAAATCAAGGTTAAACCATGACCAACTGAACAAGC
CTCCGTCCGGTCGAATATGGGACAAAGGTATGCATTGAGCTTCCACCCGTCGTTAGACTGTCTGTTGATTTCTCA
TATCTTTCATCCAGGCAAGGTTGAGCCGTACCCGTACGAGCGGTACCAGGTCTAGTACGTACCCGTAATGGCAAC
TGAGGTACATGCATTCAATGTACTGCAATCTTGTACTGAGACGATCCCTGCCAGTGAGATGCTGTGGCTCGGAGG
TCACACTGGGAGCAAACGAAAGCCAGTCCTCATTCAACCTTAGAAGTTCGTTTGGTCTATCACCGTGGTAGGTGG
CGGGGAAGGATACTACCCTCTACCCTTCCCTCTCCCCTCCAAGTTGGCGCCCTTACAAACGTTTGTCATACCCCA
CCCCGTCTCCCTGATGCATGGAGTTATTTACGAGCGGAGACGTCGAGGTGAGGATTTGTGTATGTTATACCAATG
TTGGGCAGGGATGCATGCCAGAGGGTGTGATTTCGAAATAGAGTCGGTTTGATCCAACTCGAAAGTGCATTCTGT
CCAAACTTGACGTAGAAGAAGGTAGTTAGAACCTCTGGACTGTCAATGGTCACTGGATTCCAGGACACGAA
Length 2021