CopciAB_369049
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_369049 Strain Coprinopsis cinerea Okayama 7
Standard name GCN2 Synonyms 369049
Uniprot id Functional description Anticodon binding domain of tRNAs
Location scaffold_1:4044039..4049666 Strand +
Gene length (nt) 5628 Transcript length (nt) 4560
CDS length (nt) 4311 Protein length (aa) 1436

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Saccharomyces cerevisiae YDR283C_GCN2
Neurospora crassa cpc-3
Schizosaccharomyces pombe gcn2
Aspergillus nidulans AN2246_gcn2

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB27411 60.4 0 1720
Pleurotus eryngii ATCC 90797 Pleery1_1446872 56.2 0 1622
Agrocybe aegerita Agrae_CAA7269678 56 0 1596
Pleurotus ostreatus PC15 PleosPC15_2_1066383 55.5 0 1596
Pleurotus ostreatus PC9 PleosPC9_1_63674 55.4 0 1593
Lentinula edodes W1-26 v1.0 Lentinedodes1_21097 55.7 0 1583
Lentinula edodes NBRC 111202 Lenedo1_1123651 55.1 0 1548
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_122255 49.8 0 1547
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_109872 50.3 0 1543
Flammulina velutipes Flave_chr09AA00975 52.9 0 1429
Grifola frondosa Grifr_OBZ78007 52.8 0 1411
Schizophyllum commune H4-8 Schco3_2641517 47.7 0 1376
Ganoderma sp. 10597 SS1 v1.0 Gansp1_118213 48 0 1326
Auricularia subglabra Aurde3_1_1413319 40.6 0 1055
Lentinula edodes B17 Lened_B_1_1_16836 55.4 2.672E-264 855

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 377.4531 47.9027 27.6566
oidia 177.9476 16.5916 9.5792
vegetative_mycelium 167.7918 10.5871 6.1125
primordia 347.5051 18.6163 10.7481
hyphal_knot 267.0533 24.7333 14.2798
young_fruiting_body 224.4237 70.3889 40.6391
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 279.4667 24.0152 13.8652
Wheat bran 118.7321 35.9845 20.7757
Horse manure 182.0076 58.9516 34.0357
Oak leaves 230.5026 35.1145 20.2734
Hay 180.6043 18.5192 10.6921
Corn stalk 167.0724 20.8088 12.014
Pectine 159.4509 10.7186 6.1884
Microcrystalline cellulose 278.2755 59.7879 34.5186
Xylose 273.7081 47.9698 27.6954
Cellobiose 350.5529 75.88 43.8093
Lignin 251.8651 67.8755 39.188
Apple peels 233.0926 35.5314 20.514
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 186.6109 19.4751 11.244
Bsubtilis 204.9238 7.6349 4.408
Ecoli 145.9942 4.3937 2.5367
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 117.9406 6.1899 3.5738
BS 4h 58.3391 2.5083 1.4482
BS 8h 39.1871 2.0687 1.1944
BS 12h 36.7 7.3267 4.2301
Oidia 0 h 59.508 10.2471 5.9162
Oidia 18 h 50.6589 8.9239 5.1522
Sclerotia 87.4108 11.568 6.6788
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 62.0697 16.925 9.7717
DM 36h 64.583 2.2909 1.3227
DM 60h 53.8288 2.3003 1.3281
DM 84h 50.0395 3.19 1.8417
DM 108h 60.9037 0.9939 0.5738
DM 132h 53.3014 6.5749 3.796
DM 156hAE 67.8727 1.7005 0.9818
ELI1hAE 76.1866 8.1301 4.6939
ELI2hAE 76.3233 8.8127 5.088
LI2hAE 77.8192 10.0628 5.8097
LI6hAE 70.2342 4.147 2.3943
LI12hAE 77.4076 4.8609 2.8065
LI18hAE 68.5401 1.393 0.8043
LI 24hAE 73.9263 13.4947 7.7912
DM 156hAM 53.1299 6.6649 3.848
ELI1hAM 53.9892 6.3572 3.6704
ELI2hAM 49.3225 3.9838 2.3
LI2hAM 59.1715 8.5405 4.9309
LI6hAM 64.6955 4.2136 2.4327
LI12hAM 55.8323 2.4264 1.4009
LI18hAM 65.3772 8.3663 4.8303
LI 24hAM 73.8242 3.898 2.2505
LI 24hHK 50.8494 6.4235 3.7086
L/D 6h 76.9694 12.621 7.2868
L/D 12h 72.7821 15.9796 9.2258
L/D 18h 68.7896 23.6581 13.659
L/D 24h 58.9446 3.6957 2.1337
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 159.0826 19.6443 11.3416
Hyphal knots 157.2321 29.5265 17.0471
Primordium 1 113.1602 20.0262 11.5621
Primordium 2 127.2785 9.059 5.2302
Young Fruiting body cap 121.797 25.5532 14.7531
Younf fruiting body gill 278.1013 90.2019 52.0781
Young fruiting body stipe 97.0429 14.6393 8.452
Mature fruiting body cap_gill 61.8991 11.1923 6.4619
Mature fruiting body stipe 228.888 23.6235 13.639
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 128.7641 17.6658 10.1993
NH4NO3 122.2851 15.5165 8.9584
Proline 135.2548 4.0269 2.3249
Tryptophan 155.1016 35.6473 20.581
Isoleucin 249.0457 38.3099 22.1182
Arginine 134.7884 5.6268 3.2486
Metionine 171.0089 10.4818 6.0517
NaNO3 103.3047 6.7564 3.9008
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 128.7641 17.6658 10.1993
Citrus peel 83.0197 8.6261 4.9803
Poplar leaves 154.8545 4.8528 2.8018
Typha leaves 145.9892 31.5079 18.1911
Overwintered Salix leaves 130.3057 18.5965 10.7367
Reed flowering 95.5654 48.8202 28.1863
Tigernut 87.5661 3.2381 1.8695
Energy cane 139.0445 17.6182 10.1719
Guar gum 139.4046 65.4948 37.8135
Apple peels 125.6215 32.6878 18.8723
Cellobiose 137.0387 11.4842 6.6304
Corn stalk 127.9147 18.6949 10.7935
Horse manure 126.9524 16.1956 9.3505
Lignin 94.6647 33.0672 19.0913
Microcrystalline cellulose 131.5517 40.2249 23.2238
Oak leaves 144.0042 7.8631 4.5398
Pectin esterified 77.0754 17.6316 10.1796
Poplar sawdust 144.9909 38.6681 22.325
Wheat bran 80.5294 10.1499 5.8601
Chlamydomonas reinhardtii 178.8554 11.6232 6.7107
Vertatryl alcohol 136.1215 10.1972 5.8874
Furfural 104.2543 7.1156 4.1082
Autoclaved mycelium 120.8678 11.9903 6.9226
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 128.6 10.8176 6.2455
Ribose 224.0588 17.0135 9.8227
Mannose 188.6449 0.647 0.4575
Fructose 182.1076 14.762 8.5228
Arabinose 220.18 21.9058 12.6473
Xylose 200.6666 16.3965 9.4665
Galacturonic acid 204.01 16.0874 9.2881
Rhamnogalacturonan 175.8037 11.6484 6.7252
Pectin esterified 175.044 9.7281 5.6165
Polygalacturonic acid 195.0225 8.3791 4.8376
Sodium acetate 209.2185 11.2054 6.4695
No nitrogen 269.7053 11.5888 6.6908
BSA 202.5696 19.9409 11.5129
Glutamine 195.9405 14.5844 8.4203
No phosphate 144.5616 10.6624 6.1559
No carbon 243.7377 11.346 8.0228
No sulphur 193.7747 26.8068 15.4769
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 128.7641 17.6658 10.1993
Amylose 194.2509 4.8675 2.8103
Fucose 179.3964 22.0687 12.7414
Galactose 173.8029 21.2994 12.2972
Lactose 138.7365 8.3578 4.8254
Maltose 169.2115 11.459 6.6159
Mannitol 146.9818 7.4213 4.2847
Rhamnose 150.9084 23.8908 13.7934
Sorbitol 164.2755 12.5432 7.2418
Trehalose 150.4755 46.2287 26.6901
Glycerol 155.6487 46.8813 27.0669
Glucuronic acid 183.4789 19.2629 11.1214
Arabinan 143.0359 50.4462 29.1251
Galactan 143.5913 5.8088 3.3537
Galactomannan 126.1717 31.9803 18.4638
Glucan 135.3078 25.2343 14.5691
Xylan 163.3774 12.0457 6.9546
Xyloglucan 174.2695 18.5625 10.7171
Arabinogalactan 161.2356 6.4228 3.7082
Pectin 87.9921 24.1998 13.9718
Rhamnogalacturonan 71.4315 7.2303 4.1744
Polygalacturonic acid 143.3368 1.312 0.7575
Mannan 166.4319 11.4412 6.6056
Amylopectin 115.3317 27.6629 15.9712
Inulin 149.3715 1.4011 0.8089
BSA 76.3634 4.4038 2.5425
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 53.8288 2.3003 1.3281
2h WAT 75.48 9.6472 5.5698
4h WAT 70.5557 7.2841 4.2055
8h WAT 69.558 4.0757 2.3531
16h WAT 68.1968 6.3423 3.6617
24h WAT 69.5652 7.9528 4.5916
WAT hyphal knot -30h 78.4502 5.4023 3.119
WAT hyphal knot -22h 90.9073 8.4806 4.8963
WAT hyphal knot -15h 88.8492 5.4179 3.128
WAT hyphal knot -7.5h 84.9067 12.2178 7.054
WAT hyphal knot 75.1966 7.3987 4.2717
WAT hyphal knot +7.5h 64.4726 5.92 3.4179
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 89.7149 36.7328 21.2077
Straw 3h 93.1809 35.8687 20.7088
Straw 6h 96.0445 37.1427 21.4444
Straw 12h 132.1866 22.6088 13.0532
Straw 24h 98.6924 29.9861 17.3125
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 34.3783 3.1478 1.8174
Frost (-20C, 30min) 58.2463 3.596 2.0762
Heat shock (47C, 2h) 23.6166 5.1017 2.9455
High CO2 56.9583 4.5114 2.6047
Drought (4% agar, 12h) 49.7152 6.4685 3.7346
Oxidative (1mM H2O2, 3h) 43.1469 3.5152 2.0295
Acidic (pH4, 3h) 31.406 7.1462 4.1258
Alkaline (pH9, 3h) 33.9066 2.7343 1.5787
Osmotic (sorbitol 2h) 27.1898 3.6721 2.1201
CongoRed (3h) 30.085 4.0619 2.3451
Cobalt chloride control 66.5084 3.8337 2.2134
Cobalt chloride 2mM 59.9632 6.18 3.568
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 28.4029 5.4795 3.1636
Cold stimulation 40.5184 2.6047 1.5038
Scratched surface 73.7881 1.5714 0.9073
Ca2+, 200mM, 24h 23.3826 3.7681 2.1755
Cu2+, 2mM, 6h 41.9548 14.3657 8.2941
Voriconazole 44.5002 4.8465 2.7981
Trichoderma interaction, early 56.3945 6.2549 3.6113
Trichoderma interaction 60h 55.7036 26.4035 15.2441
Cobalt chloride 2mM repeat 84.3783 13.5655 7.832
Hypoxia 64.9834 15.7131 9.072
Hypoxia control 52.5696 9.4318 5.4454
Protoplastation control 58.4853 1.8748 1.3257
Protoplastation 3.5h 44.1216 6.9653 4.9252
Protoplastation 1.5h 57.4325 23.0547 16.3021

General data

Systematic name GCN2
Protein id CopciAB_369049.T0
Description Anticodon binding domain of tRNAs

Annotation summary

0 400 800 1200 1436

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd14046 STKc_EIF2AK4_GCN2_rpt2 - 421 793
Pfam PF00069 Protein kinase domain IPR000719 139 367
Pfam PF00069 Protein kinase domain IPR000719 429 496
Pfam PF00069 Protein kinase domain IPR000719 594 795
Pfam PF13393 Histidyl-tRNA synthetase IPR041715 959 1136
Pfam PF12745 Anticodon binding domain of tRNAs IPR024435 1184 1433

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR000719 Protein kinase domain
IPR045864 Class II Aminoacyl-tRNA synthetase/Biotinyl protein ligase (BPL) and lipoyl protein ligase (LPL)
IPR024435 Histidyl tRNA synthetase-related domain
IPR017441 Protein kinase, ATP binding site
IPR008271 Serine/threonine-protein kinase, active site
IPR041715 Class II Histidinyl-tRNA synthetase (HisRS)-like catalytic core domain
IPR011009 Protein kinase-like domain superfamily
IPR036621 Anticodon-binding domain superfamily
IPR016255 eIF-2-alpha kinase Gcn2

GO

Go id Term Ontology
GO:0004672 protein kinase activity MF
GO:0005524 ATP binding MF
GO:0006468 protein phosphorylation BP
GO:0000077 DNA damage checkpoint BP
GO:0004694 eukaryotic translation initiation factor 2alpha kinase activity MF
GO:0010998 regulation of translational initiation by eIF2 alpha phosphorylation BP

KEGG

KEGG Orthology
K16196

EggNOG

COG category Description
J Anticodon binding domain of tRNAs

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_369049 across fungi.

Arrow shows the origin of gene family containing CopciAB_369049.

Protein

Sequence id CopciAB_369049.T0
Sequence >CopciAB_369049.T0
MPSTLTMTVFLQNRKQREAEEAAREEERRKREAEELEAQIEQDALRQLMAREQQFKSRERANSETTEVPFMSDTP
LETFSQDIHLGDVRFNTVKLFYPRQAGLQTVYLAEPVVDDLHTTPPLELHIYTFESSYYSTSQGRKKLKQVEQEI
KDLTVTRHDHLLATLAVKLKLPHSSDPAQLIVLTEQTPHVTLHDVLVDCHSLREDRATQYLTQILQALNALHNKN
LVHRGMDVRCLGLVSSRTNPGQKVIKVGKAVFHTHLLDLHRSNSFGPHIPPVADEPQISDGWLSREMKDSALLYT
KRRDIHNVGIILLQMLMGLDVTERYSDVQEAIHSSAISPVLARQATNMLTPTKKNNISCMTLLSELAEDSLKASL
QQTPMTSRSIPIMNSSGGPRTPVPSMYYGSPEVDYVMHRMRQARQSSRWKDDWEELELLGKGAFGSVVKARNKVD
NRVYAVKKVRLKAVQKDDKIMREVNALSRLNHRFIVRYYTTWIETTEAPSTTVSDDSSAESSMITSSEVTSIPDD
DSERHLPINGGFDLGDLDDLDDELGSQSSFPSIHFEGSKSPANSDSSGDDSLFDSMSPTNKNLTFPSNFGPSRTL
YIQMEFVERQTLRERVDEGISEEEGWRLFHQIVDALVHMANLGIIHRDIKLTNIFIDAKGDCKVGDFGLATSSLA
AVDPSDVQHKPVTYDPEMTLEVGTRLYIAPEVQWTGRRAAPKNHNKADMYSLGIVFFEMNYRFTTGSERIVVLED
LRKPGIFFPTSWEPHRTRQREIITWLLQHDPEKRPSALDLSQSPLMPPRVEDEYFHQALGLMAKPDTPHYQTVLS
LLFNQPTKASRGFLYDKDLDRPEYLSLADAVQDRLAALFKLHGAVDIEPPLLMPVVDREDEKNHATFIDRMGTLV
SLPNNLLVPFARLAAKGNSKRIKRYHIANIYRPNPVAGHPLIQKAAVFDIITQDVEYGPIAAGAEVIAVSNDILN
TFPNLTGTYNIRVSHSTIVELAMARIPEEHRAAVVEILMQSKSSTSQKRALLLKKGLTRAVIDELEILNESEDDI
DDVVYKLEKISSPLLPLLRPVVAEIKATLQHAAFAGVDRPMIIHPLMLGNHHQYFKDGILIELTHKSKPSNVLAA
GGRYDAVIARHSPTLRQKGDNLCAIGIQIALEKILAQLALFQSNYVKNLIKEERSFGYWSPRRCDVYVVSYHTGY
LQDRLEVVSYLWQHNISADIMYESAISDIEHERLESVCEREGILFTVCPRPRASKQTQSAFKVKSILKGAEYDLS
RAELVGWLQHQIAEQKRIDLSTYGTGAAWESTPTASSSKDAMATPDVQLVLPADVKKQRRSVKHMLNDRAFETSK
KVKASVATMPTVAVDVPTSVFDTMCRSSSWLSDDDTWRSLVAAFPPGHSAYASQIRESVLKHKADGHSYVLLFAV
KEERIQLLALT
Length 1436

Coding

Sequence id CopciAB_369049.T0
Sequence >CopciAB_369049.T0
ATGCCTTCAACCCTGACCATGACCGTCTTTTTACAGAATCGTAAGCAGCGAGAAGCAGAGGAGGCAGCGAGAGAA
GAGGAACGAAGGAAGAGGGAAGCTGAAGAACTGGAAGCACAGATCGAGCAGGACGCGTTGCGGCAGTTGATGGCG
AGGGAACAGCAGTTCAAATCTCGAGAGCGAGCAAACTCGGAGACTACGGAAGTTCCTTTCATGAGCGACACCCCT
TTGGAGACGTTCAGCCAAGATATCCACCTGGGCGACGTACGCTTCAACACTGTAAAGCTCTTTTATCCAAGACAA
GCTGGCCTTCAGACCGTCTACTTGGCAGAGCCAGTCGTCGACGACCTACATACGACCCCGCCACTGGAGCTACAC
ATTTATACCTTCGAGTCGTCATACTACTCAACGAGCCAAGGGCGAAAGAAGCTGAAGCAAGTCGAGCAAGAGATC
AAGGATCTCACGGTTACCCGCCATGACCATCTCCTCGCCACCCTAGCAGTCAAGTTGAAGCTGCCCCACTCCAGT
GACCCAGCGCAACTCATCGTTTTGACGGAGCAAACTCCCCATGTCACCCTGCACGACGTGTTGGTGGATTGTCAT
TCTTTGCGGGAAGACAGAGCGACACAATATCTCACCCAAATCCTGCAAGCTCTGAACGCTCTTCACAACAAGAAT
CTCGTTCATCGCGGGATGGACGTTCGATGCCTCGGGCTTGTTTCTTCAAGGACGAACCCCGGCCAGAAGGTCATC
AAGGTCGGCAAAGCTGTGTTCCACACGCACTTGCTTGACCTTCACAGGTCCAACTCGTTTGGGCCTCACATCCCG
CCAGTGGCCGACGAGCCTCAGATATCCGATGGCTGGCTGTCGCGTGAGATGAAGGACTCGGCTCTGTTGTACACG
AAGCGAAGGGACATCCATAACGTTGGCATTATCCTGCTCCAAATGTTGATGGGGCTGGATGTTACGGAGCGCTAC
TCTGATGTTCAGGAAGCGATCCACTCATCCGCCATCTCACCGGTTCTCGCCAGGCAAGCGACGAACATGCTCACC
CCCACGAAGAAGAACAACATCTCGTGCATGACCCTGTTGTCCGAGCTTGCGGAGGACAGTTTGAAGGCGTCTCTG
CAGCAAACGCCGATGACGAGTCGGTCTATCCCGATCATGAACAGTAGCGGCGGGCCAAGAACCCCGGTTCCGAGC
ATGTATTACGGGTCCCCTGAAGTCGATTATGTGATGCATCGGATGCGTCAGGCTCGCCAATCGAGTCGATGGAAA
GATGACTGGGAGGAACTGGAGCTTCTAGGTAAAGGTGCCTTCGGGTCCGTGGTCAAAGCTCGCAACAAGGTCGAC
AATCGCGTCTACGCCGTCAAGAAGGTCCGCCTTAAAGCAGTGCAGAAAGATGACAAGATCATGCGAGAAGTGAAC
GCTCTCAGCCGGCTCAATCATCGGTTTATTGTTCGATACTACACCACATGGATCGAGACAACCGAAGCGCCGTCT
ACCACTGTTTCCGACGACTCCAGCGCGGAGTCTTCAATGATTACCAGCTCTGAAGTCACTTCGATCCCAGACGAT
GATAGCGAACGTCATTTACCCATCAATGGAGGATTTGATCTGGGCGACCTGGATGACCTGGACGATGAACTTGGG
TCACAATCGTCGTTCCCTAGCATCCACTTTGAAGGCTCCAAGTCTCCAGCCAATTCGGACAGCAGTGGCGATGAT
AGTTTGTTTGACTCGATGTCGCCCACCAACAAGAATCTCACGTTCCCTTCGAATTTCGGCCCAAGTAGGACCCTT
TACATTCAGATGGAATTTGTGGAGCGTCAGACGCTGCGGGAACGAGTTGACGAAGGTATCTCGGAGGAAGAAGGG
TGGCGCCTGTTCCACCAGATTGTGGATGCTCTAGTGCATATGGCGAACCTTGGTATCATCCACCGTGATATCAAG
TTGACGAACATCTTCATTGATGCGAAAGGGGATTGTAAAGTCGGTGACTTCGGATTGGCGACGTCGAGTCTTGCC
GCGGTGGATCCTTCGGATGTCCAACACAAGCCGGTGACATATGATCCTGAAATGACCCTCGAGGTGGGAACGAGA
TTGTACATCGCACCCGAAGTTCAGTGGACTGGCAGGAGGGCAGCCCCCAAGAACCACAACAAGGCGGACATGTAC
AGTCTGGGAATCGTCTTCTTCGAAATGAACTACCGGTTCACTACTGGATCAGAACGAATCGTTGTCTTGGAAGAC
TTGCGCAAGCCTGGTATCTTCTTCCCTACATCTTGGGAACCCCATCGTACCCGCCAGAGGGAAATCATCACCTGG
TTGCTCCAACATGACCCGGAGAAGCGACCCTCGGCGCTGGACCTGTCCCAGAGCCCTCTGATGCCACCTCGCGTT
GAAGACGAGTATTTCCATCAAGCGCTGGGACTGATGGCCAAACCCGACACGCCGCACTACCAAACGGTTTTGTCA
CTCTTGTTCAACCAGCCGACGAAAGCCTCGCGAGGGTTCCTTTACGACAAGGATCTTGATCGCCCTGAATATCTT
TCACTGGCGGACGCTGTTCAGGACCGGTTGGCGGCTCTTTTCAAGCTTCATGGTGCTGTGGACATCGAACCTCCG
CTCCTGATGCCCGTTGTCGACCGGGAGGACGAGAAAAACCACGCAACCTTCATTGATAGGATGGGAACTCTGGTC
AGCCTCCCGAACAATCTCCTTGTTCCGTTTGCGAGGTTGGCAGCCAAAGGAAATTCGAAGCGTATCAAACGATAC
CATATTGCCAATATCTATCGACCAAACCCTGTCGCAGGCCATCCTCTCATTCAGAAGGCCGCTGTCTTTGATATC
ATCACTCAAGACGTCGAGTATGGGCCCATCGCTGCGGGTGCCGAGGTGATAGCTGTCAGCAATGACATCCTGAAC
ACGTTCCCCAACTTGACTGGGACCTACAACATCCGGGTGTCCCATTCGACTATCGTTGAACTGGCGATGGCCAGA
ATCCCTGAAGAACATCGAGCAGCCGTGGTTGAAATCCTGATGCAGTCAAAGTCGTCGACGTCCCAGAAGCGGGCG
TTGTTGTTGAAGAAGGGGCTGACGAGGGCTGTGATCGACGAGCTGGAGATCTTGAACGAATCGGAGGATGACATC
GATGATGTGGTCTACAAGCTCGAGAAGATCTCGTCGCCTCTACTCCCTCTTCTCCGGCCTGTCGTCGCGGAGATT
AAGGCCACTTTGCAGCACGCAGCTTTTGCGGGGGTTGACCGACCTATGATCATCCACCCACTTATGCTTGGGAAC
CATCATCAGTACTTCAAGGACGGGATACTCATCGAGCTCACGCACAAGTCGAAGCCAAGTAATGTCCTAGCTGCT
GGTGGCAGATACGACGCAGTGATTGCGCGGCACTCACCAACGCTGAGACAGAAGGGCGACAACCTCTGTGCTATC
GGTATTCAAATTGCACTTGAGAAGATTCTTGCCCAATTGGCGCTGTTCCAGAGCAACTATGTCAAGAACCTGATC
AAGGAGGAGCGTTCCTTTGGCTATTGGAGTCCTCGGCGATGCGATGTCTATGTGGTCTCTTACCACACCGGGTAC
CTGCAGGACCGGTTGGAGGTCGTCTCGTATCTTTGGCAGCATAATATCAGCGCGGATATCATGTACGAGTCTGCG
ATCTCTGATATTGAGCACGAGAGGCTGGAGAGCGTATGTGAGCGAGAAGGAATTCTGTTCACAGTATGTCCAAGG
CCTCGCGCGTCTAAGCAAACTCAGTCGGCCTTCAAGGTTAAGAGCATCCTGAAGGGCGCTGAATATGATCTGTCT
CGCGCTGAATTGGTCGGTTGGTTGCAACATCAAATCGCAGAACAGAAACGGATCGACCTGAGTACCTATGGAACT
GGAGCTGCTTGGGAATCGACGCCAACTGCTTCATCGTCCAAGGATGCCATGGCCACTCCGGATGTGCAGCTCGTC
CTTCCCGCCGACGTGAAGAAGCAGCGAAGATCGGTCAAACACATGCTCAACGATCGAGCTTTCGAGACATCGAAG
AAAGTCAAGGCTTCGGTTGCTACTATGCCGACTGTCGCGGTTGATGTCCCGACCTCCGTGTTCGACACGATGTGT
CGCTCCTCCTCTTGGCTCTCCGACGATGACACCTGGCGATCCCTCGTGGCAGCCTTCCCTCCTGGTCACTCGGCT
TACGCATCCCAGATACGGGAGTCGGTCCTGAAGCACAAGGCTGACGGACACTCCTACGTCCTTCTCTTTGCCGTC
AAGGAAGAGAGGATTCAACTCTTGGCCCTCACTTGA
Length 4311

Transcript

Sequence id CopciAB_369049.T0
Sequence >CopciAB_369049.T0
ATGCCTTCAACCCTGACCATGACCGTCTTTTTACAGAATCGTAAGCAGCGAGAAGCAGAGGAGGCAGCGAGAGAA
GAGGAACGAAGGAAGAGGGAAGCTGAAGAACTGGAAGCACAGATCGAGCAGGACGCGTTGCGGCAGTTGATGGCG
AGGGAACAGCAGTTCAAATCTCGAGAGCGAGCAAACTCGGAGACTACGGAAGTTCCTTTCATGAGCGACACCCCT
TTGGAGACGTTCAGCCAAGATATCCACCTGGGCGACGTACGCTTCAACACTGTAAAGCTCTTTTATCCAAGACAA
GCTGGCCTTCAGACCGTCTACTTGGCAGAGCCAGTCGTCGACGACCTACATACGACCCCGCCACTGGAGCTACAC
ATTTATACCTTCGAGTCGTCATACTACTCAACGAGCCAAGGGCGAAAGAAGCTGAAGCAAGTCGAGCAAGAGATC
AAGGATCTCACGGTTACCCGCCATGACCATCTCCTCGCCACCCTAGCAGTCAAGTTGAAGCTGCCCCACTCCAGT
GACCCAGCGCAACTCATCGTTTTGACGGAGCAAACTCCCCATGTCACCCTGCACGACGTGTTGGTGGATTGTCAT
TCTTTGCGGGAAGACAGAGCGACACAATATCTCACCCAAATCCTGCAAGCTCTGAACGCTCTTCACAACAAGAAT
CTCGTTCATCGCGGGATGGACGTTCGATGCCTCGGGCTTGTTTCTTCAAGGACGAACCCCGGCCAGAAGGTCATC
AAGGTCGGCAAAGCTGTGTTCCACACGCACTTGCTTGACCTTCACAGGTCCAACTCGTTTGGGCCTCACATCCCG
CCAGTGGCCGACGAGCCTCAGATATCCGATGGCTGGCTGTCGCGTGAGATGAAGGACTCGGCTCTGTTGTACACG
AAGCGAAGGGACATCCATAACGTTGGCATTATCCTGCTCCAAATGTTGATGGGGCTGGATGTTACGGAGCGCTAC
TCTGATGTTCAGGAAGCGATCCACTCATCCGCCATCTCACCGGTTCTCGCCAGGCAAGCGACGAACATGCTCACC
CCCACGAAGAAGAACAACATCTCGTGCATGACCCTGTTGTCCGAGCTTGCGGAGGACAGTTTGAAGGCGTCTCTG
CAGCAAACGCCGATGACGAGTCGGTCTATCCCGATCATGAACAGTAGCGGCGGGCCAAGAACCCCGGTTCCGAGC
ATGTATTACGGGTCCCCTGAAGTCGATTATGTGATGCATCGGATGCGTCAGGCTCGCCAATCGAGTCGATGGAAA
GATGACTGGGAGGAACTGGAGCTTCTAGGTAAAGGTGCCTTCGGGTCCGTGGTCAAAGCTCGCAACAAGGTCGAC
AATCGCGTCTACGCCGTCAAGAAGGTCCGCCTTAAAGCAGTGCAGAAAGATGACAAGATCATGCGAGAAGTGAAC
GCTCTCAGCCGGCTCAATCATCGGTTTATTGTTCGATACTACACCACATGGATCGAGACAACCGAAGCGCCGTCT
ACCACTGTTTCCGACGACTCCAGCGCGGAGTCTTCAATGATTACCAGCTCTGAAGTCACTTCGATCCCAGACGAT
GATAGCGAACGTCATTTACCCATCAATGGAGGATTTGATCTGGGCGACCTGGATGACCTGGACGATGAACTTGGG
TCACAATCGTCGTTCCCTAGCATCCACTTTGAAGGCTCCAAGTCTCCAGCCAATTCGGACAGCAGTGGCGATGAT
AGTTTGTTTGACTCGATGTCGCCCACCAACAAGAATCTCACGTTCCCTTCGAATTTCGGCCCAAGTAGGACCCTT
TACATTCAGATGGAATTTGTGGAGCGTCAGACGCTGCGGGAACGAGTTGACGAAGGTATCTCGGAGGAAGAAGGG
TGGCGCCTGTTCCACCAGATTGTGGATGCTCTAGTGCATATGGCGAACCTTGGTATCATCCACCGTGATATCAAG
TTGACGAACATCTTCATTGATGCGAAAGGGGATTGTAAAGTCGGTGACTTCGGATTGGCGACGTCGAGTCTTGCC
GCGGTGGATCCTTCGGATGTCCAACACAAGCCGGTGACATATGATCCTGAAATGACCCTCGAGGTGGGAACGAGA
TTGTACATCGCACCCGAAGTTCAGTGGACTGGCAGGAGGGCAGCCCCCAAGAACCACAACAAGGCGGACATGTAC
AGTCTGGGAATCGTCTTCTTCGAAATGAACTACCGGTTCACTACTGGATCAGAACGAATCGTTGTCTTGGAAGAC
TTGCGCAAGCCTGGTATCTTCTTCCCTACATCTTGGGAACCCCATCGTACCCGCCAGAGGGAAATCATCACCTGG
TTGCTCCAACATGACCCGGAGAAGCGACCCTCGGCGCTGGACCTGTCCCAGAGCCCTCTGATGCCACCTCGCGTT
GAAGACGAGTATTTCCATCAAGCGCTGGGACTGATGGCCAAACCCGACACGCCGCACTACCAAACGGTTTTGTCA
CTCTTGTTCAACCAGCCGACGAAAGCCTCGCGAGGGTTCCTTTACGACAAGGATCTTGATCGCCCTGAATATCTT
TCACTGGCGGACGCTGTTCAGGACCGGTTGGCGGCTCTTTTCAAGCTTCATGGTGCTGTGGACATCGAACCTCCG
CTCCTGATGCCCGTTGTCGACCGGGAGGACGAGAAAAACCACGCAACCTTCATTGATAGGATGGGAACTCTGGTC
AGCCTCCCGAACAATCTCCTTGTTCCGTTTGCGAGGTTGGCAGCCAAAGGAAATTCGAAGCGTATCAAACGATAC
CATATTGCCAATATCTATCGACCAAACCCTGTCGCAGGCCATCCTCTCATTCAGAAGGCCGCTGTCTTTGATATC
ATCACTCAAGACGTCGAGTATGGGCCCATCGCTGCGGGTGCCGAGGTGATAGCTGTCAGCAATGACATCCTGAAC
ACGTTCCCCAACTTGACTGGGACCTACAACATCCGGGTGTCCCATTCGACTATCGTTGAACTGGCGATGGCCAGA
ATCCCTGAAGAACATCGAGCAGCCGTGGTTGAAATCCTGATGCAGTCAAAGTCGTCGACGTCCCAGAAGCGGGCG
TTGTTGTTGAAGAAGGGGCTGACGAGGGCTGTGATCGACGAGCTGGAGATCTTGAACGAATCGGAGGATGACATC
GATGATGTGGTCTACAAGCTCGAGAAGATCTCGTCGCCTCTACTCCCTCTTCTCCGGCCTGTCGTCGCGGAGATT
AAGGCCACTTTGCAGCACGCAGCTTTTGCGGGGGTTGACCGACCTATGATCATCCACCCACTTATGCTTGGGAAC
CATCATCAGTACTTCAAGGACGGGATACTCATCGAGCTCACGCACAAGTCGAAGCCAAGTAATGTCCTAGCTGCT
GGTGGCAGATACGACGCAGTGATTGCGCGGCACTCACCAACGCTGAGACAGAAGGGCGACAACCTCTGTGCTATC
GGTATTCAAATTGCACTTGAGAAGATTCTTGCCCAATTGGCGCTGTTCCAGAGCAACTATGTCAAGAACCTGATC
AAGGAGGAGCGTTCCTTTGGCTATTGGAGTCCTCGGCGATGCGATGTCTATGTGGTCTCTTACCACACCGGGTAC
CTGCAGGACCGGTTGGAGGTCGTCTCGTATCTTTGGCAGCATAATATCAGCGCGGATATCATGTACGAGTCTGCG
ATCTCTGATATTGAGCACGAGAGGCTGGAGAGCGTATGTGAGCGAGAAGGAATTCTGTTCACAGTATGTCCAAGG
CCTCGCGCGTCTAAGCAAACTCAGTCGGCCTTCAAGGTTAAGAGCATCCTGAAGGGCGCTGAATATGATCTGTCT
CGCGCTGAATTGGTCGGTTGGTTGCAACATCAAATCGCAGAACAGAAACGGATCGACCTGAGTACCTATGGAACT
GGAGCTGCTTGGGAATCGACGCCAACTGCTTCATCGTCCAAGGATGCCATGGCCACTCCGGATGTGCAGCTCGTC
CTTCCCGCCGACGTGAAGAAGCAGCGAAGATCGGTCAAACACATGCTCAACGATCGAGCTTTCGAGACATCGAAG
AAAGTCAAGGCTTCGGTTGCTACTATGCCGACTGTCGCGGTTGATGTCCCGACCTCCGTGTTCGACACGATGTGT
CGCTCCTCCTCTTGGCTCTCCGACGATGACACCTGGCGATCCCTCGTGGCAGCCTTCCCTCCTGGTCACTCGGCT
TACGCATCCCAGATACGGGAGTCGGTCCTGAAGCACAAGGCTGACGGACACTCCTACGTCCTTCTCTTTGCCGTC
AAGGAAGAGAGGATTCAACTCTTGGCCCTCACTTGACGAATCACGCACCGCTCACGACTTCCTTTCCACTTTCTA
CACTTTCTGCCCCTCATGAAGCATGCCCTCTCAACTCTTTTTTTGAATCAAAGCAAATCGCGAATCATATCATTC
ACAAGTTGTTATTTAAGTCCACGCAAGATACCAGCCTTTAATATCGTCGGTGCTTCGGGAAGCAATGGTTTAATT
GTCGCATAACTCTATGTATTATCATATGTGTTTTCTCTCCCCCAATTTATTCGTATGGAT
Length 4560

Gene

Sequence id CopciAB_369049.T0
Sequence >CopciAB_369049.T0
ATGCCTTCAACCCTGACCATGACCGTCTTTTTACAGAATCGTAAGCAGCGAGAAGCAGAGGAGGCAGCGAGAGAA
GAGGAACGAAGGAAGAGGGAAGCTGAAGAACTGGAAGCACAGATCGAGCAGGACGCGTTGCGGCAGTTGATGGCG
AGGGAACAGCAGTTCAAATCTCGAGAGCGAGCAAACTCGGAGACTACGGAAGTTCCTTTCATGAGCGACACCCCT
TTGGAGACGTTCAGCCAAGATATCCACCTGGGCGACGTACGCTTCAACACTGTAAAGCTCTTTTATCCAAGACAA
GGTCCGTCCCCGTTTGGTTTCGGACACCGCGTTCACGGCGCTGACCTCCTAATAGCTGGCCTTCAGACCGTCTAC
TTGGCAGAGCCAGTCGTCGACGACCTACATACGACCCCGCCACTGGAGCTACACATTTATACCTTCGAGTCGTCA
TACTACTCAACGAGCCAAGGGCGAAAGAAGCTGAAGCAAGTCGAGCAAGAGATCAAGGATCTCACGGTTACCCGC
CATGACCATCTCCTCGCCACCCTAGCAGTCAAGTTGAAGCTGCCCCACTCCAGTGACCCAGCGCAACTCATCGTT
TTGACGGAGCAAACTCCCCATGTCACCCTGCACGACGTGTTGGTGGATTGTCATTCTTTGCGGGAAGACAGAGCG
ACAGTACGTGTAGACCTCTCGTGTGGTACAGGACAAGTCGCTGACATTTGCGACAGCAATATCTCACCCAAATCC
TGCAAGCTCTGAACGCTCTTCACAACAAGAATCTCGTTCATCGCGGGATGGACGTTCGATGCCTCGGGCTTGTTT
CTTCAAGGACGAACCCCGGCCAGAAGGTCATCAAGGTCGGCAAAGCTGTGTTCCACACGCACTTGCTTGACCTTC
ACAGGTCCAACTCGTTTGGGCCTCACATCCCGCCAGTGGCCGACGAGCCTCAGATATCCGATGGCTGGCTGTCGC
GTGAGATGAAGGACTCGGCTCTGTTGTACACGAAGCGAAGGGACATCCATAACGTTGGCATTATCCTGCTCCAAA
TGTTGATGGGGCTGGATGTTACGGAGCGCTACTCTGATGTTCAGGAAGCGATCCACTCATGTGAGCTCGTTTCTT
TCATTGATCGTAGTTCTTGAGCTGATGGTCTGTCTCTCGTAGCCGCCATCTCACCGGTTCTCGCCAGGCAAGCGA
CGAACATGCTCACCCCCACGAAGAAGAACAACATCTCGTGCATGACCCTGTTGTCCGAGCTTGCGGAGGACAGTT
TGAAGGCGTCTCTGCAGCAAACGCCGATGACGAGTCGGTCTATCCCGATCATGAACAGTAGCGGCGGTGAGTGTT
TTGTGGGTTTAGCAACCTGTCCCTTGGAATTCAACTCTTCTATAGGGCCAAGAACCCCGGTTCCGAGCATGTATT
ACGGGTCCCCTGAAGTCGATTATGTGATGCATCGGATGCGTCAGGCTCGCCAATCGAGTCGATGGAAAGATGACT
GGGAGGAACTGGAGCTTCTAGTACGTCAACCCGGATTCGTTTCGCCTCTCTTCACTAATTGACGATTCTTTTAGG
GTAAAGGTGCCTTCGGGTCCGTGGTCAAAGCTCGCAACAAGGTCGACAATCGCGTCTACGCCGGTTTGTATCCTT
TTTTCTCCATCTTCGCTGGTACCCGCTCATTCTCTTCCAGTCAAGAAGGTCCGCCTTAAAGCAGTGCAGAAAGAT
GACAAGATCATGCGAGAAGTGAACGCTCTCAGCCGGCTCAATCATCGGTTTATTGTTCGATACTACACCACATGG
ATCGAGACAACCGAAGCGCCGTCTACCACTGTTTCCGACGACTCCAGCGCGGAGTCTTCAATGATTACCAGCTCT
GAAGTCACTTCGATCCCAGACGATGATAGCGAACGTCATTTACCCATCAATGGAGGATTTGATCTGGGCGACCTG
GATGACCTGGACGATGAACTTGGGTCACAATCGTCGTTCCCTAGCATCCACTTTGAAGGCTCCAAGTCTCCAGCC
AATTCGGACAGCAGTGGCGATGATAGTTTGTTTGACTCGATGTCGCCCACCAACAAGAATCTCACGTTCCCTTCG
AATTTCGGCCCAAGTAGGACCCTTTACATTCAGATGGTGGGTTCTGTCTGCCGTTATATGAATGGATTGGGGTGC
TGATGAGTTCTTCTCAATAGGAATTTGTGGAGCGTCAGACGCTGCGGGAACGAGTTGACGAAGGTATCTCGGAGG
AAGAAGGGTGGCGCCTGTTCCACCAGATTGTGGATGCTCTAGTGCATATGGCGAACCTTGGTATCATCCACCGTG
ATATCAAGTTGACGAACATCTTCATTGGTGGGTCGTGATCTTAGATTTCCGTGACGTCCTTGCTGACGAGGTTCA
TTTTTTCCAGATGCGAAAGGGGATTGTAAAGGTATGTTGACGCAGCCCTTGCGAAGATCATGGGCCTCACTCTAT
CCCCAGTCGGTGACTTCGGATTGGCGACGTCGAGTCTTGCCGCGGTGGATCCTTCGGATGTCCAACACAAGCCGG
TGACATATGATCCTGAAATGACCCTCGGTAAGTGACTCCTTCCGGTGTTGTTGTCAACTACTAACCCCCTTGTCT
GCAGAGGTGGGAACGAGATTGTACATCGCACCCGAAGTTCAGTGGACTGGCAGGAGGGCAGCCCCCAAGAACCAC
AACAAGGCGGACATGTACAGTCTGGGAGTACGCTTTCAGTTCCTCAGCCTCCGTTTCCCTGATTCTCAATTCTTT
TAGATCGTCTTCTTCGAAATGAACTACCGGTTCACTACTGGATCAGAACGAATCGTTGTCTTGGAAGACTTGCGC
AAGCCTGGTATCTTCTTCCCTACATCTTGGGAACCCCATCGTACCCGCCAGAGGGAAAGTACGTCAACACGTTAT
CGTCGCAATGTCGCCCCGAAACTGACGCTTTATCTGCTAGTCATCACCTGGTTGCTCCAACATGACCCGGAGAAG
CGACCCTCGGCGCTGGACCTGTCCCAGAGCCCTCTGATGCCACCTCGCGTTGAAGACGAGTATTTCCATCAAGCG
CTGGGACTGATGGGTGCGCCTTCCAACTCATCTGTAGTCGTGACCTGTCTGACCATTCCTCAGCCAAACCCGACA
CGCCGCACTACCAAACGGTTTTGTCACTCTTGTTCAACCAGCCGACGAAAGCCTCGCGAGGGTTCCTTTACGACA
AGGATCTTGATCGCCCTGAATATCTTTCACTGGCGGACGCTGTTCAGGACCGGTTGGCGGCTCTTTTCAAGCTTC
ATGGTGCTGTGGACATCGAACCTCCGCTCCTGATGCCCGTTGTCGACCGGGAGGACGAGAAAAACCACGCAACCT
TCATTGATAGGATGGGAACTCTGGTCAGCCTCCCGAACAATCTCCTTGTTCCGTTTGCGAGGTTGGCAGCCAAAG
GAAATTCGAAGCGTATCAAACGATACCATATTGCCAATATCTATCGACCAAAGTATGTCCTCGGTGTACTGTCCC
CGCGTCTTTGCTATTGACCCCTGTATAGCCCTGTCGCAGGCCATCCTCTCATTCAGAAGGCCGCTGTCTTTGATA
TCATCACTCAAGACGTCGAGTATGGGCCCATCGCTGCGGGTGCCGAGGTGATAGCTGTCAGCAATGACATCCTGA
ACACGTTCCCCAACTTGACTGGGACCTACAACATCCGGGTGTCCCATTCGACTAGTGCGTTATTTCATTGTTTTG
CCACTTTGTTGTCTAACGTTTCGGTCAGTCGTTGAACTGGCGATGGCCAGAATCCCTGAAGAACATCGAGCAGCC
GTGGTTGAAATCCTGATGCAGTCAAAGTCGTCGACGTCCCAGAAGCGGGCGTTGTTGTTGAAGAAGGGGCTGACG
AGGGCTGTGATCGACGAGCTGGAGATCTTGAACGAATCGGGTACGTTTGTTGGTTCACGGTATAGGCCAGTTGCT
CATTTGGTCTCTAGAGGATGACATCGATGATGTGGTCTACAAGCTCGAGAAGATCTCGTCGCCTCTACTCCCTCT
TCTCCGGCCTGTCGTCGCGGAGATTAAGGCCACTTTGCAGCACGCAGCTTTTGCGGGGGTTGACCGACCTATGAT
CATCCACCCACTTATGCTTGGGAACCATCATCAGTACTTCAAGGACGGGATACTCATCGAGCTCACGCACAAGTC
GAAGCCAAGTAATGTCCTAGCTGCTGGTGGCAGGTACGAACACTATTTCCAGTCGACGACGTACGAAATCCTAAC
GTGGTGTCCAGATACGACGCAGTGATTGCGCGGCACTCACCAACGCTGAGACAGAAGGGCGACAACCTCTGTGCT
ATCGGTATTCAAATTGCACTTGAGAAGATTCTTGCCCAATTGGCGCTGTTCCAGAGCAACTATGTCAAGAACCTG
ATCAAGGAGGAGCGTTCCTTTGGCTATTGGAGTCCTCGGCGATGCGATGTCTATGTGGTCTCTTACCACACCGGG
TACCTGCAGGACCGGTTGGAGGTCGTCTCGTATCTTTGGCAGCATAATATCAGCGCGGATATCATGTACGAGTCT
GCGATCTCTGATATTGAGCACGAGAGGCTGGAGAGCGTATGTGAGCGAGAAGGAATTCTGTACGTGGTTTTCTCG
GAGATGGGTTGTCGTAACGGGGCTTACATTGTTTCTACAGGTTCACAGTATGTCCAAGGCCTCGCGCGTCTAAGC
AAACTCAGTCGGCCTTCAAGGTTAAGAGCATCCTGAAGGGCGCTGAATATGATCGTATGTCGCTTTGCGATGTGA
TTCGGTTTTTCCACTGACCTTCTTTCTTACAGTGTCTCGCGCTGAATTGGTCGGTTGGTTGCAACATCAAATCGC
AGAACAGAAACGGATCGACCTGAGTACCTATGGAACTGGAGCTGCTTGGGAATCGACGCCAACTGCTTCATCGTC
CAAGGATGCCATGGCCACTCCGGATGTGCAGCTCGTCCTTCCCGCCGACGTGAAGAAGCAGCGAAGATCGGTCAA
ACACATGCTCAACGATCGAGGTGGGTTCGCCGTTTAAAGACTGTGTATTCAGGCGATTGACGTTCCAACGCGCTA
GCTTTCGAGACATCGAAGAAAGTCAAGGCTTCGGTTGCTACTATGCCGACTGTCGCGGTTGATGTCCCGACCTCC
GTGTTCGACACGATGTGTCGCTCCTCCTCTTGGCTCTCCGACGATGACACCTGGCGATCCCTCGTGGCAGCCTTC
CCTCCTGGTCACTCGGCTTACGCATCCCAGATACGGGAGTCGGTCCTGAAGCACAAGGCTGACGGACACTCCTAC
GTCCTTCTCTTTGCCGTCAAGGAAGAGAGGATTCAACTCTTGGCCCTCACTTGACGAATCACGCACCGCTCACGA
CTTCCTTTCCACTTTCTACACTTTCTGCCCCTCATGAAGCATGCCCTCTCAACTCTTTTTTTGAATCAAAGCAAA
TCGCGAATCATATCATTCACAAGTTGTTATTTAAGTCCACGCAAGATACCAGCCTTTAATATCGTCGGTGCTTCG
GGAAGCAATGGTTTAATTGTCGCATAACTCTATGTATTATCATATGTGTTTTCTCTCCCCCAATTTATTCGTATG
GAT
Length 5628