CopciAB_408996
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_408996 Strain Coprinopsis cinerea Okayama 7
Standard name NIK1 Synonyms 408996
Uniprot id Functional description HAMP (Histidine kinases, Adenylyl cyclases, Methyl binding proteins, Phosphatases) domain
Location scaffold_13:71791..79588 Strand -
Gene length (nt) 7798 Transcript length (nt) 5177
CDS length (nt) 4317 Protein length (aa) 1438

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Candida albicans NIK1
Aspergillus nidulans AN4479_nikA
Neurospora crassa os-1

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7266673 79.2 0 2160
Pleurotus ostreatus PC9 PleosPC9_1_117202 78.8 0 2130
Hypsizygus marmoreus strain 51987-8 Hypma_RDB21643 93.6 0 2106
Pleurotus ostreatus PC15 PleosPC15_2_1050244 91.6 0 2075
Pleurotus eryngii ATCC 90797 Pleery1_1388585 91.4 0 2070
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_64857 91.5 0 2069
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_228355 91.3 0 2067
Grifola frondosa Grifr_OBZ72870 77.5 0 2003
Ganoderma sp. 10597 SS1 v1.0 Gansp1_56143 87.5 0 1969
Schizophyllum commune H4-8 Schco3_2628525 72 0 1933
Auricularia subglabra Aurde3_1_1278475 57.7 0 1718
Lentinula edodes NBRC 111202 Lenedo1_818980 91.9 0 1289
Lentinula edodes B17 Lened_B_1_1_8551 78.5 0 1275
Flammulina velutipes Flave_chr09AA01382 83.4 0 1257

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 501.1073 93.0474 53.7209
oidia 275.5045 41.7591 24.1096
vegetative_mycelium 275.5334 32.5852 18.8131
primordia 271.1885 16.4295 9.4856
hyphal_knot 485.4691 58.3511 33.689
young_fruiting_body 529.5092 60.6336 35.0068
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 269.7258 51.4751 29.7191
Wheat bran 168.9589 33.2501 19.197
Horse manure 255.4413 89.4437 51.6404
Oak leaves 275.2806 90.4409 52.2161
Hay 222.658 51.4912 29.7285
Corn stalk 255.4676 4.8917 2.8242
Pectine 247.5685 13.8792 8.0131
Microcrystalline cellulose 273.7825 62.9339 36.3349
Xylose 476.581 72.934 42.1085
Cellobiose 285.5365 49.476 28.565
Lignin 319.621 87.1805 50.3337
Apple peels 317.0093 57.2968 33.0803
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 206.7472 9.5651 5.5224
Bsubtilis 286.5536 23.3406 13.4757
Ecoli 199.4371 32.5917 18.8168
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 130.7937 27.4568 15.8522
BS 4h 83.756 3.2821 1.8949
BS 8h 67.8185 5.2043 3.0047
BS 12h 68.2188 19.7552 11.4057
Oidia 0 h 89.9689 41.2566 23.8195
Oidia 18 h 125.0655 31.5351 18.2068
Sclerotia 134.7671 24.6166 14.2124
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 82.3915 14.4253 8.3285
DM 36h 68.7169 13.6642 7.8891
DM 60h 121.2759 49.3863 28.5132
DM 84h 141.9222 8.9251 5.1529
DM 108h 135.3419 11.3735 6.5665
DM 132h 129.2732 20.8308 12.0267
DM 156hAE 260.9533 41.6762 24.0618
ELI1hAE 86.6339 9.2619 5.3474
ELI2hAE 93.9183 12.2518 7.0736
LI2hAE 95.4538 11.8633 6.8493
LI6hAE 135.0028 25.4887 14.7159
LI12hAE 97.3693 3.3565 1.9379
LI18hAE 130.4442 34.3927 19.8567
LI 24hAE 194.5796 19.827 11.4471
DM 156hAM 164.4889 21.8777 12.6311
ELI1hAM 71.0652 9.1199 5.2654
ELI2hAM 58.4224 6.3236 3.6509
LI2hAM 60.5868 18.3644 10.6027
LI6hAM 128.5796 8.0168 4.6285
LI12hAM 143.3461 31.4435 18.1539
LI18hAM 174.6278 18.8683 10.8936
LI 24hAM 227.3606 36.5039 21.0755
LI 24hHK 176.5079 33.7911 19.5093
L/D 6h 292.3987 76.759 44.3168
L/D 12h 272.7358 72.8762 42.0751
L/D 18h 230.6739 27.6249 15.9492
L/D 24h 212.7833 26.2536 15.1575
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 282.4018 40.8528 23.5864
Hyphal knots 546.6305 405.0883 233.8778
Primordium 1 422.0693 29.5334 17.0511
Primordium 2 453.7707 99.6492 57.5325
Young Fruiting body cap 848.141 536.4109 309.6969
Younf fruiting body gill 248.3785 92.3459 53.3159
Young fruiting body stipe 587.1441 133.3655 76.9986
Mature fruiting body cap_gill 505.3156 200.3686 115.6829
Mature fruiting body stipe 746.7896 192.4114 111.0888
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 500.443 50.1032 28.9271
NH4NO3 483.3477 112.8507 65.1544
Proline 488.422 33.9901 19.6242
Tryptophan 434.8138 48.1113 27.7771
Isoleucin 533.5383 109.6954 63.3327
Arginine 685.1568 15.7507 9.0937
Metionine 525.295 34.9635 20.1862
NaNO3 499.7344 54.452 31.4379
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 500.443 50.1032 28.9271
Citrus peel 440.6864 92.8022 53.5794
Poplar leaves 668.5321 58.6283 33.8491
Typha leaves 557.8779 125.4439 72.4251
Overwintered Salix leaves 587.6609 65.379 37.7466
Reed flowering 554.6942 67.4647 38.9508
Tigernut 417.1431 42.5996 24.5949
Energy cane 597.2605 109.9005 63.4511
Guar gum 434.4305 69.4105 40.0742
Apple peels 393.9954 103.3918 59.6933
Cellobiose 378.1765 57.9451 33.4546
Corn stalk 538.4092 54.1901 31.2867
Horse manure 667.1914 161.3615 93.1621
Lignin 433.713 195.5932 112.9258
Microcrystalline cellulose 549.2517 135.8333 78.4234
Oak leaves 518.7844 155.2405 89.6282
Pectin esterified 358.9795 38.4461 22.1969
Poplar sawdust 417.8037 67.2704 38.8386
Wheat bran 362.172 85.1882 49.1834
Chlamydomonas reinhardtii 549.0002 64.3703 37.1642
Vertatryl alcohol 183.9703 28.7379 16.5919
Furfural 239.6452 5.7169 3.3007
Autoclaved mycelium 561.7079 9.2528 5.3421
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 324.9857 15.644 9.0321
Ribose 452.4093 17.2407 9.9539
Mannose 410.7247 9.4021 6.6483
Fructose 399.7731 28.6895 16.5639
Arabinose 477.7459 45.9065 26.5041
Xylose 393.4518 24.9972 14.4322
Galacturonic acid 444.7731 38.1146 22.0055
Rhamnogalacturonan 418.2867 31.9926 18.4709
Pectin esterified 423.6552 18.4404 10.6466
Polygalacturonic acid 364.6932 33.8003 19.5146
Sodium acetate 426.2981 46.2184 26.6842
No nitrogen 388.4167 73.6241 42.5069
BSA 411.4496 20.8277 12.0249
Glutamine 395.5584 10.8291 6.2522
No phosphate 322.0947 26.9454 15.5569
No carbon 509.9406 36.923 26.1085
No sulphur 467.8694 65.7065 37.9357
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 500.443 50.1032 28.9271
Amylose 504.8831 70.3175 40.5978
Fucose 470.2394 42.5481 24.5652
Galactose 551.9539 21.2912 12.2925
Lactose 441.3518 46.0085 26.563
Maltose 473.1258 62.3592 36.0031
Mannitol 486.4463 30.7281 17.7409
Rhamnose 531.673 47.2767 27.2952
Sorbitol 398.3826 49.9084 28.8146
Trehalose 403.4511 33.9401 19.5954
Glycerol 558.193 54.0158 31.186
Glucuronic acid 470.7482 27.4615 15.8549
Arabinan 325.998 47.7127 27.547
Galactan 445.1632 32.8274 18.9529
Galactomannan 388.5418 103.1199 59.5363
Glucan 419.8872 22.3522 12.9051
Xylan 410.4119 130.1832 75.1613
Xyloglucan 404.6874 58.2225 33.6148
Arabinogalactan 436.2348 37.7066 21.7699
Pectin 424.9486 196.7882 113.6157
Rhamnogalacturonan 814.1184 238.829 137.888
Polygalacturonic acid 407.2893 38.7567 22.3762
Mannan 461.1198 41.0472 23.6986
Amylopectin 454.7309 68.2424 39.3998
Inulin 671.971 91.9617 53.0941
BSA 588.4419 17.1474 9.9001
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 121.2759 49.3863 28.5132
2h WAT 133.2347 12.0893 6.9798
4h WAT 105.6182 10.606 6.1234
8h WAT 85.9973 3.8654 2.2317
16h WAT 101.9063 19.7898 11.4257
24h WAT 100.9821 4.0542 2.3407
WAT hyphal knot -30h 65.0825 6.2054 3.5827
WAT hyphal knot -22h 61.2269 6.6193 3.8217
WAT hyphal knot -15h 77.41 7.2077 4.1614
WAT hyphal knot -7.5h 95.8624 12.6377 7.2964
WAT hyphal knot 93.3296 25.1547 14.5231
WAT hyphal knot +7.5h 125.1383 5.0312 2.9047
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 300.2165 109.6559 63.3098
Straw 3h 310.7794 28.5014 16.4553
Straw 6h 315.237 94.3876 54.4947
Straw 12h 534.9126 50.861 29.3646
Straw 24h 447.1985 59.1343 34.1412
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 85.1204 6.9047 3.9864
Frost (-20C, 30min) 97.4116 12.9423 7.4723
Heat shock (47C, 2h) 69.5611 7.1361 4.1201
High CO2 111.4208 19.6478 11.3437
Drought (4% agar, 12h) 98.4331 6.2756 3.6232
Oxidative (1mM H2O2, 3h) 80.4747 5.0725 2.9286
Acidic (pH4, 3h) 73.8754 1.5203 0.8777
Alkaline (pH9, 3h) 79.3677 11.4092 6.5871
Osmotic (sorbitol 2h) 125.9646 14.9331 8.6216
CongoRed (3h) 89.9662 15.068 8.6995
Cobalt chloride control 104.6092 4.1728 2.4092
Cobalt chloride 2mM 96.7411 13.9815 8.0722
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 114.1001 38.14 22.0201
Cold stimulation 105.7466 45.7434 26.41
Scratched surface 48.6947 1.7422 1.0059
Ca2+, 200mM, 24h 69.8517 10.4384 6.0266
Cu2+, 2mM, 6h 99.0112 23.5176 13.5779
Voriconazole 75.4218 8.0999 4.6765
Trichoderma interaction, early 77.9338 15.9298 9.1971
Trichoderma interaction 60h 72.0827 5.2415 3.0262
Cobalt chloride 2mM repeat 107.0491 37.7326 21.7849
Hypoxia 139.2119 51.9818 30.0117
Hypoxia control 106.6176 31.7054 18.3051
Protoplastation control 156.4128 10.8125 7.6456
Protoplastation 3.5h 125.0077 3.6552 2.5846
Protoplastation 1.5h 168.9133 27.7622 19.6308

General data

Systematic name NIK1
Protein id CopciAB_408996.T0
Description HAMP (Histidine kinases, Adenylyl cyclases, Methyl binding proteins, Phosphatases) domain

Annotation summary

0 400 800 1200 1438

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd06225 HAMP - 388 432
CDD cd06225 HAMP - 483 524
CDD cd06225 HAMP - 575 616
CDD cd06225 HAMP - 664 708
CDD cd06225 HAMP - 759 801
CDD cd00082 HisKA IPR003661 911 952
CDD cd16922 HATPase_EvgS-ArcB-TorS-like - 1030 1142
CDD cd17546 REC_hyHK_CKI1_RcsC-like - 1291 1410
Pfam PF00672 HAMP domain IPR003660 383 434
Pfam PF18947 HAMP domain IPR003660 462 524
Pfam PF00672 HAMP domain IPR003660 567 617
Pfam PF00672 HAMP domain IPR003660 658 708
Pfam PF00672 HAMP domain IPR003660 751 801
Pfam PF00512 His Kinase A (phospho-acceptor) domain IPR003661 913 978
Pfam PF02518 Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase IPR003594 1025 1142
Pfam PF00072 Response regulator receiver domain IPR001789 1291 1411

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR036890 Histidine kinase/HSP90-like ATPase superfamily
IPR003661 Signal transduction histidine kinase, dimerisation/phosphoacceptor domain
IPR001789 Signal transduction response regulator, receiver domain
IPR003660 HAMP domain
IPR003594 Histidine kinase/HSP90-like ATPase
IPR011006 CheY-like superfamily
IPR036097 Signal transduction histidine kinase, dimerisation/phosphoacceptor domain superfamily
IPR004358 Signal transduction histidine kinase-related protein, C-terminal
IPR005467 Histidine kinase domain

GO

Go id Term Ontology
GO:0000155 phosphorelay sensor kinase activity MF
GO:0007165 signal transduction BP
GO:0000160 phosphorelay signal transduction system BP
GO:0016020 membrane CC
GO:0016310 phosphorylation BP
GO:0016772 transferase activity, transferring phosphorus-containing groups MF

KEGG

KEGG Orthology
K19691

EggNOG

COG category Description
T HAMP (Histidine kinases, Adenylyl cyclases, Methyl binding proteins, Phosphatases) domain

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_408996 across fungi.

Arrow shows the origin of gene family containing CopciAB_408996.

Protein

Sequence id CopciAB_408996.T0
Sequence >CopciAB_408996.T0
MALPMTDVPPVPTPDSAPAPPGDPFYLHLIALLDVYDRGPYPGATVPVPRYNGPSSWETDKIIRTLGVVAKRMWV
AEEKLRGLGIWTGHHAGGGGSGDDENEKRLGYTTTTTAMAMQGQGQTTSTSTPCTPLASTLTAQTAHQQEFEAAA
AAAAAAAAPTTQSQWHPQSQSQWPPPPPSYPTNEDPYYQSDAATLDSDQAHSIAQAQAQAQSQSDGQSGAQGGDD
NDIDHRETRRILKTAQKPHRCTMCGSWTTGGASTLLDPGGGGGYPAYPTDPLSSEESSPLSATEELKLLKAQVQD
VARVCNAVARGDLSQKITVPVQGVVMVQLKDVINGMVDKLGQFAKEVTRVSQEVGTEGKLGGQALVLDVEGTWRE
LTGVVNKLAANLTNQVRSIAKVTKAVALGDLSKQIEVDARGEILDLKNTVNGMVVRLRALAAEVTRVTLEVGSQG
KLGGQAHVPDVEGVWFELVRNVNRMCSSLTDQVRSIAMVTTAVARGDLTQKITIQVEGEMSTLKGTVNSMVDQLS
AFASEVTRVALEVGTQGILGGQAKVEGVQGTWADLTRNVNKMASNLTDQVRSISEVTKAVAAGDLTKLVNVDVQG
EMLDLKMTVNSMVSQLSTLANEVTRVSLEVGTEGILGGQADVPGVQGMWKALTDNVNLMAMNLTNQVRSIAQVTK
AVAGGDLTKKIDVDARGEILELKDTVNGMTASLSVFADEVTRVAREVGTEGRLGGQARVTNVGGTWKDLTDNVNV
MANNLTLQVRTIAVATTAVARGDLTQKITGVSVSGEMLSLVNTINDMIDQLAIFAAEVKKVAREVGTEGKLGVQA
EVGNVQGIWQEITLSVNTMAGNLTTQVRGFAQISAAAMDGDFTRFITVEASGEMDSLKTQINQMVFNLRDSIQKN
TAAREAAELANRSKSEFLANMSHEIRTPMNGIIGMTELTLDSDLNRSQRESLLLVHSLARSLLLIIDDILDISKI
EAGRMTMEAVTYSLRQTVFGILKTLVVRASQNNLDLTYDVEPDIPDQLIGDSLRLRQVITNLVGNAIKFTPSKVN
RKGQVALSTRLLAMDDQSVTLEFCVTDTGIGIAKDKLNLIFDTFCQADGSTTREYGGTGLGLSISKRLVSLMQGN
MWVESEVSKGSKFYFTITSQINHSSMEATLGKMQPFAKRTILFVDTLRDTTGVVNRIKELNLRPYVIHEVAEVAD
KEKCPHIDTIVVDSLNVVESLRELEHLRYIPIVLLAPSLPRLNLKWCLDNSLSSQITTPVSAQDLASSLISALES
NTVSPVSAPNDVTFDILLAEDNLVNQKLAVKILEKYGHSVEIAENGSLAVDAFKARVAQNKPFDIILMDVSMPFM
GGMEATELIRSYEMHKGLTATPIIALTAHAMIGDRERCLQAGMDDHITKPLRRGDLLNAINKLAGANRKEPHHLM
RRPPAIAPGPSYA
Length 1438

Coding

Sequence id CopciAB_408996.T0
Sequence >CopciAB_408996.T0
ATGGCTCTGCCAATGACGGACGTCCCGCCCGTCCCCACGCCCGACTCCGCGCCTGCGCCCCCCGGCGACCCGTTC
TACCTGCACCTCATCGCCCTCCTCGACGTCTACGACCGCGGGCCCTACCCCGGCGCTACGGTTCCTGTGCCACGA
TACAATGGCCCGAGCAGCTGGGAGACGGATAAGATTATTAGGACGCTGGGTGTGGTTGCGAAGAGGATGTGGGTA
GCGGAGGAGAAGTTGAGGGGGTTGGGGATTTGGACGGGGCATCATGCGGGGGGTGGGGGGAGTGGGGATGATGAG
AACGAAAAACGGTTAGGGTATACGACGACGACGACGGCGATGGCGATGCAGGGACAGGGACAGACGACGAGTACA
TCGACGCCGTGCACGCCTTTAGCGTCGACCCTGACGGCACAGACGGCGCACCAGCAGGAATTCGAGGCTGCTGCT
GCCGCAGCCGCTGCAGCGGCAGCTCCGACCACCCAGTCGCAGTGGCACCCTCAAAGTCAATCCCAGTGGCCTCCT
CCTCCACCCTCGTACCCCACGAACGAAGATCCGTACTACCAATCCGATGCTGCGACTCTCGATTCGGACCAAGCG
CATTCCATAGCCCAAGCCCAAGCCCAAGCTCAATCGCAATCGGATGGGCAATCGGGGGCGCAGGGAGGGGATGAT
AATGATATTGATCATCGTGAAACGAGGAGGATTTTGAAGACGGCGCAGAAGCCGCATCGGTGCACGATGTGTGGG
TCGTGGACGACTGGAGGAGCGAGTACGTTGTTGGATCCGGGAGGAGGTGGGGGGTATCCTGCTTATCCTACTGAC
CCCCTTTCGTCAGAAGAATCCTCCCCCCTCTCGGCGACCGAAGAACTCAAGCTGCTCAAAGCCCAAGTACAGGAC
GTTGCGCGGGTGTGTAACGCTGTGGCGAGGGGAGACTTGAGTCAGAAGATTACTGTGCCTGTGCAGGGCGTAGTG
ATGGTCCAACTCAAAGACGTGATCAACGGTATGGTCGACAAGCTTGGTCAGTTTGCGAAGGAGGTTACGCGTGTG
TCGCAGGAGGTCGGAACGGAGGGTAAACTCGGTGGTCAAGCACTCGTGTTGGACGTTGAAGGCACTTGGCGCGAG
TTGACGGGTGTTGTGAACAAGTTGGCTGCTAATTTGACGAATCAGGTCCGGTCTATCGCTAAAGTCACGAAAGCC
GTCGCGTTGGGCGATCTCTCGAAACAGATCGAGGTTGATGCCCGGGGTGAGATTTTGGATTTGAAGAATACGGTT
AATGGTATGGTTGTTCGACTCCGAGCTCTCGCCGCCGAAGTTACGCGTGTCACGCTCGAGGTTGGTTCACAAGGA
AAGTTGGGAGGTCAAGCGCATGTTCCGGATGTTGAGGGTGTGTGGTTTGAGTTGGTGCGGAATGTCAACAGGATG
TGTTCCTCTTTGACGGACCAAGTCCGATCTATTGCGATGGTGACGACTGCTGTTGCGCGTGGTGATTTGACGCAG
AAGATTACGATTCAGGTGGAGGGTGAGATGAGTACTTTGAAGGGCACCGTAAACTCAATGGTGGACCAACTCTCG
GCCTTTGCGTCCGAAGTCACTCGTGTAGCGCTCGAAGTCGGTACCCAGGGTATTTTGGGTGGACAAGCCAAGGTT
GAGGGTGTACAAGGAACTTGGGCTGATTTGACTAGGAATGTGAACAAAATGGCGTCCAACCTGACGGACCAAGTC
CGATCCATTTCGGAAGTCACAAAGGCTGTTGCGGCTGGTGATCTTACCAAGTTGGTGAACGTGGATGTGCAGGGT
GAGATGTTGGATTTGAAGATGACTGTGAATTCAATGGTGTCGCAATTGAGCACTCTGGCTAACGAAGTGACGCGA
GTCTCGCTTGAAGTCGGTACGGAGGGTATACTTGGAGGGCAGGCTGATGTTCCTGGTGTTCAGGGGATGTGGAAG
GCTCTTACGGACAACGTCAACCTCATGGCCATGAACCTCACGAACCAAGTGCGATCTATCGCGCAAGTTACGAAA
GCTGTAGCGGGAGGTGATTTGACGAAGAAGATTGATGTTGATGCGAGGGGTGAGATTCTCGAGTTGAAGGATACT
GTTAATGGGATGACGGCTAGTTTGAGTGTGTTTGCTGATGAGGTTACGAGGGTGGCGAGGGAAGTCGGAACGGAA
GGACGGTTGGGCGGTCAAGCGCGTGTTACGAATGTTGGTGGGACGTGGAAGGATTTGACGGATAATGTGAACGTC
ATGGCGAACAATTTGACGTTGCAGGTTCGGACTATTGCTGTTGCTACGACCGCCGTAGCCCGTGGTGACCTCACG
CAGAAGATCACTGGAGTTTCCGTTTCTGGAGAAATGCTCTCCCTCGTCAACACCATCAACGACATGATTGACCAG
CTGGCTATTTTCGCTGCCGAGGTTAAGAAGGTCGCTCGAGAAGTCGGAACGGAAGGAAAGCTTGGCGTTCAAGCT
GAAGTTGGGAACGTGCAGGGTATTTGGCAGGAAATTACTCTCTCCGTCAACACCATGGCCGGCAACCTCACAACC
CAAGTGCGAGGTTTCGCGCAAATCAGTGCGGCGGCGATGGACGGTGATTTCACGCGATTCATCACTGTTGAAGCG
AGTGGTGAGATGGATAGTTTGAAGACGCAGATTAACCAGATGGTTTTCAATTTGAGGGATAGTATTCAGAAGAAT
ACGGCTGCGAGGGAGGCGGCTGAGTTGGCTAATAGGAGTAAGAGTGAGTTTTTGGCGAATATGAGTCATGAGATT
CGGACGCCTATGAACGGTATCATCGGTATGACGGAGCTTACGCTCGATAGTGATCTTAATCGATCGCAACGCGAG
AGTTTGCTGCTCGTCCATTCGTTGGCGAGGTCGCTGCTTTTGATTATTGATGATATTTTGGATATTTCCAAGATC
GAAGCCGGCCGGATGACTATGGAAGCTGTGACCTACTCCCTCCGCCAGACTGTCTTTGGTATCCTCAAGACCCTC
GTCGTCCGCGCTTCGCAGAACAACCTCGACCTCACGTATGACGTCGAGCCTGATATTCCCGACCAGCTCATCGGC
GACTCGCTCCGTCTCCGACAGGTTATCACCAACCTCGTTGGTAATGCTATCAAGTTCACGCCATCCAAGGTGAAC
AGGAAGGGTCAGGTTGCGTTGAGCACGCGGTTGTTGGCGATGGATGATCAGAGTGTTACTCTCGAGTTCTGCGTT
ACGGATACGGGTATTGGTATTGCCAAGGACAAGTTGAACTTGATTTTCGACACGTTCTGTCAAGCTGATGGTTCG
ACTACTCGTGAATACGGTGGCACTGGTCTCGGTCTCTCCATCTCCAAGCGTCTCGTCTCGCTCATGCAAGGCAAC
ATGTGGGTCGAGTCGGAAGTGTCCAAGGGTTCCAAGTTTTACTTCACCATCACCTCGCAAATCAACCACTCGTCT
ATGGAGGCTACGCTCGGCAAGATGCAGCCTTTCGCCAAACGCACGATCTTGTTCGTGGATACGTTGAGGGATACG
ACTGGAGTGGTGAATAGGATTAAGGAGTTGAATTTGAGGCCGTATGTTATTCATGAGGTTGCGGAGGTGGCGGAT
AAGGAGAAGTGTCCGCATATTGATACGATTGTTGTTGATTCGTTGAATGTGGTTGAATCGCTTCGCGAACTCGAA
CACCTGCGGTACATTCCTATCGTCCTCCTTGCCCCCTCCCTCCCACGTCTCAACCTCAAATGGTGCCTCGACAAC
TCGCTCTCCTCGCAAATCACGACGCCGGTATCGGCCCAAGACCTCGCGTCTTCACTCATTTCCGCCCTCGAGAGT
AACACTGTTTCGCCTGTCTCTGCGCCGAACGATGTGACGTTTGATATACTCCTGGCGGAGGATAACTTGGTTAAC
CAGAAGCTGGCGGTGAAGATTTTGGAAAAGTATGGGCATAGTGTTGAGATTGCGGAGAATGGAAGTTTGGCGGTT
GATGCGTTTAAGGCGAGGGTTGCGCAGAATAAGCCGTTTGATATTATCCTCATGGACGTGTCTATGCCTTTCATG
GGTGGTATGGAAGCTACGGAGTTGATTCGGTCGTATGAGATGCATAAGGGGTTGACGGCTACGCCTATCATTGCT
TTGACTGCTCATGCCATGATTGGTGATCGTGAACGGTGCTTGCAGGCTGGTATGGACGATCATATCACGAAACCT
CTCCGACGAGGCGACCTCCTCAACGCCATCAACAAGCTCGCCGGCGCGAACCGCAAAGAACCGCACCACCTCATG
CGCCGCCCGCCTGCTATCGCTCCTGGACCTTCGTACGCATAG
Length 4317

Transcript

Sequence id CopciAB_408996.T0
Sequence >CopciAB_408996.T0
TCCCCCTCCCTTTCCCCTCTTCTTCCTTCCCTCCTCTCCTCTTGGTCGCCTTACTGGGCGTCCCCCTCCCAATCC
CTTTCAATCCAAGATACCAAAACTGACAGAACAACCCTAAAGCTCCCAACCCATCCAGCCACAACGATCCCCCAC
ACACAAGACTGTATGGCTCTGCCAATGACGGACGTCCCGCCCGTCCCCACGCCCGACTCCGCGCCTGCGCCCCCC
GGCGACCCGTTCTACCTGCACCTCATCGCCCTCCTCGACGTCTACGACCGCGGGCCCTACCCCGGCGCTACGGTT
CCTGTGCCACGATACAATGGCCCGAGCAGCTGGGAGACGGATAAGATTATTAGGACGCTGGGTGTGGTTGCGAAG
AGGATGTGGGTAGCGGAGGAGAAGTTGAGGGGGTTGGGGATTTGGACGGGGCATCATGCGGGGGGTGGGGGGAGT
GGGGATGATGAGAACGAAAAACGGTTAGGGTATACGACGACGACGACGGCGATGGCGATGCAGGGACAGGGACAG
ACGACGAGTACATCGACGCCGTGCACGCCTTTAGCGTCGACCCTGACGGCACAGACGGCGCACCAGCAGGAATTC
GAGGCTGCTGCTGCCGCAGCCGCTGCAGCGGCAGCTCCGACCACCCAGTCGCAGTGGCACCCTCAAAGTCAATCC
CAGTGGCCTCCTCCTCCACCCTCGTACCCCACGAACGAAGATCCGTACTACCAATCCGATGCTGCGACTCTCGAT
TCGGACCAAGCGCATTCCATAGCCCAAGCCCAAGCCCAAGCTCAATCGCAATCGGATGGGCAATCGGGGGCGCAG
GGAGGGGATGATAATGATATTGATCATCGTGAAACGAGGAGGATTTTGAAGACGGCGCAGAAGCCGCATCGGTGC
ACGATGTGTGGGTCGTGGACGACTGGAGGAGCGAGTACGTTGTTGGATCCGGGAGGAGGTGGGGGGTATCCTGCT
TATCCTACTGACCCCCTTTCGTCAGAAGAATCCTCCCCCCTCTCGGCGACCGAAGAACTCAAGCTGCTCAAAGCC
CAAGTACAGGACGTTGCGCGGGTGTGTAACGCTGTGGCGAGGGGAGACTTGAGTCAGAAGATTACTGTGCCTGTG
CAGGGCGTAGTGATGGTCCAACTCAAAGACGTGATCAACGGTATGGTCGACAAGCTTGGTCAGTTTGCGAAGGAG
GTTACGCGTGTGTCGCAGGAGGTCGGAACGGAGGGTAAACTCGGTGGTCAAGCACTCGTGTTGGACGTTGAAGGC
ACTTGGCGCGAGTTGACGGGTGTTGTGAACAAGTTGGCTGCTAATTTGACGAATCAGGTCCGGTCTATCGCTAAA
GTCACGAAAGCCGTCGCGTTGGGCGATCTCTCGAAACAGATCGAGGTTGATGCCCGGGGTGAGATTTTGGATTTG
AAGAATACGGTTAATGGTATGGTTGTTCGACTCCGAGCTCTCGCCGCCGAAGTTACGCGTGTCACGCTCGAGGTT
GGTTCACAAGGAAAGTTGGGAGGTCAAGCGCATGTTCCGGATGTTGAGGGTGTGTGGTTTGAGTTGGTGCGGAAT
GTCAACAGGATGTGTTCCTCTTTGACGGACCAAGTCCGATCTATTGCGATGGTGACGACTGCTGTTGCGCGTGGT
GATTTGACGCAGAAGATTACGATTCAGGTGGAGGGTGAGATGAGTACTTTGAAGGGCACCGTAAACTCAATGGTG
GACCAACTCTCGGCCTTTGCGTCCGAAGTCACTCGTGTAGCGCTCGAAGTCGGTACCCAGGGTATTTTGGGTGGA
CAAGCCAAGGTTGAGGGTGTACAAGGAACTTGGGCTGATTTGACTAGGAATGTGAACAAAATGGCGTCCAACCTG
ACGGACCAAGTCCGATCCATTTCGGAAGTCACAAAGGCTGTTGCGGCTGGTGATCTTACCAAGTTGGTGAACGTG
GATGTGCAGGGTGAGATGTTGGATTTGAAGATGACTGTGAATTCAATGGTGTCGCAATTGAGCACTCTGGCTAAC
GAAGTGACGCGAGTCTCGCTTGAAGTCGGTACGGAGGGTATACTTGGAGGGCAGGCTGATGTTCCTGGTGTTCAG
GGGATGTGGAAGGCTCTTACGGACAACGTCAACCTCATGGCCATGAACCTCACGAACCAAGTGCGATCTATCGCG
CAAGTTACGAAAGCTGTAGCGGGAGGTGATTTGACGAAGAAGATTGATGTTGATGCGAGGGGTGAGATTCTCGAG
TTGAAGGATACTGTTAATGGGATGACGGCTAGTTTGAGTGTGTTTGCTGATGAGGTTACGAGGGTGGCGAGGGAA
GTCGGAACGGAAGGACGGTTGGGCGGTCAAGCGCGTGTTACGAATGTTGGTGGGACGTGGAAGGATTTGACGGAT
AATGTGAACGTCATGGCGAACAATTTGACGTTGCAGGTTCGGACTATTGCTGTTGCTACGACCGCCGTAGCCCGT
GGTGACCTCACGCAGAAGATCACTGGAGTTTCCGTTTCTGGAGAAATGCTCTCCCTCGTCAACACCATCAACGAC
ATGATTGACCAGCTGGCTATTTTCGCTGCCGAGGTTAAGAAGGTCGCTCGAGAAGTCGGAACGGAAGGAAAGCTT
GGCGTTCAAGCTGAAGTTGGGAACGTGCAGGGTATTTGGCAGGAAATTACTCTCTCCGTCAACACCATGGCCGGC
AACCTCACAACCCAAGTGCGAGGTTTCGCGCAAATCAGTGCGGCGGCGATGGACGGTGATTTCACGCGATTCATC
ACTGTTGAAGCGAGTGGTGAGATGGATAGTTTGAAGACGCAGATTAACCAGATGGTTTTCAATTTGAGGGATAGT
ATTCAGAAGAATACGGCTGCGAGGGAGGCGGCTGAGTTGGCTAATAGGAGTAAGAGTGAGTTTTTGGCGAATATG
AGTCATGAGATTCGGACGCCTATGAACGGTATCATCGGTATGACGGAGCTTACGCTCGATAGTGATCTTAATCGA
TCGCAACGCGAGAGTTTGCTGCTCGTCCATTCGTTGGCGAGGTCGCTGCTTTTGATTATTGATGATATTTTGGAT
ATTTCCAAGATCGAAGCCGGCCGGATGACTATGGAAGCTGTGACCTACTCCCTCCGCCAGACTGTCTTTGGTATC
CTCAAGACCCTCGTCGTCCGCGCTTCGCAGAACAACCTCGACCTCACGTATGACGTCGAGCCTGATATTCCCGAC
CAGCTCATCGGCGACTCGCTCCGTCTCCGACAGGTTATCACCAACCTCGTTGGTAATGCTATCAAGTTCACGCCA
TCCAAGGTGAACAGGAAGGGTCAGGTTGCGTTGAGCACGCGGTTGTTGGCGATGGATGATCAGAGTGTTACTCTC
GAGTTCTGCGTTACGGATACGGGTATTGGTATTGCCAAGGACAAGTTGAACTTGATTTTCGACACGTTCTGTCAA
GCTGATGGTTCGACTACTCGTGAATACGGTGGCACTGGTCTCGGTCTCTCCATCTCCAAGCGTCTCGTCTCGCTC
ATGCAAGGCAACATGTGGGTCGAGTCGGAAGTGTCCAAGGGTTCCAAGTTTTACTTCACCATCACCTCGCAAATC
AACCACTCGTCTATGGAGGCTACGCTCGGCAAGATGCAGCCTTTCGCCAAACGCACGATCTTGTTCGTGGATACG
TTGAGGGATACGACTGGAGTGGTGAATAGGATTAAGGAGTTGAATTTGAGGCCGTATGTTATTCATGAGGTTGCG
GAGGTGGCGGATAAGGAGAAGTGTCCGCATATTGATACGATTGTTGTTGATTCGTTGAATGTGGTTGAATCGCTT
CGCGAACTCGAACACCTGCGGTACATTCCTATCGTCCTCCTTGCCCCCTCCCTCCCACGTCTCAACCTCAAATGG
TGCCTCGACAACTCGCTCTCCTCGCAAATCACGACGCCGGTATCGGCCCAAGACCTCGCGTCTTCACTCATTTCC
GCCCTCGAGAGTAACACTGTTTCGCCTGTCTCTGCGCCGAACGATGTGACGTTTGATATACTCCTGGCGGAGGAT
AACTTGGTTAACCAGAAGCTGGCGGTGAAGATTTTGGAAAAGTATGGGCATAGTGTTGAGATTGCGGAGAATGGA
AGTTTGGCGGTTGATGCGTTTAAGGCGAGGGTTGCGCAGAATAAGCCGTTTGATATTATCCTCATGGACGTGTCT
ATGCCTTTCATGGGTGGTATGGAAGCTACGGAGTTGATTCGGTCGTATGAGATGCATAAGGGGTTGACGGCTACG
CCTATCATTGCTTTGACTGCTCATGCCATGATTGGTGATCGTGAACGGTGCTTGCAGGCTGGTATGGACGATCAT
ATCACGAAACCTCTCCGACGAGGCGACCTCCTCAACGCCATCAACAAGCTCGCCGGCGCGAACCGCAAAGAACCG
CACCACCTCATGCGCCGCCCGCCTGCTATCGCTCCTGGACCTTCGTACGCATAGATCTTCTTCACGATACCCCCC
GTCCTTTTTTTTCCCATCGTGTGGATATGTTTTGCCGACGCGGTTTTTCTTTTGAGCAGACTGAGGTCGTTTGTG
GTCTCGCCGATTGCGGACCGGTTTGGGCAGATATGATGGGGTGGGGAGGTTCGACGTGGTGATGCCGGTCTGCGG
TTGGCTGGAGAGACCTTGGGCTCTTGAATGGCGAGTCTCTCGAACGGAACGACCTTGGACATCTCCTAATGATGA
CCCGACCTCGTTATGAGATACCCCCGATGATGACATTCCCCCCAGAACGTTTACTCTCGCCTCGTAATTATCTAA
TTTTTGTAGTGGTGTGTGCGACTGGCTCGTACCATCATCCCACGTCTGTCCATTCATCATCTTCATGATTTCTCC
CGATGTCTTTCGTCCTGTGTACACTAGCCTCTTAATTCTCTCTCGCCCAACTGTACATATGTATTTCATCATCCA
TCCATTCTCACTCATTTCCGTCGTCGTCCCTATCTTCATTTTATTTTCATCTCATCTTTTCTTCCTCCATTTCTA
ATGATCTTTTATTCCACTCATTCCACTCACGACCGCTTTCTTGAAAACTGAATGCCGATGGCTTTTTTGCATAAA
AATTGTACTTGTAGCAAAGCAGATCTCGTCTTCATTGTTATGTCCTTGTCTCCTACTAATGTTATTTTATCTGCG
CT
Length 5177

Gene

Sequence id CopciAB_408996.T0
Sequence >CopciAB_408996.T0
TCCCCCTCCCTTTCCCCTCTTCTTCCTTCCCTCCTCTCCTCTTGGTCGCCTTACTGGGCGTCCCCCTCCCAATCC
CTTTCAATCCAAGATACCAAAACTGACAGAACAACCCTAAAGCTCCCAACCCATCCAGCCACAACGATCCCCCAC
ACACAAGACTGTATGGCTCTGCCAATGACGGACGTCCCGCCCGTCCCCACGCCCGACTCCGCGCCTGCGCCCCCC
GGCGACCCGTTCTACCTGCACCTCATCGCCCTCCTCGACGTCTACGACCGCGGGCCCTACCCCGGCGCTACGGTT
CCTGTGCCACGATACAATGGCCCGAGCAGCTGGGAGACGGATAAGATTATTAGGACGCTGGGTGTGGTTGCGAAG
AGGATGTGGGTAGCGGAGGAGAAGTTGAGGGGGTTGGGGATTTGGACGGGGCATCATGCGGGGGGTGGGGGGAGT
GGGGATGATGAGGTGCGTTTTTCTTTCTTATCGTTGCGTTTTGTTCGGGGAGGGCTGATGTGGGGGAGGTAGAAC
GAAAAACGGTTAGGGTATACGACGACGACGACGGCGATGGCGATGCAGGGACAGGGACAGACGACGAGTACATCG
ACGCCGTGCACGCCTTTAGCGTCGACCCTGACGGCACAGACGGCGCACCAGCAGGAATTCGAGGCTGCTGCTGCC
GCAGCCGCTGCAGCGGCAGCTCCGACCACCCAGTCGCAGTGGCACCCTCAAAGTCAATCCCAGTGGCCTCCTCCT
CCACCCTCGTACCCCACGAACGAAGATCCGTACTACCAATCCGATGCTGCGACTCTCGATTCGGACCAAGCGCAT
TCCATAGCCCAAGCCCAAGCCCAAGCTCAATCGCAATCGGATGGGCAATCGGGGGCGCAGGGAGGGGATGATAAT
GATATTGATCATCGTGAAACGAGGAGGATTTTGAAGACGGCGCAGAAGCCGCATCGGTGCACGATGTGTGGGTCG
TGGACGACTGGAGGAGCGAGTACGTTGTTGGATCCGGGAGGAGGTGGGGGGTATCCTGCTTATCCTACTGGTGAG
TTTTTAGCTACCTGGATATCTGGGATTTTGGTTGATTTTTATCATCCCTGTCTTGCTCGTTCGCGGATCTCCCTT
TGTTATGATGTTCATCCCGCCACTCGATATCGATCTGACCTCCTCGATCCAACCTCCTCGACCCACACTGTCGAA
TCATCTCGGCGTTCTTCCATCACTCGATCCCGCCCCATCTCCTTCTCGACGTTCACTCTCCCTCGATCACCGCTT
AATCAGACCCCCTTTCGTCAGAAGAATCCTCCCCCCTCTCGGCGACCGAAGAACTCAAGCTGCTCAAAGCCCAAG
TACAGGACGTTGCGCGGGTGTGTAACGCTGTGGCGAGGGGAGACTTGAGTCAGAAGATTACTGTGCCTGTGCAGG
TAGGTGACTCTTTTCCGAGGCGAGGGAGTATCCATCAAGAGAGGAGCATTTATCGATACTCCCTCGTCGTAACCA
GCTAGTGCTAATGCTAACACTTGATGTTACAACCCCACAGGGCGTAGTGATGGTCCAACTCAAAGACGTGATCAA
CGGTATGGTCGACAAGCTTGGTCAGTTTGCGAAGGAGGTTACGCGTGTGTCGCAGGAGGTCGGAACGGAGGGGTG
AGTGCTGGATTCCTTTCGTTTTCTTCCATTTCAAAAAAAAAGAGAAGACGGGACTCGATGCTAACCGATTTTATT
TGCACGCAGTAAACTCGGTGGTCAAGCACTCGTGTTGGACGTTGAAGGCACTTGGCGCGAGTTGACGGGTGTTGT
GAACAAGTTGGCTGCTAATTTGACGAATCAGGTGGGTGTTCCCTCTTACCCATTCGCGAGTTTTCTCTTGTTCTC
GATGTCGACCGGCTCGTTCTCTAACCACCCCCCTCGTTCTTCCCCTCATTCTCTAATCCTCTCCCCTGCTTGCTC
GCTTTCCCTCATTCTCCAACCATCATCGCGCTCAACCGCTAACGCTCCGTTCGCTCCCCCCGTTGTATAGGTCCG
GTCTATCGCTAAAGTCACGAAAGCCGTCGCGTTGGGCGATCTCTCGAAACAGATCGAGGTTGATGCCCGGGGTGA
GATTTTGGATTTGAAGAATACGGTTAATGGTATGGTTGTTCGGTGAGTCGTCATTTCGTTTCGTTTGTGATATGG
GAATGGGGAGGAGTGTTCGGTCGGGTTTGGCGGGGCATGGGGGGTGCTTGTAGCAGGCTGGATGGAGACGAGCCC
TCGAACCCCCAGCCTCCAAGTTATATCCACAGGAAAGAAAGCAAGAAAGAAAGAAGGAGTACTGACATTGTGCTA
CCCTACGCTTCGCTTTTGCAGACTCCGAGCTCTCGCCGCCGAAGTTACGCGTGTCACGCTCGAGGTTGGTTCACA
AGGAAAGTTGGGAGGTCAAGCGCATGTTCCGGATGTTGAGGGTGTGTGGTTTGAGTTGGTGCGGAATGTACGTGT
CCTTTCTTTTCACTGAACAACGCTATCGTGCACGTTGGCGCCTATCACGCTCATGGGCCCACTCGTTACTTGTTC
GTACCCCTCTGACGGCTCGCTAACGCTCCCCTCGCTCGTCCTCACAGGTCAACAGGATGTGTTCCTCTTTGACGG
ACCAAGTCCGATCTATTGCGATGGTGACGACTGCTGTTGCGCGTGGTGATTTGACGCAGAAGATTACGATTCAGG
TGGAGGGTGAGATGAGTACTTTGAAGGGTGAGTTTGGGTTTTCTGTTTCATGCGGTGTTTTCTCGTTTCTGGGTT
CGAGGTCTCGTGCGTGTGGTTCGAGGGCGAGCTGTTGTCATCCAGGGATGACGTATACCGGAGCGATGACCCCTT
CCTCCCGGGATGAGTAGCGATTGAGCTGTGATGGATAGTAGGGATTGCGTAGGGCTAGATCGCTAACTCTCCCTC
TTTCTCTTTAGGCACCGTAAACTCAATGGTGGACCAACTCTCGGCCTTTGCGTCCGAAGTCACTCGTGTAGCGCT
CGAAGTCGGTACCCAGGGTATTTTGGGTGGACAAGCCAAGGTTGAGGGTGTACAAGGAACTTGGGCTGATTTGAC
TAGGAATGTGAACGTGAGTGTTTGGTTTTGGTGTTTTCTTTTTTGGTTGGCTGGTGACTGAACTCGTTCGCTTTC
AACTCGATTTTTCTCCCGTGAACTTGGACGCTTCGTTTCCTCAATTCGACGATTCGCGGATGGATATGGACGCTT
CACTCATGAACTCTCTACCCGCCGTCGCAATACGACCTCATTGGACATCACCTCACTTCACCTCGCTTCACCTCG
CTTCACTGCACCGCTCGTTCGTTTGCTCGTTTCATCCGCATACAGAAAATGGCGTCCAACCTGACGGACCAAGTC
CGATCCATTTCGGAAGTCACAAAGGCTGTTGCGGCTGGTGATCTTACCAAGTTGGTGAACGTGGATGTGCAGGGT
GAGATGTTGGATTTGAAGATGACTGGTGAGTCTTCGTCTTTTTTTACTTGGTCTGTGTGTGGGGGGCTTGGAATG
GAGTGAGGAGATAACGATGATGGCGATGAGGAGGAAGAAGAGGACGAGGAGTGAACGGGGGTTGGAGGGTGGCGT
GGCTAGGCATAGAGACGATGACGCGGTTAGAGATAAGGACGATGCTAACGTCCTCGTTTGCACAGTGAATTCAAT
GGTGTCGCAATTGAGCACTCTGGCTAACGAAGTGACGCGAGTCTCGCTTGAAGTCGGTACGGAGGGTATACTTGG
AGGGCAGGCTGATGTTCCTGGTGTTCAGGGGATGTGGAAGGTGCGTACATGCATGATCTCTTCTCCTTCCGTCGT
CGTATCGTGGTGCTAACACAACTTCCCCTCCTCTCTTCTACACCCGTCATCGCGAACTATAGGCTCTTACGGACA
ACGTCAACCTCATGGCCATGAACCTCACGAACCAAGTGCGATCTATCGCGCAAGTTACGAAAGCTGTAGCGGGAG
GTGATTTGACGAAGAAGATTGATGTTGATGCGAGGGGTGAGATTCTCGAGTTGAAGGATACTGTTAATGGGATGA
CGGCTAGTTTGAGTGTGTTTGCTGATGAGGTTACGAGGTGCGTATCGCCTGATTGGCGTGCTACCAATTTAGGAA
CAATACTGACGGATGATCGCTTACAGGGTGGCGAGGGAAGTCGGAACGGAAGGACGGTTGGGCGGTCAAGCGCGT
GTTACGAATGTTGGTGGGACGTGGAAGGATTTGACGGATAATGTGAACGTCATGGCGAACAATTTGACGTTGCAG
GTTCGGACTATTGCTGTTGCTACGGTGCGTGAATATTGGTTAGTTGAGGTGGAGGGGTTTGCTGACGGTTGACTG
TGCTCTCCCGGCTCGCGTCAATCCACGTCGCATTAATGCACTCGCTCTCGCCAACACTCATCATATTAATACACT
CGCTCCCGCTCGTTCGCACCACAGACCGCCGTAGCCCGTGGTGACCTCACGCAGAAGATCACTGGAGTTTCCGTT
TCTGGAGAAATGCTCTCCCTCGTCAACACCATCAACGACATGATTGACCAGCTGGCTATTTTCGCTGCCGAGGTT
AAGAAGGTGCGTCCCACTTAATTATGGGAGGGGAGAATAGGAGAAAGGAGGCCTAACTGGGGCTTGGTGTAGGTC
GCTCGAGAAGTCGGAACGGAAGGAAAGCTTGGCGTTCAAGCTGAAGTTGGGAACGTGCAGGGTATTTGGCAGGAA
ATTACGTGCGTTTCTCCCTCCCTCCGTCTCTGCTCCCATCGTAGCTGACGCTGGTTCTGCTGCTCACAGTCTCTC
CGTCAACACCATGGCCGGCAACCTCACAACCCAAGTGCGAGGTTTCGCGCAAATCAGTGCGGCGGCGATGGACGG
TGATTTCACGCGATTCATCACTGTTGAAGCGAGTGGTGAGATGGATAGTTTGAAGACGCAGATTAACCAGATGGT
TTTCAATTTGAGGGATAGTATTCAGAAGAATACGGCTGCGAGGGAGGCGGCTGAGTTGGCTAATAGGAGTAAGAG
TGAGTTTTTGGCGAATATGAGTCATGAGATTCGGTGAGTGGCCTATTCTTATTCTCTCTTCGCTCTTTTCTTTTT
CTAGTAGGATGAGAGCTGATGTGTTTTAATCCTTGGGATATAGGACGCCTATGAACGGTATCATCGGTATGACGG
AGCTTACGCTCGATAGTGATCTTAATCGATCGCAACGCGAGAGTTTGCTGCTCGTCCATTCGTTGGCGAGGTCGC
TGCTTTTGATTATTGATGATATTTTGGATATTTCCAAGAGTGCGTATTTCCTTTTGGTTTGCGTGGGCTGGGGTT
GGTTATTGACCCTTGATTACTGTCTACAGTCGAAGCCGGCCGGATGACTATGGAAGCTGTGACCTACTCCCTCCG
CCAGACTGTCTTTGGTATCCTCAAGACCCTCGTCGTCCGCGCTTCGCAGAACAACCTCGACCTCACGTATGACGT
CGAGCCTGATATTCCCGACCAGCTCATCGGCGACTCGCTCCGTCTCCGACAGGTTATCACCAACCTCGTTGGTAA
TGCTATCAAGTTCACGCCATCCAAGGTTCGTCGTCGTGATCTTTCGTACTTTGGAGTTGGAGGCTGATGGGTTTT
GTGATGTAGGTGAACAGGAAGGGTCAGGTTGCGTTGAGCACGCGGTTGTTGGCGATGGATGATCAGAGTGTTACT
CTCGAGTTCTGCGTTACGGATACGGGTATTGGTATTGCCAAGGACAAGTTGAACTTGATTTTCGACACGTTCTGT
CAAGCTGATGGTTCGACTACTCGTGTATGTTTCTCTTTTATCTTCTCGTTCGTTCGATGCTCACGCACGGTTTAG
GAATACGGTGGCACTGGTCTCGGTCTCTCCATCTCCAAGCGTCTCGTCTCGCTCATGCAAGGCAACATGTGGGTC
GAGTCGGAAGTGTCCAAGGGTTCCAAGTTTTACTTCACCATCACCTCGCAAATCAACCACTCGTCTATGGAGGCT
ACGCTCGGCAAGATGCAGCCTTTCGCCAAACGCACGATCTTGTTCGTGGATACGTTGAGGGATACGACTGGAGTG
GTGAATAGGATTAAGGAGTTGAATTTGAGGCCGTATGTTATTCATGAGGTTGCGGAGGTGGCGGATAAGGAGAAG
TGTCCGCATATTGATACGATTGTTGTTGATTCGTTGAATGTGGTGCGTAGTCGCTTTCGTTCTTTGGCGGGTGGT
ATCGAGGGGCTGATGGCGTGGTGGTTGGTTTTGATAGGTTGAATCGCTTCGCGAACTCGAACACCTGCGGTACAT
TCCTATCGTCCTCCTTGCCCCCTCCCTCCCACGTCTCAACCTCAAATGGTGCCTCGACAACTCGCTCTCCTCGCA
AATCACGACGCCGGTATCGGCCCAAGACCTCGCGTCTTCACTCATTTCCGCCCTCGAGAGTAACACTGTTTCGCC
TGTCTCTGCGCCGAACGATGTGACGTTTGATATACTCCTGGCGGAGGATAACTTGGTTAACCAGAAGCTGGCGGT
GAAGATTTTGGAAAAGTATGGGCATAGTGTTGAGATTGCGGAGAATGGAAGTTTGGCGGTTGATGCGTTTAAGGC
GAGGGTTGCGCAGAATAAGCCGTTTGATATTATCCTCGTGAGTTTCACTCTATCGTTGGTTCTTATTTGTGTTTG
GATGCTAATGAGGTGGGGTTTGTAGATGGACGTGTCTATGCCTTTCATGGGTGGTATGGAAGCTACGGAGTTGAT
TCGGTCGTATGAGATGCATAAGGGGTTGACGGCTACGCCTATCATTGCTTTGACTGCTCATGCCAGTATGTCTAT
CTTTTGTGTTTGGTGATTCGGGGTTGCTAATCTGCGATCGTAGTGATTGGTGATCGTGAACGGTGCTTGCAGGCT
GGTATGGACGATCATATCACGAGTACGTCTTCTCCTTTCGCGTTATGATTCTCGTCGTGCTGACGTATGGGTGCG
TAGAACCTCTCCGACGAGGCGACCTCCTCAACGCCATCAACAAGCTCGCCGGCGCGAACCGCAAAGAACCGCACC
ACCTCATGCGCCGCCCGCCTGCTATCGCTCCTGGACCTTCGTACGCATAGATCTTCTTCACGATACCCCCCGTCC
TTTTTTTTCCCATCGTGTGGATATGTTTTGCCGACGCGGTTTTTCTTTTGAGCAGACTGAGGTCGTTTGTGGTCT
CGCCGATTGCGGACCGGTTTGGGCAGATATGATGGGGTGGGGAGGTTCGACGTGGTGATGCCGGTCTGCGGTTGG
CTGGAGAGACCTTGGGCTCTTGAATGGCGAGTCTCTCGAACGGAACGACCTTGGACATCTCCTAATGATGACCCG
ACCTCGTTATGAGATACCCCCGATGATGACATTCCCCCCAGAACGTTTACTCTCGCCTCGTAATTATCTAATTTT
TGTAGTGGTGTGTGCGACTGGCTCGTACCATCATCCCACGTCTGTCCATTCATCATCTTCATGATTTCTCCCGAT
GTCTTTCGTCCTGTGTACACTAGCCTCTTAATTCTCTCTCGCCCAACTGTACATATGTATTTCATCATCCATCCA
TTCTCACTCATTTCCGTCGTCGTCCCTATCTTCATTTTATTTTCATCTCATCTTTTCTTCCTCCATTTCTAATGA
TCTTTTATTCCACTCATTCCACTCACGACCGCTTTCTTGAAAACTGAATGCCGATGGCTTTTTTGCATAAAAATT
GTACTTGTAGCAAAGCAGATCTCGTCTTCATTGTTATGTCCTTGTCTCCTACTAATGTTATTTTATCTGCGCT
Length 7798