CopciAB_453815
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_453815 Strain Coprinopsis cinerea Okayama 7
Standard name STT4 Synonyms 453815
Uniprot id Functional description Belongs to the PI3 PI4-kinase family
Location scaffold_2:1282736..1290263 Strand -
Gene length (nt) 7528 Transcript length (nt) 5975
CDS length (nt) 5868 Protein length (aa) 1955

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Saccharomyces cerevisiae YLR305C_STT4
Neurospora crassa stt4
Schizosaccharomyces pombe stt4

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7271519 70.9 0 2855
Lentinula edodes W1-26 v1.0 Lentinedodes1_11788 67.1 0 2665
Lentinula edodes NBRC 111202 Lenedo1_1169380 67.3 0 2582
Pleurotus eryngii ATCC 90797 Pleery1_1444605 64.2 0 2574
Hypsizygus marmoreus strain 51987-8 Hypma_RDB21005 67.8 0 2550
Flammulina velutipes Flave_chr10AA00577 62.8 0 2477
Ganoderma sp. 10597 SS1 v1.0 Gansp1_119330 60.5 0 2402
Schizophyllum commune H4-8 Schco3_2484257 67.8 0 2296
Pleurotus ostreatus PC9 PleosPC9_1_75872 67.4 0 2263
Pleurotus ostreatus PC15 PleosPC15_2_1051885 67.5 0 2262
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_117967 68.2 0 2235
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_64231 68.2 0 2223
Auricularia subglabra Aurde3_1_97227 57.2 0 2184
Lentinula edodes B17 Lened_B_1_1_3039 76 3.581E-282 927
Grifola frondosa Grifr_OBZ65777 85 2.263E-45 181

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 192.3486 5.6814 3.2802
oidia 112.6247 12.4886 7.2103
vegetative_mycelium 110.4379 17.6512 10.1909
primordia 152.8538 2.3286 1.3444
hyphal_knot 149.2943 8.5671 4.9462
young_fruiting_body 42.3977 4.241 2.4485
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 140.4026 17.3143 9.9964
Wheat bran 79.4731 14.8794 8.5906
Horse manure 131.0197 27.2775 15.7486
Oak leaves 127.9569 41.2722 23.8285
Hay 113.9176 18.3878 10.6162
Corn stalk 122.8893 7.6712 4.429
Pectine 146.2824 2.0707 1.1955
Microcrystalline cellulose 154.9131 24.0205 13.8683
Xylose 114.7738 27.8634 16.0869
Cellobiose 122.5263 23.3488 13.4805
Lignin 134.9784 32.7944 18.9338
Apple peels 141.37 12.0178 6.9385
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 121.578 0.4101 0.2368
Bsubtilis 109.8235 9.4717 5.4685
Ecoli 67.4011 3.3591 1.9394
Early development 1 Time series expression profiling of basidiospore and oidium germination Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
BS 0h 11.7165 2.6997 1.5587
BS 4h 9.8777 1.0366 0.5985
BS 8h 11.4254 0.6821 0.3938
BS 12h 11.8791 0.6327 0.3653
Oidia 0 h 17.8503 2.5351 1.4636
Oidia 18 h 17.3278 0.7951 0.459
Sclerotia 24.9569 8.5551 4.9393
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 12.265 3.2908 1.9
DM 36h 14.55 2.0228 1.1679
DM 60h 13.4523 1.4486 0.8363
DM 84h 11.5769 0.4685 0.2705
DM 108h 12.145 1.1682 0.6745
DM 132h 11.4766 1.1967 0.6909
DM 156hAE 16.3762 1.9918 1.15
ELI1hAE 15.1284 2.5065 1.4471
ELI2hAE 12.9798 1.4693 0.8483
LI2hAE 14.7524 3.431 1.9809
LI6hAE 13.0315 0.5798 0.3347
LI12hAE 10.8259 2.4657 1.4236
LI18hAE 11.7551 1.4482 0.8361
LI 24hAE 18.0325 1.8754 1.0828
DM 156hAM 15.27 1.9119 1.1038
ELI1hAM 11.4864 2.3644 1.3651
ELI2hAM 11.4995 1.0828 0.6252
LI2hAM 12.8017 2.3592 1.3621
LI6hAM 10.7742 5.6084 3.238
LI12hAM 11.0373 2.5871 1.4937
LI18hAM 11.7036 2.0625 1.1908
LI 24hAM 15.5342 3.1177 1.8
LI 24hHK 12.6633 3.8422 2.2183
L/D 6h 14.4411 0.694 0.4007
L/D 12h 15.7477 0.5252 0.3032
L/D 18h 23.1942 5.9115 3.413
L/D 24h 21.7124 0.2394 0.1382
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 92.214 4.8541 2.8025
Hyphal knots 104.4146 13.5882 7.8452
Primordium 1 98.6404 7.8984 4.5602
Primordium 2 84.0671 6.193 3.5755
Young Fruiting body cap 85.9901 31.4436 18.154
Younf fruiting body gill 92.177 25.4045 14.6673
Young fruiting body stipe 220.5548 53.9869 31.1693
Mature fruiting body cap_gill 28.959 1.7866 1.0315
Mature fruiting body stipe 33.2687 4.0115 2.316
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 64.4047 6.0026 3.4656
NH4NO3 99.7847 5.629 3.2499
Proline 78.8651 14.0716 8.1242
Tryptophan 77.7039 21.761 12.5637
Isoleucin 94.6508 6.5695 3.7929
Arginine 102.6535 6.605 3.8134
Metionine 77.1167 11.6784 6.7425
NaNO3 64.0282 7.3914 4.2674
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 64.4047 6.0026 3.4656
Citrus peel 57.3443 2.3429 1.3527
Poplar leaves 54.8139 3.2601 1.8822
Typha leaves 50.8654 4.5579 2.6315
Overwintered Salix leaves 55.1011 3.4794 2.0089
Reed flowering 41.1191 10.9677 6.3322
Tigernut 31.6823 2.7728 1.6009
Energy cane 56.5517 4.138 2.3891
Guar gum 76.6512 15.7942 9.1188
Apple peels 80.6133 14.5141 8.3797
Cellobiose 96.9505 6.2364 3.6006
Corn stalk 79.8388 9.5096 5.4904
Horse manure 90.0453 8.3571 4.825
Lignin 97.5043 41.3153 23.8534
Microcrystalline cellulose 79.4134 19.7421 11.3981
Oak leaves 82.6775 4.7548 2.7452
Pectin esterified 58.9028 15.5409 8.9725
Poplar sawdust 88.8974 9.8209 5.6701
Wheat bran 48.9338 10.4624 6.0404
Chlamydomonas reinhardtii 62.5349 2.9666 1.7128
Vertatryl alcohol 98.0296 16.6461 9.6106
Furfural 77.4063 2.5177 1.4536
Autoclaved mycelium 59.6403 7.7374 4.4672
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 122.4552 4.3178 2.4929
Ribose 153.9555 8.0493 4.6473
Mannose 133.4333 6.9075 4.8843
Fructose 137.1695 3.7127 2.1435
Arabinose 142.7612 7.6894 4.4395
Xylose 137.4889 5.7982 3.3476
Galacturonic acid 146.0081 4.1559 2.3994
Rhamnogalacturonan 130.2528 7.4587 4.3063
Pectin esterified 136.8893 4.2681 2.4642
Polygalacturonic acid 129.7902 10.8698 6.2757
Sodium acetate 142.4179 8.7852 5.0721
No nitrogen 131.7281 10.6376 6.1416
BSA 142.144 2.6765 1.5453
Glutamine 135.5035 6.4763 3.7391
No phosphate 124.0058 7.2099 4.1626
No carbon 152.4378 2.1761 1.5388
No sulphur 146.0231 18.7663 10.8347
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 64.4047 6.0026 3.4656
Amylose 81.6252 4.8637 2.808
Fucose 75.5743 5.3357 3.0805
Galactose 105.5416 9.0213 5.2084
Lactose 93.4512 10.6922 6.1731
Maltose 85.8083 12.7475 7.3598
Mannitol 93.2674 12.9941 7.5021
Rhamnose 74.0349 14.0339 8.1025
Sorbitol 84.7039 8.2334 4.7536
Trehalose 69.3055 12.7224 7.3453
Glycerol 72.1294 14.5898 8.4234
Glucuronic acid 84.0762 0.5758 0.3324
Arabinan 54.569 13.0517 7.5354
Galactan 63.5056 12.5086 7.2218
Galactomannan 55.5814 15.4729 8.9333
Glucan 78.4549 17.4414 10.0698
Xylan 64.4202 7.7452 4.4717
Xyloglucan 68.9322 5.4801 3.1639
Arabinogalactan 86.1848 6.135 3.542
Pectin 78.0991 24.519 14.1561
Rhamnogalacturonan 57.1562 4.4083 2.5452
Polygalacturonic acid 76.7668 2.4151 1.3944
Mannan 80.8134 4.7146 2.722
Amylopectin 66.3919 30.3809 17.5404
Inulin 105.7426 13.9928 8.0788
BSA 35.1277 3.4784 2.0083
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 13.4523 1.4486 0.8363
2h WAT 11.483 1.0784 0.6226
4h WAT 14.1773 2.7118 1.5656
8h WAT 8.9648 2.2966 1.3259
16h WAT 12.2709 1.0669 0.616
24h WAT 13.1788 2.5378 1.4652
WAT hyphal knot -30h 12.8607 1.7498 1.0102
WAT hyphal knot -22h 14.2453 0.7705 0.4448
WAT hyphal knot -15h 12.9399 2.5996 1.5009
WAT hyphal knot -7.5h 15.0111 3.7546 2.1677
WAT hyphal knot 15.5977 2.2423 1.2946
WAT hyphal knot +7.5h 13.0911 1.4434 0.8334
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 58.2897 16.087 9.2878
Straw 3h 78.448 0.8856 0.5113
Straw 6h 62.8075 9.0069 5.2001
Straw 12h 74.1501 4.964 2.866
Straw 24h 71.7286 25.7257 14.8528
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 6.3071 1.8996 1.0968
Frost (-20C, 30min) 8.6886 1.0367 0.5985
Heat shock (47C, 2h) 6.1507 1.5197 0.8774
High CO2 9.6558 0.5521 0.3188
Drought (4% agar, 12h) 11.6679 2.8197 1.6279
Oxidative (1mM H2O2, 3h) 7.892 2.1249 1.2268
Acidic (pH4, 3h) 9.7016 1.8776 1.084
Alkaline (pH9, 3h) 6.2224 2.2036 1.2723
Osmotic (sorbitol 2h) 12.3027 0.7714 0.4454
CongoRed (3h) 8.1598 1.7794 1.0274
Cobalt chloride control 8.9385 2.1971 1.2685
Cobalt chloride 2mM 11.9318 3.044 1.7574
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 6.7456 3.1718 1.8312
Cold stimulation 10.586 2.0345 1.1746
Scratched surface 11.6089 1.5249 0.8804
Ca2+, 200mM, 24h 10.1229 2.1995 1.2699
Cu2+, 2mM, 6h 11.2236 5.2861 3.052
Voriconazole 9.9388 1.1927 0.6886
Trichoderma interaction, early 13.9447 3.2822 1.895
Trichoderma interaction 60h 10.1158 6.6047 3.8132
Cobalt chloride 2mM repeat 12.2493 5.0384 2.9089
Hypoxia 13.3266 3.1279 1.8059
Hypoxia control 12.6684 3.6634 2.115
Protoplastation control 10.7688 0.5229 0.3697
Protoplastation 3.5h 19.7339 13.3774 9.4592
Protoplastation 1.5h 11.2684 3.9413 2.7869

General data

Systematic name STT4
Protein id CopciAB_453815.T0
Description Belongs to the PI3 PI4-kinase family

Annotation summary

0 500 1000 1500 1955

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd05167 PI4Kc_III_alpha - 1633 1953
Pfam PF19274 PI4-kinase N-terminal region IPR045495 569 693
Pfam PF19274 PI4-kinase N-terminal region IPR045495 708 967
Pfam PF19274 PI4-kinase N-terminal region IPR045495 1054 1370
Pfam PF00613 Phosphoinositide 3-kinase family, accessory domain (PIK domain) IPR001263 1392 1577
Pfam PF00454 Phosphatidylinositol 3- and 4-kinase IPR000403 1691 1901

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR011009 Protein kinase-like domain superfamily
IPR000403 Phosphatidylinositol 3-/4-kinase, catalytic domain
IPR045495 PI4-kinase, N-terminal
IPR001263 Phosphoinositide 3-kinase, accessory (PIK) domain
IPR042236 Phosphoinositide 3-kinase, accessory (PIK) domain superfamily
IPR036940 Phosphatidylinositol 3-/4-kinase, catalytic domain superfamily
IPR015433 Phosphatidylinositol kinase
IPR018936 Phosphatidylinositol 3/4-kinase, conserved site
IPR016024 Armadillo-type fold

GO

Go id Term Ontology
GO:0046854 phosphatidylinositol phosphorylation BP
GO:0048015 phosphatidylinositol-mediated signaling BP
GO:0016301 kinase activity MF

KEGG

KEGG Orthology
K00888

EggNOG

COG category Description
T Belongs to the PI3 PI4-kinase family

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_453815 across fungi.

Arrow shows the origin of gene family containing CopciAB_453815.

Protein

Sequence id CopciAB_453815.T0
Sequence >CopciAB_453815.T0
MDCLEFNIHQRILSELASKQDDTPGQDSSKDLIISKVQTRDVSEVSAEGCPEPTTRVYMSASRVHCNIAFGELVV
NFPAIQLGQSIESIMAALLDILRDIPFIDFDPSLSWHDWALADQLVFSTISALLRLSCEHPEHAAQATTAIFQFV
DQVVDSIASSTAFIILTQLFPAIHGLYRALISTSYTWTLSHWNTLTLGLQRLCSASAITRLNQLCADIIHKDGLD
TEEIFYAQAFLARYTAQGRPVSGYFLICCILEIEWTVLAQTMTEPVVNRATVTEAAAANKAWLALSRNPALELQV
DDNTKSTLRAGVAYSMQCFTDLLVQIEAMRVDPSIDIYAWETMAESLKLASVCCIALRELDEHLHSRILLLLSNT
SPISDNLVQEAALKSTTVLVRSFPAIAADMTTQLRKFVTSPLPLFEFEFASETRAPPPLAAAAKCLALCIKLAPG
DDLIMSNMYSLLNYIAATSKEVYDASLFDVKGDFVGDTHKTLHSLQSGLHGLSEDEKRLIGISTISVVTRLALEF
QMEEVTRLTISMLLQRLRSAEPTVEAAIAYNLVDLALIAPRNAFVDIVRVFSAINRSANPDDPRFSNNMVLAAQT
RLAQELHRRPELYETYLIELLTLFGDKGVAIQHSKAQNMELKIDDMVEQLASLLLPVDALLTHADFNPHEDASKE
IVTLFRNTWFLCVLFDFTHMDNQESTALDWLRPALARIALKTPSMVVEESLDAIASDVEYNSVIRQEFAQTVISK
HRALLTKYIPLRYSEIRYLSAGQAIFILSMYDIESMRSAAGRPSSLISYFINDSLNKHQGLSACMDAIAENVIRG
CIGDLNVKAAQQSMPEYLSEELQKLLVASTHRIQQAREIASKYLNRLITSFPSLMCDPRLVFAILEVMTLLQKAC
ENEFWDEYNPVYEYHSDRCNITLQLTDIYQVRNEILGQLKQLASTWLKLALDRAPMELHSTLQKYLAVNRPSPSI
EAAELGASLAEQFAKAIGPVHRQLVSLTSLSPWPLDGSKTLASQIAVKGYYAGEAAGVRISTSPDKLANPPPQTA
SASVVESLRRDMSRATREIKGKKSVLTVHDLRRLLYRGAAVLISEKEATYDRELLHHLVLLPFTVSTPASIAAAV
EVWTWLIAENPHIEVALMGELVAAWTDTIVHQRGIFGAMLDYHDPFYHPISYSPTNKETIDRASSHAHRVLSPHR
LVLQMLFSRLQASRYHRPAILLLTQQLVLRTAYACKSLSTHALAREIRFSLLLFGFETLRGCYLDSYCENLLRES
LYKTAYSWFAVRPRVSFGANRVQVDADVKVCSEFLAYLHSDSVRGAPAISSLSPVQLMSRAAYYTDRMHTLSLPL
KLLCEDELARLSVWNNPLSDPKKGMDFIGTTERTILEASWAKVIRTIWQVDPAVAIFFQERFQYAGVRHEVGRLV
RTGTTSVLDVPEALLVLLGDRLDPAVRKDLRHLLLWAPVPPIIANTFFERRYNNDPMLLQYANRVMAQHPVELTF
FFIPQVVQALRYDDLGYVARFIFETAKISQLFCHQIIWNMKANCYKDDAAEIEDPMKPKLDEMTALVVDSLSGEA
RSFYDREFTFFNEVTSISGKLKPFIKKTKPEKKAKIDEEMAKIVVDVGVYLPSNPDGVVVDIDKKSGRPLQSHAK
APFMATFKVRKERVVVNSDPDSLLDGDGGIETMEEYDVWQQAIFKVGDDCRQDVLALQVIAMFKNIFESIGLTLY
LFPYRVTATAPGCGVIDVVPNATSRDEMGRAKVNDLMGFFVAKYGGENTVSFQKARLNFIQSMAAYSVACYILQI
KDRHNGNIMIDGEGHIVHIDFAACAYLTLVALILRPGGVKFEPNSFKLNHEMVQLMGGRYSQGYQLFQSLTVKAF
LAIRPYAAQIVDTVQLMLDTGLPSFKGEPTIRRLRDRFTLSLSERQAADYMMGVIRNAHENVRSTAYDEFQRLQN
GIPYK
Length 1955

Coding

Sequence id CopciAB_453815.T0
Sequence >CopciAB_453815.T0
ATGGACTGCTTGGAGTTCAATATCCACCAGAGGATCCTCTCAGAGCTCGCGTCCAAACAAGATGATACCCCAGGA
CAAGATTCGTCCAAGGACTTGATCATATCCAAAGTCCAGACCAGAGATGTCTCTGAAGTCTCCGCAGAAGGGTGC
CCTGAACCAACAACGAGGGTCTACATGAGCGCTTCCCGTGTTCATTGCAACATTGCTTTTGGGGAACTGGTCGTC
AACTTTCCTGCTATCCAGCTGGGCCAGTCAATCGAATCGATCATGGCAGCATTGCTCGATATCTTGCGCGATATC
CCATTCATTGACTTCGATCCATCGCTTTCGTGGCATGATTGGGCGTTAGCGGACCAGCTAGTCTTTTCTACGATC
TCTGCTCTACTTCGACTTTCGTGCGAGCACCCAGAACATGCAGCGCAAGCGACGACAGCCATATTCCAGTTTGTT
GATCAGGTGGTCGACAGTATCGCTTCGTCTACAGCGTTTATCATTCTCACCCAACTGTTCCCTGCAATCCATGGC
CTGTACCGAGCCCTCATCTCCACATCCTACACGTGGACACTGTCGCATTGGAATACCCTTACTCTCGGACTGCAG
AGACTTTGCTCTGCGTCTGCCATTACCCGGCTTAATCAACTTTGTGCAGACATCATTCACAAAGACGGTCTCGAC
ACGGAGGAGATCTTCTACGCGCAGGCATTCTTGGCTCGATACACTGCTCAAGGACGACCGGTTAGCGGATACTTC
CTGATCTGCTGCATTCTGGAAATAGAATGGACTGTCCTGGCTCAGACTATGACAGAGCCCGTGGTCAATCGGGCC
ACTGTAACAGAGGCAGCGGCGGCCAACAAAGCGTGGCTTGCTCTATCCCGCAACCCTGCCCTCGAGCTTCAGGTT
GACGACAACACCAAGTCAACATTGAGGGCCGGAGTCGCTTATTCCATGCAGTGCTTCACTGATCTCCTTGTCCAG
ATTGAAGCCATGAGGGTTGATCCATCAATCGACATTTACGCTTGGGAAACTATGGCTGAGAGTCTGAAACTTGCT
TCAGTTTGCTGCATCGCTCTTCGAGAGTTGGACGAGCACCTTCACTCTCGGATCCTACTTCTTTTGAGCAATACA
TCGCCCATCTCTGACAATCTTGTCCAGGAGGCAGCCTTGAAGTCTACTACAGTCCTTGTTCGAAGCTTCCCGGCC
ATCGCTGCCGACATGACCACTCAGCTTCGGAAGTTTGTCACTTCCCCTCTTCCTCTATTTGAATTCGAGTTTGCT
TCAGAGACTCGGGCACCGCCCCCACTGGCTGCCGCTGCCAAATGTCTGGCATTATGCATCAAGTTGGCCCCAGGA
GATGATCTCATCATGTCCAACATGTATTCTCTTCTGAACTACATCGCTGCGACAAGTAAAGAAGTCTACGATGCG
AGTCTGTTCGATGTCAAAGGGGACTTCGTCGGGGATACCCACAAGACTCTCCACTCTCTGCAGTCTGGTTTACAC
GGCCTCTCTGAAGACGAAAAGCGACTGATCGGCATTAGCACCATCTCGGTAGTAACGAGGCTGGCTCTTGAATTC
CAGATGGAAGAGGTGACGAGGCTAACAATCTCAATGCTGCTACAGCGACTACGCTCCGCGGAACCGACTGTGGAA
GCTGCCATAGCATACAACCTGGTCGACCTTGCCTTAATAGCACCAAGAAATGCATTCGTGGACATTGTTCGAGTG
TTTTCAGCTATCAATCGATCTGCTAATCCCGACGACCCGCGTTTTTCGAACAATATGGTTCTAGCAGCTCAGACC
CGCCTCGCTCAAGAACTCCATCGTCGGCCAGAATTGTACGAAACCTATCTCATCGAGCTCCTGACCCTGTTCGGC
GACAAAGGCGTAGCTATTCAACACTCCAAAGCTCAAAATATGGAGCTCAAGATCGATGATATGGTCGAGCAACTC
GCTTCCCTTTTGCTCCCAGTCGACGCTTTGCTTACCCACGCAGACTTCAATCCGCACGAAGATGCATCGAAAGAA
ATCGTGACGCTCTTCCGCAATACCTGGTTCCTCTGCGTCCTATTTGACTTCACGCACATGGATAACCAAGAAAGC
ACTGCCCTTGACTGGCTAAGACCCGCATTGGCAAGGATTGCGCTGAAAACGCCGTCCATGGTCGTCGAAGAGTCG
CTTGATGCCATTGCCAGCGACGTGGAGTACAACTCGGTGATTAGGCAAGAGTTTGCTCAAACGGTTATCTCCAAG
CACCGCGCTCTTTTGACCAAGTACATCCCGCTGCGATACAGCGAGATCCGATACCTTTCGGCTGGCCAAGCTATC
TTCATCTTGTCGATGTACGACATCGAAAGTATGCGATCTGCCGCTGGCCGCCCCTCTTCCTTGATCTCGTACTTC
ATCAACGACAGTCTGAACAAACACCAAGGGCTCAGTGCGTGTATGGATGCAATCGCAGAAAATGTGATCAGAGGA
TGCATCGGCGACCTCAACGTCAAGGCTGCTCAGCAATCCATGCCCGAATATTTGTCCGAGGAACTGCAAAAGCTT
TTAGTTGCTAGTACTCACCGCATCCAACAAGCGAGGGAGATAGCCTCCAAATATCTGAACAGATTGATCACGTCT
TTCCCTTCCCTGATGTGTGACCCTCGACTCGTTTTCGCGATCCTGGAAGTGATGACCTTACTCCAAAAAGCGTGC
GAGAATGAATTCTGGGACGAGTATAACCCTGTTTACGAGTATCATTCGGACCGGTGTAATATCACGCTACAACTG
ACGGACATCTATCAAGTTCGAAATGAGATCCTGGGCCAGCTAAAGCAATTAGCAAGCACGTGGCTGAAATTAGCC
CTCGACAGGGCCCCCATGGAATTGCACTCGACGCTTCAGAAATACCTTGCCGTCAATCGACCCTCCCCAAGCATT
GAAGCGGCGGAACTTGGTGCCTCCCTCGCAGAACAGTTTGCAAAAGCTATCGGCCCTGTTCACCGACAACTAGTG
TCCCTGACCAGTCTCTCTCCATGGCCCCTGGATGGTTCGAAAACCCTCGCAAGCCAAATAGCTGTCAAAGGGTAT
TACGCAGGCGAAGCCGCCGGCGTCAGAATATCAACCTCGCCGGACAAACTGGCAAATCCACCTCCCCAAACAGCT
TCAGCTTCAGTTGTCGAGTCCCTGAGACGGGATATGAGCAGGGCAACTCGGGAAATTAAAGGCAAGAAAAGCGTG
TTGACTGTCCACGACCTTCGCAGATTGTTGTACCGGGGTGCTGCTGTTTTAATATCGGAGAAGGAGGCTACATAT
GACCGTGAACTCTTGCATCATCTTGTGTTGCTGCCATTCACCGTTTCAACACCAGCTTCAATCGCTGCTGCAGTG
GAAGTCTGGACTTGGCTGATTGCTGAAAATCCCCACATAGAGGTGGCCCTCATGGGTGAGCTCGTGGCCGCCTGG
ACAGACACGATCGTGCACCAGAGAGGGATCTTTGGAGCAATGCTCGACTACCACGATCCTTTCTATCACCCCATC
AGCTATAGTCCAACGAACAAGGAAACGATCGACCGTGCTTCGAGCCACGCTCACCGTGTCTTGTCCCCCCATAGG
CTTGTCTTGCAAATGCTTTTCAGTCGTCTCCAAGCGTCAAGATACCACCGTCCTGCCATTCTGCTTCTCACTCAG
CAACTGGTTCTTCGAACAGCGTATGCATGCAAGTCGCTAAGTACTCATGCTTTGGCGCGAGAGATTCGATTTTCG
CTCCTATTATTCGGCTTTGAGACTCTGAGGGGTTGTTACCTGGACTCCTACTGCGAGAACCTTCTCCGTGAGAGT
CTTTACAAAACGGCATATTCATGGTTTGCTGTTCGCCCTCGGGTCTCTTTCGGTGCAAACCGAGTTCAAGTGGAC
GCTGATGTCAAAGTTTGCTCTGAGTTTTTGGCTTATCTTCATTCGGATTCTGTCCGCGGGGCGCCTGCTATTTCA
AGCTTGTCCCCTGTTCAACTCATGTCCCGTGCAGCCTATTACACGGACCGAATGCATACCCTCAGTCTTCCCCTG
AAGCTCCTTTGCGAAGACGAACTGGCTCGCTTGTCAGTATGGAACAACCCACTCAGCGACCCTAAGAAAGGGATG
GATTTCATTGGAACCACTGAACGTACAATCTTGGAGGCATCATGGGCAAAGGTTATAAGAACCATCTGGCAAGTC
GACCCCGCTGTTGCTATCTTCTTCCAGGAGCGTTTCCAATACGCTGGTGTCCGCCACGAAGTTGGTAGACTTGTG
CGTACGGGTACAACTTCCGTTTTGGATGTGCCCGAGGCGCTTCTCGTCCTTCTTGGTGATAGACTTGATCCCGCT
GTTCGAAAGGATCTTCGCCACCTTCTGCTCTGGGCCCCAGTCCCGCCAATCATAGCGAATACATTCTTTGAGCGG
CGATACAACAACGATCCGATGCTCCTGCAATATGCTAACCGCGTAATGGCCCAACATCCTGTGGAGTTGACCTTT
TTCTTCATCCCGCAAGTGGTACAAGCACTGCGATATGACGACCTGGGTTACGTCGCTCGCTTCATCTTTGAGACA
GCCAAGATTTCCCAATTGTTCTGTCATCAAATCATCTGGAATATGAAGGCAAATTGTTACAAGGACGACGCAGCA
GAAATCGAGGACCCAATGAAACCGAAACTCGACGAAATGACCGCGCTGGTTGTCGATTCTCTATCTGGGGAAGCT
CGCTCTTTCTACGACCGTGAATTTACTTTCTTCAATGAAGTCACTTCGATCTCTGGGAAACTCAAACCATTTATC
AAGAAGACCAAACCGGAAAAGAAGGCTAAAATCGACGAAGAGATGGCGAAGATCGTCGTCGACGTGGGCGTCTAC
CTTCCCAGTAATCCTGACGGTGTTGTTGTGGACATTGATAAGAAGTCGGGGCGACCCTTGCAAAGCCACGCTAAG
GCACCCTTCATGGCCACTTTCAAGGTGCGCAAAGAGCGGGTGGTGGTTAATTCTGACCCCGATTCACTGTTGGAC
GGGGACGGAGGAATTGAAACCATGGAAGAGTACGATGTCTGGCAACAGGCTATCTTCAAGGTTGGCGATGATTGT
CGTCAAGACGTGTTGGCTCTCCAAGTCATCGCAATGTTCAAGAACATCTTTGAATCCATTGGCCTCACACTGTAT
CTGTTCCCTTATCGCGTGACCGCTACAGCGCCTGGCTGCGGCGTCATTGACGTTGTCCCAAATGCAACTTCCCGT
GATGAGATGGGGAGGGCCAAAGTCAACGACCTCATGGGATTCTTTGTCGCCAAATATGGCGGGGAGAATACGGTG
TCTTTCCAGAAAGCCAGACTCAACTTTATTCAATCCATGGCTGCGTATTCTGTTGCGTGCTACATCCTTCAGATA
AAGGATCGACACAACGGCAACATCATGATCGACGGGGAAGGGCACATCGTGCACATCGATTTCGCTGCGTGCGCT
TATCTTACCCTGGTTGCGCTGATCTTACGACCCGGAGGTGTCAAGTTCGAGCCAAACTCATTCAAACTGAACCAT
GAAATGGTACAGTTGATGGGTGGTCGCTATTCCCAAGGGTATCAACTCTTCCAGAGCTTGACTGTTAAGGCTTTC
TTGGCGATTAGACCGTATGCGGCTCAGATTGTCGACACAGTCCAACTCATGCTTGACACGGGCCTGCCTTCATTC
AAAGGAGAGCCAACGATTCGCAGACTCCGTGATCGTTTTACCCTCTCACTGAGTGAACGACAAGCCGCTGACTAC
ATGATGGGGGTAATTCGGAATGCGCATGAGAATGTTCGAAGCACGGCCTATGATGAGTTTCAACGGTTACAAAAT
GGCATCCCGTACAAGTAG
Length 5868

Transcript

Sequence id CopciAB_453815.T0
Sequence >CopciAB_453815.T0
GTGGACCTTGGCTCCCGCCAGCGACTTCGACATTTTGGATACCACCTACCCCAGTACTTATTCTCGACCTTGTGG
ACAAAGCGTAACCATTTGGAAAGAGTATCACTATGGACTGCTTGGAGTTCAATATCCACCAGAGGATCCTCTCAG
AGCTCGCGTCCAAACAAGATGATACCCCAGGACAAGATTCGTCCAAGGACTTGATCATATCCAAAGTCCAGACCA
GAGATGTCTCTGAAGTCTCCGCAGAAGGGTGCCCTGAACCAACAACGAGGGTCTACATGAGCGCTTCCCGTGTTC
ATTGCAACATTGCTTTTGGGGAACTGGTCGTCAACTTTCCTGCTATCCAGCTGGGCCAGTCAATCGAATCGATCA
TGGCAGCATTGCTCGATATCTTGCGCGATATCCCATTCATTGACTTCGATCCATCGCTTTCGTGGCATGATTGGG
CGTTAGCGGACCAGCTAGTCTTTTCTACGATCTCTGCTCTACTTCGACTTTCGTGCGAGCACCCAGAACATGCAG
CGCAAGCGACGACAGCCATATTCCAGTTTGTTGATCAGGTGGTCGACAGTATCGCTTCGTCTACAGCGTTTATCA
TTCTCACCCAACTGTTCCCTGCAATCCATGGCCTGTACCGAGCCCTCATCTCCACATCCTACACGTGGACACTGT
CGCATTGGAATACCCTTACTCTCGGACTGCAGAGACTTTGCTCTGCGTCTGCCATTACCCGGCTTAATCAACTTT
GTGCAGACATCATTCACAAAGACGGTCTCGACACGGAGGAGATCTTCTACGCGCAGGCATTCTTGGCTCGATACA
CTGCTCAAGGACGACCGGTTAGCGGATACTTCCTGATCTGCTGCATTCTGGAAATAGAATGGACTGTCCTGGCTC
AGACTATGACAGAGCCCGTGGTCAATCGGGCCACTGTAACAGAGGCAGCGGCGGCCAACAAAGCGTGGCTTGCTC
TATCCCGCAACCCTGCCCTCGAGCTTCAGGTTGACGACAACACCAAGTCAACATTGAGGGCCGGAGTCGCTTATT
CCATGCAGTGCTTCACTGATCTCCTTGTCCAGATTGAAGCCATGAGGGTTGATCCATCAATCGACATTTACGCTT
GGGAAACTATGGCTGAGAGTCTGAAACTTGCTTCAGTTTGCTGCATCGCTCTTCGAGAGTTGGACGAGCACCTTC
ACTCTCGGATCCTACTTCTTTTGAGCAATACATCGCCCATCTCTGACAATCTTGTCCAGGAGGCAGCCTTGAAGT
CTACTACAGTCCTTGTTCGAAGCTTCCCGGCCATCGCTGCCGACATGACCACTCAGCTTCGGAAGTTTGTCACTT
CCCCTCTTCCTCTATTTGAATTCGAGTTTGCTTCAGAGACTCGGGCACCGCCCCCACTGGCTGCCGCTGCCAAAT
GTCTGGCATTATGCATCAAGTTGGCCCCAGGAGATGATCTCATCATGTCCAACATGTATTCTCTTCTGAACTACA
TCGCTGCGACAAGTAAAGAAGTCTACGATGCGAGTCTGTTCGATGTCAAAGGGGACTTCGTCGGGGATACCCACA
AGACTCTCCACTCTCTGCAGTCTGGTTTACACGGCCTCTCTGAAGACGAAAAGCGACTGATCGGCATTAGCACCA
TCTCGGTAGTAACGAGGCTGGCTCTTGAATTCCAGATGGAAGAGGTGACGAGGCTAACAATCTCAATGCTGCTAC
AGCGACTACGCTCCGCGGAACCGACTGTGGAAGCTGCCATAGCATACAACCTGGTCGACCTTGCCTTAATAGCAC
CAAGAAATGCATTCGTGGACATTGTTCGAGTGTTTTCAGCTATCAATCGATCTGCTAATCCCGACGACCCGCGTT
TTTCGAACAATATGGTTCTAGCAGCTCAGACCCGCCTCGCTCAAGAACTCCATCGTCGGCCAGAATTGTACGAAA
CCTATCTCATCGAGCTCCTGACCCTGTTCGGCGACAAAGGCGTAGCTATTCAACACTCCAAAGCTCAAAATATGG
AGCTCAAGATCGATGATATGGTCGAGCAACTCGCTTCCCTTTTGCTCCCAGTCGACGCTTTGCTTACCCACGCAG
ACTTCAATCCGCACGAAGATGCATCGAAAGAAATCGTGACGCTCTTCCGCAATACCTGGTTCCTCTGCGTCCTAT
TTGACTTCACGCACATGGATAACCAAGAAAGCACTGCCCTTGACTGGCTAAGACCCGCATTGGCAAGGATTGCGC
TGAAAACGCCGTCCATGGTCGTCGAAGAGTCGCTTGATGCCATTGCCAGCGACGTGGAGTACAACTCGGTGATTA
GGCAAGAGTTTGCTCAAACGGTTATCTCCAAGCACCGCGCTCTTTTGACCAAGTACATCCCGCTGCGATACAGCG
AGATCCGATACCTTTCGGCTGGCCAAGCTATCTTCATCTTGTCGATGTACGACATCGAAAGTATGCGATCTGCCG
CTGGCCGCCCCTCTTCCTTGATCTCGTACTTCATCAACGACAGTCTGAACAAACACCAAGGGCTCAGTGCGTGTA
TGGATGCAATCGCAGAAAATGTGATCAGAGGATGCATCGGCGACCTCAACGTCAAGGCTGCTCAGCAATCCATGC
CCGAATATTTGTCCGAGGAACTGCAAAAGCTTTTAGTTGCTAGTACTCACCGCATCCAACAAGCGAGGGAGATAG
CCTCCAAATATCTGAACAGATTGATCACGTCTTTCCCTTCCCTGATGTGTGACCCTCGACTCGTTTTCGCGATCC
TGGAAGTGATGACCTTACTCCAAAAAGCGTGCGAGAATGAATTCTGGGACGAGTATAACCCTGTTTACGAGTATC
ATTCGGACCGGTGTAATATCACGCTACAACTGACGGACATCTATCAAGTTCGAAATGAGATCCTGGGCCAGCTAA
AGCAATTAGCAAGCACGTGGCTGAAATTAGCCCTCGACAGGGCCCCCATGGAATTGCACTCGACGCTTCAGAAAT
ACCTTGCCGTCAATCGACCCTCCCCAAGCATTGAAGCGGCGGAACTTGGTGCCTCCCTCGCAGAACAGTTTGCAA
AAGCTATCGGCCCTGTTCACCGACAACTAGTGTCCCTGACCAGTCTCTCTCCATGGCCCCTGGATGGTTCGAAAA
CCCTCGCAAGCCAAATAGCTGTCAAAGGGTATTACGCAGGCGAAGCCGCCGGCGTCAGAATATCAACCTCGCCGG
ACAAACTGGCAAATCCACCTCCCCAAACAGCTTCAGCTTCAGTTGTCGAGTCCCTGAGACGGGATATGAGCAGGG
CAACTCGGGAAATTAAAGGCAAGAAAAGCGTGTTGACTGTCCACGACCTTCGCAGATTGTTGTACCGGGGTGCTG
CTGTTTTAATATCGGAGAAGGAGGCTACATATGACCGTGAACTCTTGCATCATCTTGTGTTGCTGCCATTCACCG
TTTCAACACCAGCTTCAATCGCTGCTGCAGTGGAAGTCTGGACTTGGCTGATTGCTGAAAATCCCCACATAGAGG
TGGCCCTCATGGGTGAGCTCGTGGCCGCCTGGACAGACACGATCGTGCACCAGAGAGGGATCTTTGGAGCAATGC
TCGACTACCACGATCCTTTCTATCACCCCATCAGCTATAGTCCAACGAACAAGGAAACGATCGACCGTGCTTCGA
GCCACGCTCACCGTGTCTTGTCCCCCCATAGGCTTGTCTTGCAAATGCTTTTCAGTCGTCTCCAAGCGTCAAGAT
ACCACCGTCCTGCCATTCTGCTTCTCACTCAGCAACTGGTTCTTCGAACAGCGTATGCATGCAAGTCGCTAAGTA
CTCATGCTTTGGCGCGAGAGATTCGATTTTCGCTCCTATTATTCGGCTTTGAGACTCTGAGGGGTTGTTACCTGG
ACTCCTACTGCGAGAACCTTCTCCGTGAGAGTCTTTACAAAACGGCATATTCATGGTTTGCTGTTCGCCCTCGGG
TCTCTTTCGGTGCAAACCGAGTTCAAGTGGACGCTGATGTCAAAGTTTGCTCTGAGTTTTTGGCTTATCTTCATT
CGGATTCTGTCCGCGGGGCGCCTGCTATTTCAAGCTTGTCCCCTGTTCAACTCATGTCCCGTGCAGCCTATTACA
CGGACCGAATGCATACCCTCAGTCTTCCCCTGAAGCTCCTTTGCGAAGACGAACTGGCTCGCTTGTCAGTATGGA
ACAACCCACTCAGCGACCCTAAGAAAGGGATGGATTTCATTGGAACCACTGAACGTACAATCTTGGAGGCATCAT
GGGCAAAGGTTATAAGAACCATCTGGCAAGTCGACCCCGCTGTTGCTATCTTCTTCCAGGAGCGTTTCCAATACG
CTGGTGTCCGCCACGAAGTTGGTAGACTTGTGCGTACGGGTACAACTTCCGTTTTGGATGTGCCCGAGGCGCTTC
TCGTCCTTCTTGGTGATAGACTTGATCCCGCTGTTCGAAAGGATCTTCGCCACCTTCTGCTCTGGGCCCCAGTCC
CGCCAATCATAGCGAATACATTCTTTGAGCGGCGATACAACAACGATCCGATGCTCCTGCAATATGCTAACCGCG
TAATGGCCCAACATCCTGTGGAGTTGACCTTTTTCTTCATCCCGCAAGTGGTACAAGCACTGCGATATGACGACC
TGGGTTACGTCGCTCGCTTCATCTTTGAGACAGCCAAGATTTCCCAATTGTTCTGTCATCAAATCATCTGGAATA
TGAAGGCAAATTGTTACAAGGACGACGCAGCAGAAATCGAGGACCCAATGAAACCGAAACTCGACGAAATGACCG
CGCTGGTTGTCGATTCTCTATCTGGGGAAGCTCGCTCTTTCTACGACCGTGAATTTACTTTCTTCAATGAAGTCA
CTTCGATCTCTGGGAAACTCAAACCATTTATCAAGAAGACCAAACCGGAAAAGAAGGCTAAAATCGACGAAGAGA
TGGCGAAGATCGTCGTCGACGTGGGCGTCTACCTTCCCAGTAATCCTGACGGTGTTGTTGTGGACATTGATAAGA
AGTCGGGGCGACCCTTGCAAAGCCACGCTAAGGCACCCTTCATGGCCACTTTCAAGGTGCGCAAAGAGCGGGTGG
TGGTTAATTCTGACCCCGATTCACTGTTGGACGGGGACGGAGGAATTGAAACCATGGAAGAGTACGATGTCTGGC
AACAGGCTATCTTCAAGGTTGGCGATGATTGTCGTCAAGACGTGTTGGCTCTCCAAGTCATCGCAATGTTCAAGA
ACATCTTTGAATCCATTGGCCTCACACTGTATCTGTTCCCTTATCGCGTGACCGCTACAGCGCCTGGCTGCGGCG
TCATTGACGTTGTCCCAAATGCAACTTCCCGTGATGAGATGGGGAGGGCCAAAGTCAACGACCTCATGGGATTCT
TTGTCGCCAAATATGGCGGGGAGAATACGGTGTCTTTCCAGAAAGCCAGACTCAACTTTATTCAATCCATGGCTG
CGTATTCTGTTGCGTGCTACATCCTTCAGATAAAGGATCGACACAACGGCAACATCATGATCGACGGGGAAGGGC
ACATCGTGCACATCGATTTCGCTGCGTGCGCTTATCTTACCCTGGTTGCGCTGATCTTACGACCCGGAGGTGTCA
AGTTCGAGCCAAACTCATTCAAACTGAACCATGAAATGGTACAGTTGATGGGTGGTCGCTATTCCCAAGGGTATC
AACTCTTCCAGAGCTTGACTGTTAAGGCTTTCTTGGCGATTAGACCGTATGCGGCTCAGATTGTCGACACAGTCC
AACTCATGCTTGACACGGGCCTGCCTTCATTCAAAGGAGAGCCAACGATTCGCAGACTCCGTGATCGTTTTACCC
TCTCACTGAGTGAACGACAAGCCGCTGACTACATGATGGGGGTAATTCGGAATGCGCATGAGAATGTTCGAAGCA
CGGCCTATGATGAGTTTCAACGGTTACAAAATGGCATCCCGTACAAGTAG
Length 5975

Gene

Sequence id CopciAB_453815.T0
Sequence >CopciAB_453815.T0
GTGGACCTTGGCTCCCGCCAGCGACTTCGACATTTTGGATACCACCTACCCCAGTACTTATTCTCGACCTTGTGG
ACAAAGCGTAACCATTTGGAAAGAGTATCACTATGGACTGGTGAGCCTGGTCATAGAGATATTTGTGTCCAATTC
ACTCAGTCCAGTTCTCTAGCTTGGAGTTCAATATCCACCAGAGGATCCTCTCAGAGCTCGCGTCCAAACAAGATG
ATACCCCAGGACAAGATTCGTCCAAGGACTTGATCATATCCAAAGTCCAGACCAGAGATGTCTCTGAAGTCTCCG
CAGAAGGGTGCCCTGAACCAACAACGAGGGTCTACATGGTGCGGATTTGTCCAATTCATGTCACACCAGTGACCA
AGGTTGATGTACTCCGACGTACAGAGCGCTTCCCGTGTTCATTGCAACATTGCTTTTGGGGAACTGGTCGTCAAC
TTTCCTGCTATCCAGCTGGGCCAGTCAATCGAATCGATCATGGCAGCATTGCTCGATATCTTGCGCGATATCCCA
TTCATTGACTTCGATCCATCGCTTTCGTGGCATGGTGCGGTTCTTTCAGAGTTTGTGATCGCTTGGGGAACTCAC
GTCAGATCTAGATTGGGCGTTAGCGGACCAGCTAGTCTTTTCTACGATCTCTGCTCTACTTCGACTTTCGTGCGA
GCACCCAGAACATGCAGCGCAAGCGACGACAGCCATATTCCAGTTTGTTGATCAGGTGGTCGACAGTATCGCTTC
GTCTACAGGTGGGCAAGTTTGTATGGTAGCATCAATGACAAGATATTAAACCTACTCTCTAGCGTTTATCATTCT
CACCCAACTGTTCCCTGCAATCCATGGCCTGTACCGAGCCCTCATCTCCACATCCTACACGTGGACACTGTCGCA
TTGGAATACCCTTACTCTCGGACTGCAGAGACTTTGCTCTGCGTCTGCCATTACCCGGCTTAATCAACTTTGTGC
AGACATCATTCACAAAGACGGTCTCGACACGGAGGAGATCTTCTACGCGCAGGCATTCTTGGCTCGATACACTGC
TCAAGGACGACCGGTTAGCGGATACTTCCTGATCTGCTGCATTCTGGAAATAGAATGGACTGTCCTGGCTCAGAC
TATGACAGAGCCCGTGGTCAATCGGGCCACTGTAACAGAGGCAGCGGCGGCCAACAAAGCGTGGCTTGCTCTATC
CCGCAACCCTGCCCTCGAGCTTCAGGTTGACGACAACACCAAGTCAACATTGAGGGCCGGAGTCGCTTATTCCAT
GCAGTGCTTCACTGATCTCCTTGTCCAGATTGAAGCCATGAGGGTTGATCCATCAATCGACATTTACGCTTGGGA
AACTATGGCTGAGAGTCTGGTCAGTTAGCCACTTCACCCATCCATGATGTCCGCTGAATCTATGCTCCAGAAACT
TGCTTCAGTTTGCTGCATCGCTCTTCGAGAGTTGGACGAGCACCTTCACTCTCGGATCCTACTTCTTTTGAGCAA
TACATCGCCCATCTCTGACAATCTTGTCCAGGAGGCAGCCTTGAAGTCTACTACAGTCCTTGTTCGAAGGTTGGC
TCAGATGTCTGAAACACAGTCCAGTACCCTCACCATCTTTTAAGCTTCCCGGCCATCGCTGCCGACATGACCACT
CAGCTTCGGAAGTTTGTCACTTCCCCTCTTCCTCTATTTGAATTCGAGTTTGCTTCAGAGACTCGGGCACCGCCC
CCACTGGCTGCCGCTGCCAAATGTCTGGCATTATGCATCAAGGTAAAGTCAAGCACTGGCCGCGGGGAAATTGAC
TATTGACGTACTTTCAGTTGGCCCCAGGAGATGATCTCATCATGTCCAACATGTATTCTCTTCTGAACTACATCG
CTGCGACAAGTAAAGAAGTCTACGATGCGAGTCTGTTCGATGTCAAAGGGGACTTCGTCGGGGATACCCACAAGA
CTCTCCACTCTCTGCAGTCTGGTTTACACGGCCTCTCTGAAGACGAAAAGCGACTGATCGGCATTAGCACCATCT
CGGTAGTAACGAGGCTGGCTCTTGAATTCCAGATGGAAGAGGTCGGCTCCTTTCCTCTGTTCGAAAGACAATTTG
CTCACGCCGGTTGCTGTAGGTGACGAGGCTAACAATCTCAATGCTGCTACAGCGACTACGCTCCGCGGAACCGAC
TGTGGAAGCTGCCATAGCATACAACCTGGTCGACCTTGCCTTAATAGCACCAAGAAATGCATTCGTGGACATTGT
TCGAGTGTTTTCAGCTATCAATCGATCTGCTAATCCCGACGACCCGCGTTTTTCGAACAATATGGTGCGTCAATT
TGAACTGGTACCTGTGACGAAGCCAACTCGGCCAAAGGTTCTAGCAGCTCAGACCCGCCTCGCTCAAGAACTCCA
TCGTCGGCCAGAATTGTACGAAACCTATCTCATCGAGCTCCTGACCCTGTTCGGCGACAAAGGCGTAGCTATTCA
ACACTCCAAAGCTCAAAATATGGAGCTCAAGGTATGAGATACTTTTTGTCCCGGACTTCATTCTCCAACGCCATC
TCTAGATCGATGATATGGTCGAGCAACTCGCTTCCCTTTTGCTCCCAGTCGACGCTTTGCTTACCCACGCAGACT
TCAATCCGCACGAAGATGCATCGAAAGAAATCGTGACGCTCTTCCGCAATACCTGGTTCCTCTGCGTCCTATTTG
ACTTCACGCACATGGATAACCAAGAAAGCACTGCCCTTGACTGGCTAAGACCCGCATTGGCAAGGATTGCGCTGA
AAACGCCGTCCATGGTCGTCGAAGAGTCGCTTGATGCCATTGCCAGCGACGTGGAGTACAACTCGGTGATTAGGC
AAGAGTTTGCTCAAACGGTCAGTGAATTCCTATCCCGACTCAATAACCTCTATTAAACCCCATCCAGGTTATCTC
CAAGCACCGCGCTCTTTTGACCAAGTACATCCCGCTGCGATACAGCGAGATCCGATACCTTTCGGCTGGCCAAGC
TATCTTCATCTTGTCGATGTACGACATCGAAAGTATGCGATCTGCCGCTGGCCGCCCCTCTTCCTTGATCTCGTA
CTTCATCAACGACAGTCTGAACAAACACCAAGGGCTCAGTGCGTGTATGGATGCAATCGCAGAAAATGTCAGTAC
TCGCCCTGGACCATGACTACTCGATATACTGATCCTTTTAAAGGTGATCAGAGGATGCATCGGCGACCTCAACGT
CAAGGCTGCTCAGCAATCCATGCCCGAATATTTGTCCGAGGAACTGCAAAAGCTTTTAGTTGCTAGTACTCACCG
CATCCAACAAGCGAGGGAGATAGCCTCCAAATATCTGAACAGATTGATCACGTCTTTCCCTTCCCTGATGTGTGA
CCCTCGACTCGTTTTCGCGATCCTGGAAGTGATGACCTTACTCCAAAAAGCGTGCGAGAATGAATTCTGGGACGA
GGTACGTTCTCATACAGATTATACAGGCGAAGGCTGACCCTTCTCCAGTATAACCCTGTTTACGAGTATCATTCG
GACCGGTGTAATATCACGCTACAACTGACGGACATCTATCAAGTTCGAAATGAGATCCTGGGCCAGCTAAAGCAA
TTAGCAAGCACGTGGCTGAAATTAGCCCTCGACAGGGCCCCCATGGAATTGCACTCGACGCTTCAGGTACGGGTC
TCGCTTGTTTTCGGTCTTCTTTTCTGACCAGACTATACCATAGAAATACCTTGCCGTCAATCGACCCTCCCCAAG
CATTGAAGCGGCGGAACTTGGTGCCTCCCTCGCAGAACAGTTTGCAAAAGCTATCGGCCCTGTTCACCGACAACT
AGGTATACGCCCTCTGTCACGGTCCACTCCCTTGCTGATTATATCGAAGTGTCCCTGACCAGTCTCTCTCCATGG
CCCCTGGATGGTTCGAAAACCCTCGCAAGCCAAATAGCTGTCAAAGGGTATTACGCAGGCGAAGCCGCCGGCGTC
AGAATATCAACCTGTAAGTTTTGAATGTCTCGTTGCCAACCCTGCTAAATTGGGAAACAGCGCCGGACAAACTGG
CAAATCCACCTCCCCAAACAGCTTCAGCTTCAGTTGTCGAGTCCCTGAGACGGGATATGAGCAGGGCAACTCGGG
AAATTAAAGGCAAGAAAAGCGTGTTGACTGTCCACGACCTTCGCAGATTGTTGTACCGGGGTGCTGCTGTTTTAA
TATCGGAGAAGGAGGTCCGGCTCTTCAAGCCCACTTAACTCATGATCCCACTGACACTCATTTTAAGGCTACATA
TGACCGTGAACTCTTGCATCATCTTGTGTTGCTGCCATTCACCGTTTCAACACCAGCTTCAATCGCTGCTGCAGT
GGAAGTCTGGACTTGGCTGATTGCTGAAAATCCCCACATAGAGGTGGCCCTCATGGGTGAGCTCGTGGCCGCCTG
GACAGACACGATCGTGCACCAGAGAGGGATCTTTGGAGCAATGCTCGAGTAAGATCCATCATCCTTTGTTGAGAG
TTGGCCTAGTGCTAACCTAGTCAAGCTACCACGATCCTTTCTATCACCCCATCAGCTATAGTCCAACGAACAAGG
AAACGATCGACCGTGCTTCGAGCCACGCTCACCGTGTCTTGTCCCCCCATAGGCTTGTCTTGCAAATGCTTTTCA
GTCGTCTCCAAGCGTCAAGATACCACCGTCCTGCCATTCTGCTTCTCACTCAGCAACTGGTTCTTCGAACAGCGT
ATGCATGCAAGTCGCTAAGGTACATGCTCCGCTTCCTAGCATTCGCAGTGACTAACAGTTGCCAAGTACTCATGC
TTTGGCGCGAGAGATTCGATTTTCGCTCCTATTATTCGGCTTTGAGACTCTGAGGGGTTGTTACCTGGACTCCTA
CTGCGAGAACCTTCTCCGTGAGAGTCTTTACAAAACGGCATATTCATGGTTTGCTGTTCGCCCTCGGTGTGTCCC
GACAGTTCTGATCTCGTTCTTTGCTCAGACTCCATTGCAGGGTCTCTTTCGGTGCAAACCGAGTTCAAGTGGACG
CTGATGTCAAAGTTTGCTCTGAGTTTTTGGCTTATCTTCATTCGGATTCTGTCCGCGGGGCGCCTGCTATTTCAA
GCTTGTCCCCTGTTCAACTCATGTCCCGTGCAGCCTGTAAGTACAGGTGTCTTCGAAGTACTCGTGCTGATTTGT
CGCAGATTACACGGACCGAATGCATACCCTCAGTCTTCCCCTGAAGCTCCTTTGCGAAGACGAACTGGCTCGCTT
GTCAGTATGGAACAACCCACTCAGCGACCCTAAGAAAGGGATGGATTTCATTGGAACCACTGAACGTACAATCTT
GGAGGTGCGATCCTCTGTGACACAATCCAAGATCACGAAGTGAACATCTTTAAAGGCATCATGGGCAAAGGTTAT
AAGAACCATCTGGCAAGTCGACCCCGCTGTTGCTATCTTCTTCCAGGAGCGTTTCCAATACGCTGGTGTCCGCCA
CGAAGTTGGTAGACTTGTGCGTACGGGTACAACTTCCGTTTTGGATGTGCCCGAGGCGCTTCTCGTCCTTCTTGG
TGATAGACTTGATCCCGCTGTTCGAAAGGATCTTCGCGTGAGTCTCAATGTCTTTTGGCGGATAAAATAAGTTCT
AATATTCAACTAGCACCTTCTGCTCTGGGCCCCAGTCCCGCCAATCATAGCGAATACATTCTTTGAGCGGCGATA
CAACAACGATCCGATGCTCCTGCAATATGCTAACCGCGTAATGGCCCAACATCCTGTGGAGTTGACCTTTTTCTT
CATCCCGCAAGTGGTACAAGCACTGCGATATGACGACCTGGGTGTGTCTCGTTGCATCAGCCACCTGTATCGGAC
TCACAGTACGGTTAGGTTACGTCGCTCGCTTCATCTTTGAGACAGCCAAGATTTCCCAATTGTTCTGTCATCAAA
TCATCTGGAATATGAAGGCAAATTGTTACAAGGACGACGCAGCAGAAATCGTGCGGAATGCGCTTCTATCATCGG
GACCGAGTCTAACGAAGTCACTTAGGAGGACCCAATGAAACCGAAACTCGACGAAATGACCGCGCTGGTTGTCGA
TTCTCTATCTGGGGAAGCTCGCTCTTTCTACGACCGTGAATTTACTTTCTTCAATGAAGTCACTTCGATCTCTGG
GAAACTCAAACCATTTATCAAGAAGACCAAACCGGAAAAGAAGGCTAAAATCGACGAAGAGATGGCGAAGATCGT
CGTCGACGTGGGCGTCTACCTTCCCAGTAATCCTGACGGTGTTGTTGTGGACATTGATAAGAAGTCGGGGCGACC
CTTGCAAAGCCACGCTAAGGCAAGTGATTTGCAAGAGCTGTAGTCAGTCGCTGATGCAGTTATAGGCACCCTTCA
TGGCCACTTTCAAGGTGCGCAAAGAGCGGGTGGTGGTTAATTCTGACCCCGATTCACTGTTGGACGGGGACGGAG
GAATTGAAACCATGGAAGAGTACGATGTCTGGCAACAGGCTATCTTCAAGGTTGGCGATGATTGTCGTCAAGACG
TGTTGGCTCTCCAAGTCATCGCAATGTTCAAGAACATCTTTGAATCCATTGGCCTCACACTGTATCTGTTCCCTT
ATCGCGTGACCGCTACAGCGCCTGGCGTGAGTATGAAATTGTTTTCTAGCCCGCCACCGCTAACACTGTTCCAGT
GCGGCGTCATTGACGTTGTCCCAAATGCAACTTCCCGTGATGAGATGGGGAGGGCCAAAGTCAACGACCTCATGG
GATTCTTTGTCGCCAAATATGGCGGGGAGAATACGGTGTCTTTCCAGAAAGCCAGACTCAACTTTATTCAATCCA
TGGCTGCGTATTCTGTTGCGTGCTACATCCTTCAGATAAAGGATCGACACAACGGCAACATCATGATCGACGGGG
AAGGGCACATCGTGCACATCGGTAAGCTAATTCCTGGGTCAGCGTTCGGCCATGTCTCATCACCGCACACTAGAT
TTCGGTTTTCTATTTGACATAGATGAGTATTACTTTGCATAAAAGCTGCGTGCGCTTATCTTACCCTGGTTGCGC
TGATCTTACGACCCGGAGTGAGTCATCTTCTTTTTCAAACAGGATTCTGAATTGAAGTATTGCAGGGTGTCAAGT
TCGAGCCAAACTCATTCAAACTGAACCATGAAATGGTACAGTTGATGGGTGGTCGCTATTCCCAAGGGTATCAAC
TCTTCCAGAGCTTGACTGTTAAGGCTTTCTTGGCGATTAGACCGTATGCGGCTCAGATTGTCGACACAGTCCAAC
TCATGCTTGACACGGGCCTGCCTTCATTCAAAGGAGAGCCAACGATTCGCAGACTCCGTGATCGTTTTACCCTCT
CACTGAGTGAACGACAAGCCGCTGACTACATGATGGGGGTAATTCGGAATGCGCATGAGAATGTTCGAAGCACGG
CCTATGATGAGTTTCAACGGTTACAAAATGGTATGACGATCTTCGTTTGCTCACTTTATATACGGGTGCTGATTG
GTGGTTTACAGGCATCCCGTACAAGTAG
Length 7528