CopciAB_500130
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_500130 Strain Coprinopsis cinerea Okayama 7
Standard name TEL1 Synonyms 500130
Uniprot id Functional description FATC
Location scaffold_6:1752034..1762348 Strand -
Gene length (nt) 10315 Transcript length (nt) 9695
CDS length (nt) 9246 Protein length (aa) 3081

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB20837 42.1 0 2399
Grifola frondosa Grifr_OBZ73739 39.8 0 2124
Ganoderma sp. 10597 SS1 v1.0 Gansp1_129193 40 0 2081
Pleurotus eryngii ATCC 90797 Pleery1_1487061 39 0 2048
Pleurotus ostreatus PC9 PleosPC9_1_127957 38.6 0 2031
Pleurotus ostreatus PC15 PleosPC15_2_1105591 38.6 0 2029
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_205907 38.5 0 2010
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_70197 38.6 0 1997
Lentinula edodes NBRC 111202 Lenedo1_1175374 37.9 0 1996
Lentinula edodes W1-26 v1.0 Lentinedodes1_21723 37.9 0 1996
Schizophyllum commune H4-8 Schco3_2228065 34.7 0 1716
Auricularia subglabra Aurde3_1_1218706 35.8 0 1662
Flammulina velutipes Flave_chr11AA01233 35.7 0 1470
Lentinula edodes B17 Lened_B_1_1_14024 47.2 0 1113

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 68.0057 9.6116 5.5492
oidia 52.3806 4.8749 2.8145
vegetative_mycelium 51.216 9.5806 5.5314
primordia 43.1814 5.775 3.3342
hyphal_knot 61.7998 3.4021 1.9642
young_fruiting_body 18.3089 4.7963 2.7691
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 61.5 5.1502 2.9735
Wheat bran 38.7954 17.4336 10.0653
Horse manure 67.5659 27.7963 16.0482
Oak leaves 82.0888 29.6367 17.1107
Hay 59.9244 20.8762 12.0529
Corn stalk 80.734 7.7021 4.4468
Pectine 89.2163 4.6625 2.6919
Microcrystalline cellulose 90.9098 19.6096 11.3216
Xylose 68.8062 19.8554 11.4635
Cellobiose 55.7469 10.034 5.7931
Lignin 72.96 14.7614 8.5225
Apple peels 59.7012 3.565 2.0583
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 52.9854 0.7964 0.4598
Bsubtilis 48.655 2.6108 1.5073
Ecoli 53.792 0.7504 0.4332
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 22.8552 3.4314 1.9811
BS 4h 17.5042 3.0057 1.7353
BS 8h 17.3042 3.4097 1.9686
BS 12h 13.2113 1.415 0.817
Oidia 0 h 25.0982 4.6609 2.691
Oidia 18 h 26.4054 5.6393 3.2559
Sclerotia 28.2362 9.6459 5.569
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 9.2915 0.7096 0.4097
DM 36h 12.2649 1.1689 0.6749
DM 60h 14.9269 0.1396 0.0806
DM 84h 13.3653 0.5742 0.3315
DM 108h 12.4072 1.6722 0.9655
DM 132h 12.665 0.7376 0.4259
DM 156hAE 25.251 3.825 2.2084
ELI1hAE 19.0438 4.1213 2.3794
ELI2hAE 19.8056 3.3994 1.9627
LI2hAE 19.1472 1.2245 0.707
LI6hAE 16.6905 1.1413 0.659
LI12hAE 17.3981 5.6434 3.2582
LI18hAE 23.5806 0.7072 0.4083
LI 24hAE 25.489 2.446 1.4122
DM 156hAM 17.6262 0.9597 0.5541
ELI1hAM 8.7431 2.3952 1.3829
ELI2hAM 10.1679 0.3129 0.1806
LI2hAM 11.8429 4.6835 2.704
LI6hAM 17.6448 3.5524 2.051
LI12hAM 18.0042 2.8204 1.6284
LI18hAM 16.5483 3.6594 2.1127
LI 24hAM 19.786 2.2278 1.2862
LI 24hHK 17.5535 2.3911 1.3805
L/D 6h 28.1681 7.935 4.5813
L/D 12h 35.4377 12.1857 7.0354
L/D 18h 28.076 4.3294 2.4996
L/D 24h 21.517 2.2145 1.2786
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 35.2232 9.7981 5.6569
Hyphal knots 49.9065 7.6991 4.4451
Primordium 1 39.3215 3.8788 2.2394
Primordium 2 34.4609 3.841 2.2176
Young Fruiting body cap 12.6369 2.9386 1.6966
Younf fruiting body gill 23.5161 7.5152 4.3389
Young fruiting body stipe 14.1545 3.1712 1.8309
Mature fruiting body cap_gill 33.2057 7.4381 4.2944
Mature fruiting body stipe 37.4114 8.1301 4.6939
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 35.1192 5.8478 3.3762
NH4NO3 42.7193 4.0632 2.3459
Proline 43.769 8.4258 4.8647
Tryptophan 43.2282 10.6233 6.1334
Isoleucin 35.4811 5.689 3.2846
Arginine 37.9358 2.2058 1.2735
Metionine 36.6947 2.6413 1.5249
NaNO3 30.0735 1.7242 0.9955
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 35.1192 5.8478 3.3762
Citrus peel 15.3374 3.0435 1.7572
Poplar leaves 32.1616 3.7529 2.1667
Typha leaves 25.5183 5.5415 3.1994
Overwintered Salix leaves 26.5439 3.5803 2.0671
Reed flowering 23.6279 6.5082 3.7575
Tigernut 13.9063 2.6191 1.5121
Energy cane 27.3882 5.1819 2.9918
Guar gum 42.2687 19.7179 11.3841
Apple peels 28.726 5.1162 2.9538
Cellobiose 44.4264 3.0428 1.7568
Corn stalk 41.5182 3.0399 1.7551
Horse manure 46.4931 4.6567 2.6886
Lignin 19.2107 3.1906 1.8421
Microcrystalline cellulose 35.119 10.4924 6.0578
Oak leaves 40.0026 11.6429 6.7221
Pectin esterified 23.1165 8.5272 4.9232
Poplar sawdust 53.3318 10.0896 5.8252
Wheat bran 27.7521 10.7371 6.1991
Chlamydomonas reinhardtii 35.0676 3.1062 1.7934
Vertatryl alcohol 42.3694 5.9175 3.4165
Furfural 34.1522 5.6593 3.2674
Autoclaved mycelium 28.3877 3.9658 2.2897
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 76.4043 6.1451 3.5479
Ribose 91.0687 5.0905 2.939
Mannose 99.506 16.1428 11.4147
Fructose 93.9965 6.4421 3.7193
Arabinose 106.632 14.5826 8.4193
Xylose 86.7219 1.6614 0.9592
Galacturonic acid 90.0063 6.1733 3.5642
Rhamnogalacturonan 88.0633 1.4435 0.8334
Pectin esterified 87.28 2.8428 1.6413
Polygalacturonic acid 94.9873 14.1424 8.1651
Sodium acetate 94.0683 3.7546 2.1677
No nitrogen 81.8916 8.3781 4.8371
BSA 96.3999 2.2872 1.3205
Glutamine 85.5841 3.1068 1.7937
No phosphate 74.6652 4.0874 2.3599
No carbon 92.4145 0.8641 0.611
No sulphur 81.0963 13.3888 7.73
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 35.1192 5.8478 3.3762
Amylose 41.8362 2.0183 1.1653
Fucose 43.5467 6.5592 3.7869
Galactose 48.0789 6.6862 3.8603
Lactose 45.3643 4.5052 2.6011
Maltose 43.7609 6.9855 4.0331
Mannitol 43.9597 2.4738 1.4283
Rhamnose 39.2951 3.0095 1.7375
Sorbitol 42.6474 3.364 1.9422
Trehalose 38.478 8.4966 4.9055
Glycerol 38.3448 12.6302 7.2921
Glucuronic acid 49.3077 3.8927 2.2475
Arabinan 36.7384 13.0291 7.5223
Galactan 28.6864 1.9627 1.1332
Galactomannan 31.7005 14.7319 8.5055
Glucan 35.8922 7.63 4.4052
Xylan 37.6908 4.7706 2.7543
Xyloglucan 38.0566 3.3778 1.9502
Arabinogalactan 41.9722 6.3003 3.6375
Pectin 29.7047 15.7246 9.0786
Rhamnogalacturonan 24.7786 4.6125 2.663
Polygalacturonic acid 42.4137 5.2939 3.0564
Mannan 40.4092 4.2183 2.4355
Amylopectin 28.3788 8.1047 4.6792
Inulin 38.823 2.8091 1.6218
BSA 18.9754 1.4014 0.8091
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 14.9269 0.1396 0.0806
2h WAT 16.8515 3.6347 2.0985
4h WAT 18.7928 1.3862 0.8003
8h WAT 15.6037 1.9692 1.1369
16h WAT 16.2467 2.727 1.5744
24h WAT 18.2598 2.4752 1.4291
WAT hyphal knot -30h 16.0537 2.5244 1.4575
WAT hyphal knot -22h 18.7257 1.0696 0.6175
WAT hyphal knot -15h 16.7167 0.6251 0.3609
WAT hyphal knot -7.5h 19.6353 3.4043 1.9655
WAT hyphal knot 18.2761 2.9936 1.7283
WAT hyphal knot +7.5h 15.8022 2.1353 1.2328
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 27.9525 9.5142 5.4931
Straw 3h 22.3716 9.1752 5.2973
Straw 6h 23.52 8.861 5.1159
Straw 12h 34.8567 3.6157 2.0875
Straw 24h 28.7368 10.9914 6.3459
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 8.4445 1.1893 0.6866
Frost (-20C, 30min) 10.5217 2.5387 1.4657
Heat shock (47C, 2h) 13.0653 2.088 1.2055
High CO2 14.3204 1.8776 1.084
Drought (4% agar, 12h) 19.099 1.8272 1.0549
Oxidative (1mM H2O2, 3h) 13.204 1.2855 0.7422
Acidic (pH4, 3h) 8.5322 1.6781 0.9689
Alkaline (pH9, 3h) 9.9028 1.1525 0.6654
Osmotic (sorbitol 2h) 7.3222 0.665 0.384
CongoRed (3h) 8.568 0.8576 0.4952
Cobalt chloride control 17.198 2.679 1.5467
Cobalt chloride 2mM 11.8815 2.4766 1.4299
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 14.1076 1.47 0.8487
Cold stimulation 12.9636 4.4181 2.5508
Scratched surface 16.656 1.587 0.9163
Ca2+, 200mM, 24h 5.4265 1.7808 1.0282
Cu2+, 2mM, 6h 16.0865 3.3274 1.9211
Voriconazole 12.1162 3.578 2.0657
Trichoderma interaction, early 14.4447 2.4338 1.4052
Trichoderma interaction 60h 25.2393 6.2567 3.6123
Cobalt chloride 2mM repeat 20.2021 3.7049 2.139
Hypoxia 10.0231 0.6544 0.3778
Hypoxia control 12.6668 1.6118 0.9306
Protoplastation control 15.9622 3.4668 2.4514
Protoplastation 3.5h 12.5321 4.3934 3.1066
Protoplastation 1.5h 18.7644 1.8473 1.3062

General data

Systematic name TEL1
Protein id CopciAB_500130.T0
Description FATC

Annotation summary

0 800 1600 2400 3081

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd05171 PIKKc_ATM IPR044107 2709 2983
Pfam PF11640 Telomere-length maintenance and DNA damage repair IPR021668 5 160
Pfam PF00454 Phosphatidylinositol 3- and 4-kinase IPR000403 2738 2983
Pfam PF02260 FATC domain IPR003152 3051 3080

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR003152 FATC domain
IPR044107 ATM, catalytic domain
IPR018936 Phosphatidylinositol 3/4-kinase, conserved site
IPR036940 Phosphatidylinositol 3-/4-kinase, catalytic domain superfamily
IPR000403 Phosphatidylinositol 3-/4-kinase, catalytic domain
IPR021668 Telomere-length maintenance and DNA damage repair
IPR038980 Serine/threonine-protein kinase ATM, plant
IPR014009 PIK-related kinase
IPR016024 Armadillo-type fold
IPR011009 Protein kinase-like domain superfamily

GO

Go id Term Ontology
GO:0005515 protein binding MF
GO:0004674 protein serine/threonine kinase activity MF
GO:0006281 DNA repair BP
GO:0006974 cellular response to DNA damage stimulus BP
GO:0016301 kinase activity MF

KEGG

KEGG Orthology
K04728

EggNOG

COG category Description
B FATC
D FATC
L FATC
T FATC

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_500130 across fungi.

Arrow shows the origin of gene family containing CopciAB_500130.

Protein

Sequence id CopciAB_500130.T0
Sequence >CopciAB_500130.T0
MASTLKSILDALKDGTATARKEALQEFRTAVFADRDLLPYLTRQKSNDKHAYKDWLSIVQALLASVQADKPLLRQ
KIAQGRTVPATVTSRFTTAVGTVRWIVEEYYEYFSKSVLDSLLDHITSTLLDRRLFDYVSLDYFKTIKSLLLHQP
HLDHLDGLRWTNLVEICFNVILDLDLRTPLTEVDEDSEDEQATPSRKGTPLDSDDDDAPSPGTFAQKRRRNDKDV
LPQPTMKRAGRTRRQGQIPVKPAQVECAIILSLLLCSHNNPMSSPSTKIDDNSTPENRIARDRGILNRLRQFLKK
YPSESSLLHDFLSCVEGTLDALALNRVRDVALFARETWDGFVGLWGVKDKRLKEKILIVLRALFPFILVEEPVFQ
EGTRNGTLNLVEGLQKLWATLSGEADSRWGTNGLKLSTLRLQIIRAGDPRNDTSNPFIASTFRSGWDFDIDQALA
WGILELQADVAKQLFMFAESMHPATPCTSQRKDKRFRLQNPVSTLLHNIETQILTVPRCYHLQVLLFFVDRHWSI
VHDTLKRQIMDTLIQVQNLEDPDVQSWILLNYAAIAYAESHWAGANVDALISSQAPDVLDAKVWDTILQSVVRRI
NTAAVCRAASHATHSLLISLYRYTPPSGHIFLSSPRVLQEIEIICKDINIEGPHAPYDSVCMLLIECLKIASQDV
RLYRLHMEDKVLEWLKNSWVITGYEKTAGPHPVNDLILLLATICGISKPIGLVIRTSLPSCPIVTAMQKESQLQS
IRNFMLYAQLPSYKPSEQSKSVSFPTSVEPGVEPADISPLSSSRRSPNAREGRVLSFLERMIKALKLHWQSTPNP
TIEVARRTLDFAVIAIVFQTMLSVNSVITGKEVLKVGAEVLNLVVNPSAMGPNGNAKWTLAERATLCEGLEPLVW
TSDPPVETGWEAVAQPDFSRDGVTRKERSLPSVTDAKEELRRNILRAIWSNSEKEGFVGLLGYIRSQVADASILD
NPTTLAMDADDGGAWAVRTSETSTSKLPGEKNQELCRLVEGQLIFTIRVAALSSLLGDSSDVKDFQQFLNGLLNS
VEESAPWCLLVVPILLREIDIGSLKVNEDIALSLLNAIARCLKTYNHSYNTEMRCLATRALASTFDLWLTSQTQH
VSPKAAQLCSWIATSLGNSRFDSWVMRDACVQFLCRYLSVSGRRSSWPFKGTGEEPTPTSILEKLTTDPDVRVRF
RVATAIPMLFAVSRTDNHKLPSLYNEMKDAFSADVDQYELFISRLLSFANIMIVSSVIRRGPYWHLLETCTHSPA
YTSHLEALLTATVERLGMESLKCLSRAYACQLAFSMGRADTDLLSIPPRLLGYDTRSSCAEATFRAFVPVYFATN
GMTHFQSHCQVLQKDIETGIDQCFGDIVGFHVVVYFFEHDNPNEAAMVGGLATLLGREEDKLRSDFSAHADAIIA
SMLRTMGDQDYTDNGKIIPALESVTGSDNLQEDSKHVAVFRVLTRYRGLETFTPHEPNSPALPTSCILRGLAWME
TVPQACRKATTYHVIHELFASIEDTPLVNEKLRLVNALCLWIAYRHQDFNDVILLYAVLHGASALLRQEVLARAA
QSILQWTFRCYHKFKAADSRLSRILIRLSSICHDYAAQVHDPAAVRLGEDLLQWFDAQMVKLSTVPVLLDVICKA
MPAWAHRPSAALATVQKAVTVEHLSAILRDGHISSNKFRVVRRLAEEPFHNEIQFPSKAFWRLKESLPPTDKIQV
EDIAAFTDLLIAHHGQIDSLNPEKPSLSTIRNRHRQLWEVPDRKGERSRKDWLVMAKESILYGLLALLEHESSSL
VHNAYNTLRLMMKELPGGLSAEKLWSREYLEELQLLRHYPRLSSKRPVRSLSLLQESDHYVEMSSKFSDWVKYVS
VLISDILSSRDPTYGQLYSILSTDVSTAEEMFPVLVYALLQGEKISPQEGPSPRALLSHHFTKVLQYPNAGLQCV
QLIVDAVLHLRFFHPGKGDKLAYNKWLDLDYYLLAQSAVRCGAYTTALLFLEIAPEIHDSSKLDRKIVEEIQYEI
YAHVDEPDGFYGIQTDNLHRFLIERFRHEKQWDKAFRFHGAALEAGSEGAGVGNVEGIAQSFHSFGFNHLAIGTL
QTSEETFGSRNLSPGLAYQLGWRSATWDLPESDTYTPGASLYHVLRCLHREMDLNALDASIQSALYKEMDQLRKL
GTESVTQIREVLQALMSLHQISLWKSRDLQDNLSSKAIDFDKWKDFLSISDHFGFSDVENIMSVRLSLIRSNRQE
EEKTNQIGSIASPFLTALVEIEKRCLILLSRAARDSDQTQIALNAVLQAQKLEKTPSLEVSQEYANVLWSLGEAK
IAVKFLSDLLMKPASSSLPAPSKAELYSRLGTWISEAYLEKPTDIKTKYFDPAINLLLQCVEGSHSDEVATVYRQ
YAFFAERQYHTILKSGDSVRWKVYVERKQREISDRAHELQSMRPNEERYKIASRAQHTAKKLLEADKALAESHES
TQKKFLLQALKMYSRCLQVTNKYDTEASIKFASLWLSNFDEDQGPEIVEAIGEALEKIPSHKFVFLAHQLSARIT
KSPSQQTKNQTDLQRLILRLCLEHPFHSVYQVYSLQADDDLSTLGSQKERRQSTRSQAATLGSQVESQIERSEAA
QDVLYRLEQGESRQRIEAMKLACKAYRAWARQPLPKDKMRVGVQLAIPPSQPILGLPRMDGLVPVLTADTPIDPT
LKYENCVWIHKYENVFETAGGVNCPKISWCYGTDGVRYKQLFKGNDDMRQDAVMEQVFELVNRILVKDRETSRRS
LRVRSYKVVPLGKQAGVLEFVSNTSPLRNWLEAGHPIYRPGDISPKEARSKLYAASSRSEEDRIKAYNEVCAVFK
PVFRHIFTEKHRNPRAWFATRLRYTRSVAASSIVGHILGLGDRHTSNILLDNTTGEVVHIDLGIAFDQGKLLTIP
ELVPFRLTRDMVDGMGISGTQGVFQRCAEETLRVLRDGSDIIMTVLEVFKHDPLHSWTASEIKIKRVQQPEAPPT
TPASEAGANQPKILPSRFELGGLGIDMTSGTAEEAADRALSSVARKLDKSLSVESTVNELIAIATDPTNLGKIFY
GWAPHM
Length 3081

Coding

Sequence id CopciAB_500130.T0
Sequence >CopciAB_500130.T0
ATGGCCTCTACTTTGAAGAGTATTTTAGATGCCCTCAAAGATGGTACGGCCACTGCACGGAAAGAAGCTCTTCAA
GAGTTTCGGACCGCAGTCTTCGCGGACAGGGATCTTCTCCCGTACCTGACAAGGCAAAAAAGCAACGACAAGCAC
GCATACAAGGATTGGCTATCTATTGTCCAAGCTCTCCTCGCGTCCGTCCAAGCGGATAAGCCGCTGCTTAGGCAG
AAGATTGCACAGGGAAGGACTGTGCCCGCCACTGTGACTTCGAGGTTCACAACGGCAGTTGGGACTGTACGGTGG
ATCGTCGAGGAGTACTACGAATACTTCAGCAAGTCAGTTCTCGACTCATTGCTCGATCATATCACATCAACGTTA
CTCGATCGCCGATTGTTCGACTACGTCTCGCTCGACTACTTCAAGACCATCAAGTCTCTTTTGCTGCACCAGCCG
CACCTCGACCATTTGGACGGCCTTAGATGGACGAATTTGGTGGAGATATGTTTCAACGTTATACTGGACCTCGAT
CTTAGGACACCCCTCACAGAGGTAGACGAGGATTCGGAGGACGAACAAGCCACACCGTCCCGGAAAGGTACCCCA
TTGGACAGCGACGACGACGACGCACCTTCGCCAGGAACATTTGCTCAGAAGCGTCGGAGGAATGACAAGGATGTC
CTACCCCAGCCCACTATGAAGAGGGCTGGCAGAACCCGCCGACAAGGACAAATCCCAGTCAAACCAGCACAGGTT
GAATGTGCTATCATATTGTCCCTTCTCCTCTGTTCCCACAACAACCCTATGAGCTCTCCTTCGACAAAAATCGAC
GACAACAGCACTCCGGAGAACAGGATCGCACGAGACCGGGGAATACTGAACCGCCTTCGACAATTTTTGAAGAAA
TATCCCTCGGAATCTTCGCTCTTGCACGATTTCCTGAGCTGTGTCGAAGGTACTCTCGACGCATTGGCTCTAAAC
CGGGTTCGCGACGTCGCTCTCTTCGCCCGTGAAACGTGGGACGGATTTGTAGGTCTTTGGGGCGTGAAGGACAAG
AGACTGAAGGAGAAAATATTGATCGTCCTTCGAGCCCTATTTCCCTTTATCTTAGTAGAGGAACCGGTCTTTCAG
GAAGGGACGAGGAATGGAACCTTGAATCTCGTGGAAGGATTACAGAAGCTGTGGGCGACTTTATCTGGAGAAGCA
GATAGCCGCTGGGGCACGAATGGATTAAAACTGAGCACTCTCCGCCTTCAAATCATCCGAGCAGGAGACCCTCGG
AACGATACAAGCAATCCCTTCATCGCCAGCACCTTCAGGTCCGGCTGGGACTTCGACATTGACCAAGCTTTGGCA
TGGGGGATCCTCGAATTACAGGCAGATGTTGCTAAACAATTATTCATGTTTGCAGAATCGATGCATCCCGCCACG
CCCTGCACGAGTCAAAGAAAGGACAAAAGATTCAGGCTACAGAATCCCGTTTCAACGCTTCTCCACAACATCGAA
ACTCAGATCCTGACCGTCCCTCGCTGCTATCATCTCCAAGTTTTGCTTTTCTTCGTGGATCGACATTGGTCAATT
GTCCACGACACCCTCAAACGGCAGATCATGGACACCCTGATTCAGGTTCAAAACCTCGAAGACCCTGACGTCCAG
TCTTGGATCCTCCTCAACTACGCTGCGATCGCCTACGCAGAAAGCCATTGGGCAGGGGCAAACGTCGACGCTCTA
ATATCATCTCAAGCGCCCGATGTACTTGATGCGAAGGTCTGGGATACCATCTTGCAGTCTGTCGTCCGTCGTATA
AACACCGCGGCCGTCTGCAGAGCAGCTAGCCATGCAACACACTCTCTACTTATCTCCCTATATCGATATACACCA
CCATCCGGGCATATCTTCCTCTCATCCCCCCGAGTCCTACAGGAGATCGAAATCATCTGCAAGGACATCAATATC
GAGGGGCCTCATGCTCCTTACGACTCAGTTTGCATGCTACTTATCGAATGCCTCAAGATCGCTTCCCAAGACGTA
CGCCTCTACCGACTGCATATGGAAGACAAAGTCCTGGAGTGGCTGAAGAATTCGTGGGTCATCACTGGATACGAG
AAGACAGCAGGTCCACACCCCGTTAACGACCTGATCCTCTTGTTGGCCACCATCTGTGGTATCAGCAAGCCTATT
GGCCTTGTCATTCGAACATCATTACCTTCATGCCCTATCGTCACCGCCATGCAGAAGGAGTCGCAGCTTCAGAGC
ATACGCAATTTCATGCTTTACGCTCAACTACCGTCATACAAACCAAGTGAACAGTCCAAAAGTGTATCGTTCCCA
ACCTCAGTCGAACCAGGCGTCGAACCGGCCGACATCAGCCCACTGTCTTCTTCTAGACGGTCACCCAATGCCCGA
GAAGGCAGGGTCTTGTCCTTCTTGGAAAGAATGATAAAAGCGCTCAAATTGCACTGGCAGTCCACTCCTAATCCC
ACCATTGAAGTCGCTCGGCGAACGTTGGACTTTGCGGTCATTGCGATCGTCTTCCAGACAATGCTATCGGTTAAT
TCAGTCATAACGGGGAAAGAAGTTCTCAAAGTCGGAGCCGAGGTGTTGAACCTTGTCGTAAACCCTTCAGCCATG
GGCCCAAACGGTAATGCAAAATGGACTTTGGCAGAGAGGGCAACCTTATGCGAGGGATTGGAGCCCTTGGTGTGG
ACATCTGATCCGCCTGTCGAGACTGGCTGGGAAGCGGTAGCGCAGCCTGATTTCTCACGTGATGGTGTTACGAGG
AAGGAGCGCAGTTTGCCTAGCGTCACCGACGCTAAGGAAGAGTTGAGAAGGAATATACTGCGAGCGATATGGAGC
AACAGCGAAAAGGAAGGGTTCGTGGGGTTACTGGGTTATATACGGAGTCAAGTCGCGGATGCCAGTATCTTGGAT
AACCCAACCACACTGGCCATGGACGCTGATGACGGAGGGGCTTGGGCTGTGAGGACGAGCGAAACGTCGACTTCG
AAGTTACCTGGAGAAAAGAACCAAGAGCTGTGTCGGTTGGTCGAAGGACAACTCATTTTTACGATCCGCGTCGCT
GCGCTCAGCTCGCTTTTGGGTGACTCGAGCGACGTAAAGGATTTCCAGCAGTTCTTAAACGGCCTTCTCAACTCC
GTCGAGGAGAGTGCGCCGTGGTGCCTTCTGGTCGTTCCAATCCTCCTTCGCGAGATCGACATCGGCTCTCTGAAG
GTCAACGAGGATATAGCTTTATCTCTTTTGAACGCCATCGCCCGTTGCCTTAAGACCTACAACCACAGCTACAAC
ACGGAAATGCGGTGTTTGGCCACCAGGGCCCTCGCCTCCACCTTCGACCTTTGGCTCACCTCTCAGACGCAGCAT
GTCTCCCCAAAGGCCGCGCAATTGTGTAGCTGGATTGCGACTAGCCTTGGAAACAGTCGTTTTGACAGCTGGGTA
ATGAGAGATGCGTGTGTGCAATTCCTCTGTCGATATCTCTCCGTAAGCGGGAGGCGATCTTCGTGGCCCTTCAAA
GGGACAGGCGAGGAGCCAACGCCGACCTCTATCTTAGAGAAGTTAACAACGGATCCCGATGTCCGCGTTCGTTTC
CGAGTTGCCACCGCCATTCCAATGCTTTTCGCAGTTTCACGAACGGACAATCACAAATTACCCAGCCTTTACAAC
GAGATGAAGGATGCCTTCTCCGCCGATGTGGACCAGTATGAGCTGTTCATTAGTCGCCTCCTGTCCTTCGCGAAC
ATAATGATTGTCAGCTCTGTGATACGGCGGGGCCCTTATTGGCACCTGTTAGAAACGTGCACACACTCCCCTGCA
TACACTTCACACCTCGAAGCACTCCTTACGGCCACAGTGGAAAGGCTGGGAATGGAGTCATTGAAATGTCTCTCC
CGTGCCTATGCATGCCAGCTAGCCTTTTCCATGGGTCGCGCCGATACAGACCTGTTGTCGATCCCCCCTCGATTA
CTTGGTTACGACACAAGAAGTTCATGCGCTGAAGCCACTTTCCGAGCCTTCGTGCCAGTCTACTTCGCGACGAAT
GGTATGACTCACTTTCAAAGCCATTGTCAAGTCCTCCAAAAGGACATTGAAACTGGTATCGACCAATGCTTCGGC
GACATTGTCGGCTTTCATGTTGTCGTATATTTCTTCGAGCATGACAACCCCAATGAAGCCGCGATGGTTGGAGGC
CTGGCAACACTTTTGGGAAGGGAAGAGGACAAGCTCAGAAGCGATTTTTCGGCTCACGCGGACGCCATCATCGCG
TCAATGCTCAGGACGATGGGGGACCAAGACTACACAGACAACGGCAAGATTATTCCCGCACTTGAATCAGTCACT
GGAAGCGACAACCTCCAGGAAGACAGCAAACATGTCGCAGTGTTCAGGGTTCTAACACGTTACCGCGGCTTGGAA
ACCTTCACACCACACGAACCCAACTCTCCAGCACTTCCGACGAGTTGCATCCTTCGAGGCTTGGCATGGATGGAA
ACCGTTCCGCAAGCTTGCAGAAAGGCCACGACGTATCATGTTATTCACGAACTATTTGCCAGCATCGAAGATACC
CCTTTGGTCAACGAAAAGCTGCGACTTGTCAATGCCCTTTGTCTATGGATCGCGTATCGGCACCAAGACTTCAAC
GACGTCATACTTTTATACGCAGTCCTACATGGCGCTTCGGCCTTGCTCCGTCAAGAAGTCCTGGCTAGGGCCGCC
CAGTCTATCTTACAGTGGACATTTCGCTGCTATCACAAGTTCAAGGCGGCAGATTCACGGCTTTCTCGCATACTC
ATCCGTCTCTCCTCCATCTGCCACGACTATGCGGCGCAAGTCCACGATCCAGCAGCGGTTCGTCTCGGAGAAGAC
CTTCTCCAATGGTTCGACGCTCAGATGGTCAAGCTCAGCACTGTCCCTGTGCTCCTCGATGTCATCTGTAAAGCA
ATGCCAGCCTGGGCGCACCGACCTTCAGCCGCGTTAGCGACTGTGCAGAAGGCCGTCACGGTAGAACATCTGTCT
GCAATTCTCCGAGACGGTCACATCAGCTCGAACAAATTCAGGGTTGTTCGACGGTTAGCAGAGGAACCTTTCCAC
AACGAAATCCAGTTCCCATCTAAGGCCTTTTGGCGGTTGAAGGAGAGTCTGCCGCCGACGGACAAAATCCAAGTA
GAGGACATTGCAGCGTTCACTGACCTTCTCATTGCACATCATGGCCAGATAGATAGCCTCAATCCCGAAAAACCG
TCACTGAGCACCATTCGCAACCGACACCGACAACTTTGGGAAGTCCCCGACAGAAAGGGGGAAAGATCACGCAAA
GACTGGCTCGTCATGGCTAAAGAATCCATTCTATATGGGCTTCTGGCGCTACTCGAACACGAATCCTCTTCCCTC
GTTCATAACGCATACAATACCTTGCGTCTCATGATGAAGGAGTTGCCGGGAGGTCTCTCTGCAGAGAAACTCTGG
TCACGAGAGTACCTGGAAGAGCTCCAACTACTGCGACATTACCCTCGACTCTCCTCCAAGCGGCCTGTTCGATCC
CTCTCACTTCTCCAGGAATCTGACCATTACGTCGAAATGTCCTCCAAATTCTCCGACTGGGTCAAATACGTATCC
GTTCTAATCAGCGACATATTGTCTTCTCGAGATCCTACATATGGTCAGCTCTATTCGATACTTTCGACCGACGTA
TCAACGGCCGAGGAGATGTTCCCGGTATTGGTATATGCTCTCCTGCAAGGGGAGAAAATATCACCGCAAGAGGGC
CCGTCACCTAGAGCACTCCTCTCGCATCATTTCACAAAAGTTCTCCAATATCCCAACGCTGGCCTCCAATGCGTT
CAACTCATCGTGGATGCCGTTCTTCACTTACGATTTTTCCATCCCGGAAAAGGCGACAAACTCGCATACAACAAA
TGGCTCGATCTCGATTACTATCTTCTAGCGCAGAGTGCTGTTCGATGTGGTGCCTACACGACAGCGCTTCTATTT
TTGGAGATTGCCCCAGAGATCCACGATAGCTCGAAGCTTGACAGGAAGATCGTGGAGGAGATCCAGTACGAGATT
TATGCTCACGTTGACGAACCAGATGGATTCTATGGAATCCAGACAGATAACCTTCACAGATTCCTGATAGAACGC
TTCCGACACGAAAAACAATGGGACAAAGCGTTCCGTTTCCACGGTGCAGCTTTGGAAGCCGGGAGTGAAGGTGCT
GGCGTAGGCAATGTTGAAGGCATCGCACAATCTTTCCATTCTTTCGGCTTCAATCACCTTGCCATCGGTACTCTT
CAGACTTCCGAAGAGACATTTGGAAGCAGAAACCTTTCACCCGGCCTCGCATATCAACTCGGCTGGCGATCAGCA
ACCTGGGACCTTCCCGAGAGCGATACATACACGCCTGGAGCATCCCTCTACCATGTCCTCCGTTGCCTTCATCGG
GAGATGGACCTGAACGCCTTGGATGCTTCTATCCAATCTGCTCTCTATAAGGAGATGGATCAACTGCGCAAATTG
GGCACTGAAAGCGTTACTCAGATTCGGGAGGTCCTGCAGGCATTAATGTCTCTCCATCAAATCTCGCTTTGGAAA
TCGAGGGACCTCCAGGACAATCTCAGTTCCAAGGCCATCGACTTCGACAAATGGAAGGATTTCTTGTCCATATCT
GATCACTTCGGATTCTCCGATGTCGAGAACATCATGTCTGTGCGATTATCCCTCATCCGCTCCAACCGCCAGGAA
GAAGAAAAAACGAATCAAATTGGATCGATAGCAAGCCCCTTTCTCACAGCCTTGGTCGAGATCGAGAAAAGATGT
TTGATCCTGCTCTCCAGAGCTGCCAGGGACTCCGACCAGACTCAAATCGCACTCAACGCGGTGCTTCAGGCGCAA
AAGCTCGAGAAAACCCCATCCTTGGAGGTCTCCCAAGAATACGCGAACGTTCTCTGGTCCCTCGGCGAGGCGAAA
ATAGCAGTCAAATTCTTGAGTGACTTGCTGATGAAGCCTGCTTCCTCATCCCTCCCGGCCCCGTCCAAGGCAGAA
CTCTATTCTCGACTTGGAACTTGGATATCTGAAGCATATCTCGAAAAGCCGACAGATATAAAGACCAAATACTTC
GACCCTGCAATCAACCTGCTGTTACAGTGCGTCGAGGGAAGTCACTCCGACGAAGTTGCAACGGTCTATCGCCAA
TACGCTTTCTTTGCAGAGCGGCAGTATCATACAATTCTGAAATCTGGAGATTCGGTACGATGGAAAGTGTACGTG
GAGCGGAAGCAGCGAGAGATTTCGGACCGCGCCCATGAGCTCCAGAGCATGCGTCCCAACGAGGAACGCTATAAA
ATCGCCAGTCGAGCCCAACATACAGCCAAAAAACTTCTTGAAGCAGACAAAGCGCTTGCCGAAAGCCACGAATCC
ACCCAAAAGAAATTCCTTCTGCAGGCATTGAAGATGTATTCCCGGTGTTTGCAAGTGACGAACAAATATGACACA
GAAGCGTCGATCAAGTTTGCTTCCCTTTGGCTCAGCAACTTCGATGAAGACCAGGGTCCCGAGATCGTTGAAGCA
ATTGGGGAGGCACTGGAGAAGATACCCTCACATAAATTCGTGTTCTTAGCGCATCAACTATCCGCCCGTATTACC
AAGTCGCCGTCTCAGCAAACCAAAAATCAAACTGATCTACAGCGCTTAATCCTACGACTTTGTCTAGAGCACCCA
TTCCACAGCGTCTATCAAGTATACTCTTTACAGGCAGATGACGACTTGTCGACTCTCGGGTCGCAAAAGGAGCGC
CGCCAATCGACACGGTCTCAAGCGGCGACTTTGGGGTCGCAAGTTGAAAGTCAAATCGAACGCAGCGAGGCGGCC
CAAGACGTTTTGTACCGACTCGAGCAAGGAGAAAGCAGGCAGCGGATCGAAGCCATGAAATTGGCTTGCAAGGCG
TATCGCGCATGGGCGCGGCAGCCCTTACCTAAGGACAAAATGAGGGTCGGTGTGCAGCTCGCTATTCCCCCCAGC
CAGCCCATCCTAGGACTCCCTAGGATGGATGGCCTCGTCCCCGTCCTCACAGCAGACACCCCGATCGATCCAACT
TTGAAGTACGAAAATTGCGTTTGGATCCACAAATACGAAAACGTATTCGAGACGGCTGGAGGAGTGAACTGCCCC
AAGATATCCTGGTGTTACGGAACCGATGGGGTGCGGTACAAGCAGCTGTTTAAAGGGAACGACGACATGCGACAG
GATGCCGTGATGGAACAGGTTTTCGAACTCGTGAATAGGATCTTGGTCAAGGATCGCGAGACTTCCCGGAGATCA
CTGCGAGTTCGATCCTACAAGGTTGTTCCGCTTGGGAAACAAGCCGGTGTGCTCGAATTCGTGAGCAATACTTCT
CCACTTCGCAACTGGCTAGAAGCCGGACATCCAATTTATCGACCTGGGGATATTAGCCCAAAGGAAGCCCGGTCA
AAGCTTTATGCTGCTTCTTCAAGATCGGAGGAAGATAGAATCAAGGCTTACAACGAAGTCTGTGCTGTTTTCAAG
CCGGTGTTCCGCCACATCTTCACTGAAAAGCATCGCAATCCCCGGGCATGGTTCGCCACCCGACTGCGTTACACT
CGGAGCGTCGCAGCTAGCTCAATCGTTGGACACATCCTTGGCCTCGGTGACCGTCACACTTCCAACATCCTCCTG
GACAATACGACCGGAGAAGTCGTCCACATCGATCTCGGCATTGCTTTCGACCAGGGTAAACTACTCACCATCCCA
GAGCTGGTTCCGTTCCGCCTAACACGGGACATGGTGGACGGAATGGGCATTTCAGGAACCCAGGGGGTGTTCCAA
AGATGCGCAGAAGAGACCCTTCGCGTCCTGAGAGACGGGTCGGATATTATCATGACCGTGCTCGAAGTGTTCAAG
CACGATCCCCTGCATTCATGGACGGCGAGTGAGATCAAGATCAAGCGCGTTCAGCAACCAGAGGCACCACCAACG
ACGCCCGCCTCAGAAGCAGGAGCCAACCAGCCGAAGATCTTGCCCAGTCGTTTCGAGCTGGGCGGTCTGGGCATC
GACATGACCAGTGGTACCGCCGAAGAAGCTGCCGATCGCGCGCTGAGCTCAGTCGCTCGCAAACTCGACAAATCG
CTCAGCGTCGAATCAACGGTTAACGAACTGATCGCCATTGCGACGGACCCTACCAACTTGGGAAAGATCTTCTAT
GGATGGGCTCCTCATATGTAA
Length 9246

Transcript

Sequence id CopciAB_500130.T0
Sequence >CopciAB_500130.T0
GTCGGTCAGTAGTGCGGGCCCGAATCAAGCTTGATTCGACACGACGACGACCGCAGAATAACTTCACGCATTGAT
GACTCGAATGACCACAGTACTTAACTAAGACGACCCGGGGAAAAACCTTCAAGGAAATAATATCCGCACTAATTT
GACGAAATCGACACAAATCAGAAGAACCACGACACATCATGGCCTCTACTTTGAAGAGTATTTTAGATGCCCTCA
AAGATGGTACGGCCACTGCACGGAAAGAAGCTCTTCAAGAGTTTCGGACCGCAGTCTTCGCGGACAGGGATCTTC
TCCCGTACCTGACAAGGCAAAAAAGCAACGACAAGCACGCATACAAGGATTGGCTATCTATTGTCCAAGCTCTCC
TCGCGTCCGTCCAAGCGGATAAGCCGCTGCTTAGGCAGAAGATTGCACAGGGAAGGACTGTGCCCGCCACTGTGA
CTTCGAGGTTCACAACGGCAGTTGGGACTGTACGGTGGATCGTCGAGGAGTACTACGAATACTTCAGCAAGTCAG
TTCTCGACTCATTGCTCGATCATATCACATCAACGTTACTCGATCGCCGATTGTTCGACTACGTCTCGCTCGACT
ACTTCAAGACCATCAAGTCTCTTTTGCTGCACCAGCCGCACCTCGACCATTTGGACGGCCTTAGATGGACGAATT
TGGTGGAGATATGTTTCAACGTTATACTGGACCTCGATCTTAGGACACCCCTCACAGAGGTAGACGAGGATTCGG
AGGACGAACAAGCCACACCGTCCCGGAAAGGTACCCCATTGGACAGCGACGACGACGACGCACCTTCGCCAGGAA
CATTTGCTCAGAAGCGTCGGAGGAATGACAAGGATGTCCTACCCCAGCCCACTATGAAGAGGGCTGGCAGAACCC
GCCGACAAGGACAAATCCCAGTCAAACCAGCACAGGTTGAATGTGCTATCATATTGTCCCTTCTCCTCTGTTCCC
ACAACAACCCTATGAGCTCTCCTTCGACAAAAATCGACGACAACAGCACTCCGGAGAACAGGATCGCACGAGACC
GGGGAATACTGAACCGCCTTCGACAATTTTTGAAGAAATATCCCTCGGAATCTTCGCTCTTGCACGATTTCCTGA
GCTGTGTCGAAGGTACTCTCGACGCATTGGCTCTAAACCGGGTTCGCGACGTCGCTCTCTTCGCCCGTGAAACGT
GGGACGGATTTGTAGGTCTTTGGGGCGTGAAGGACAAGAGACTGAAGGAGAAAATATTGATCGTCCTTCGAGCCC
TATTTCCCTTTATCTTAGTAGAGGAACCGGTCTTTCAGGAAGGGACGAGGAATGGAACCTTGAATCTCGTGGAAG
GATTACAGAAGCTGTGGGCGACTTTATCTGGAGAAGCAGATAGCCGCTGGGGCACGAATGGATTAAAACTGAGCA
CTCTCCGCCTTCAAATCATCCGAGCAGGAGACCCTCGGAACGATACAAGCAATCCCTTCATCGCCAGCACCTTCA
GGTCCGGCTGGGACTTCGACATTGACCAAGCTTTGGCATGGGGGATCCTCGAATTACAGGCAGATGTTGCTAAAC
AATTATTCATGTTTGCAGAATCGATGCATCCCGCCACGCCCTGCACGAGTCAAAGAAAGGACAAAAGATTCAGGC
TACAGAATCCCGTTTCAACGCTTCTCCACAACATCGAAACTCAGATCCTGACCGTCCCTCGCTGCTATCATCTCC
AAGTTTTGCTTTTCTTCGTGGATCGACATTGGTCAATTGTCCACGACACCCTCAAACGGCAGATCATGGACACCC
TGATTCAGGTTCAAAACCTCGAAGACCCTGACGTCCAGTCTTGGATCCTCCTCAACTACGCTGCGATCGCCTACG
CAGAAAGCCATTGGGCAGGGGCAAACGTCGACGCTCTAATATCATCTCAAGCGCCCGATGTACTTGATGCGAAGG
TCTGGGATACCATCTTGCAGTCTGTCGTCCGTCGTATAAACACCGCGGCCGTCTGCAGAGCAGCTAGCCATGCAA
CACACTCTCTACTTATCTCCCTATATCGATATACACCACCATCCGGGCATATCTTCCTCTCATCCCCCCGAGTCC
TACAGGAGATCGAAATCATCTGCAAGGACATCAATATCGAGGGGCCTCATGCTCCTTACGACTCAGTTTGCATGC
TACTTATCGAATGCCTCAAGATCGCTTCCCAAGACGTACGCCTCTACCGACTGCATATGGAAGACAAAGTCCTGG
AGTGGCTGAAGAATTCGTGGGTCATCACTGGATACGAGAAGACAGCAGGTCCACACCCCGTTAACGACCTGATCC
TCTTGTTGGCCACCATCTGTGGTATCAGCAAGCCTATTGGCCTTGTCATTCGAACATCATTACCTTCATGCCCTA
TCGTCACCGCCATGCAGAAGGAGTCGCAGCTTCAGAGCATACGCAATTTCATGCTTTACGCTCAACTACCGTCAT
ACAAACCAAGTGAACAGTCCAAAAGTGTATCGTTCCCAACCTCAGTCGAACCAGGCGTCGAACCGGCCGACATCA
GCCCACTGTCTTCTTCTAGACGGTCACCCAATGCCCGAGAAGGCAGGGTCTTGTCCTTCTTGGAAAGAATGATAA
AAGCGCTCAAATTGCACTGGCAGTCCACTCCTAATCCCACCATTGAAGTCGCTCGGCGAACGTTGGACTTTGCGG
TCATTGCGATCGTCTTCCAGACAATGCTATCGGTTAATTCAGTCATAACGGGGAAAGAAGTTCTCAAAGTCGGAG
CCGAGGTGTTGAACCTTGTCGTAAACCCTTCAGCCATGGGCCCAAACGGTAATGCAAAATGGACTTTGGCAGAGA
GGGCAACCTTATGCGAGGGATTGGAGCCCTTGGTGTGGACATCTGATCCGCCTGTCGAGACTGGCTGGGAAGCGG
TAGCGCAGCCTGATTTCTCACGTGATGGTGTTACGAGGAAGGAGCGCAGTTTGCCTAGCGTCACCGACGCTAAGG
AAGAGTTGAGAAGGAATATACTGCGAGCGATATGGAGCAACAGCGAAAAGGAAGGGTTCGTGGGGTTACTGGGTT
ATATACGGAGTCAAGTCGCGGATGCCAGTATCTTGGATAACCCAACCACACTGGCCATGGACGCTGATGACGGAG
GGGCTTGGGCTGTGAGGACGAGCGAAACGTCGACTTCGAAGTTACCTGGAGAAAAGAACCAAGAGCTGTGTCGGT
TGGTCGAAGGACAACTCATTTTTACGATCCGCGTCGCTGCGCTCAGCTCGCTTTTGGGTGACTCGAGCGACGTAA
AGGATTTCCAGCAGTTCTTAAACGGCCTTCTCAACTCCGTCGAGGAGAGTGCGCCGTGGTGCCTTCTGGTCGTTC
CAATCCTCCTTCGCGAGATCGACATCGGCTCTCTGAAGGTCAACGAGGATATAGCTTTATCTCTTTTGAACGCCA
TCGCCCGTTGCCTTAAGACCTACAACCACAGCTACAACACGGAAATGCGGTGTTTGGCCACCAGGGCCCTCGCCT
CCACCTTCGACCTTTGGCTCACCTCTCAGACGCAGCATGTCTCCCCAAAGGCCGCGCAATTGTGTAGCTGGATTG
CGACTAGCCTTGGAAACAGTCGTTTTGACAGCTGGGTAATGAGAGATGCGTGTGTGCAATTCCTCTGTCGATATC
TCTCCGTAAGCGGGAGGCGATCTTCGTGGCCCTTCAAAGGGACAGGCGAGGAGCCAACGCCGACCTCTATCTTAG
AGAAGTTAACAACGGATCCCGATGTCCGCGTTCGTTTCCGAGTTGCCACCGCCATTCCAATGCTTTTCGCAGTTT
CACGAACGGACAATCACAAATTACCCAGCCTTTACAACGAGATGAAGGATGCCTTCTCCGCCGATGTGGACCAGT
ATGAGCTGTTCATTAGTCGCCTCCTGTCCTTCGCGAACATAATGATTGTCAGCTCTGTGATACGGCGGGGCCCTT
ATTGGCACCTGTTAGAAACGTGCACACACTCCCCTGCATACACTTCACACCTCGAAGCACTCCTTACGGCCACAG
TGGAAAGGCTGGGAATGGAGTCATTGAAATGTCTCTCCCGTGCCTATGCATGCCAGCTAGCCTTTTCCATGGGTC
GCGCCGATACAGACCTGTTGTCGATCCCCCCTCGATTACTTGGTTACGACACAAGAAGTTCATGCGCTGAAGCCA
CTTTCCGAGCCTTCGTGCCAGTCTACTTCGCGACGAATGGTATGACTCACTTTCAAAGCCATTGTCAAGTCCTCC
AAAAGGACATTGAAACTGGTATCGACCAATGCTTCGGCGACATTGTCGGCTTTCATGTTGTCGTATATTTCTTCG
AGCATGACAACCCCAATGAAGCCGCGATGGTTGGAGGCCTGGCAACACTTTTGGGAAGGGAAGAGGACAAGCTCA
GAAGCGATTTTTCGGCTCACGCGGACGCCATCATCGCGTCAATGCTCAGGACGATGGGGGACCAAGACTACACAG
ACAACGGCAAGATTATTCCCGCACTTGAATCAGTCACTGGAAGCGACAACCTCCAGGAAGACAGCAAACATGTCG
CAGTGTTCAGGGTTCTAACACGTTACCGCGGCTTGGAAACCTTCACACCACACGAACCCAACTCTCCAGCACTTC
CGACGAGTTGCATCCTTCGAGGCTTGGCATGGATGGAAACCGTTCCGCAAGCTTGCAGAAAGGCCACGACGTATC
ATGTTATTCACGAACTATTTGCCAGCATCGAAGATACCCCTTTGGTCAACGAAAAGCTGCGACTTGTCAATGCCC
TTTGTCTATGGATCGCGTATCGGCACCAAGACTTCAACGACGTCATACTTTTATACGCAGTCCTACATGGCGCTT
CGGCCTTGCTCCGTCAAGAAGTCCTGGCTAGGGCCGCCCAGTCTATCTTACAGTGGACATTTCGCTGCTATCACA
AGTTCAAGGCGGCAGATTCACGGCTTTCTCGCATACTCATCCGTCTCTCCTCCATCTGCCACGACTATGCGGCGC
AAGTCCACGATCCAGCAGCGGTTCGTCTCGGAGAAGACCTTCTCCAATGGTTCGACGCTCAGATGGTCAAGCTCA
GCACTGTCCCTGTGCTCCTCGATGTCATCTGTAAAGCAATGCCAGCCTGGGCGCACCGACCTTCAGCCGCGTTAG
CGACTGTGCAGAAGGCCGTCACGGTAGAACATCTGTCTGCAATTCTCCGAGACGGTCACATCAGCTCGAACAAAT
TCAGGGTTGTTCGACGGTTAGCAGAGGAACCTTTCCACAACGAAATCCAGTTCCCATCTAAGGCCTTTTGGCGGT
TGAAGGAGAGTCTGCCGCCGACGGACAAAATCCAAGTAGAGGACATTGCAGCGTTCACTGACCTTCTCATTGCAC
ATCATGGCCAGATAGATAGCCTCAATCCCGAAAAACCGTCACTGAGCACCATTCGCAACCGACACCGACAACTTT
GGGAAGTCCCCGACAGAAAGGGGGAAAGATCACGCAAAGACTGGCTCGTCATGGCTAAAGAATCCATTCTATATG
GGCTTCTGGCGCTACTCGAACACGAATCCTCTTCCCTCGTTCATAACGCATACAATACCTTGCGTCTCATGATGA
AGGAGTTGCCGGGAGGTCTCTCTGCAGAGAAACTCTGGTCACGAGAGTACCTGGAAGAGCTCCAACTACTGCGAC
ATTACCCTCGACTCTCCTCCAAGCGGCCTGTTCGATCCCTCTCACTTCTCCAGGAATCTGACCATTACGTCGAAA
TGTCCTCCAAATTCTCCGACTGGGTCAAATACGTATCCGTTCTAATCAGCGACATATTGTCTTCTCGAGATCCTA
CATATGGTCAGCTCTATTCGATACTTTCGACCGACGTATCAACGGCCGAGGAGATGTTCCCGGTATTGGTATATG
CTCTCCTGCAAGGGGAGAAAATATCACCGCAAGAGGGCCCGTCACCTAGAGCACTCCTCTCGCATCATTTCACAA
AAGTTCTCCAATATCCCAACGCTGGCCTCCAATGCGTTCAACTCATCGTGGATGCCGTTCTTCACTTACGATTTT
TCCATCCCGGAAAAGGCGACAAACTCGCATACAACAAATGGCTCGATCTCGATTACTATCTTCTAGCGCAGAGTG
CTGTTCGATGTGGTGCCTACACGACAGCGCTTCTATTTTTGGAGATTGCCCCAGAGATCCACGATAGCTCGAAGC
TTGACAGGAAGATCGTGGAGGAGATCCAGTACGAGATTTATGCTCACGTTGACGAACCAGATGGATTCTATGGAA
TCCAGACAGATAACCTTCACAGATTCCTGATAGAACGCTTCCGACACGAAAAACAATGGGACAAAGCGTTCCGTT
TCCACGGTGCAGCTTTGGAAGCCGGGAGTGAAGGTGCTGGCGTAGGCAATGTTGAAGGCATCGCACAATCTTTCC
ATTCTTTCGGCTTCAATCACCTTGCCATCGGTACTCTTCAGACTTCCGAAGAGACATTTGGAAGCAGAAACCTTT
CACCCGGCCTCGCATATCAACTCGGCTGGCGATCAGCAACCTGGGACCTTCCCGAGAGCGATACATACACGCCTG
GAGCATCCCTCTACCATGTCCTCCGTTGCCTTCATCGGGAGATGGACCTGAACGCCTTGGATGCTTCTATCCAAT
CTGCTCTCTATAAGGAGATGGATCAACTGCGCAAATTGGGCACTGAAAGCGTTACTCAGATTCGGGAGGTCCTGC
AGGCATTAATGTCTCTCCATCAAATCTCGCTTTGGAAATCGAGGGACCTCCAGGACAATCTCAGTTCCAAGGCCA
TCGACTTCGACAAATGGAAGGATTTCTTGTCCATATCTGATCACTTCGGATTCTCCGATGTCGAGAACATCATGT
CTGTGCGATTATCCCTCATCCGCTCCAACCGCCAGGAAGAAGAAAAAACGAATCAAATTGGATCGATAGCAAGCC
CCTTTCTCACAGCCTTGGTCGAGATCGAGAAAAGATGTTTGATCCTGCTCTCCAGAGCTGCCAGGGACTCCGACC
AGACTCAAATCGCACTCAACGCGGTGCTTCAGGCGCAAAAGCTCGAGAAAACCCCATCCTTGGAGGTCTCCCAAG
AATACGCGAACGTTCTCTGGTCCCTCGGCGAGGCGAAAATAGCAGTCAAATTCTTGAGTGACTTGCTGATGAAGC
CTGCTTCCTCATCCCTCCCGGCCCCGTCCAAGGCAGAACTCTATTCTCGACTTGGAACTTGGATATCTGAAGCAT
ATCTCGAAAAGCCGACAGATATAAAGACCAAATACTTCGACCCTGCAATCAACCTGCTGTTACAGTGCGTCGAGG
GAAGTCACTCCGACGAAGTTGCAACGGTCTATCGCCAATACGCTTTCTTTGCAGAGCGGCAGTATCATACAATTC
TGAAATCTGGAGATTCGGTACGATGGAAAGTGTACGTGGAGCGGAAGCAGCGAGAGATTTCGGACCGCGCCCATG
AGCTCCAGAGCATGCGTCCCAACGAGGAACGCTATAAAATCGCCAGTCGAGCCCAACATACAGCCAAAAAACTTC
TTGAAGCAGACAAAGCGCTTGCCGAAAGCCACGAATCCACCCAAAAGAAATTCCTTCTGCAGGCATTGAAGATGT
ATTCCCGGTGTTTGCAAGTGACGAACAAATATGACACAGAAGCGTCGATCAAGTTTGCTTCCCTTTGGCTCAGCA
ACTTCGATGAAGACCAGGGTCCCGAGATCGTTGAAGCAATTGGGGAGGCACTGGAGAAGATACCCTCACATAAAT
TCGTGTTCTTAGCGCATCAACTATCCGCCCGTATTACCAAGTCGCCGTCTCAGCAAACCAAAAATCAAACTGATC
TACAGCGCTTAATCCTACGACTTTGTCTAGAGCACCCATTCCACAGCGTCTATCAAGTATACTCTTTACAGGCAG
ATGACGACTTGTCGACTCTCGGGTCGCAAAAGGAGCGCCGCCAATCGACACGGTCTCAAGCGGCGACTTTGGGGT
CGCAAGTTGAAAGTCAAATCGAACGCAGCGAGGCGGCCCAAGACGTTTTGTACCGACTCGAGCAAGGAGAAAGCA
GGCAGCGGATCGAAGCCATGAAATTGGCTTGCAAGGCGTATCGCGCATGGGCGCGGCAGCCCTTACCTAAGGACA
AAATGAGGGTCGGTGTGCAGCTCGCTATTCCCCCCAGCCAGCCCATCCTAGGACTCCCTAGGATGGATGGCCTCG
TCCCCGTCCTCACAGCAGACACCCCGATCGATCCAACTTTGAAGTACGAAAATTGCGTTTGGATCCACAAATACG
AAAACGTATTCGAGACGGCTGGAGGAGTGAACTGCCCCAAGATATCCTGGTGTTACGGAACCGATGGGGTGCGGT
ACAAGCAGCTGTTTAAAGGGAACGACGACATGCGACAGGATGCCGTGATGGAACAGGTTTTCGAACTCGTGAATA
GGATCTTGGTCAAGGATCGCGAGACTTCCCGGAGATCACTGCGAGTTCGATCCTACAAGGTTGTTCCGCTTGGGA
AACAAGCCGGTGTGCTCGAATTCGTGAGCAATACTTCTCCACTTCGCAACTGGCTAGAAGCCGGACATCCAATTT
ATCGACCTGGGGATATTAGCCCAAAGGAAGCCCGGTCAAAGCTTTATGCTGCTTCTTCAAGATCGGAGGAAGATA
GAATCAAGGCTTACAACGAAGTCTGTGCTGTTTTCAAGCCGGTGTTCCGCCACATCTTCACTGAAAAGCATCGCA
ATCCCCGGGCATGGTTCGCCACCCGACTGCGTTACACTCGGAGCGTCGCAGCTAGCTCAATCGTTGGACACATCC
TTGGCCTCGGTGACCGTCACACTTCCAACATCCTCCTGGACAATACGACCGGAGAAGTCGTCCACATCGATCTCG
GCATTGCTTTCGACCAGGGTAAACTACTCACCATCCCAGAGCTGGTTCCGTTCCGCCTAACACGGGACATGGTGG
ACGGAATGGGCATTTCAGGAACCCAGGGGGTGTTCCAAAGATGCGCAGAAGAGACCCTTCGCGTCCTGAGAGACG
GGTCGGATATTATCATGACCGTGCTCGAAGTGTTCAAGCACGATCCCCTGCATTCATGGACGGCGAGTGAGATCA
AGATCAAGCGCGTTCAGCAACCAGAGGCACCACCAACGACGCCCGCCTCAGAAGCAGGAGCCAACCAGCCGAAGA
TCTTGCCCAGTCGTTTCGAGCTGGGCGGTCTGGGCATCGACATGACCAGTGGTACCGCCGAAGAAGCTGCCGATC
GCGCGCTGAGCTCAGTCGCTCGCAAACTCGACAAATCGCTCAGCGTCGAATCAACGGTTAACGAACTGATCGCCA
TTGCGACGGACCCTACCAACTTGGGAAAGATCTTCTATGGATGGGCTCCTCATATGTAACAGCACCGTTTCTCTG
CTTTCGCTACTTACGATCAATGTTTTCCTTTTCGTCGCCTGCTTTCAGTGACTACTTGCTCTCTTTCTGATCCAC
TTCTCGTCCCCGTCTTTTCGTTTTCATCGTCTGTCGAATAATCAATTGCATCATCTACTAAACACGGACAAGCAT
TTTGTATTATATACATAGAGTAGCCATTGTCTTTTTTCTTTTTCAAACTTCCAACCGAGAAATCATTACGATGAT
TGAATGTATAACAGAAACAG
Length 9695

Gene

Sequence id CopciAB_500130.T0
Sequence >CopciAB_500130.T0
GTCGGTCAGTAGTGCGGGCCCGAATCAAGCTTGATTCGACACGACGACGACCGCAGAATAACTTCACGCATTGAT
GACTCGAATGACCACAGTACTTAACTAAGACGACCCGGGGAAAAACCTTCAAGGAAATAATAGTAAGCCTTCAAG
TCGAGACAGCGATGATTTGAATTTGACTCGAACAGGCCTTTGACGTTCCCATTGTACCTAGTCCGCACTAATTTG
ACGAAATCGACACAAATCAGAAGAACCACGACACATCATGGCCTCTACTTTGAAGAGTATTTTAGATGCCCTCAA
AGATGGTACGGCCACTGCACGGAAAGAAGCTCTTCAAGAGTTTCGGACCGCAGTCTTCGCGGACAGGGATCTTCT
CCCGTACCTGACAAGGCAAAAAAGCAACGACAAGCACGCATACAAGGATTGGCTATCTATTGTCCAAGCTCTCCT
CGCGTCCGTCCAAGCGGATAAGCCGCTGCTTAGGCAGAAGATTGCACAGGGAAGGACTGTGCCCGCCACTGTGAC
TTCGAGGTTCACAACGGCAGTTGGGACTGTACGGTGGATCGTCGAGGAGTACTACGAATACTTCAGCAAGTCAGT
TCTCGACTCATTGCTCGATCATATCACATCAACGTTACTCGATCGCCGATTGTTCGACTACGTCTCGCTCGACTA
CTTCAAGACCATCAAGTCTCTTTTGCTGCACCAGCCGCACCTCGACCATTTGGACGGCCTTAGATGGACGAATTT
GGTGGAGATATGTTTCAACGTTATACTGGACCTCGATCTTAGGACACCCCTCACAGAGGTAGACGAGGATTCGGA
GGACGAACAAGCCACACCGTCCCGGAAAGGTACCCCATTGGACAGCGACGACGACGACGCACCTTCGCCAGGAAC
ATTTGCTCAGAAGCGTCGGAGGAATGACAAGGATGTCCTACCCCAGCCCACTATGAAGAGGGCTGGCAGAACCCG
CCGACAAGGACAAATCCCAGTCAAACCAGCACAGGTTGAATGTGCTATCATATTGTCCCTTCTCCTCTGTTCCCA
CAACAACCCTATGAGCTCTCCTTCGACAAAAATCGACGACAACAGCACTCCGGAGAACAGGATCGCACGAGACCG
GGGAATACTGAACCGCCTTCGACAATTTTTGAAGAAATATCCCTCGGAATCTTCGCTCTTGCACGATTTCCTGAG
CTGTGTCGAAGGTACTCTCGACGCATTGGCTCTAAACCGGGTTCGCGACGTCGCTCTCTTCGCCCGTGAAACGTG
GGACGGATTTGTAGGTCTTTGGGGCGTGAAGGACAAGAGACTGAAGGAGAAAATATTGATCGTCCTTCGAGCCCT
ATTTCCCTTTATCTTAGTAGAGGAACCGGTCTTTCAGGAAGGGACGAGGAATGGAACCTTGAATCTCGTGGAAGG
ATTACAGAAGCTGTGGGCGACTTTATCTGGAGAAGCAGATAGCCGCTGGGGCACGAATGGATTAAAACTGAGCAC
TCTCCGCCTTCAAATCATCCGAGCAGGAGACCCTCGGAACGATACAAGCAATCCCTTCATCGCCAGCACCTTCAG
GTCCGGCTGGGACTTCGACATTGACCAAGCTTTGGCATGGGGGATCCTCGAATTACAGGCAGATGTTGCTAAACA
AGTAGGCACTTGCTCCTTCGAGTCCGCACGGGAGTCTGAAACTGATGGGGCTTCTTTCAGTTATTCATGTTTGCA
GAATCGATGCATCCCGCCACGCCCTGCACGAGTCAAAGAAAGGACAAAAGATTCAGGCTACAGAATCCCGTTTCA
ACGCTTCTCCACAACATCGAAACTCAGATCCTGACCGTCCCTCGCTGCTATCATCTCCAAGTTTTGCTTTTCTTC
GTGGATCGACATTGGTCAATTGTCCACGACACCCTCAAACGGCAGATCATGGACACCCTGATTCAGGTTCAAAAC
CTCGAAGACCCTGACGTCCAGTCTTGGATCCTCCTCAACTACGCTGCGATCGCCTACGCAGAAAGCCATTGGGCA
GGGGCAAACGTCGACGCTCTAATATCATCTCAAGCGCCCGATGTACTTGATGCGAAGGTCTGGGATACCATCTTG
CAGTCTGTCGTCCGTCGTATAAACACCGCGGCCGTCTGCAGAGCAGCTAGCCATGCAACACACTCTCTACTTATC
TCCCTATATCGATATACACCACCATCCGGGCATATCTTCCTCTCATCCCCCCGAGTCCTACAGGAGATCGAAATC
ATCTGCAAGGACATCAATATCGAGGGGCCTCATGCTCCTTACGACTCAGTTTGCATGCTACTTATCGAATGCCTC
AAGATCGCTTCCCAAGACGTACGCCTCTACCGACTGCATATGGAAGACAAAGTCCTGGAGTGGCTGAAGAATTCG
TGGGTCATCACTGGATACGAGAAGACAGCAGGTCCACACCCCGTTAACGACCTGATCCTCTTGTTGGCCACCATC
TGTGGTATCAGCAAGCCTATTGGCCTTGTCATTCGAACATCATTACCTTCATGCCCTATCGTCACCGCCATGCAG
AAGGAGTCGCAGCTTCAGAGCATACGCAATTTCATGCTTTACGCTCAACTACCGTCATACAAACCAAGTGAACAG
TCCAAAAGTGTATCGTTCCCAACCTCAGTCGAACCAGGCGTCGAACCGGCCGACATCAGCCCACTGTCTTCTTCT
AGACGGTCACCCAATGCCCGAGAAGGCAGGGTCTTGTCCTTCTTGGAAAGAATGATAAAAGCGCTCAAATTGCAC
TGGCAGTCCACTCCTAATCCCACCATTGAAGTCGCTCGGCGAACGTTGGACTTTGCGGTCATTGCGATCGTCTTC
CAGACAATGCTATCGGTTAATTCAGTCATAACGGGGAAAGAAGTTCTCAAAGTCGGAGCCGAGGTGTTGAACCTT
GTCGTAAACCCTTCAGCCATGGGCCCAAACGGTAATGCAAAATGGACTTTGGCAGAGAGGGCAACCTTATGCGAG
GGATTGGAGCCCTTGGTGTGGACATCTGATCCGCCTGTCGAGACTGGCTGGGAAGCGGTAGCGCAGCCTGATTTC
TCACGTGATGGTGTTACGAGGAAGGAGCGCAGTTTGCCTAGCGTCACCGACGCTAAGGAAGAGTTGAGAAGGAAT
ATACTGCGAGCGATATGGAGCAACAGCGAAGTAAGTTCCCAACTGGACGTTCATATGAAAACCTGTGCTCAGAAT
ATTTACGCTAGAAGGAAGGGTTCGTGGGGTTACTGGGTTATATACGGAGTCAAGTCGCGGATGCCAGTATCTTGG
ATAACCCAACCACACTGGCCATGGACGCTGATGACGGAGGGGCTTGGGCTGTGAGGACGAGCGAAACGTCGACTT
CGAAGTTACCTGGAGAAAAGAACCAAGAGCTGTGTCGGTTGGTCGAAGGACAACTCATTTTTACGATCCGCGTCG
CTGCGCTCAGCTCGCTTTTGGGTGACTCGAGCGACGTAAAGGATTTCCAGCAGTTCTTAAACGGCCTTCTCAACT
CCGTCGAGGAGAGTGCGCCGTGGTGCCTTCTGGTCGTTCCAATCCTCCTTCGCGAGATCGACATCGGCTCTCTGA
AGGTCAACGAGGATATAGCTTTATCTCTTTTGAACGCCATCGCCCGTTGCCTTAAGACCTACAACCACAGCTACA
ACACGGAAATGCGGTGTTTGGCCACCAGGGCCCTCGCCTCCACCTTCGACCTTTGGCTCACCTCTCAGACGCAGC
ATGTCTCCCCAAAGGCCGCGCAATTGTGTAGCTGGATTGCGACTAGCCTTGGAAACAGTCGTTTTGACAGCTGGG
TAATGAGAGATGCGTGTGTGCAATTCCTCTGTCGATATCTCTCCGTAAGCGGGAGGCGATCTTCGTGGCCCTTCA
AAGGGACAGGCGAGGAGCCAACGCCGACCTCTATCTTAGAGAAGTTAACAACGGATCCCGATGTCCGCGTTCGTT
TCCGAGTTGCCACCGCCATTCCAATGCTTTTCGCAGTTTCACGAACGGACAATCACAAATTACCCAGCCTTTACA
ACGAGATGAAGGATGCCTTCTCCGCCGATGTGGACCAGTAAGTCACCACCCCTCAGATCTCAGATTCCGAATTTG
TGTGCTCATGGCTGGCTTAGGTATGAGCTGTTCATTAGTCGCCTCCTGTCCTTCGCGAACATAATGATTGTCAGC
TCTGTGATACGGCGGGGCCCTTATTGGCACCTGTTAGAAACGTGCACACACTCCCCTGCATACACTTCACACCTC
GAAGCACTCCTTACGGCCACAGTGGAAAGGCTGGGAATGGAGTCATTGAAATGTCTCTCCCGTGCCTATGCATGC
CAGCTAGCCTTTTCCATGGGTCGCGCCGATACAGACCTGTTGTCGATCCCCCCTCGATTACTTGGTTACGACACA
AGAAGTTCATGCGCTGAAGCCACTTTCCGAGCCTTCGTGCCAGTCTACTTCGCGACGAATGGTATGACTCACTTT
CAAAGCCATTGTCAAGTCCTCCAAAAGGACATTGAAACTGGTATCGACCAATGCTTCGGCGACATTGTCGGCTTT
CATGTTGTCGTATATTTCTTCGAGCATGACAACCCCAATGAAGCCGCGATGGTTGGAGGCCTGGCAACACTTTTG
GGAAGGGAAGAGGACAAGCTCAGAAGCGATTTTTCGGCTCACGCGGACGCCATCATCGCGTCAATGCTCAGGACG
ATGGGGGACCAAGACTACACAGACAACGGCAAGATTATTCCCGCACTTGAATCAGTCACTGGAAGCGACAACCTC
CAGGAAGACAGCAAACATGTCGCAGTGTTCAGGGTTCTAACACGTTACCGCGGCTTGGAAACCTTCACACCACAC
GAACCCAACTCTCCAGCACTTCCGACGAGTTGCATCCTTCGAGGCTTGGCATGGATGGAAACCGTTCCGCAAGCT
TGCAGAAAGGCCACGACGTATCATGTTATTCACGAACTATTTGCCAGCATCGAAGATACCCCTTTGGTCAACGAA
AAGCTGCGACTTGTCAATGCCCTTTGTCTATGGATCGCGTATCGGCACCAAGACTTCAACGACGTCATACTTTTA
TACGCAGTCCTACATGGCGCTTCGGCCTTGCTCCGTCAAGAAGTCCTGGCTAGGGCCGCCCAGTCTATCTTACAG
TGGACATTTCGCTGCTATCACAAGTTCAAGGCGGCAGATTCACGGCTTTCTCGCATACTCATCCGTCTCTCCTCC
ATCTGCCACGACTATGCGGCGCAAGTCCACGATCCAGCAGCGGTTCGTCTCGGAGAAGACCTTCTCCAATGGTTC
GACGCTCAGATGGTCAAGCTCAGCACTGTCCCTGTGCTCCTCGATGTCATCTGTAAAGCAATGCCAGCCTGGGCG
CACCGACCTTCAGCCGCGTTAGCGACTGTGCAGAAGGCCGTCACGGTAGAACATCTGTCTGCAATTCTCCGAGAC
GGTCACATCAGCTCGAACAAATTCAGGGTTGTTCGACGGTTAGCAGAGGAACCTTTCCACAACGAAATCCAGTTC
CCATCTAAGGCCTTTTGGCGGTTGAAGGAGAGTCTGCCGCCGACGGACAAAATCCAAGTAGAGGACATTGCAGCG
TTCACTGACCTTCTCATTGCACATCATGGCCAGATAGATAGCCTCAATCCCGAAAAACCGTCACTGAGCACCATT
CGCAACCGACACCGACAACTTTGGGAAGTCCCCGACAGAAAGGGGGAAAGATCACGCAAAGACTGGCTCGTCATG
GCTAAAGAATCCATTCTATATGGGCTTCTGGCGCTACTCGAACACGAATCCTCTTCCCTCGTTCATAACGCATAC
AATACCTTGCGTCTCATGATGAAGGAGTTGCCGGGAGGTCTCTCTGCAGAGAAACTCTGGTCACGAGAGTACCTG
GAAGAGCTCCAACTACTGCGACATTACCCTCGACTCTCCTCCAAGCGGCCTGTTCGATCCCTCTCACTTCTCCAG
GAATCTGACCATTACGTCGAAATGTCCTCCAAATTCTCCGACTGGGTCAAATACGTATCCGTTCTAATCAGCGAC
ATATTGTCTTCTCGAGATCCTACATATGGTCAGCTCTATTCGATACTTTCGACCGACGTATCAACGGCCGAGGAG
ATGTTCCCGGTATTGGTATATGCTCTCCTGCAAGGGGAGAAAATATCACCGCAAGAGGGCCCGTCACCTAGAGCA
CTCCTCTCGCATCATTTCACAAAAGTTCTCCAATATCCCAACGCTGGCCTCCAATGCGTTCAACTCATCGTGGAT
GCCGTTCTTCACTTACGATTTTTCCATCCCGGAAAAGGCGACAAACTCGCATACAACAAATGGCTCGATCTCGAT
TACTATCTTCTAGCGCAGAGTGCTGTTCGATGTGGTGCCTACACGACAGCGCTTCTATTTTTGGAGATTGCCCCA
GAGATCCACGATAGCTCGAAGCTTGACAGGAAGATCGTGGAGGAGATCCAGTACGAGATTTATGCTCACGTTGAC
GAACCAGATGGATTCTATGGAATCCAGACAGATAACCTTCACAGATTCCTGATAGAACGCTTCCGACACGAAAAA
CAATGGGACAAAGCGTTCCGTTTCCACGGTGCAGCTTTGGAAGCCGGGAGTGAAGGTGCTGGCGTAGGCAATGTT
GAAGGCATCGCACAATCTTTCCATTCTTTCGGCTTCAATCACCTTGCCATCGGTACTCTTCAGACTTCCGAAGAG
ACATTTGGAAGCAGAAACCTTTCACCCGGCCTCGCATATCAACTCGGCTGGCGATCAGCAACCTGGGACCTTCCC
GAGAGCGATACATACACGCCTGGAGCATCCCTCTACCATGTCCTCCGTTGCCTTCATCGGGAGATGGACCTGAAC
GCCTTGGATGCTTCTATCCAATCTGCTCTCTATAAGGAGATGGATCAACTGCGCAAATTGGGCACTGAAAGCGTT
ACTCAGATTCGGGAGGTCCTGCAGGCATTAATGTCTCTCCATCAAATCTCGCTTTGGAAATCGAGGGACCTCCAG
GACAATCTCAGTTCCAAGGCCATCGACTTCGACAAATGGAAGGATTTCTTGTCCATATCTGATCACTTCGGGTCC
GTTTATCTCTCCCGCACATGACATGGTACTCAATCTATTTGCAGATTCTCCGATGTCGAGAACATCATGTCTGTG
CGATTATCCCTCATCCGCTCCAACCGCCAGGAAGAAGAAAAAACGAATCAAATTGGATCGATAGCAAGCCCCTTT
CTCACAGCCTTGGTCGAGATCGAGAAAAGATGTTTGATCCTGCTCTCCAGAGCTGCCAGGGACTCCGACCAGACT
CAAATCGCACTCAACGCGGTGCTTCAGGCGCAAAAGCTCGAGAAAACCCCATCCTTGGAGGTCTCCCAAGAATAC
GCGAACGTTCTCTGGTCCCTCGGCGAGGCGAAAATAGCAGTCAAATTCTTGAGTGACTTGCTGATGAAGCCTGCT
TCCTCATCCCTCCCGGCCCCGTCCAAGGCAGAACTCTATTCTCGACTTGTGAGTACCGAAAATCGACTCCCTTGA
CTCAATTGACACTGGTTCAGGGAACTTGGATATCTGAAGCATATCTCGAAAAGCCGACAGATATAAAGACCAAAT
ACTTCGACCCTGCAATCAACCTGCTGTTACAGTGCGTCGAGGGAAGTCACTCCGACGAAGTTGCAACGGTCTATC
GCCAATACGCTTTCTTTGCAGAGCGGCAGTATCATACAATTCTGAAATCTGGAGATTCGGTACGATGGAAAGTGT
ACGTGGAGCGGAAGCAGCGAGAGATTTCGGACCGCGCCCATGAGCTCCAGAGCATGCGTCCCAACGAGGAACGCT
ATAAAATCGCCAGTCGAGCCCAACATACAGCCAAAAAACTTCTTGAAGCAGACAAAGCGCTTGCCGAAAGCCACG
AATCCACCCAAAAGAAATTCCTTCTGCAGGCATTGAAGATGTATTCCCGGTGTTTGCAAGTGACGAACAAATATG
ACACAGAAGCGTCGATCAAGTTTGCTTCCCTTTGGCTCAGCAACTTCGATGAAGACCAGGGTCCCGAGATCGTTG
AAGCAATTGGGGAGGCACTGGAGAAGATACCCTCACATAAATTCGTGTTCTTAGCGGTACGAGTCCTTTTCCTTT
TACTACGCACGTTCACTGATATCTCATTGTCAGCATCAACTATCCGCCCGTATTACCAAGTCGCCGTCTCAGCAA
ACCAAAAATCAAACTGATCTACAGCGCTTAATCCTACGACTTTGTCTAGAGCACCCATTCCACAGCGTCTATCAA
GTATACTCTTTACAGGCAGATGACGACTTGTCGACTCTCGGGTCGCAAAAGGAGCGCCGCCAATCGACACGGTCT
CAAGCGGCGACTTTGGGGTCGCAAGTTGAAAGTCAAATCGAACGCAGCGAGGCGGCCCAAGACGTTTTGTACCGA
CTCGAGCAAGGAGAAAGCAGGCAGCGGATCGAAGCCATGAAATTGGCTTGCAAGGCGTATCGCGCATGGGCGCGG
CAGCCCTTACCTAAGGACAAAATGAGGGTCGGTGTGCAGCTCGCTATTCCCCCCAGCCAGCCCATCCTAGGACTC
CCTAGGATGGATGGCCTCGTCCCCGTCCTCACAGCAGACACCCCGATCGATCCAACTTTGAAGTACGAAAATTGC
GTTTGGATCCACAAATACGAAAACGTATTCGAGACGGCTGGAGGAGTGAACTGCCCCAAGATATCCTGGTGTTAC
GGAACCGATGGGGTGCGGTACAAGCAGCTGGTGAGTGGGATGATTGGTTGTCTTAAACCCTCCTCAACTGACGTA
TGCTACTCTTAGTTTAAAGGGAACGACGACATGCGACAGGATGCCGTGATGGAACAGGTTTTCGAACTCGTGAAT
AGGATCTTGGTCAAGGATCGCGAGACTTCCCGGAGATCACTGCGAGTTCGATCCTACAAGGTTGTTCCGCTTGGG
AAACAAGCCGGTGTGCTCGAATTCGTGAGCAATACTTCTCCACTTCGCAACTGGCTAGAAGCCGGACATCCAATG
TGAGAGCTTACAACCAACGATTTTATCCACATCCTGATTGACACCTCCGTCTAGTTATCGACCTGGGGATATTAG
CCCAAAGGAAGCCCGGTCAAAGCTTTATGCTGCTTCTTCAAGATCGGAGGAAGATAGAATCAAGGCTTACAACGA
AGTCTGTGCTGTTTTCAAGCCGGTGTTCCGCCACATCTTCACTGAAAAGCATCGCAATCCCCGGGCATGGTTCGC
CACCCGACTGCGTTACACTCGGAGCGTCGCAGCTAGCTCAATCGTTGGACACATCCTTGGCCTCGGTGACCGTCA
CACTTCCAACATCCTCCTGGACAATACGACCGGAGAAGTCGTCCACATCGATCTCGGCATTGCTTTCGACCAGGT
ACATCAATGTCCCTTTCTTATGTCTACGTGTGCTCACTCAGCCTTCGCAGGGTAAACTACTCACCATCCCAGAGC
TGGTTCCGTTCCGCCTAACACGGGACATGGTGGACGGAATGGGCATTTCAGGAACCCAGGGGGTGTTCCAAAGAT
GCGCAGAAGAGACCCTTCGCGTCCTGAGAGACGGGTCGGATATTATCATGACCGTGCTCGAAGTGTTCAAGCACG
ATCCCCTGCATTCATGGTATGTCCCTCCCTTTGCCCGCCAGTCAATCCCGCACCAACACTTCGTTTCCTGTTCTT
CAGGACGGCGAGTGAGATCAAGATCAAGCGCGTTCAGCAACCAGAGGCACCACCAACGACGCCCGCCTCAGAAGC
AGGAGCCAACCAGCCGAAGATCTTGCCCAGTCGTTTCGAGCTGGGCGGTCTGGGCATCGACATGACCAGTGGTAC
CGCCGAAGAAGCTGCCGATCGCGCGCTGAGCTCAGTCGCTCGCAAACTCGACAAATCGCTCAGCGTCGAATCAAC
GGTTAACGAACTGATCGCCATTGCGACGGACCCTACCAACTTGGGAAAGATCTTCTATGGATGGGCTCCTCATAT
GTAACAGCACCGTTTCTCTGCTTTCGCTACTTACGATCAATGTTTTCCTTTTCGTCGCCTGCTTTCAGTGACTAC
TTGCTCTCTTTCTGATCCACTTCTCGTCCCCGTCTTTTCGTTTTCATCGTCTGTCGAATAATCAATTGCATCATC
TACTAAACACGGACAAGCATTTTGTATTATATACATAGAGTAGCCATTGTCTTTTTTCTTTTTCAAACTTCCAAC
CGAGAAATCATTACGATGATTGAATGTATAACAGAAACAG
Length 10315