CopciAB_19106
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_19106 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 19106
Uniprot id Functional description Domain in UVSB PI-3 kinase, MEI-41 and ESR-1
Location scaffold_5:796901..805855 Strand -
Gene length (nt) 8955 Transcript length (nt) 7535
CDS length (nt) 7236 Protein length (aa) 2411

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Saccharomyces cerevisiae YBR136W_MEC1
Aspergillus nidulans AN6975_uvsB
Schizosaccharomyces pombe rad3
Neurospora crassa mus-9
Candida albicans MEC1

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7258548 45.3 0 2009
Hypsizygus marmoreus strain 51987-8 Hypma_RDB19974 45.4 0 1877
Grifola frondosa Grifr_OBZ70466 42.1 0 1854
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_120011 48.4 0 1840
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_78376 47.7 0 1835
Pleurotus ostreatus PC15 PleosPC15_2_1039251 45.7 0 1762
Pleurotus eryngii ATCC 90797 Pleery1_1481111 45.7 0 1737
Lentinula edodes W1-26 v1.0 Lentinedodes1_14726 41.4 0 1719
Schizophyllum commune H4-8 Schco3_2730130 43.3 0 1642
Ganoderma sp. 10597 SS1 v1.0 Gansp1_42333 44 0 1640
Pleurotus ostreatus PC9 PleosPC9_1_83126 47.5 0 1602
Auricularia subglabra Aurde3_1_1150562 41.6 0 1422
Lentinula edodes NBRC 111202 Lenedo1_1160258 54.7 0 1178
Lentinula edodes B17 Lened_B_1_1_13497 35.3 2.822E-244 825

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 86.1242 20.6414 11.9173
oidia 74.9308 10.4724 6.0463
vegetative_mycelium 69.7025 13.9082 8.0299
primordia 68.4014 6.0836 3.5123
hyphal_knot 94.2681 14.7159 8.4962
young_fruiting_body 12.2667 1.9168 1.1067
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 105.0778 16.2425 9.3776
Wheat bran 83.5506 25.0031 14.4356
Horse manure 130.0656 40.6383 23.4625
Oak leaves 131.6867 48.5825 28.0491
Hay 127.8827 23.0794 13.3249
Corn stalk 156.2438 13.9546 8.0567
Pectine 145.2662 8.6801 5.0114
Microcrystalline cellulose 120.8438 20.2125 11.6697
Xylose 85.1963 26.3299 15.2015
Cellobiose 87.0494 19.0403 10.9929
Lignin 113.2735 12.7753 7.3758
Apple peels 96.9347 2.1268 1.2279
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 81.047 0.3562 0.2056
Bsubtilis 75.1471 7.1454 4.1254
Ecoli 73.5816 2.4055 1.3888
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 18.1617 9.8425 5.6826
BS 4h 17.5589 2.6633 1.5376
BS 8h 14.1924 2.2572 1.3032
BS 12h 15.1321 1.3039 0.7528
Oidia 0 h 10.0432 0.7302 0.4216
Oidia 18 h 16.0975 3.7819 2.1835
Sclerotia 14.6982 4.9412 2.8528
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 12.6452 1.1966 0.6908
DM 36h 12.0621 0.7537 0.4352
DM 60h 12.5311 0.8711 0.5029
DM 84h 9.2376 1.33 0.7679
DM 108h 9.5099 0.6158 0.3556
DM 132h 10.6397 1.7324 1.0002
DM 156hAE 14.6859 2.1384 1.2346
ELI1hAE 10.8306 3.2028 1.8491
ELI2hAE 11.0303 0.8785 0.5072
LI2hAE 11.3077 2.6414 1.525
LI6hAE 10.4317 0.8815 0.5089
LI12hAE 8.5534 0.764 0.4411
LI18hAE 10.3388 1.7344 1.0013
LI 24hAE 15.9662 1.6121 0.9307
DM 156hAM 13.5052 0.6583 0.3801
ELI1hAM 7.0958 2.2426 1.2948
ELI2hAM 8.839 0.9967 0.5754
LI2hAM 9.0823 1.3997 0.8081
LI6hAM 12.2143 2.3349 1.348
LI12hAM 13.062 2.4357 1.4063
LI18hAM 13.4059 2.3115 1.3346
LI 24hAM 15.7579 6.2439 3.6049
LI 24hHK 15.3107 3.084 1.7806
L/D 6h 17.2403 1.5209 0.8781
L/D 12h 17.638 1.5498 0.8948
L/D 18h 21.2542 2.6365 1.5222
L/D 24h 15.7712 2.7435 1.584
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 55.2497 11.1902 6.4607
Hyphal knots 61.6325 7.8549 4.5351
Primordium 1 56.9647 3.8628 2.2302
Primordium 2 48.2434 6.5825 3.8004
Young Fruiting body cap 35.8829 16.3311 9.4288
Younf fruiting body gill 28.0049 10.7092 6.183
Young fruiting body stipe 35.3222 2.0538 1.1858
Mature fruiting body cap_gill 13.3794 2.1156 1.2215
Mature fruiting body stipe 20.5733 3.0683 1.7715
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 44.0525 4.5668 2.6367
NH4NO3 61.6344 4.0456 2.3357
Proline 60.2124 8.32 4.8036
Tryptophan 59.2432 17.3494 10.0167
Isoleucin 67.4339 11.7915 6.8078
Arginine 45.2678 2.8292 1.6334
Metionine 46.6724 3.6619 2.1142
NaNO3 47.4575 6.3394 3.6601
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 44.0525 4.5668 2.6367
Citrus peel 22.7385 2.3427 1.3526
Poplar leaves 40.7932 0.3673 0.2121
Typha leaves 34.7589 8.7041 5.0253
Overwintered Salix leaves 37.4714 8.4158 4.8589
Reed flowering 28.9392 10.2978 5.9455
Tigernut 17.7689 2.8765 1.6608
Energy cane 36.8244 6.5854 3.8021
Guar gum 56.2899 22.9977 13.2777
Apple peels 42.02 5.7487 3.319
Cellobiose 68.4926 11.3136 6.5319
Corn stalk 55.8804 2.3965 1.3836
Horse manure 47.5099 8.5845 4.9563
Lignin 28.4326 3.2826 1.8952
Microcrystalline cellulose 49.7684 7.7779 4.4906
Oak leaves 48.1579 9.0035 5.1982
Pectin esterified 38.5152 9.8245 5.6722
Poplar sawdust 65.143 4.612 2.6627
Wheat bran 36.4045 5.7107 3.2971
Chlamydomonas reinhardtii 41.1583 3.1806 1.8363
Vertatryl alcohol 44.8108 9.5991 5.542
Furfural 49.9207 4.4159 2.5495
Autoclaved mycelium 38.4167 4.6947 2.7105
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 90.608 6.5513 3.7824
Ribose 117.0538 13.0051 7.5085
Mannose 107.2177 14.4643 10.2278
Fructose 111.383 9.7568 5.6331
Arabinose 116.3414 8.6579 4.9986
Xylose 116.7157 2.7928 1.6124
Galacturonic acid 121.1526 2.2331 1.2893
Rhamnogalacturonan 119.3637 4.0283 2.3257
Pectin esterified 115.2181 2.5352 1.4637
Polygalacturonic acid 115.6997 16.7352 9.6621
Sodium acetate 128.0088 7.0064 4.0452
No nitrogen 103.7216 12.5715 7.2582
BSA 119.3525 4.827 2.7869
Glutamine 114.5792 6.535 3.773
No phosphate 83.7257 0.9452 0.5457
No carbon 128.7811 3.4765 2.4582
No sulphur 94.081 17.0624 9.851
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 44.0525 4.5668 2.6367
Amylose 58.0174 3.2907 1.8999
Fucose 57.8124 4.66 2.6904
Galactose 68.5592 8.3071 4.7961
Lactose 69.7623 7.4168 4.2821
Maltose 65.0501 9.1906 5.3062
Mannitol 67.9004 10.2971 5.9451
Rhamnose 53.9698 7.7094 4.451
Sorbitol 65.653 2.0679 1.1939
Trehalose 56.8946 15.24 8.7988
Glycerol 55.8068 11.5726 6.6814
Glucuronic acid 70.6655 7.5625 4.3662
Arabinan 45.6342 15.2394 8.7985
Galactan 41.2868 3.1062 1.7934
Galactomannan 48.6027 22.9877 13.272
Glucan 45.6769 6.2198 3.591
Xylan 46.6214 6.1476 3.5493
Xyloglucan 55.1765 5.4535 3.1486
Arabinogalactan 60.5689 6.9186 3.9944
Pectin 29.899 5.9644 3.4435
Rhamnogalacturonan 22.361 1.2286 0.7093
Polygalacturonic acid 57.4016 1.283 0.7407
Mannan 51.2226 6.6382 3.8326
Amylopectin 42.8534 8.7499 5.0518
Inulin 57.0869 1.6515 0.9535
BSA 23.6081 3.1925 1.8432
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 12.5311 0.8711 0.5029
2h WAT 11.2612 2.3527 1.3583
4h WAT 13.4553 1.6842 0.9724
8h WAT 9.2951 3.5934 2.0747
16h WAT 9.3981 3.5837 2.0691
24h WAT 10.6024 1.1806 0.6816
WAT hyphal knot -30h 11.0727 1.8186 1.05
WAT hyphal knot -22h 11.6357 1.5882 0.9169
WAT hyphal knot -15h 10.8816 0.7794 0.45
WAT hyphal knot -7.5h 8.452 3.1347 1.8098
WAT hyphal knot 10.5501 0.9951 0.5745
WAT hyphal knot +7.5h 12.0974 2.1177 1.2227
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 36.5969 11.6748 6.7404
Straw 3h 35.9678 6.2861 3.6293
Straw 6h 29.06 9.1471 5.2811
Straw 12h 50.2012 1.5353 0.8864
Straw 24h 52.5881 8.7897 5.0747
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 5.5041 0.2327 0.1344
Frost (-20C, 30min) 10.2985 0.9781 0.5647
Heat shock (47C, 2h) 9.9312 1.3087 0.7556
High CO2 10.7445 0.7901 0.4562
Drought (4% agar, 12h) 11.9309 1.5444 0.8917
Oxidative (1mM H2O2, 3h) 6.5834 1.4736 0.8508
Acidic (pH4, 3h) 6.2263 0.9707 0.5605
Alkaline (pH9, 3h) 7.0386 0.2381 0.1375
Osmotic (sorbitol 2h) 7.4148 0.5758 0.3324
CongoRed (3h) 4.7782 1.0046 0.58
Cobalt chloride control 12.6302 1.807 1.0432
Cobalt chloride 2mM 14.9667 2.0331 1.1738
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 7.4989 3.1945 1.8444
Cold stimulation 13.1039 1.5576 0.8993
Scratched surface 11.8005 0.3524 0.2035
Ca2+, 200mM, 24h 10.1724 4.1092 2.3724
Cu2+, 2mM, 6h 11.975 1.5256 0.8808
Voriconazole 7.4101 1.5954 0.9211
Trichoderma interaction, early 9.9775 0.8011 0.4625
Trichoderma interaction 60h 12.1997 13.5161 7.8035
Cobalt chloride 2mM repeat 15.0879 2.2239 1.284
Hypoxia 14.2251 3.1849 1.8388
Hypoxia control 10.7095 2.1292 1.2293
Protoplastation control 12.0332 1.3421 0.949
Protoplastation 3.5h 4.0001 2.5678 1.8157
Protoplastation 1.5h 12.7816 10.5435 7.4554

General data

Systematic name -
Protein id CopciAB_19106.T0
Description Domain in UVSB PI-3 kinase, MEI-41 and ESR-1

Annotation summary

0 600 1200 1800 2400 2411

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd00892 PIKKc_ATR - 2052 2325
Pfam PF08064 UME (NUC010) domain IPR012993 884 985
Pfam PF02259 FAT domain IPR003151 1546 1866
Pfam PF00454 Phosphatidylinositol 3- and 4-kinase IPR000403 2083 2326
Pfam PF02260 FATC domain IPR003152 2381 2410

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR003152 FATC domain
IPR003151 PIK-related kinase, FAT
IPR011990 Tetratricopeptide-like helical domain superfamily
IPR012993 UME domain
IPR000403 Phosphatidylinositol 3-/4-kinase, catalytic domain
IPR018936 Phosphatidylinositol 3/4-kinase, conserved site
IPR014009 PIK-related kinase
IPR036940 Phosphatidylinositol 3-/4-kinase, catalytic domain superfamily
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:0016301 kinase activity MF

KEGG

KEGG Orthology
K06640

EggNOG

COG category Description
B Domain in UVSB PI-3 kinase, MEI-41 and ESR-1
D Domain in UVSB PI-3 kinase, MEI-41 and ESR-1
L Domain in UVSB PI-3 kinase, MEI-41 and ESR-1
T Domain in UVSB PI-3 kinase, MEI-41 and ESR-1

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_19106 across fungi.

Arrow shows the origin of gene family containing CopciAB_19106.

Protein

Sequence id CopciAB_19106.T0
Sequence >CopciAB_19106.T0
MSTNASKATTELDGAANANSSNFKNSGLFKSLNQVLEDLKRRPEGFDPADASHRVLEVAQSFLCGYASPHTTRAW
ADLMEEIIPLTEGLLALIQMMFATQSPSIYHYMRDSVKIVFCRLVDIGYTLGLWMDVVEPDDEIQPSPGKLRNSV
LEVLAEVLSGLPKPFPRLPAPARSISSDQFAEAQKFQNPEALKVLREMVNEVVELTDKLTNNIDQLSYPIVVQMF
DATKIQEVPEYTRNLGRPLLICLKFSEDGIVLLTTMLESLLPLVSSPSVVQLYLGTERRLLVESARRVFDYILSP
SCHFTNDRRIRWLGKLFQVVLETLSDTSSLFSYMQERLLHSRYDGTIHGNTTTLDVLLNQSFDRPFSTASRAVVY
QALGCLNASPNDERNPQVHTLAISYLKHSLSGIDKELLPLVLKHLQATVGHAIEPPRTLIKATQPKPSAGSTQAR
MNLKDHVWRRQVQELVQAIISPDSITWMDDDFRPNEPYTLRRILADVAERFSRPLSQADDESRIKLARDLAKLPC
LLVVCTGESCTTFRNASAPSLLGFYVPILQALLAGPADEVTPSVRGEVYSVLLPVLKHRNEEQPDEPVLEMITRG
VTDDDRAVRVQAGLTLQAVVEFYSGNTLASRQNIENFFHRLYQVFEGCRHSIKETLLISVGFLGKTANPFILGST
LCLLILQLGQSNLLLHSLACTQLLNISRHHKKSIYSLLSPHFDRVVKIVFERLSTQPTLLTELCRLMQLNIEEFI
SRHHAKALPDVLLRCDMKGVDLIAHSLGKNRSTTILDSLDKILVPILLLPTVPQTNKAVAFLIGIFNEDSRDAKI
SLKTILPGHTTSVLTELVIKMGVDDPQSRHQALNAVKKVETALQKGTISISQKANPSEFLATQMLGIMSKIIDTL
QDVHGKKTVEAKEQIIRSIGVFISLVGPPIHSLSSQIMAIFQTSLSVAELAEVTLESWHEYLVTIHSKDLGPHLG
STCSAFVSAWPNLSDRARKIIVESLQLAFGRLKDDLIHYLDDLPDLSIIDDLKPLHFHLSQLRHPLSPRDSLEKL
LDRCSSSNLTIATLALEELKRFMQTGDPALLHELLEDDMFDPMIGRLISTVYSAAARDGDLTESLRLVAYECIGI
LGALDPYRFQLPARRADTIVLRNFTDENETYQFIINLIEELVDAFRSTSDMKFQTNLAYPIQELLKLCGFTSDLV
NSGRAVPLRTRNRWAGLKKEVMNAVTPLLEGRFSFSNTVPAVKLPVYPTQSTYREWLQLWVTHLISRVSGDSARK
IFGVFQSVVRSKDVVLATHLLPHLILNILISGEPDDAEDIRTEIRIVLEDQVDPSSTSTHDKKILSAQAIFTLLD
HLNRWAHIMRREITTKQKSETKRARASVALGESQEQLLRLDSILSNLDKHLVAKAAFQCKAYARALMNFEQQIHA
LKELDNNKNLEPYYDTIHEIYAHLDQPDGMEGITALIQSPSLEHQIREHESIGQWTSAQSCWEVRLQESPDNLEY
HQGLLRCLRNLGHYDTLRNHVKGILTSHPEWQADVIDFHTETLLMVGAWDDVEALVKTADSTSVPVMMAKVMLAM
RKGDPQAISDALSLARLTLGAPISAAGVNGYARSYEAALSLHHLYELELIHNTTRNLPSLSTRRKQALTRLSSIL
ADRLENVLPTFRNLEPILSTRRIGFSLMPGTSPDLVKEVGKAWLSSAKVARKAGHWPTAYSAILQARQSGTPLWF
LESAKLMKASGDFIMKAVRELESHMQSLGLISNGNVLDLTLDDEVVNTKHKLFLWRARWMSESGRFDGTPLLEAF
KRATELDKRWESSHFYFGNFYDASAKDLKPTDARRLKMNMHMLRNYSRATRYGTKFIYQTIPRLLTVWLDNGEDK
NIFGTDVFNKMNEVVASAIKDIPAYKWFTAFPQIVSRVCHPVDKVYNLVSQLIVSIIQEYPDQALWLFAGVIKST
KHNRLTRGRVILEKAKSSPSSSARISRLISDLHVMANEMLALCEYPVSKEHSLSMPKLFPRLKAIGECSLLIPLL
VSLTVSLPSSSSAAGTHQPFPDDAPTFKEFSDEIDVMRSMARPRKIWITGSDGGEYIMLIKPKDDLRKDARLMDF
DTIINRLLKANADARRRKLYIRTYAVVPLNEECGCIEWVQNTSPLRPILFKYYEARRIKTWTAELEAQCNKIKDA
QAADAGNIFVKKILPMFPPVFHQWFIETFPDPSAWLENRTNYARTAAVMSIVGWILGLGDRHCENILLDVITGDA
VHIDFNCLFEKGKVLLTPERVPFRLTQNIVDGLGVTGVEGMFRIACELTMDLLRNNMDSLMSVLDAFIHDPLVEW
EDEKRKQENRSRRSAQQVPVTTTNIAKNALNDIKKKLEGRFTPYTDSQFEQPEKLLSTKNLVEALINEASNPMNL
SKMYPGWAPWN
Length 2411

Coding

Sequence id CopciAB_19106.T0
Sequence >CopciAB_19106.T0
ATGTCGACAAATGCCTCCAAAGCGACGACTGAACTAGATGGCGCAGCGAATGCCAACTCATCGAACTTCAAAAAC
TCAGGACTGTTCAAAAGCCTGAACCAAGTGCTCGAAGACCTGAAGCGGCGCCCTGAAGGATTCGACCCAGCTGAC
GCCTCGCACCGTGTTCTCGAGGTCGCCCAATCTTTTCTTTGTGGATATGCGTCGCCGCACACGACACGAGCATGG
GCCGACCTGATGGAGGAGATTATCCCCCTCACAGAGGGTCTGCTTGCCCTTATCCAGATGATGTTTGCAACTCAG
TCGCCGAGCATTTACCACTACATGCGCGACTCCGTCAAAATCGTCTTCTGTAGACTGGTGGATATTGGGTACACG
TTGGGACTTTGGATGGACGTGGTCGAACCGGACGACGAGATCCAACCTTCACCAGGCAAATTGAGAAACAGTGTA
CTGGAGGTGTTGGCGGAAGTGCTTTCAGGGCTCCCAAAGCCCTTCCCGCGTCTCCCAGCCCCGGCTCGTTCAATC
TCTTCAGACCAATTTGCCGAAGCTCAGAAATTCCAGAACCCAGAAGCCCTAAAGGTACTGCGAGAGATGGTGAAT
GAGGTTGTGGAATTGACCGATAAGCTAACTAACAATATCGACCAATTATCCTACCCTATCGTTGTGCAAATGTTC
GATGCCACGAAGATACAAGAGGTGCCTGAATACACTCGAAACCTGGGAAGACCCCTGCTCATCTGTTTGAAGTTT
TCGGAAGATGGGATAGTCTTGTTGACGACGATGTTAGAATCTTTACTGCCGCTGGTGTCTTCCCCTTCAGTCGTC
CAGCTTTATCTTGGAACGGAGCGCAGACTCCTTGTCGAATCCGCCAGACGGGTATTCGACTACATTCTGAGCCCA
TCATGTCACTTCACCAACGACAGGCGGATACGATGGCTCGGAAAACTTTTCCAGGTCGTTCTTGAAACGCTCAGC
GACACAAGTTCTTTATTTTCTTACATGCAGGAGAGGCTCCTTCATTCCCGGTATGATGGAACAATCCATGGCAAC
ACGACAACGTTGGATGTTTTGTTGAATCAATCATTTGACCGACCGTTTTCAACCGCCTCAAGAGCCGTCGTTTAT
CAAGCCCTGGGTTGTCTGAACGCCAGTCCAAACGACGAACGAAACCCACAAGTCCATACACTGGCAATTTCGTAC
CTGAAGCATTCGTTATCCGGCATCGACAAGGAACTCCTTCCTCTGGTGCTGAAGCATCTACAGGCCACCGTTGGC
CATGCAATCGAACCTCCCAGAACGCTGATCAAGGCTACCCAGCCGAAGCCATCTGCAGGATCAACTCAAGCGCGT
ATGAACCTCAAGGACCACGTCTGGCGTCGCCAAGTGCAGGAGCTCGTGCAAGCCATCATCTCCCCAGACTCCATA
ACATGGATGGATGATGATTTCCGCCCTAACGAGCCTTACACTCTCCGACGGATCCTTGCTGACGTTGCCGAAAGG
TTCAGCAGGCCATTGTCACAGGCCGACGACGAGTCGAGGATTAAACTTGCCCGGGATCTCGCAAAGTTGCCATGC
CTATTAGTTGTATGCACCGGGGAGAGTTGCACCACTTTCCGGAATGCCAGCGCTCCCAGTTTATTGGGGTTCTAT
GTACCCATTCTCCAGGCTCTGCTAGCTGGGCCTGCAGACGAGGTTACCCCATCAGTGCGAGGAGAGGTGTATAGT
GTATTGCTACCGGTCCTGAAGCACCGAAACGAAGAGCAGCCCGATGAACCGGTATTGGAGATGATTACCCGGGGT
GTAACAGACGATGACCGTGCTGTCCGCGTTCAAGCAGGTCTAACACTTCAAGCTGTTGTCGAGTTCTATTCTGGA
AATACCTTGGCATCCCGGCAGAACATAGAGAACTTCTTCCACCGACTGTACCAGGTGTTCGAAGGGTGCAGGCAT
TCTATCAAGGAAACGCTGCTCATTTCGGTCGGGTTTTTGGGAAAAACTGCCAATCCCTTCATCCTGGGTTCCACT
CTGTGCCTATTGATCCTTCAGCTTGGCCAAAGCAATTTACTATTACACAGCCTGGCATGCACGCAGTTACTGAAT
ATCTCAAGGCATCATAAAAAGAGCATCTACTCCCTCTTGTCGCCACATTTCGACAGAGTAGTGAAGATCGTCTTT
GAACGCCTTTCGACCCAGCCGACGTTGCTAACCGAGCTATGTCGCCTGATGCAACTGAATATCGAAGAGTTTATC
TCTAGGCATCACGCCAAAGCATTGCCTGACGTTCTCCTCAGATGTGACATGAAGGGAGTTGATCTCATCGCCCAT
AGCCTAGGCAAGAATCGCAGCACGACAATTCTCGACTCTCTTGATAAGATCCTCGTCCCCATCCTCCTACTGCCG
ACAGTTCCACAAACCAACAAAGCAGTCGCCTTCTTGATCGGCATCTTCAATGAAGACTCACGAGACGCAAAGATT
AGTCTTAAGACCATTCTCCCTGGACACACCACATCGGTTTTGACGGAACTGGTTATCAAGATGGGGGTTGATGAC
CCTCAGAGCAGGCACCAAGCGTTGAACGCTGTGAAGAAAGTTGAAACCGCCCTCCAAAAGGGGACAATATCTATC
AGTCAGAAGGCGAACCCAAGCGAGTTCCTTGCTACTCAGATGCTTGGGATCATGTCGAAGATTATCGACACACTG
CAAGATGTTCATGGGAAGAAAACTGTGGAAGCAAAGGAGCAGATCATTCGCAGTATCGGGGTTTTCATCTCGCTG
GTGGGGCCTCCAATCCACAGCCTCTCGTCTCAAATTATGGCGATATTCCAGACCTCATTGTCTGTCGCAGAGCTT
GCTGAAGTCACTCTGGAAAGTTGGCATGAATACCTCGTCACCATTCACTCGAAGGACCTTGGCCCACATCTAGGA
TCTACGTGCTCAGCATTTGTGTCAGCGTGGCCTAACCTAAGCGACAGGGCCCGCAAGATCATCGTCGAATCGTTG
CAGCTGGCATTCGGTCGCCTGAAAGATGACCTTATCCACTACCTCGACGACCTTCCTGATCTATCCATCATCGAC
GACTTGAAGCCTCTTCACTTCCACCTTTCCCAACTCCGCCACCCACTTTCCCCGCGCGACAGCCTCGAGAAGTTA
CTCGATCGATGTTCCAGCAGCAATCTGACCATCGCGACCCTTGCTCTCGAAGAACTGAAGCGATTCATGCAAACA
GGAGACCCTGCACTTTTGCATGAGCTCTTGGAAGACGACATGTTTGACCCAATGATTGGTCGCCTTATCTCGACT
GTTTATTCCGCCGCTGCAAGAGATGGTGACCTGACCGAGTCGTTGCGTCTGGTCGCCTACGAATGCATTGGTATC
CTTGGTGCCCTCGATCCCTACCGATTCCAACTCCCCGCTAGACGAGCAGATACCATTGTCCTCAGGAACTTTACC
GACGAGAACGAGACGTACCAATTCATCATCAACCTTATCGAAGAACTGGTCGACGCCTTCCGATCGACAAGCGAC
ATGAAATTCCAAACCAACCTTGCGTATCCAATCCAGGAGCTCCTCAAGCTCTGTGGATTTACCTCAGACCTCGTC
AACTCGGGAAGAGCTGTCCCGCTGAGGACGCGGAATCGCTGGGCGGGGCTGAAAAAGGAGGTGATGAATGCGGTG
ACGCCGTTGCTGGAAGGTCGCTTCTCCTTCTCTAACACTGTTCCCGCCGTCAAGCTTCCGGTCTACCCCACGCAA
TCGACTTATCGTGAATGGCTCCAACTCTGGGTCACCCATCTAATCTCGAGGGTATCTGGAGATTCCGCTCGAAAA
ATATTTGGGGTGTTTCAGTCTGTGGTGCGCAGCAAGGACGTGGTTCTTGCCACTCACTTGCTGCCTCACTTGATC
CTCAACATCCTCATATCGGGCGAGCCGGATGACGCAGAGGACATCCGCACGGAGATCCGGATTGTTCTGGAAGAC
CAAGTAGACCCGAGCAGCACATCGACGCATGACAAGAAGATTCTCAGTGCACAGGCTATATTCACGCTCTTAGAT
CATCTGAACAGATGGGCACATATCATGAGGCGAGAGATTACGACGAAACAGAAAAGCGAAACCAAGCGAGCGCGT
GCCTCTGTTGCACTGGGAGAGAGTCAAGAACAACTCCTTCGACTGGATTCCATCCTGTCAAACTTGGATAAACAC
TTGGTTGCAAAAGCTGCGTTCCAGTGCAAGGCCTATGCGAGAGCCCTCATGAACTTTGAGCAGCAGATTCACGCT
CTCAAGGAACTGGATAACAACAAGAATCTAGAGCCGTACTACGACACCATCCACGAAATATACGCTCATCTGGAC
CAGCCTGATGGCATGGAGGGCATCACCGCGCTGATTCAATCGCCGTCTTTGGAGCACCAGATTCGAGAGCATGAA
AGCATTGGACAATGGACGTCGGCTCAAAGTTGCTGGGAGGTACGACTGCAGGAGTCTCCCGATAACCTGGAATAT
CACCAAGGTCTTCTTCGCTGCCTACGCAACCTAGGACATTACGATACCCTGCGCAATCATGTCAAAGGCATACTG
ACCAGCCATCCTGAATGGCAGGCAGATGTCATCGATTTCCACACGGAGACTCTGTTGATGGTCGGAGCATGGGAC
GACGTTGAAGCTCTCGTCAAGACAGCGGATTCGACTTCGGTCCCTGTTATGATGGCAAAAGTTATGCTTGCCATG
CGCAAAGGCGATCCTCAAGCTATATCTGATGCATTGTCTCTCGCGCGTCTCACCCTCGGAGCCCCGATAAGCGCA
GCAGGCGTCAATGGCTACGCTCGGTCATACGAGGCAGCTCTCAGCCTTCACCATCTCTACGAGTTGGAATTGATA
CACAACACCACGAGAAATCTACCATCGTTATCCACGCGTCGAAAACAAGCGTTGACGCGGTTATCTTCAATCCTT
GCGGACCGATTGGAAAATGTGCTCCCGACATTCCGAAACCTCGAACCCATTCTGAGTACACGTAGGATTGGCTTC
TCCCTCATGCCAGGGACAAGCCCAGATCTCGTGAAAGAGGTGGGGAAAGCGTGGTTGTCGAGTGCCAAAGTCGCT
CGCAAGGCTGGCCATTGGCCGACGGCGTATAGTGCCATATTGCAAGCGCGACAAAGCGGGACCCCTCTCTGGTTC
CTCGAGAGCGCGAAACTTATGAAAGCCTCCGGTGACTTCATAATGAAGGCTGTCCGCGAATTGGAAAGCCACATG
CAGTCGCTTGGTCTGATATCCAACGGAAATGTGCTTGATCTTACTCTCGATGACGAGGTCGTGAACACGAAACAC
AAGCTTTTCCTGTGGCGCGCGCGGTGGATGAGTGAATCGGGAAGATTCGACGGCACCCCTCTCCTTGAGGCATTC
AAACGGGCGACAGAGTTGGACAAGAGATGGGAAAGCTCCCACTTCTACTTTGGTAATTTCTATGATGCTTCTGCA
AAGGACCTCAAGCCCACCGACGCAAGACGGCTGAAGATGAATATGCACATGCTCAGAAACTATTCTCGCGCAACC
CGTTATGGAACAAAGTTCATCTATCAAACCATCCCTCGCTTGCTGACTGTCTGGCTCGACAATGGAGAAGATAAG
AATATATTTGGAACTGACGTGTTTAACAAGATGAACGAAGTGGTGGCTTCGGCCATCAAAGATATACCAGCCTAC
AAGTGGTTTACTGCCTTCCCTCAAATTGTTTCTCGCGTTTGTCATCCCGTGGACAAGGTCTACAACTTGGTGTCC
CAATTGATTGTCTCGATCATCCAAGAATACCCCGACCAGGCGCTATGGCTGTTTGCAGGCGTCATCAAATCGACA
AAGCACAATCGGTTGACTCGGGGCAGGGTCATATTGGAGAAAGCAAAGAGTTCTCCATCAAGTTCGGCGAGAATC
TCAAGGCTCATTTCCGATTTGCACGTCATGGCCAATGAAATGCTAGCCCTGTGCGAATACCCCGTCTCAAAAGAG
CACAGTCTTTCTATGCCCAAGTTGTTTCCCCGTCTAAAGGCAATAGGGGAATGTTCGCTCCTGATTCCCTTGCTG
GTGTCGCTCACCGTCAGCCTTCCTTCTTCTTCTTCTGCTGCTGGAACCCACCAACCCTTCCCGGACGATGCACCT
ACCTTCAAAGAGTTCTCAGACGAAATCGACGTCATGAGGTCCATGGCGAGGCCGAGAAAGATATGGATTACCGGG
AGCGACGGAGGGGAATACATCATGTTGATTAAGCCTAAAGATGACCTTCGCAAAGATGCCCGTTTGATGGACTTC
GATACAATCATCAACAGATTGCTGAAGGCCAACGCTGACGCTCGAAGGAGGAAGCTGTATATCAGGACATACGCT
GTAGTCCCGCTGAACGAAGAATGTGGCTGTATTGAATGGGTACAGAACACCTCGCCTCTTCGGCCGATCTTATTC
AAGTACTACGAGGCTCGAAGAATCAAGACATGGACAGCTGAACTGGAAGCACAGTGTAACAAGATCAAAGACGCT
CAAGCGGCTGATGCAGGAAACATCTTCGTTAAAAAGATTCTCCCGATGTTCCCCCCGGTGTTCCATCAGTGGTTC
ATTGAAACGTTCCCAGACCCTTCGGCGTGGTTGGAGAATAGAACCAACTATGCGCGGACTGCGGCTGTTATGTCG
ATTGTGGGATGGATTCTTGGGCTTGGTGATCGACATTGCGAAAATATCCTCCTGGACGTGATTACGGGCGATGCT
GTCCATATCGATTTCAATTGTCTGTTCGAGAAGGGCAAAGTGCTTCTTACCCCTGAACGCGTGCCATTCCGCTTG
ACACAGAATATCGTGGATGGACTTGGGGTCACTGGAGTTGAAGGGATGTTCCGGATAGCGTGCGAGCTGACTATG
GATCTTCTGCGAAACAACATGGATTCGCTCATGAGTGTACTCGATGCGTTCATTCATGACCCGCTTGTTGAATGG
GAAGATGAGAAGAGGAAGCAGGAAAACCGAAGTCGTCGCTCAGCACAGCAGGTTCCGGTGACGACTACGAATATA
GCGAAGAATGCTCTGAATGATATCAAGAAGAAACTTGAGGGCCGGTTCACCCCGTATACGGATTCGCAGTTTGAG
CAGCCTGAGAAGTTGCTCTCGACGAAGAATTTGGTGGAAGCGTTGATCAACGAGGCGTCGAATCCAATGAATTTG
TCAAAGATGTACCCTGGGTGGGCGCCATGGAATTAG
Length 7236

Transcript

Sequence id CopciAB_19106.T0
Sequence >CopciAB_19106.T0
CTCTCAATGATTCGACACCATTAGGTTCCTCCAAATGTCCTCGAAACGCGTACAATGTCGACAAATGCCTCCAAA
GCGACGACTGAACTAGATGGCGCAGCGAATGCCAACTCATCGAACTTCAAAAACTCAGGACTGTTCAAAAGCCTG
AACCAAGTGCTCGAAGACCTGAAGCGGCGCCCTGAAGGATTCGACCCAGCTGACGCCTCGCACCGTGTTCTCGAG
GTCGCCCAATCTTTTCTTTGTGGATATGCGTCGCCGCACACGACACGAGCATGGGCCGACCTGATGGAGGAGATT
ATCCCCCTCACAGAGGGTCTGCTTGCCCTTATCCAGATGATGTTTGCAACTCAGTCGCCGAGCATTTACCACTAC
ATGCGCGACTCCGTCAAAATCGTCTTCTGTAGACTGGTGGATATTGGGTACACGTTGGGACTTTGGATGGACGTG
GTCGAACCGGACGACGAGATCCAACCTTCACCAGGCAAATTGAGAAACAGTGTACTGGAGGTGTTGGCGGAAGTG
CTTTCAGGGCTCCCAAAGCCCTTCCCGCGTCTCCCAGCCCCGGCTCGTTCAATCTCTTCAGACCAATTTGCCGAA
GCTCAGAAATTCCAGAACCCAGAAGCCCTAAAGGTACTGCGAGAGATGGTGAATGAGGTTGTGGAATTGACCGAT
AAGCTAACTAACAATATCGACCAATTATCCTACCCTATCGTTGTGCAAATGTTCGATGCCACGAAGATACAAGAG
GTGCCTGAATACACTCGAAACCTGGGAAGACCCCTGCTCATCTGTTTGAAGTTTTCGGAAGATGGGATAGTCTTG
TTGACGACGATGTTAGAATCTTTACTGCCGCTGGTGTCTTCCCCTTCAGTCGTCCAGCTTTATCTTGGAACGGAG
CGCAGACTCCTTGTCGAATCCGCCAGACGGGTATTCGACTACATTCTGAGCCCATCATGTCACTTCACCAACGAC
AGGCGGATACGATGGCTCGGAAAACTTTTCCAGGTCGTTCTTGAAACGCTCAGCGACACAAGTTCTTTATTTTCT
TACATGCAGGAGAGGCTCCTTCATTCCCGGTATGATGGAACAATCCATGGCAACACGACAACGTTGGATGTTTTG
TTGAATCAATCATTTGACCGACCGTTTTCAACCGCCTCAAGAGCCGTCGTTTATCAAGCCCTGGGTTGTCTGAAC
GCCAGTCCAAACGACGAACGAAACCCACAAGTCCATACACTGGCAATTTCGTACCTGAAGCATTCGTTATCCGGC
ATCGACAAGGAACTCCTTCCTCTGGTGCTGAAGCATCTACAGGCCACCGTTGGCCATGCAATCGAACCTCCCAGA
ACGCTGATCAAGGCTACCCAGCCGAAGCCATCTGCAGGATCAACTCAAGCGCGTATGAACCTCAAGGACCACGTC
TGGCGTCGCCAAGTGCAGGAGCTCGTGCAAGCCATCATCTCCCCAGACTCCATAACATGGATGGATGATGATTTC
CGCCCTAACGAGCCTTACACTCTCCGACGGATCCTTGCTGACGTTGCCGAAAGGTTCAGCAGGCCATTGTCACAG
GCCGACGACGAGTCGAGGATTAAACTTGCCCGGGATCTCGCAAAGTTGCCATGCCTATTAGTTGTATGCACCGGG
GAGAGTTGCACCACTTTCCGGAATGCCAGCGCTCCCAGTTTATTGGGGTTCTATGTACCCATTCTCCAGGCTCTG
CTAGCTGGGCCTGCAGACGAGGTTACCCCATCAGTGCGAGGAGAGGTGTATAGTGTATTGCTACCGGTCCTGAAG
CACCGAAACGAAGAGCAGCCCGATGAACCGGTATTGGAGATGATTACCCGGGGTGTAACAGACGATGACCGTGCT
GTCCGCGTTCAAGCAGGTCTAACACTTCAAGCTGTTGTCGAGTTCTATTCTGGAAATACCTTGGCATCCCGGCAG
AACATAGAGAACTTCTTCCACCGACTGTACCAGGTGTTCGAAGGGTGCAGGCATTCTATCAAGGAAACGCTGCTC
ATTTCGGTCGGGTTTTTGGGAAAAACTGCCAATCCCTTCATCCTGGGTTCCACTCTGTGCCTATTGATCCTTCAG
CTTGGCCAAAGCAATTTACTATTACACAGCCTGGCATGCACGCAGTTACTGAATATCTCAAGGCATCATAAAAAG
AGCATCTACTCCCTCTTGTCGCCACATTTCGACAGAGTAGTGAAGATCGTCTTTGAACGCCTTTCGACCCAGCCG
ACGTTGCTAACCGAGCTATGTCGCCTGATGCAACTGAATATCGAAGAGTTTATCTCTAGGCATCACGCCAAAGCA
TTGCCTGACGTTCTCCTCAGATGTGACATGAAGGGAGTTGATCTCATCGCCCATAGCCTAGGCAAGAATCGCAGC
ACGACAATTCTCGACTCTCTTGATAAGATCCTCGTCCCCATCCTCCTACTGCCGACAGTTCCACAAACCAACAAA
GCAGTCGCCTTCTTGATCGGCATCTTCAATGAAGACTCACGAGACGCAAAGATTAGTCTTAAGACCATTCTCCCT
GGACACACCACATCGGTTTTGACGGAACTGGTTATCAAGATGGGGGTTGATGACCCTCAGAGCAGGCACCAAGCG
TTGAACGCTGTGAAGAAAGTTGAAACCGCCCTCCAAAAGGGGACAATATCTATCAGTCAGAAGGCGAACCCAAGC
GAGTTCCTTGCTACTCAGATGCTTGGGATCATGTCGAAGATTATCGACACACTGCAAGATGTTCATGGGAAGAAA
ACTGTGGAAGCAAAGGAGCAGATCATTCGCAGTATCGGGGTTTTCATCTCGCTGGTGGGGCCTCCAATCCACAGC
CTCTCGTCTCAAATTATGGCGATATTCCAGACCTCATTGTCTGTCGCAGAGCTTGCTGAAGTCACTCTGGAAAGT
TGGCATGAATACCTCGTCACCATTCACTCGAAGGACCTTGGCCCACATCTAGGATCTACGTGCTCAGCATTTGTG
TCAGCGTGGCCTAACCTAAGCGACAGGGCCCGCAAGATCATCGTCGAATCGTTGCAGCTGGCATTCGGTCGCCTG
AAAGATGACCTTATCCACTACCTCGACGACCTTCCTGATCTATCCATCATCGACGACTTGAAGCCTCTTCACTTC
CACCTTTCCCAACTCCGCCACCCACTTTCCCCGCGCGACAGCCTCGAGAAGTTACTCGATCGATGTTCCAGCAGC
AATCTGACCATCGCGACCCTTGCTCTCGAAGAACTGAAGCGATTCATGCAAACAGGAGACCCTGCACTTTTGCAT
GAGCTCTTGGAAGACGACATGTTTGACCCAATGATTGGTCGCCTTATCTCGACTGTTTATTCCGCCGCTGCAAGA
GATGGTGACCTGACCGAGTCGTTGCGTCTGGTCGCCTACGAATGCATTGGTATCCTTGGTGCCCTCGATCCCTAC
CGATTCCAACTCCCCGCTAGACGAGCAGATACCATTGTCCTCAGGAACTTTACCGACGAGAACGAGACGTACCAA
TTCATCATCAACCTTATCGAAGAACTGGTCGACGCCTTCCGATCGACAAGCGACATGAAATTCCAAACCAACCTT
GCGTATCCAATCCAGGAGCTCCTCAAGCTCTGTGGATTTACCTCAGACCTCGTCAACTCGGGAAGAGCTGTCCCG
CTGAGGACGCGGAATCGCTGGGCGGGGCTGAAAAAGGAGGTGATGAATGCGGTGACGCCGTTGCTGGAAGGTCGC
TTCTCCTTCTCTAACACTGTTCCCGCCGTCAAGCTTCCGGTCTACCCCACGCAATCGACTTATCGTGAATGGCTC
CAACTCTGGGTCACCCATCTAATCTCGAGGGTATCTGGAGATTCCGCTCGAAAAATATTTGGGGTGTTTCAGTCT
GTGGTGCGCAGCAAGGACGTGGTTCTTGCCACTCACTTGCTGCCTCACTTGATCCTCAACATCCTCATATCGGGC
GAGCCGGATGACGCAGAGGACATCCGCACGGAGATCCGGATTGTTCTGGAAGACCAAGTAGACCCGAGCAGCACA
TCGACGCATGACAAGAAGATTCTCAGTGCACAGGCTATATTCACGCTCTTAGATCATCTGAACAGATGGGCACAT
ATCATGAGGCGAGAGATTACGACGAAACAGAAAAGCGAAACCAAGCGAGCGCGTGCCTCTGTTGCACTGGGAGAG
AGTCAAGAACAACTCCTTCGACTGGATTCCATCCTGTCAAACTTGGATAAACACTTGGTTGCAAAAGCTGCGTTC
CAGTGCAAGGCCTATGCGAGAGCCCTCATGAACTTTGAGCAGCAGATTCACGCTCTCAAGGAACTGGATAACAAC
AAGAATCTAGAGCCGTACTACGACACCATCCACGAAATATACGCTCATCTGGACCAGCCTGATGGCATGGAGGGC
ATCACCGCGCTGATTCAATCGCCGTCTTTGGAGCACCAGATTCGAGAGCATGAAAGCATTGGACAATGGACGTCG
GCTCAAAGTTGCTGGGAGGTACGACTGCAGGAGTCTCCCGATAACCTGGAATATCACCAAGGTCTTCTTCGCTGC
CTACGCAACCTAGGACATTACGATACCCTGCGCAATCATGTCAAAGGCATACTGACCAGCCATCCTGAATGGCAG
GCAGATGTCATCGATTTCCACACGGAGACTCTGTTGATGGTCGGAGCATGGGACGACGTTGAAGCTCTCGTCAAG
ACAGCGGATTCGACTTCGGTCCCTGTTATGATGGCAAAAGTTATGCTTGCCATGCGCAAAGGCGATCCTCAAGCT
ATATCTGATGCATTGTCTCTCGCGCGTCTCACCCTCGGAGCCCCGATAAGCGCAGCAGGCGTCAATGGCTACGCT
CGGTCATACGAGGCAGCTCTCAGCCTTCACCATCTCTACGAGTTGGAATTGATACACAACACCACGAGAAATCTA
CCATCGTTATCCACGCGTCGAAAACAAGCGTTGACGCGGTTATCTTCAATCCTTGCGGACCGATTGGAAAATGTG
CTCCCGACATTCCGAAACCTCGAACCCATTCTGAGTACACGTAGGATTGGCTTCTCCCTCATGCCAGGGACAAGC
CCAGATCTCGTGAAAGAGGTGGGGAAAGCGTGGTTGTCGAGTGCCAAAGTCGCTCGCAAGGCTGGCCATTGGCCG
ACGGCGTATAGTGCCATATTGCAAGCGCGACAAAGCGGGACCCCTCTCTGGTTCCTCGAGAGCGCGAAACTTATG
AAAGCCTCCGGTGACTTCATAATGAAGGCTGTCCGCGAATTGGAAAGCCACATGCAGTCGCTTGGTCTGATATCC
AACGGAAATGTGCTTGATCTTACTCTCGATGACGAGGTCGTGAACACGAAACACAAGCTTTTCCTGTGGCGCGCG
CGGTGGATGAGTGAATCGGGAAGATTCGACGGCACCCCTCTCCTTGAGGCATTCAAACGGGCGACAGAGTTGGAC
AAGAGATGGGAAAGCTCCCACTTCTACTTTGGTAATTTCTATGATGCTTCTGCAAAGGACCTCAAGCCCACCGAC
GCAAGACGGCTGAAGATGAATATGCACATGCTCAGAAACTATTCTCGCGCAACCCGTTATGGAACAAAGTTCATC
TATCAAACCATCCCTCGCTTGCTGACTGTCTGGCTCGACAATGGAGAAGATAAGAATATATTTGGAACTGACGTG
TTTAACAAGATGAACGAAGTGGTGGCTTCGGCCATCAAAGATATACCAGCCTACAAGTGGTTTACTGCCTTCCCT
CAAATTGTTTCTCGCGTTTGTCATCCCGTGGACAAGGTCTACAACTTGGTGTCCCAATTGATTGTCTCGATCATC
CAAGAATACCCCGACCAGGCGCTATGGCTGTTTGCAGGCGTCATCAAATCGACAAAGCACAATCGGTTGACTCGG
GGCAGGGTCATATTGGAGAAAGCAAAGAGTTCTCCATCAAGTTCGGCGAGAATCTCAAGGCTCATTTCCGATTTG
CACGTCATGGCCAATGAAATGCTAGCCCTGTGCGAATACCCCGTCTCAAAAGAGCACAGTCTTTCTATGCCCAAG
TTGTTTCCCCGTCTAAAGGCAATAGGGGAATGTTCGCTCCTGATTCCCTTGCTGGTGTCGCTCACCGTCAGCCTT
CCTTCTTCTTCTTCTGCTGCTGGAACCCACCAACCCTTCCCGGACGATGCACCTACCTTCAAAGAGTTCTCAGAC
GAAATCGACGTCATGAGGTCCATGGCGAGGCCGAGAAAGATATGGATTACCGGGAGCGACGGAGGGGAATACATC
ATGTTGATTAAGCCTAAAGATGACCTTCGCAAAGATGCCCGTTTGATGGACTTCGATACAATCATCAACAGATTG
CTGAAGGCCAACGCTGACGCTCGAAGGAGGAAGCTGTATATCAGGACATACGCTGTAGTCCCGCTGAACGAAGAA
TGTGGCTGTATTGAATGGGTACAGAACACCTCGCCTCTTCGGCCGATCTTATTCAAGTACTACGAGGCTCGAAGA
ATCAAGACATGGACAGCTGAACTGGAAGCACAGTGTAACAAGATCAAAGACGCTCAAGCGGCTGATGCAGGAAAC
ATCTTCGTTAAAAAGATTCTCCCGATGTTCCCCCCGGTGTTCCATCAGTGGTTCATTGAAACGTTCCCAGACCCT
TCGGCGTGGTTGGAGAATAGAACCAACTATGCGCGGACTGCGGCTGTTATGTCGATTGTGGGATGGATTCTTGGG
CTTGGTGATCGACATTGCGAAAATATCCTCCTGGACGTGATTACGGGCGATGCTGTCCATATCGATTTCAATTGT
CTGTTCGAGAAGGGCAAAGTGCTTCTTACCCCTGAACGCGTGCCATTCCGCTTGACACAGAATATCGTGGATGGA
CTTGGGGTCACTGGAGTTGAAGGGATGTTCCGGATAGCGTGCGAGCTGACTATGGATCTTCTGCGAAACAACATG
GATTCGCTCATGAGTGTACTCGATGCGTTCATTCATGACCCGCTTGTTGAATGGGAAGATGAGAAGAGGAAGCAG
GAAAACCGAAGTCGTCGCTCAGCACAGCAGGTTCCGGTGACGACTACGAATATAGCGAAGAATGCTCTGAATGAT
ATCAAGAAGAAACTTGAGGGCCGGTTCACCCCGTATACGGATTCGCAGTTTGAGCAGCCTGAGAAGTTGCTCTCG
ACGAAGAATTTGGTGGAAGCGTTGATCAACGAGGCGTCGAATCCAATGAATTTGTCAAAGATGTACCCTGGGTGG
GCGCCATGGAATTAGTAGATTTGCCTTTGTGCTTTTGAATGTATTACTATACCTCTAGATGTCATTACTATTATA
CAATCTATAATACAGGATGGTGATACAGAAGATGGGTTAAGAGACATCAAGCATTAGCGATTACCTGTTTCTTCA
GCCGTTCCAATTCCTTCTCTTTTTCAATCAACTCGGTCCTCAAACGCTCCTGCTCAGCAATAACCTTCTTCCGCG
CCTCTTCCAGCCGCTCAGCCTCCTCCTGGATCATC
Length 7535

Gene

Sequence id CopciAB_19106.T0
Sequence >CopciAB_19106.T0
CTCTCAATGATTCGACACCATTAGGTTCCTCCAAATGTCCTCGAAACGCGTACAATGTCGACAAATGCCTCCAAA
GCGACGACTGAACTAGATGGCGCAGCGAATGCCAACTCATCGAACTTCAAAAACTCAGGACTGTTCAAAAGCCTG
AACCAAGTGCTCGAAGACCTGAAGCGGCGCCCTGAAGGATTCGACCCAGCTGACGCCTCGCACCGTGTTCTCGAG
GTCGCCCAATCTTTTCTTTGTGGATATGCGTCGCCGCACACGACACGAGCATGGGCCGACCTGATGGAGGAGATT
ATCCCCCTCACAGAGGGTCTGCTTGCCCTTATCCAGATGATGTTTGCAACTCAGTCGCCGAGCATTTACCACTAC
ATGCGCGACTCCGTCAAAATCGTCTTCTGTAGACTGGTGGATATTGGGTACACGTTGGGACTTTGGATGGACGTG
GTCGAACCGGACGACGAGATCCAACCTTCACCAGGCAAATTGAGAAACAGTGTACTGGAGGTGTTGGCGGAAGTG
CTTTCAGGGCTCCCAAAGCCCTTCCCGCGTCTCCCAGCCCCGGCTCGTTCAATCTCTTCAGACCAATTTGCCGAA
GCTCAGAAATTCCAGAACCCAGAAGCCCTAAAGGTACTGCGAGAGATGGTGAATGAGGTTGTGGAATTGACCGAT
AGTGCGTTTGATTGCCATTGTCATTCACAAATCGATTGTACTGACCTTTGGACCAAGAGCTAACTAACAATATCG
ACCAATTATCCTACCCTATCGTTGTGCAAATGTTCGATGCCACGAAGATACAAGAGGTGCCTGAATACACTGTAA
GGTCCACCACCTCCATGTCGATGCTGCTGTACTGAGGGATTCGCAGCGAAACCTGGGAAGACCCCTGCTCATCTG
TTTGAAGTTTTCGGAAGATGGGATAGTCTTGTTGACGACGATGTTAGAATCTTTACTGCCGCTGGTGTCTTCCCC
TTCAGTCGTCCAGCTTTATCTTGGAACGGAGCGCAGACTCCTTGTCGAATCCGCCAGACGGGTATTCGACTACAT
TCTGAGCCCATCATGTCACTTCACCAACGACAGGCGGATACGATGGCTCGGAAAACTTTTCCAGGTCGTTCTTGA
AACGCTCAGCGACACAAGTTCTTTATTTTCTTACATGCAGGAGAGGCTCCTTCATTCCCGGTATGATGGAACAAT
CCATGGCAACACGACAACGTTGGATGTTTTGTTGAATCAATCATTTGACCGACCGTTTTCAACCGCCTCAAGAGC
CGTCGTTTATCAAGCCCTGGGTTGTCTGAACGCCAGTCCAAACGACGAACGAAACCCACAAGTCCATGTAAGTTT
TCCACCCTCTTTGGATGTTATTGGGACTCATCGTCCATAGACACTGGCAATTTCGTACCTGAAGCATTCGTTATC
CGGCATCGACAAGGAACTCCTTCCTCTGGTGCTGAAGCATCTACAGGCCACCGTTGGCCATGCAATCGAACCTCC
CAGAACGCTGATCAAGGCTACCCAGCCGAAGCCATCTGCAGGATCAACTCAAGCGCGTATGAACCTCAAGGACCA
CGTCTGGCGTCGCCAAGTGCAGGAGCTCGTGCAAGCCATCATCTCCCCAGACTCCATAACATGGATGGATGATGA
TTTCCGCCCTAACGAGCCTTACACTCTCCGACGGATCCTTGCTGACGTTGCCGAAAGGTTCAGCAGGTAAGTGAC
CCCTTGTTTGTCCGCGTTGCGTCGTCTAATCCGACAAAGGCCATTGTCACAGGCCGACGACGAGTCGAGGATTAA
ACTTGCCCGGGATCTCGCAAAGTTGCCATGCCTATTAGTTGTATGCACCGGGGAGAGTTGCACCACTTTCCGGAA
TGCCAGCGCTCCCAGTTTATTGGGGTTCTATGTACCCATTCTCCAGGCTCTGCTAGCTGGGCCTGCAGACGAGGT
TACCCCATCAGTGCGAGGAGAGGTGTATAGTGTATTGCTACCGGTCCTGAAGCACCGAAACGAAGAGCAGCCCGA
TGAACCGGTATTGGAGATGATTACCCGGGGTGTAACAGACGATGACCGTGCTGTCCGCGTTCAAGCAGGGTGAGT
GTTACCTTCGCGTTTCTTCCTGCACAGTATTGATTTGAACTACAGTCTAACACTTCAAGCTGTTGTCGAGTTCTA
TTCTGGAAATACCTTGGCATCCCGGCAGAACATAGAGAACTTCTTCCACCGACTGTACCAGGTGTTCGAAGGGTG
CAGGCATTCTATCAAGGAAACGCTGCTCATTTCGGTCGGGTTTTTGGGAAAGTAAGTTGTGTTGACGTCTACTCT
ATTGCCGATCTCAAATCTTCGCAGAACTGCCAATCCCTTCATCCTGGGTTCCACTCTGTGCCTATTGATCCTTCA
GCTTGGCCAAAGCAATTTACTATTACACAGCCTGGCATGCACGCAGGTAAGCTCCCCTACGAACTCCCTTTTCCC
GTTTTGCTGACCAGTTGAGTAGTTACTGAATATCTCAAGGCATCATAAAAAGAGCATCTACTCCCTCTTGTCGCC
ACATTTCGACAGAGTAGTGAAGATCGTCTTTGAACGCCTTTCGACCCAGCCGACGTTGCTAACCGAGCTATGTCG
CCTGATGCAACTGAATATCGAAGAGTTTATCTCTAGGCATCACGCCAAAGCATTGCCTGACGTTCTCCTCAGATG
TGACATGAAGGGAGTTGATCTCATCGCCCATAGCCTAGGCAAGAATCGCAGCACGACAATTCTCGACTCTCTTGA
TAAGATCCTCGTCCCCATCCTCCTACTGCCGACAGTTCCACAAACCAACAAAGCAGTCGCCTTCTTGATCGGCAT
CTTCAATGAAGACTCACGAGACGCAAAGATTAGTCTTAAGACCATTCTCCCTGGACACACCACATCGGTTTTGAC
GGAACTGGTTATCAAGATGGGGGTTGATGACCCTCAGAGCAGGCACCAAGTAGGAATTTCTGTTGTATCACATAG
GGGATGTCGCTGACCAGCGTCCCCATAGGCGTTGAACGCTGTGAAGAAAGTTGAAACCGCCCTCCAAAAGGGGAC
AATATCTATCAGTCAGAAGGCGAACCCAAGCGAGTTCCTTGCTACTCAGATGCTTGGGATCATGTCGAAGATTAT
CGACACACTGCAAGATGTTCATGGGAAGAAAACTGTGGAAGCAAAGGAGCAGATCATTCGCAGTATCGGGGTTTT
CATCTCGCTGGTGGGGCCTCCAATCCACAGCCTCTCGTCTCAAGTAAGCGCGCGCGGCCCCGGCAATGGTACACG
GCTAACTGTCCTGATCAGATTATGGCGATATTCCAGACCTCATTGTCTGTCGCAGAGCTTGCTGAAGTCACTCTG
GAAAGTTGGCATGAATACCTCGTCACCATTCACTCGAAGGACCTTGGCCCACATCTAGGATCTACGTGCTCAGCA
TTTGTGTCAGCGTGGCCTAACCTAAGCGACAGGGCCCGCAAGATCATCGTCGAATCGTTGCAGCTGGCATTCGGT
CGCCTGAAAGATGACCTTATCCACTACCTCGACGACCTTCCTGATCTATCCATCATCGACGACTTGAAGCCTCTT
CACTTCCACCTTTCCCAACTCCGCCACCCACTTTCCCCGCGCGACAGCCTCGAGAAGTTACTCGATCGATGTTCC
AGCAGCAATCTGACCATCGCGACCCTTGCTCTCGAAGAACTGAAGCGATTCATGCAAACAGGAGACCCTGCACTT
TTGCATGAGCTCTTGGAAGACGACATGTTTGACCCAATGATTGGTCGCCTTATCTCGACTGTTTATTCCGCCGCT
GCAAGAGATGGTGACCTGACCGAGTCGTTGCGTCTGGTCGCCTACGAATGCATTGGTATCCTTGGTGCCCTCGAT
CCCTACCGATTCCAACTCCCCGCTAGACGAGCAGATACCATTGTCCTCAGGAACTTTACCGACGAGAACGAGACG
TACCAATTCATCATCAACCTTATCGAAGAACTGGTCGACGCCTTCCGATCGACAAGCGACATGAAATTCCAAACC
AACCTTGCGTATCCAATCCAGGAGCTCCTCAAGCTCTGTGGATTTACCTCAGACCTCGTCAACTCGGGAAGAGCT
GTCCCGCTGAGGACGCGGAATCGCTGGGCGGGGCTGAAAAAGGAGGTGATGAATGCGGTGACGCCGTTGCTGGAA
GGTCGCTTCTCCTTCTCTAACACTGTTCCCGCCGTCAAGCTTCCGGTCTACCCCACGCAATCGACTTATCGTGAA
TGGCTCCAACTCTGGGTCACCCATCTAATCTCGAGGGTATCTGGAGATTCCGCTCGAAAAATATTTGGGGTGTTT
CAGTCTGTGGTGCGCAGCAAGGACGTGGTTCTTGCCACTCACTTGCTGCCTCACTTGATCCTCAACATCCTCATA
TCGGGCGAGCCGGATGACGCAGAGGACATCCGCACGGAGATCCGGATTGTTCTGGAAGACCAAGTAGACCCGAGC
AGCACATCGACGCATGACAAGAAGATTCTCAGTGCACAGGTATGTAGCATAGTCATCCTCTGTGACCCAGGCGTT
AATATTCCTTGACAGGCTATATTCACGCTCTTAGATCATCTGAACAGATGGGCACATATCATGAGGCGAGAGATT
ACGACGAAACAGAAAAGCGAAACCAAGCGAGCGCGTGCCTCTGTTGCACTGGGAGAGAGTCAAGAACAACTCCTT
CGACTGGATTCCATCCTGTCAAACTTGGATAAACACTTGGTTGCAAAAGCTGCGTTCCAGTGCAAGGCCTATGCG
AGAGCCCTCATGAACTTTGAGCAGCAGATTCACGCTCTCAAGGAACTGGATAACAACAAGAATCTAGAGCCGTAC
TACGACACCATCCACGAAATATACGCTCATCTGGACCAGCCTGATGGCATGGAGGGCATCACCGCGCTGATTCAA
TCGCCGTCTTTGGAGCACCAGATTCGAGAGCATGAAAGCATTGGACAATGGACGTCGGCTCAAAGTTGCTGGGAG
GTACGACTGCAGGAGTCTCCCGATAACCTGGAATATCACCAAGGTCTTCTTCGCTGCCTACGCAACCTAGGACAT
TACGGTAAGTATCCTCCCTGTAGTATTCACTGCATGCTTAAGTTCTGTGTAGATACCCTGCGCAATCATGTCAAA
GGCATACTGACCAGCCATCCTGAATGGCAGGCAGATGTCATCGATTTCCACACGGAGACTCTGTTGATGGTCGGA
GCATGGGACGACGTTGAAGCTCTCGTCAAGACAGCGGATTCGACTTCGGTCCCTGTTATGATGGCAAAAGTTATG
CTTGCCATGCGCAAAGGCGATCCTCAAGCTATATCTGATGCATTGTCTCTCGCGCGTCTCACCCTCGGAGCCCCG
ATAAGCGCAGCAGGCGTCAATGGCTACGCTCGGTCATACGAGGCAGCTCTCAGCCTTCACCATCTCTACGAGTTG
GAATTGATACACAACACCACGAGAAATCTACCATCGTTATCCACGCGTCGAAAACAAGCGTTGACGCGGTTATCT
TCAATCCTTGCGGACCGATTGGAAAATGTGCTCCCGACATTCCGAAACCTCGAACCCATTCTGAGTACACGTAGG
ATTGGCTTCTCCCTCATGTGTGCACTACCGCTAGCCTTTCGATCTCGTCTGACTTTCTTCCATTTCAGGCCAGGG
ACAAGCCCAGATCTCGTGAAAGAGGTGGGGAAAGCGTGGTTGTCGAGTGCCAAAGTCGCTCGCAAGGCTGGCCAT
TGGCCGACGGCGTATAGTGCCATATTGCAAGCGCGACAAAGCGGGACCCCTCTCTGGTTCCTCGAGAGCGCGAAA
CTTATGAAAGCCTCCGGTGACTTCATAATGAAGGCTGTCCGCGAATTGGAAAGCCACATGCAGTCGCTTGGTCTG
ATATCCAACGGAAATGTGCTTGATCTTACTCTCGATGACGAGGTCGTGAACACGAAACACAAGGTAGGTTTTCTG
GATTCTCCTCAGGGTTCCTTTGCTTATCCCATCGTCAGCTTTTCCTGTGGCGCGCGCGGTGGATGAGTGAATCGG
GAAGATTCGACGGCACCCCTCTCCTTGAGGCATTCAAACGGGCGACAGAGTTGGACAAGAGGTGCGTCGATTTCA
CTGCACTCGCTGATTAATTCTTAAAACCATTTCAGATGGGAAAGCTCCCACTTCTACTTTGGTAATTTCTATGAT
GCTTCTGCAAAGGACCTCAAGCCCACCGACGCAAGACGGTCAGTATCAATTCCCCACACCGATTCTCCGCCCCTG
ACATCCGTTCCAGGCTGAAGATGAATATGCACATGCTCAGAAACTATTCTCGCGCAACCCGTTATGGAACAAAGT
TCATCTATCAAACCATCCCTCGCTTGCTGACTGTCTGGCTCGACAATGGAGAAGATAAGAATATATTTGGAACTG
ACGTGTTTAACAAGATGAACGAAGTGGTGGCTTCGGCCATCAAAGATATACCAGCCTACAAGGTGAATGCTTAAG
CGCTCGACCAATGCTCCTTACTCACCTTTGTCCAATTATACCTTGTAGTGGTTTACTGCCTTCCCTCAAATTGTT
TCTCGCGTTTGTCATCCCGTGGACAAGGTCTACAACTTGGTGTCCCAATTGATTGTCTCGATCATCCAAGAATAC
CCCGACCAGGCGCTATGGCTGTTTGCAGGCGTCATCAAATCGACAAAGCACAATCGGTTGACTCGGGGCAGGGTC
ATATTGGAGAAAGCAAAGGTGGGCGTTTAATTCTAGGGCATGTCTAGAACACGGTTAACAATACCTTAGAGTTCT
CCATCAAGTTCGGCGAGAATCTCAAGGCTCATTTCCGATTTGCACGTCATGGCCAATGAAATGCTAGCCCTGTGC
GAATACCCCGTCTCAAAAGAGCACAGTCTTTCTATGCCCAAGTTGTTTCCCCGTCTAAAGGCAATAGGGGAATGT
TCGCTCCTGATTCCCTTGCTGGTGTCGCTCACCGTCAGCCTTCCTTCTTCTTCTTCTGCTGCTGGAACCCACCAA
CCCTTCCCGGACGATGCACCTACCTTCAAAGGTATACTTTATTTCTTCGTTCCTGTGGGGTCAAATATTCATGGA
TTGTTGCAGAGTTCTCAGACGAAATCGACGTCATGAGGTCCATGGCGAGGCCGAGAAAGATATGGATTACCGGGA
GCGACGGAGGGGAATACATCATGTTGATTAAGCCTAAAGATGACCTTCGCAAAGATGCCCGTTTGATGGACTTCG
ATACAATCATCAACAGATTGCTGAAGGCCAACGCTGACGCTCGAAGGAGGAAGCTGTGTATGTGGACGTTTTCTT
TCATGGGTCTTGTTCTCTCGCGCTGACCCGCTCTATGCTCTACAGATATCAGGACATACGCTGTAGTCCCGCTGA
ACGAAGAATGTGGCTGTATTGAATGGGTACAGAACACCTCGCCTCTTCGGCCGATCTTATTCAAGTACTACGAGG
CTCGAAGAATCAAGACATGGGTAAGAACCTTTTCATTTGACCCCAACTTCGTTGAATCACTAAAATGGAACTTCC
TTCGTAGACAGCTGAACTGGAAGCACAGTGTAACAAGATCAAAGACGCTCAAGCGGCTGATGCAGGAAACATCTT
CGTTAAAAAGATTCTCCCGATGTAAGTTTTTCTTCTCTTCTCTCTTCCCTGATATCTTTTTAACTTGGACTCGGG
CCGTTTTGCGTGTAGGTTCCCCCCGGTGTTCCATCAGTGGTTCATTGAAACGTTCCCAGACCCTTCGGCGTGGTT
GGAGAATAGAACCAACTATGCGCGGACTGCGGCTGTTATGTCGATTGTGGGATGGATTCTTGGGTGAGTGGTTTC
TTCCCCTGAATTAGAGGTCGTGTGCATAGAATGGCTGATGCGTGTTCTGTACTCAGGCTTGGTGATCGACATTGC
GAAAATATCCTCCTGGACGTGATTACGGGCGATGCTGTCCATATCGATTTCAATTGTCTGTTCGAGAAGGTATGT
TCGCTTTGAGTTTACGGGTCCGGTCTTAATAAACTTTGGTTTCACTCATGACAGGGCAAAGTGCTTCTTACCCCT
GAACGCGTGCCATTCCGCTTGACACAGAATATCGTGGATGGACTTGGGGTCACTGGAGTTGAAGGTAAGCATCTA
GGGACCAACGCGTATCTTCATTCAAGTTCTGTAATTGACGCTATTGCGCAATCAGGGATGTTCCGGATAGCGTGC
GAGCTGACTATGGATCTTCTGCGAAACAACATGGATTCGCTCATGAGTGTACTCGATGCGTTCATTCATGACCCG
CTTGTTGAATGGGAAGATGAGAAGAGGAAGCAGGTATGTTCTCGATTCCGTAATAGGGAACGAGGAATTCGAATT
GATCCAATGTGTTAGGAAAACCGAAGTCGTCGCTCAGCACAGCAGGTTCCGGTGACGACTACGAATATAGCGAAG
AATGCTCTGAATGATATCAAGAAGAAACTTGAGGGCCGGTTCACCCCGTATACGGATTCGCAGTTTGAGCAGCCT
GAGAAGTTGCTCTCGACGAAGAATTTGGTGGAAGCGTTGATCAACGAGGCGTCGAATCCAATGAATTTGGTATGT
TTCTGGTCGTATTTTTGTTCATTTCAATGAAGCTGATGGTTTGCTTTAGTCAAAGATGTACCCTGGGTGGGCGCC
ATGGAATTAGTAGATTTGCCTTTGTGCTTTTGAATGTATTACTATACCTCTAGATGTCATTACTATTATACAATC
TATAATACAGGATGGTGATACAGAAGATGGGTTAAGAGACATCAAGCATTAGCGATTACCTGTTTCTTCAGCCGT
TCCAATTCCTTCTCTTTTTCAATCAACTCGGTCCTCAAACGCTCCTGCTCAGCAATAACCTTCTTCCGCGCCTCT
TCCAGCCGCTCAGCCTCCTCCTGGATCATC
Length 8955