CopciAB_374670
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_374670 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 374670
Uniprot id Functional description Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Myosin family
Location scaffold_5:109149..113962 Strand +
Gene length (nt) 4814 Transcript length (nt) 3935
CDS length (nt) 3219 Protein length (aa) 1072

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Ustilago maydis CHS6

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7259410 75.2 0 1652
Pleurotus eryngii ATCC 90797 Pleery1_1457936 71.4 0 1587
Hypsizygus marmoreus strain 51987-8 Hypma_RDB20078 71.2 0 1574
Pleurotus ostreatus PC15 PleosPC15_2_1093142 70.7 0 1560
Pleurotus ostreatus PC9 PleosPC9_1_114601 70.7 0 1560
Lentinula edodes W1-26 v1.0 Lentinedodes1_13097 68.8 0 1513
Lentinula edodes NBRC 111202 Lenedo1_1175530 68.6 0 1510
Schizophyllum commune H4-8 Schco3_2620678 68 0 1509
Ganoderma sp. 10597 SS1 v1.0 Gansp1_115517 67.7 0 1507
Auricularia subglabra Aurde3_1_1407760 60.5 0 1361
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_212165 77.5 0 1015
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_91131 75.1 1.18E-290 916

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 210.0881 17.0068 9.8189
oidia 190.7467 18.5453 10.7071
vegetative_mycelium 165.4133 22.8752 13.207
primordia 180.3466 3.9514 2.2813
hyphal_knot 207.1372 21.0569 12.1572
young_fruiting_body 1914.4652 229.0585 132.247
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 183.7118 12.7485 7.3604
Wheat bran 86.8154 24.1578 13.9475
Horse manure 191.7488 55.6973 32.1568
Oak leaves 217.2698 6.1932 3.5756
Hay 158.267 16.6624 9.62
Corn stalk 183.4184 33.4032 19.2853
Pectine 255.5842 6.0332 3.4833
Microcrystalline cellulose 145.3626 37.9023 21.8829
Xylose 224.2208 41.3676 23.8836
Cellobiose 156.2474 41.6981 24.0744
Lignin 209.0334 38.3566 22.1452
Apple peels 186.5105 32.7333 18.8986
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 194.8575 14.0445 8.1086
Bsubtilis 201.796 2.7124 1.566
Ecoli 262.0766 15.3797 8.8794
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 71.9119 3.4119 1.9699
BS 4h 73.9458 8.5678 4.9466
BS 8h 71.1264 2.4548 1.4173
BS 12h 66.3791 19.3375 11.1645
Oidia 0 h 69.9892 30.7664 17.763
Oidia 18 h 115.3456 31.4433 18.1538
Sclerotia 70.9599 25.0218 14.4464
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 71.782 10.7628 6.2139
DM 36h 98.525 10.4968 6.0603
DM 60h 102.2742 1.094 0.6316
DM 84h 87.1824 1.4381 0.8303
DM 108h 105.4298 21.3261 12.3126
DM 132h 119.6327 10.1764 5.8754
DM 156hAE 118.6226 8.2201 4.7459
ELI1hAE 105.9331 16.5465 9.5531
ELI2hAE 107.2798 9.4101 5.4329
LI2hAE 108.5041 18.9458 10.9384
LI6hAE 122.6777 1.6329 0.9427
LI12hAE 91.0502 9.9065 5.7195
LI18hAE 85.0792 7.3447 4.2405
LI 24hAE 136.6018 21.4526 12.3857
DM 156hAM 85.3622 2.5718 1.4848
ELI1hAM 72.3651 12.3361 7.1223
ELI2hAM 65.2031 12.8451 7.4161
LI2hAM 64.0937 12.9203 7.4595
LI6hAM 94.1003 15.5433 8.9739
LI12hAM 66.6147 6.7316 3.8865
LI18hAM 80.5786 22.6288 13.0647
LI 24hAM 102.7733 19.5085 11.2632
LI 24hHK 98.8345 5.7252 3.3055
L/D 6h 98.3421 17.0993 9.8723
L/D 12h 108.1011 7.3324 4.2334
L/D 18h 120.7569 7.619 4.3988
L/D 24h 121.1165 11.9977 6.9269
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 89.9548 16.8348 9.7196
Hyphal knots 161.3011 54.6214 31.5357
Primordium 1 117.044 20.5741 11.8785
Primordium 2 105.0446 17.7027 10.2207
Young Fruiting body cap 338.0982 139.11 80.3152
Younf fruiting body gill 320.196 307.0821 177.294
Young fruiting body stipe 246.0645 84.0382 48.5195
Mature fruiting body cap_gill 339.0043 20.2459 11.6889
Mature fruiting body stipe 328.7622 28.3893 16.3906
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 387.6129 150.7373 87.0282
NH4NO3 211.0557 79.6746 46.0001
Proline 281.785 134.4861 77.6456
Tryptophan 192.9375 71.5189 41.2915
Isoleucin 279.1585 99.5268 57.4618
Arginine 399.774 51.3899 29.67
Metionine 210.9798 11.9162 6.8798
NaNO3 476.9428 9.3894 5.421
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 387.6129 150.7373 87.0282
Citrus peel 681.5973 169.4181 97.8136
Poplar leaves 341.5024 64.0312 36.9684
Typha leaves 451.241 144.2904 83.3061
Overwintered Salix leaves 531.2819 147.6514 85.2466
Reed flowering 784.3661 177.0115 102.1976
Tigernut 463.4827 29.3002 16.9165
Energy cane 389.4545 99.6389 57.5265
Guar gum 363.2438 361.8869 208.9355
Apple peels 489.2394 113.6 65.587
Cellobiose 436.1762 105.0231 60.6351
Corn stalk 322.0132 31.3892 18.1226
Horse manure 336.6622 128.333 74.0931
Lignin 899.6203 318.5312 183.9041
Microcrystalline cellulose 459.3201 102.8329 59.3706
Oak leaves 274.4513 39.9956 23.0914
Pectin esterified 254.322 70.1597 40.5067
Poplar sawdust 194.8683 50.3277 29.0567
Wheat bran 225.0638 86.3022 49.8266
Chlamydomonas reinhardtii 249.8293 35.4217 20.4508
Vertatryl alcohol 267.4878 9.221 5.3237
Furfural 188.7567 95.0473 54.8756
Autoclaved mycelium 350.5267 74.7652 43.1657
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 141.9787 5.4889 3.169
Ribose 210.1912 9.5827 5.5326
Mannose 194.9165 22.7909 16.1156
Fructose 185.553 15.7079 9.069
Arabinose 207.2799 8.9337 5.1579
Xylose 197.6311 13.165 7.6008
Galacturonic acid 209.0504 21.8136 12.5941
Rhamnogalacturonan 187.9927 14.8727 8.5868
Pectin esterified 192.3535 3.5758 2.0645
Polygalacturonic acid 186.4487 24.0907 13.9088
Sodium acetate 221.3321 15.0433 8.6852
No nitrogen 188.8401 23.7026 13.6847
BSA 203.1349 13.0062 7.5092
Glutamine 190.5652 6.5561 3.7851
No phosphate 192.5901 18.2085 10.5127
No carbon 250.4315 0.7262 0.5135
No sulphur 210.7086 23.2669 13.4331
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 387.6129 150.7373 87.0282
Amylose 148.7843 20.5479 11.8633
Fucose 171.5341 43.6163 25.1819
Galactose 168.5326 19.987 11.5395
Lactose 167.4478 15.5325 8.9677
Maltose 178.195 19.1027 11.0289
Mannitol 182.9498 21.986 12.6936
Rhamnose 298.7399 127.4075 73.5588
Sorbitol 163.1791 39.9148 23.0448
Trehalose 253.7835 165.7202 95.6786
Glycerol 285.9013 172.9414 99.8477
Glucuronic acid 134.6672 10.4893 6.056
Arabinan 187.0866 95.5767 55.1812
Galactan 403.1158 77.8823 44.9654
Galactomannan 246.204 129.5416 74.7909
Glucan 333.0063 60.2418 34.7806
Xylan 180.0043 54.9413 31.7204
Xyloglucan 145.218 14.9769 8.6469
Arabinogalactan 140.4034 8.7872 5.0733
Pectin 436.4212 242.5266 140.0228
Rhamnogalacturonan 834.2668 249.6501 144.1355
Polygalacturonic acid 187.6143 54.422 31.4206
Mannan 235.4326 84.6815 48.8909
Amylopectin 286.7942 124.3943 71.8191
Inulin 168.8905 19.1883 11.0783
BSA 880.2442 29.8156 17.2141
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 102.2742 1.094 0.6316
2h WAT 76.5826 14.2398 8.2213
4h WAT 76.6528 22.4706 12.9734
8h WAT 73.4112 2.5747 1.4865
16h WAT 100.8349 12.1132 6.9936
24h WAT 95.2476 15.4827 8.9389
WAT hyphal knot -30h 94.5349 9.984 5.7643
WAT hyphal knot -22h 106.8843 16.0189 9.2485
WAT hyphal knot -15h 99.8527 3.9716 2.293
WAT hyphal knot -7.5h 83.237 12.0027 6.9297
WAT hyphal knot 86.7729 5.8946 3.4032
WAT hyphal knot +7.5h 83.6271 9.7193 5.6114
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 408.3822 133.456 77.0509
Straw 3h 314.7358 60.5007 34.9301
Straw 6h 346.6677 69.504 40.1282
Straw 12h 408.1414 143.172 82.6604
Straw 24h 440.1254 56.8582 32.8271
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 139.6114 37.7413 21.79
Frost (-20C, 30min) 65.8825 8.2887 4.7855
Heat shock (47C, 2h) 189.9498 7.6344 4.4077
High CO2 75.3589 5.1649 2.9819
Drought (4% agar, 12h) 57.548 13.4008 7.7369
Oxidative (1mM H2O2, 3h) 77.4896 17.074 9.8577
Acidic (pH4, 3h) 113.6711 6.0972 3.5202
Alkaline (pH9, 3h) 72.9566 4.2825 2.4725
Osmotic (sorbitol 2h) 70.8057 4.3544 2.514
CongoRed (3h) 102.5289 20.0173 11.557
Cobalt chloride control 75.1345 5.259 3.0363
Cobalt chloride 2mM 72.4741 8.1257 4.6914
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 91.6141 38.5596 22.2624
Cold stimulation 62.8077 18.6955 10.7938
Scratched surface 103.0173 3.1192 1.8009
Ca2+, 200mM, 24h 54.6646 7.2387 4.1793
Cu2+, 2mM, 6h 72.0054 4.2047 2.4276
Voriconazole 55.4411 15.8261 9.1372
Trichoderma interaction, early 79.1529 11.2742 6.5092
Trichoderma interaction 60h 50.3539 9.4626 5.4632
Cobalt chloride 2mM repeat 78.7099 21.4237 12.369
Hypoxia 95.0001 28.4398 16.4197
Hypoxia control 69.2568 6.0321 3.4827
Protoplastation control 68.1356 7.992 5.6512
Protoplastation 3.5h 114.4173 22.6741 16.033
Protoplastation 1.5h 126.8015 30.4329 21.5193

General data

Systematic name -
Protein id CopciAB_374670.T0
Description Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Myosin family

Annotation summary

0 300 600 900 1072

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd04190 Chitin_synth_C - 332 663
Pfam PF00173 Cytochrome b5-like Heme/Steroid binding domain IPR001199 59 123
Pfam PF03142 Chitin synthase - 306 812
Pfam PF08766 DEK C terminal domain IPR014876 1015 1069

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
1 27 49 22
2 293 315 22
3 685 707 22
4 714 736 22
5 746 768 22

InterPro

Accession Description
IPR036400 Cytochrome b5-like heme/steroid binding domain superfamily
IPR001199 Cytochrome b5-like heme/steroid binding domain
IPR004835 Chitin synthase
IPR029044 Nucleotide-diphospho-sugar transferases
IPR014876 DEK, C-terminal

GO

Go id Term Ontology
GO:0004100 chitin synthase activity MF
GO:0016758 transferase activity, transferring hexosyl groups MF

KEGG

KEGG Orthology
K00698

EggNOG

COG category Description
M Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Myosin family

CAZy

Class Family Subfamily
GT GT2 GT2_Chitin_synth_2GT2

Transcription factor

Group
No records

Conservation of CopciAB_374670 across fungi.

Arrow shows the origin of gene family containing CopciAB_374670.

Protein

Sequence id CopciAB_374670.T0
Sequence >CopciAB_374670.T0
MPSFLLHRIGRMKRPDVRLAWREKFTIFWLIVLFNALVIFFIVMFGRLLCPEYDRAWSLDEVATHQGEDDYYVTI
QGWVYDLTDFIRADHAKMPNLRSNTPENKEALAGQDLTYYFPPPLVLACPHLVDDDTLFLTRKNWTVLVETARHE
SGRLARGGSEGLEDPEWYVNKFVRKMREFRKGPLVWDRKLVREWARDENMEKIWSIYEDKLYDLTDYVHTLDLNQ
NAGPYKFLNDDIVDVFRRGAGDDITENLNKLFTQLSKAERDVNMNCLTNAFYMGETDFRKTARCQASNYLLIIAS
VILMSSMGLKFLAALQLGSKRSPELQDKFVLCQVPCYTEGEDSLRRTIDSLAALNYDDKRKLIFIICDGNIIGSG
NDRTTPRIVLDILGVDPSVDPEPLLFKSVGEGSRALNYGKVYSGLYEFEGHVVPYMVVVKVGKPTERSKPGNRGK
RDSQILLMQYLNRVHFDSPMNPLELEIYHQMRNVIGIDPAFYEYIFTIDADTTVTPDSLNRLVASSADDSSIIGI
CGETKLANEETSWWTMIQVYEYYISHHLSKAFESLFGSVTCLPGCFSLYRIRTADKGRPIIISNRIIEEYAEPNV
DTLHKKNLFSLGEDRFLTTLLMKHFPSFKTKFCPDAVAHTMAPESWRVLFSQRRRWINSTVHNLCELVILPELFG
FCCFSMRFFVFIDLLSTIILPATVVYLVYLIVVVATRASAFPKIAIIMLSIVYGLQAIIFIIKREFMLIGWMVVY
ILSYPVYSFFLPVYSFWCMDEFSWGNTRVVVGEGKEKKVLMNEDDKFDESMIPLKKFSEYEAEAWDTASRRSDDT
GYQSRSKHHAPPRSRNESPRGSVYGHGSDYYRDGNPLNNNSNPNLRLPHLTGNGSQHSHSGYSLSQYQNAAPMST
FGGPQLPFMPFGGTGSVAGSDYGGPTAGGMMMPGMMGYQNTGSVYGIPAMMTGGTAPRNTMMSTGFGMGGGMFGS
GGVSQDGVMMGGGVGARPMSTFSMATSVNPFAGPSMNPNPTDEELFSALRTYLSTQDLMSVTKKTTREAIAAKFP
KADLTNKKDFLNQSIDRILSES
Length 1072

Coding

Sequence id CopciAB_374670.T0
Sequence >CopciAB_374670.T0
ATGCCGTCCTTCCTCCTGCACCGGATCGGTCGAATGAAGCGACCCGACGTTCGACTCGCCTGGCGTGAAAAGTTT
ACGATCTTTTGGTTGATCGTTCTTTTCAACGCGTTGGTGATCTTCTTTATTGTGATGTTTGGGAGGTTGTTGTGT
CCCGAGTATGATCGAGCGTGGAGTTTGGATGAGGTGGCTACGCATCAGGGGGAGGATGATTATTATGTTACGATT
CAAGGGTGGGTTTATGATTTGACGGATTTTATTCGTGCGGATCATGCCAAGATGCCCAACCTGCGATCCAACACT
CCCGAGAACAAGGAAGCGCTGGCTGGTCAAGACCTTACTTACTACTTCCCCCCTCCCCTCGTCCTTGCGTGCCCG
CACCTCGTCGACGACGATACGCTTTTCCTTACACGCAAGAATTGGACGGTGTTGGTTGAGACTGCTAGGCATGAG
AGTGGGAGGTTGGCGAGGGGTGGGAGTGAAGGGTTGGAGGATCCGGAGTGGTATGTGAACAAGTTTGTGAGGAAG
ATGAGGGAGTTTAGGAAGGGACCTTTGGTTTGGGATCGGAAGCTTGTTAGGGAGTGGGCGAGGGATGAGAATATG
GAGAAGATCTGGTCGATCTACGAAGACAAACTGTACGATCTGACGGATTACGTGCATACGCTCGACCTCAACCAG
AATGCGGGCCCGTACAAGTTTTTGAATGATGATATTGTGGATGTGTTCCGGAGGGGGGCGGGGGATGATATTACT
GAGAATTTGAATAAGCTCTTCACTCAACTCTCGAAAGCCGAACGCGACGTGAACATGAACTGTCTGACCAACGCT
TTCTATATGGGCGAGACTGATTTCCGGAAGACGGCGCGTTGTCAGGCTTCGAATTATTTGTTGATTATTGCTTCG
GTGATTTTGATGAGTAGTATGGGGTTGAAGTTCCTCGCTGCCCTGCAACTCGGATCCAAGCGCTCACCCGAACTT
CAAGACAAATTCGTTCTGTGCCAAGTCCCATGTTACACTGAAGGCGAAGATTCGTTGCGACGTACGATTGATTCG
CTTGCTGCTTTGAATTATGATGATAAGCGCAAGTTGATTTTTATTATTTGCGATGGCAACATTATCGGAAGCGGC
AACGATCGGACGACGCCTCGGATTGTGCTCGATATTCTTGGTGTGGATCCCAGCGTTGATCCCGAGCCTTTGCTG
TTCAAGAGTGTTGGCGAGGGGAGTCGGGCGCTCAACTATGGCAAGGTTTACAGTGGGTTGTATGAGTTTGAGGGG
CATGTTGTTCCGTACATGGTCGTCGTCAAGGTCGGCAAGCCGACTGAGCGCTCCAAGCCTGGCAATCGTGGCAAG
CGAGACTCGCAGATCTTGTTGATGCAGTACCTCAATCGTGTCCATTTCGATTCGCCTATGAACCCGCTCGAGTTG
GAGATTTACCACCAGATGAGGAACGTTATTGGAATCGATCCTGCGTTCTACGAGTATATCTTCACTATTGATGCT
GATACGACTGTTACCCCCGACTCGCTCAACAGGCTCGTTGCTTCCAGCGCGGACGATTCTTCGATCATCGGTATT
TGTGGTGAAACCAAGCTGGCGAACGAAGAAACGTCGTGGTGGACCATGATCCAGGTGTACGAGTACTACATCTCT
CACCATCTCTCCAAGGCCTTCGAATCGCTCTTTGGCTCCGTCACCTGTCTTCCCGGTTGTTTCTCGCTCTACCGT
ATCCGTACCGCCGACAAGGGACGCCCGATCATCATCTCGAACCGGATCATCGAGGAATACGCCGAGCCCAACGTC
GACACGCTCCACAAGAAGAACTTGTTCAGTCTCGGAGAGGATCGTTTCTTGACGACGTTGTTGATGAAGCATTTC
CCGAGTTTCAAGACCAAGTTTTGCCCGGATGCTGTGGCGCATACGATGGCTCCTGAGAGTTGGCGTGTGTTGTTC
TCGCAGCGACGACGGTGGATCAACTCTACTGTTCATAACCTTTGTGAACTGGTGATTTTGCCCGAGTTGTTTGGG
TTCTGTTGTTTCTCGATGAGGTTCTTTGTGTTTATTGATTTGTTGAGTACGATTATTCTTCCGGCGACTGTTGTT
TATCTCGTTTACTTGATTGTCGTGGTTGCTACGAGGGCGTCTGCGTTCCCCAAGATTGCGATTATCATGTTGAGT
ATCGTGTACGGTCTCCAGGCGATCATCTTCATCATCAAGCGCGAGTTTATGCTTATCGGTTGGATGGTGGTCTAC
ATCCTCTCGTACCCCGTCTACTCGTTCTTCCTCCCCGTCTATTCGTTCTGGTGCATGGACGAGTTCAGCTGGGGT
AATACTCGTGTTGTGGTTGGTGAAGGCAAGGAGAAGAAGGTGCTCATGAATGAGGATGACAAGTTTGATGAGTCG
ATGATTCCGCTCAAGAAGTTCAGTGAATACGAAGCTGAAGCTTGGGATACCGCTTCCCGTCGTTCGGACGATACT
GGCTACCAATCCCGCTCCAAGCACCACGCTCCTCCCCGATCGCGCAACGAGTCTCCTCGCGGAAGTGTATACGGC
CACGGTTCGGACTATTACCGCGACGGCAACCCGCTCAACAACAACTCGAACCCCAACCTTCGACTGCCTCACCTC
ACCGGTAATGGAAGCCAGCATTCGCACAGCGGTTACTCGCTCTCGCAGTACCAGAATGCGGCTCCGATGTCGACG
TTTGGTGGGCCTCAGCTTCCGTTTATGCCGTTTGGTGGGACGGGGAGTGTGGCGGGTAGTGATTATGGTGGGCCG
ACTGCGGGTGGGATGATGATGCCTGGTATGATGGGGTACCAGAATACGGGGAGTGTGTATGGTATACCTGCGATG
ATGACGGGAGGGACTGCGCCGCGGAATACGATGATGTCTACTGGGTTTGGGATGGGAGGTGGGATGTTTGGTAGT
GGTGGGGTTAGTCAGGATGGAGTGATGATGGGAGGAGGCGTTGGTGCGAGGCCGATGTCGACGTTTTCGATGGCG
ACGAGTGTGAATCCGTTTGCTGGCCCGAGTATGAATCCGAACCCGACGGATGAGGAGTTGTTTAGTGCGTTGAGG
ACGTACTTGAGTACGCAGGATTTGATGAGTGTTACCAAAAAGACGACGAGAGAAGCTATTGCGGCCAAGTTCCCC
AAGGCTGATTTGACGAACAAGAAGGACTTCTTGAACCAGTCGATTGATAGGATTCTTTCCGAGTCGTGA
Length 3219

Transcript

Sequence id CopciAB_374670.T0
Sequence >CopciAB_374670.T0
GAGGAGGGGGTGGAGGGTCACCTGGGGGGGATATCAAGGTGAAAGAAGCTTCGAACGCTGTTGAAGAAGTTCCGA
CATCCTCGACTCGACGGTGGTGGCTCCGCATCGTCTGGCTCACGACCTTCTGGATGCCGTCCTTCCTCCTGCACC
GGATCGGTCGAATGAAGCGACCCGACGTTCGACTCGCCTGGCGTGAAAAGTTTACGATCTTTTGGTTGATCGTTC
TTTTCAACGCGTTGGTGATCTTCTTTATTGTGATGTTTGGGAGGTTGTTGTGTCCCGAGTATGATCGAGCGTGGA
GTTTGGATGAGGTGGCTACGCATCAGGGGGAGGATGATTATTATGTTACGATTCAAGGGTGGGTTTATGATTTGA
CGGATTTTATTCGTGCGGATCATGCCAAGATGCCCAACCTGCGATCCAACACTCCCGAGAACAAGGAAGCGCTGG
CTGGTCAAGACCTTACTTACTACTTCCCCCCTCCCCTCGTCCTTGCGTGCCCGCACCTCGTCGACGACGATACGC
TTTTCCTTACACGCAAGAATTGGACGGTGTTGGTTGAGACTGCTAGGCATGAGAGTGGGAGGTTGGCGAGGGGTG
GGAGTGAAGGGTTGGAGGATCCGGAGTGGTATGTGAACAAGTTTGTGAGGAAGATGAGGGAGTTTAGGAAGGGAC
CTTTGGTTTGGGATCGGAAGCTTGTTAGGGAGTGGGCGAGGGATGAGAATATGGAGAAGATCTGGTCGATCTACG
AAGACAAACTGTACGATCTGACGGATTACGTGCATACGCTCGACCTCAACCAGAATGCGGGCCCGTACAAGTTTT
TGAATGATGATATTGTGGATGTGTTCCGGAGGGGGGCGGGGGATGATATTACTGAGAATTTGAATAAGCTCTTCA
CTCAACTCTCGAAAGCCGAACGCGACGTGAACATGAACTGTCTGACCAACGCTTTCTATATGGGCGAGACTGATT
TCCGGAAGACGGCGCGTTGTCAGGCTTCGAATTATTTGTTGATTATTGCTTCGGTGATTTTGATGAGTAGTATGG
GGTTGAAGTTCCTCGCTGCCCTGCAACTCGGATCCAAGCGCTCACCCGAACTTCAAGACAAATTCGTTCTGTGCC
AAGTCCCATGTTACACTGAAGGCGAAGATTCGTTGCGACGTACGATTGATTCGCTTGCTGCTTTGAATTATGATG
ATAAGCGCAAGTTGATTTTTATTATTTGCGATGGCAACATTATCGGAAGCGGCAACGATCGGACGACGCCTCGGA
TTGTGCTCGATATTCTTGGTGTGGATCCCAGCGTTGATCCCGAGCCTTTGCTGTTCAAGAGTGTTGGCGAGGGGA
GTCGGGCGCTCAACTATGGCAAGGTTTACAGTGGGTTGTATGAGTTTGAGGGGCATGTTGTTCCGTACATGGTCG
TCGTCAAGGTCGGCAAGCCGACTGAGCGCTCCAAGCCTGGCAATCGTGGCAAGCGAGACTCGCAGATCTTGTTGA
TGCAGTACCTCAATCGTGTCCATTTCGATTCGCCTATGAACCCGCTCGAGTTGGAGATTTACCACCAGATGAGGA
ACGTTATTGGAATCGATCCTGCGTTCTACGAGTATATCTTCACTATTGATGCTGATACGACTGTTACCCCCGACT
CGCTCAACAGGCTCGTTGCTTCCAGCGCGGACGATTCTTCGATCATCGGTATTTGTGGTGAAACCAAGCTGGCGA
ACGAAGAAACGTCGTGGTGGACCATGATCCAGGTGTACGAGTACTACATCTCTCACCATCTCTCCAAGGCCTTCG
AATCGCTCTTTGGCTCCGTCACCTGTCTTCCCGGTTGTTTCTCGCTCTACCGTATCCGTACCGCCGACAAGGGAC
GCCCGATCATCATCTCGAACCGGATCATCGAGGAATACGCCGAGCCCAACGTCGACACGCTCCACAAGAAGAACT
TGTTCAGTCTCGGAGAGGATCGTTTCTTGACGACGTTGTTGATGAAGCATTTCCCGAGTTTCAAGACCAAGTTTT
GCCCGGATGCTGTGGCGCATACGATGGCTCCTGAGAGTTGGCGTGTGTTGTTCTCGCAGCGACGACGGTGGATCA
ACTCTACTGTTCATAACCTTTGTGAACTGGTGATTTTGCCCGAGTTGTTTGGGTTCTGTTGTTTCTCGATGAGGT
TCTTTGTGTTTATTGATTTGTTGAGTACGATTATTCTTCCGGCGACTGTTGTTTATCTCGTTTACTTGATTGTCG
TGGTTGCTACGAGGGCGTCTGCGTTCCCCAAGATTGCGATTATCATGTTGAGTATCGTGTACGGTCTCCAGGCGA
TCATCTTCATCATCAAGCGCGAGTTTATGCTTATCGGTTGGATGGTGGTCTACATCCTCTCGTACCCCGTCTACT
CGTTCTTCCTCCCCGTCTATTCGTTCTGGTGCATGGACGAGTTCAGCTGGGGTAATACTCGTGTTGTGGTTGGTG
AAGGCAAGGAGAAGAAGGTGCTCATGAATGAGGATGACAAGTTTGATGAGTCGATGATTCCGCTCAAGAAGTTCA
GTGAATACGAAGCTGAAGCTTGGGATACCGCTTCCCGTCGTTCGGACGATACTGGCTACCAATCCCGCTCCAAGC
ACCACGCTCCTCCCCGATCGCGCAACGAGTCTCCTCGCGGAAGTGTATACGGCCACGGTTCGGACTATTACCGCG
ACGGCAACCCGCTCAACAACAACTCGAACCCCAACCTTCGACTGCCTCACCTCACCGGTAATGGAAGCCAGCATT
CGCACAGCGGTTACTCGCTCTCGCAGTACCAGAATGCGGCTCCGATGTCGACGTTTGGTGGGCCTCAGCTTCCGT
TTATGCCGTTTGGTGGGACGGGGAGTGTGGCGGGTAGTGATTATGGTGGGCCGACTGCGGGTGGGATGATGATGC
CTGGTATGATGGGGTACCAGAATACGGGGAGTGTGTATGGTATACCTGCGATGATGACGGGAGGGACTGCGCCGC
GGAATACGATGATGTCTACTGGGTTTGGGATGGGAGGTGGGATGTTTGGTAGTGGTGGGGTTAGTCAGGATGGAG
TGATGATGGGAGGAGGCGTTGGTGCGAGGCCGATGTCGACGTTTTCGATGGCGACGAGTGTGAATCCGTTTGCTG
GCCCGAGTATGAATCCGAACCCGACGGATGAGGAGTTGTTTAGTGCGTTGAGGACGTACTTGAGTACGCAGGATT
TGATGAGTGTTACCAAAAAGACGACGAGAGAAGCTATTGCGGCCAAGTTCCCCAAGGCTGATTTGACGAACAAGA
AGGACTTCTTGAACCAGTCGATTGATAGGATTCTTTCCGAGTCGTGATTGGTTTGAGGATGTCCTTGTCGTCGTT
GACTCGTTTTTTTTCTTTCTTCTCTCTGCTACTACTATCACCACTGCATCTCGCATACATTTCATATACGTGCAT
CCATACGGACATTGGGATTTACCTTATACCGACTCTTTTTTTGATACGATACGGCACACTCCCTTTCTTCCTTCT
TCATTACCTTTTTTTCATTGCATCGATATGTCTGTCTCTCCTTATCTTGTCTTCTTTTTCTCAAGTACTCCATTG
CTCGCATAATATCTCGTCATGACCCTCTTTTTCACTCCTCTCTCTTTTTGATTGGACTTGGACGCGCACTGGACT
CTTTTTGTTAATTGTGATGCGGTTTCATTTTTGGTGTCTGTCGCTCGTTTTATTCATCCTGTTTTTACTCGTACT
AGTAGTATTATCCACTCTCCCTCCCTCCCTCATTTAGATGGCGATGGACTCGTTAATCGTCCTTTCCTTTCTCTC
TCCCTCTCTCTCGATGATCGATCCATCTCTCGTCTCTACTAGTAGTCATGACCTGGCATTTTTCATACATACGTA
CAGTACATCAGAATTCAAGTTTTGTTCCATCATCC
Length 3935

Gene

Sequence id CopciAB_374670.T0
Sequence >CopciAB_374670.T0
GAGGAGGGGGTGGAGGGTCACCTGGGGGGGATATCAAGGTGAAAGAAGCTTCGAACGCTGTTGAAGAAGTTCCGA
CATCCTCGACTCGACGGTGGTGGCTCCGCATCGTCTGGCTCACGACCTTCTGGATGCCGTCCTTCCTCCTGCACC
GGATCGGTCGAATGAAGCGACCCGACGTTCGACTCGCCTGGCGTGAAAAGTTTACGATCTTTTGGTTGATCGTTC
TTTTCAACGCGTTGGTGATCTTCTTTATTGTGATGTTTGGGAGGTTGTTGTGTCCCGAGTATGATCGAGCGTGGA
GTTTGGATGAGGTGGCTACGCATCAGGGGGAGGATGATTATTATGTTACGATTCAAGGGTGGGTTTATGATTTGA
CGGATTTTATTCGTGCGGATCATGCCAAGATGCCCAACCTGCGATCCAACACTCCCGAGAACAAGGAAGCGCTGG
CTGGTCAAGACCTTACTTACTACTTCCCCCCTCCCCTCGTCCTTGCGTGCCCGCACCTCGTCGACGACGATACGC
TTTTCCTTACACGCAAGAATTGGACGGTGTTGGTTGAGACTGCTAGGCATGAGAGTGGGAGGTTGGCGAGGGGTG
GGAGTGAAGGGTTGGAGGATCCGGAGTGGTATGTGAACAAGTTTGTGAGGAAGATGAGGGAGTTTAGGAAGGGAC
CTTTGGTTTGGGATCGGAAGCTTGTTAGGGAGTGGGCGAGGGATGAGAATATGGAGAAGTGAGTACCTCTTTCGT
TGTTGCCTACCTATGCTTTTTCTCTGGTTTTTGAGATTCGTTCGCCTTTGTCCTTTTTTCTTTTCTTTGGTCTTT
GGGGACTGGTGGATTTGGTGTATTTGGTGAACCCTAATCGCGGAATACTGACGCATCCCCACTCACCCGTCTAGG
ATCTGGTCGATCTACGAAGACAAACTGTACGATCTGACGGATTACGTGCATACGCTCGACCTCAACCAGAATGCG
GGCCCGTACAAGTTTTTGAATGATGATATTGTGGATGTGTTCCGGAGGGGGGCGGGGGATGATATTACTGAGAAT
TTGAATAAGGTGAGTTGGGTTTCGAGTGTTGGTTCGTTCCGTTTGGAGCTGTCGTCCCCCGGCGTGACGAGGATC
TGGCGAGGAGAGTTGGACGCTCGAGGGCGATCCTCAAAGGGCCTCGGAGGACGATGGGGAACCACAGAACAAGAA
CGAAAACGCTAACGAACCTCTTTTCCAGCTCTTCACTCAACTCTCGAAAGCCGAACGCGACGTGAACATGAACTG
TCTGACCAACGCTTTCTATATGGGCGAGACTGATTTCCGGAAGACGGCGCGTTGTCAGGCTTCGAATTATTTGTT
GATTATTGCTTCGGTGATTTTGATGAGTAGTATGGGGTTGAAGTGTGAGTGGTTTTGTTTTTCTGGCTTCTCTTT
TTCTTACTCGTGGTTTTGCATCGATGTCCCGGACTCGTCGCTGACACTCCTCGTCCTCGTTCCTTCTAGTCCTCG
CTGCCCTGCAACTCGGATCCAAGCGCTCACCCGAACTTCAAGACAAATTCGTTCTGTGCCAAGTCCCATGTTACA
CTGAAGGCGAAGATTCGTTGCGACGTACGATTGATTCGCTTGCTGCTTTGAATTATGATGATAAGCGCAAGTTGA
TTTTTATTATTTGCGATGTGAGTACTTGATCATTCGCTGGGAGTTGAGGACCGGTGTTTTTGAAACGAGGATGGC
GCTGACGGTGAATTGGGGAATAGGGCAACATTATCGGAAGCGGCAACGATCGGACGACGCCTCGGATTGTGCTCG
ATATTCTTGGTGTGGATCCCAGCGTTGATCCCGAGCCTTTGCTGTTCAAGAGTGTTGGCGAGGGGAGTCGGGCGC
TCAACTATGGCAAGGTTTACAGTGGGTTGTATGAGTTTGAGGGGCATGTTGTTCCGTGAGTAACCATCCACCATA
CATCTCGAACCGGTGACTGATGATTCGTCGCTACTAGGTACATGGTCGTCGTCAAGGTCGGCAAGCCGACTGAGC
GCTCCAAGCCTGGCAATCGTGGCAAGCGAGACTCGCAGATCTTGTTGATGCAGTACCTCAATCGTGTCCATTTCG
ATTCGCCTATGAACCCGCTCGAGTTGGAGATTTACCACCAGATGAGGAACGTTATTGGAATCGATCCTGCGTTCT
ACGAGTATATCTTCACTATTGATGCTGATACGGTGCGTTTTTTTTCTCGGTGGGGTGGAGGTGGGGTGCTGATGA
GGTGGTGTAGACTGTTACCCCCGACTCGCTCAACAGGCTCGTTGCTTCCAGCGCGGACGATTCTTCGATCATCGG
TATTTGTGGTGAAACCAAGCTGGCGAACGAAGAAACGTCGTGGTGGACCATGATCCAGGTGTACGAGTACTACAT
CTCTCACCATCTCTCCAAGGCCTTCGAATCGCTCTTTGGCTCCGTCACCTGTCTTCCCGGTTGTTTCTCGCTCTA
CCGTATCCGTACCGCCGACAAGGGACGCCCGATCATCATCTCGAACCGGATCATCGAGGAATACGCCGAGCCCAA
CGTCGACACGCTCCACAAGAAGAACTTGTTCAGTCTCGGAGAGGATCGTTTCTTGACGACGTTGTTGATGAAGCA
TTTCCCGAGTTTCAAGACCAAGTTTTGCCCGGATGCTGTGGCGCATACGATGGCTCCTGAGAGTTGGCGTGTGTT
GTTCTCGCAGCGACGACGGTGGATCAACTCTACTGTTCATAACCTTTGTGAACTGGTGATTTTGCCCGAGTTGTT
TGGGTTCTGTTGTTTCTCGATGAGGTTCTTTGTGTTTATTGATTTGTTGAGTACGATTATTCTTCCGGCGACTGT
TGTTTATGTGAGTACTCGCGCTTGTGTTTGCTGGGGGGTGGTGGATGTGCTGACGATTTTGGAATAGCTCGTTTA
CTTGATTGTCGTGGTTGCTACGAGGGCGTCTGCGTTCCCCAAGATTGCGATTATCATGTTGAGTATCGTGTACGG
TCTCCAGGTGCGTTCATCCCGTTCTTCTCTCGTCGGTACACGACTGACGCCACTCGACCCTTGCAGGCGATCATC
TTCATCATCAAGCGCGAGTTTATGCTTATCGGTTGGATGGTGGTCTACATCCTCTCGTACCCCGTCTACTCGTTC
TTCCTCCCCGTCTATTCGTTCTGGTGCATGGACGAGTTCAGCTGGGGTAATACTCGTGTTGTGGTTGGTGAAGGC
AAGGAGAAGAAGGTGCTCATGAATGAGGATGACAAGTTTGATGAGTCGATGATTCCGCTCAAGAAGTTCAGTGGT
GCGTAATGTCTTTTGCTTGGGGGATGTGGTGACGGTGTTGATGGATGGATGTGTTTGACAGAATACGAAGCTGAA
GCTTGGGATACCGCTTCCCGTCGTTCGGACGATACTGGCTACCAATCCCGCTCCAAGCACCACGCTCCTCCCCGA
TCGCGCAACGAGTCTCCTCGCGGAAGTGTATACGGCCACGGTTCGGACTATTACCGCGACGGCAACCCGCTCAAC
AACAACTCGAACCCCAACCTTCGACTGCCTCACCTCACCGGTAATGGAAGCCAGCATTCGCACAGCGGTTACTCG
CTCTCGCAGTACCAGAATGCGGCTCCGATGTCGACGTTTGGTGGGCCTCAGCTTCCGTTTATGCCGTTTGGTGGG
ACGGGGAGTGTGGCGGGTAGTGATTATGGTGGGCCGACTGCGGGTGGGATGATGATGCCTGGTATGATGGGGTAC
CAGAATACGGGGAGTGTGTATGGTATACCTGCGATGATGACGGGAGGGACTGCGCCGCGGAATACGATGATGTCT
ACTGGGTTTGGGATGGGAGGTGGGATGTTTGGTAGTGGTGGGGTTAGTCAGGATGGAGTGATGATGGGAGGAGGC
GTTGGTGCGAGGCCGATGTCGACGTTTTCGATGGCGACGAGTGTGAATCCGTTTGCTGGCCCGAGTATGAATCCG
AACCCGACGGATGAGGAGTTGTTTAGTGCGTTGAGGACGTACTTGAGTACGCAGGATTTGATGAGTGTTACCAAA
AAGTGAGTGCACTTTTTTTGTTTTGGTTTGTGGTTTGTAGGGCGGAGAGCTGATGTGTTTTTGGTGATGTTAGGA
CGACGAGAGAAGCTATTGCGGCCAAGTTCCCCAAGGCTGATTTGACGAACAAGAAGGACTTCTTGAACCAGTCGA
TTGATAGGATTCTTTCCGAGTCGTGATTGGTTTGAGGATGTCCTTGTCGTCGTTGACTCGTTTTTTTTCTTTCTT
CTCTCTGCTACTACTATCACCACTGCATCTCGCATACATTTCATATACGTGCATCCATACGGACATTGGGATTTA
CCTTATACCGACTCTTTTTTTGATACGATACGGCACACTCCCTTTCTTCCTTCTTCATTACCTTTTTTTCATTGC
ATCGATATGTCTGTCTCTCCTTATCTTGTCTTCTTTTTCTCAAGTACTCCATTGCTCGCATAATATCTCGTCATG
ACCCTCTTTTTCACTCCTCTCTCTTTTTGATTGGACTTGGACGCGCACTGGACTCTTTTTGTTAATTGTGATGCG
GTTTCATTTTTGGTGTCTGTCGCTCGTTTTATTCATCCTGTTTTTACTCGTACTAGTAGTATTATCCACTCTCCC
TCCCTCCCTCATTTAGATGGCGATGGACTCGTTAATCGTCCTTTCCTTTCTCTCTCCCTCTCTCTCGATGATCGA
TCCATCTCTCGTCTCTACTAGTAGTCATGACCTGGCATTTTTCATACATACGTACAGTACATCAGAATTCAAGTT
TTGTTCCATCATCC
Length 4814