CopciAB_447176
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_447176 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 447176
Uniprot id Functional description Gmc oxidoreductase
Location scaffold_6:2633916..2639276 Strand +
Gene length (nt) 5361 Transcript length (nt) 3465
CDS length (nt) 2208 Protein length (aa) 735

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_RDB27684 51.7 6.546E-204 648
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_36107 50.1 9.475E-204 647
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_70764 47.6 4.776E-202 642
Schizophyllum commune H4-8 Schco3_65412 43.6 1.217E-183 589
Ganoderma sp. 10597 SS1 v1.0 Gansp1_49356 42.3 7.251E-177 569

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 210.3471 40.1901 23.2038
oidia 446.4778 49.2948 28.4604
vegetative_mycelium 636.296 61.3257 35.4064
primordia 236.2211 8.1196 4.6879
hyphal_knot 457.9751 45.0516 26.0106
young_fruiting_body 468.923 24.4282 14.1036
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 330.9628 14.4207 8.3258
Wheat bran 275.51 64.615 37.3055
Horse manure 315.7092 89.2354 51.5201
Oak leaves 390.3981 142.0348 82.0038
Hay 263.793 14.748 8.5148
Corn stalk 350.6856 60.0851 34.6902
Pectine 333.2934 14.1295 8.1576
Microcrystalline cellulose 287.6699 44.0969 25.4593
Xylose 404.7784 112.85 65.154
Cellobiose 358.2141 73.0824 42.1942
Lignin 233.6306 12.0222 6.941
Apple peels 323.9987 21.8623 12.6222
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 280.8275 9.6896 5.5943
Bsubtilis 289.6625 19.0767 11.0139
Ecoli 370.4776 24.1354 13.9346
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 66.3368 7.2723 4.1986
BS 4h 56.4704 11.3161 6.5333
BS 8h 111.2123 29.9032 17.2646
BS 12h 137.3011 2.8719 1.6581
Oidia 0 h 77.5425 35.5824 20.5435
Oidia 18 h 121.3195 30.5261 17.6242
Sclerotia 254.7535 49.7171 28.7042
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 229.6463 11.1996 6.4661
DM 36h 419.3654 107.4018 62.0085
DM 60h 422.2529 21.3012 12.2982
DM 84h 367.7922 52.059 30.0563
DM 108h 342.3246 81.6787 47.1572
DM 132h 379.2383 79.9538 46.1614
DM 156hAE 158.1414 21.8243 12.6002
ELI1hAE 215.2585 45.101 26.0391
ELI2hAE 256.4335 33.6851 19.4481
LI2hAE 246.5129 8.7402 5.0461
LI6hAE 275.7585 12.2931 7.0974
LI12hAE 257.6064 46.5651 26.8844
LI18hAE 229.2582 64.0109 36.9567
LI 24hAE 147.6518 49.1714 28.3891
DM 156hAM 248.7318 52.8265 30.4994
ELI1hAM 380.8356 197.1036 113.7978
ELI2hAM 503.2825 86.2266 49.783
LI2hAM 374.455 100.595 58.0786
LI6hAM 390.0757 34.674 20.019
LI12hAM 382.1356 104.9175 60.5741
LI18hAM 452.1085 21.8308 12.604
LI 24hAM 216.6409 20.8412 12.0326
LI 24hHK 138.5175 44.4312 25.6524
L/D 6h 168.6923 22.6372 13.0696
L/D 12h 136.7029 21.8639 12.6231
L/D 18h 148.0186 27.7106 15.9987
L/D 24h 161.2083 26.0857 15.0606
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 195.0834 46.637 26.9259
Hyphal knots 194.3439 1.1049 0.6379
Primordium 1 183.8323 20.8114 12.0154
Primordium 2 156.7806 12.9369 7.4691
Young Fruiting body cap 249.1964 30.486 17.6011
Younf fruiting body gill 258.0141 5.36 3.0946
Young fruiting body stipe 105.8954 20.3919 11.7733
Mature fruiting body cap_gill 116.5811 25.5594 14.7567
Mature fruiting body stipe 126.5005 17.1069 9.8767
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 175.2442 25.8403 14.9189
NH4NO3 277.8002 21.8888 12.6375
Proline 291.3506 16.5284 9.5427
Tryptophan 246.4511 52.3337 30.2149
Isoleucin 272.9548 14.268 8.2376
Arginine 302.3704 4.505 2.601
Metionine 207.3065 21.078 12.1694
NaNO3 267.1359 18.0322 10.4109
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 175.2442 25.8403 14.9189
Citrus peel 272.7828 34.665 20.0139
Poplar leaves 333.1668 15.124 8.7318
Typha leaves 289.183 9.5976 5.5412
Overwintered Salix leaves 311.2045 18.3944 10.62
Reed flowering 251.9245 26.8774 15.5177
Tigernut 225.9595 9.128 5.2701
Energy cane 271.5938 20.7105 11.9572
Guar gum 230.1196 26.2122 15.1336
Apple peels 264.2458 28.4553 16.4287
Cellobiose 372.504 29.2882 16.9096
Corn stalk 297.7721 15.9903 9.232
Horse manure 269.0622 5.7481 3.3187
Lignin 360.005 125.7367 72.5941
Microcrystalline cellulose 304.6404 53.2068 30.719
Oak leaves 307.2548 31.7438 18.3273
Pectin esterified 200.5476 28.2016 16.2822
Poplar sawdust 268.8954 46.8524 27.0502
Wheat bran 278.5998 25.9087 14.9584
Chlamydomonas reinhardtii 265.8304 25.3798 14.653
Vertatryl alcohol 390.3541 12.9939 7.502
Furfural 126.1551 17.6272 10.177
Autoclaved mycelium 284.225 2.0656 1.1926
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 400.9822 1.0121 0.5843
Ribose 532.3086 14.0849 8.1319
Mannose 508.2242 9.5239 6.7344
Fructose 469.2129 20.5574 11.8688
Arabinose 470.1929 48.1847 27.8195
Xylose 505.2812 14.2921 8.2515
Galacturonic acid 488.4312 10.2392 5.9116
Rhamnogalacturonan 470.681 27.7242 16.0066
Pectin esterified 514.644 9.1097 5.2595
Polygalacturonic acid 479.3592 58.1084 33.5489
Sodium acetate 481.1589 20.3581 11.7538
No nitrogen 500.9298 36.969 21.3441
BSA 500.2432 14.4752 8.3573
Glutamine 491.0693 19.0149 10.9782
No phosphate 473.183 20.4204 11.7897
No carbon 488.7329 2.3999 1.697
No sulphur 490.5386 32.3071 18.6525
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 175.2442 25.8403 14.9189
Amylose 245.4207 20.9027 12.0682
Fucose 244.4204 27.0799 15.6346
Galactose 242.2245 8.9024 5.1398
Lactose 275.1527 9.9163 5.7252
Maltose 259.2234 8.491 4.9023
Mannitol 279.1257 5.5514 3.2051
Rhamnose 268.0926 23.8989 13.7981
Sorbitol 250.5689 13.0731 7.5478
Trehalose 249.379 34.598 19.9752
Glycerol 252.5263 29.9169 17.2725
Glucuronic acid 220.9542 12.3987 7.1584
Arabinan 210.9567 5.1761 2.9884
Galactan 206.0861 16.422 9.4812
Galactomannan 199.0507 41.8293 24.1502
Glucan 213.4321 35.8924 20.7225
Xylan 240.8209 30.4406 17.5749
Xyloglucan 210.865 18.0753 10.4358
Arabinogalactan 215.2758 24.5027 14.1467
Pectin 143.9785 23.1135 13.3446
Rhamnogalacturonan 214.9414 28.8449 16.6536
Polygalacturonic acid 249.3815 46.885 27.069
Mannan 231.6902 10.2143 5.8973
Amylopectin 218.0657 34.1987 19.7446
Inulin 268.8155 13.7828 7.9575
BSA 233.5771 30.7371 17.7461
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 422.2529 21.3012 12.2982
2h WAT 533.2297 12.6596 7.309
4h WAT 455.3857 26.4461 15.2687
8h WAT 332.4145 37.8415 21.8478
16h WAT 409.6762 103.968 60.0259
24h WAT 357.3021 36.3549 20.9895
WAT hyphal knot -30h 332.9302 64.8515 37.442
WAT hyphal knot -22h 437.9691 15.5476 8.9764
WAT hyphal knot -15h 461.4476 49.1748 28.3911
WAT hyphal knot -7.5h 352.2004 172.9228 99.837
WAT hyphal knot 327.0377 60.5894 34.9813
WAT hyphal knot +7.5h 339.7757 129.9854 75.0471
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 289.7939 22.8704 13.2042
Straw 3h 272.7901 41.6557 24.05
Straw 6h 250.8805 30.2026 17.4375
Straw 12h 300.7526 14.9602 8.6373
Straw 24h 232.8201 68.1803 39.3639
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 359.9074 52.3798 30.2415
Frost (-20C, 30min) 285.5274 56.077 32.3761
Heat shock (47C, 2h) 202.0526 26.5644 15.3369
High CO2 321.1783 47.3048 27.3114
Drought (4% agar, 12h) 302.5756 86.3932 49.8792
Oxidative (1mM H2O2, 3h) 260.499 21.0505 12.1535
Acidic (pH4, 3h) 246.8711 70.1757 40.516
Alkaline (pH9, 3h) 396.4897 54.5673 31.5044
Osmotic (sorbitol 2h) 312.2645 19.1558 11.0596
CongoRed (3h) 397.1806 105.5121 60.9174
Cobalt chloride control 303.9 74.0482 42.7517
Cobalt chloride 2mM 398.6384 19.7597 11.4083
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 347.5035 222.0976 128.2281
Cold stimulation 302.0262 42.08 24.2949
Scratched surface 350.2323 52.903 30.5436
Ca2+, 200mM, 24h 370.5017 17.739 10.2416
Cu2+, 2mM, 6h 365.5529 46.083 26.606
Voriconazole 402.7694 33.7315 19.4749
Trichoderma interaction, early 485.3744 47.6685 27.5214
Trichoderma interaction 60h 207.2403 8.9976 5.1947
Cobalt chloride 2mM repeat 317.5361 78.4682 45.3036
Hypoxia 316.7047 86.7385 50.0785
Hypoxia control 356.586 52.7039 30.4286
Protoplastation control 331.4619 21.9439 15.5167
Protoplastation 3.5h 227.7148 24.0903 17.0344
Protoplastation 1.5h 291.5581 11.0142 7.7882

General data

Systematic name -
Protein id CopciAB_447176.T0
Description Gmc oxidoreductase

Annotation summary

0 200 400 600 735

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF00732 GMC oxidoreductase IPR000172 61 399
Pfam PF05199 GMC oxidoreductase IPR007867 531 669

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
1 13 35 22

InterPro

Accession Description
IPR036188 FAD/NAD(P)-binding domain superfamily
IPR000172 Glucose-methanol-choline oxidoreductase, N-terminal
IPR012132 Glucose-methanol-choline oxidoreductase
IPR007867 Glucose-methanol-choline oxidoreductase, C-terminal
IPR027424 Glucose Oxidase, domain 2

GO

Go id Term Ontology
GO:0016614 oxidoreductase activity, acting on CH-OH group of donors MF
GO:0050660 flavin adenine dinucleotide binding MF

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
E Gmc oxidoreductase

CAZy

Class Family Subfamily
AA AA3 AA3_2

Transcription factor

Group
No records

Conservation of CopciAB_447176 across fungi.

Arrow shows the origin of gene family containing CopciAB_447176.

Protein

Sequence id CopciAB_447176.T0
Sequence >CopciAB_447176.T0
MPTRTRARTKRRVVAALAAVASVSALSPPSQLVARGVDSQTHRYSKREFTLINQDEVLKSYDYVIVGGGLAGLVL
ASRLSEDKDTSVIVLEAGLSGDEVKEDIDAPAGAYYNSIVGTDYDWKYDIVNQQYLNNRGGQWPRGKILGGSTAM
NAMYLVRPAQVELDAWSNMLSSESDTEDGASNWNWANMFEAMKKAETFHAPETEAWEIGGQFPFSAENHGTDGPM
HLGYPGVMFSAVGNWTAALDAAGIPPLEEPNGGVTMGGFISPSSINPTNWTRSYSRSAYIDSLPPRPNLHILPQA
TVTKIGFSDKHRANTQGERDQLIANTVEFGDEREEGAMEGGGTRYVIGVNREVVLAGGPLGSPKVLMHSGVGPSD
VLSQVGMDVVLELPGVGQHLQDHMTAGVVWESRVETAGDVRNTGSEFSRSREFLSFINDAVAFAGITRLFGENSD
QFQGEILNILEAISDGNSTTVDDREISLATLVPDGSPEVFEGYKATYNITARELWETGQIEMLMSLISEGVISIQ
SALQHPYSRGRVYINSTNPFHPIQIDPNYFSHPMDRVIMRQGVKMVRDVGNVLREMGVVGEEVVPGPGVQTDEDI
DGWLRDGGANTQYHPMGSCAMLPRKWGGCVNSKLRVYGIANVRIADSSVFPFEFAAHLASATFGLAETASELIKD
ESYDVPKNAKVNERELGRQGGDGESGAAVALTGRGAGLGVERFGVLGVWVGVLSVLVMVL
Length 735

Coding

Sequence id CopciAB_447176.T0
Sequence >CopciAB_447176.T0
ATGCCTACTAGAACACGAGCGAGAACCAAGAGGAGGGTGGTAGCTGCTCTTGCTGCTGTGGCATCTGTTTCGGCG
CTTTCGCCGCCTAGCCAGTTGGTTGCGAGGGGTGTTGATAGTCAAACGCACCGCTATTCGAAACGTGAATTCACC
CTTATCAACCAAGACGAGGTCCTCAAGTCTTACGACTATGTTATCGTTGGCGGTGGTCTTGCCGGATTGGTCTTG
GCTTCTCGCCTTAGTGAGGACAAGGACACGAGTGTGATCGTCCTCGAGGCTGGGTTGAGCGGAGATGAAGTCAAG
GAGGACATTGATGCACCCGCTGGAGCCTACTACAACTCGATTGTTGGCACTGATTATGACTGGAAGTATGACATT
GTCAACCAGCAATATTTGAACAACCGAGGTGGACAATGGCCACGAGGAAAGATCCTCGGAGGCTCCACTGCGATG
AACGCCATGTACCTCGTCCGACCAGCCCAAGTGGAGCTCGACGCCTGGTCCAACATGCTCAGCTCAGAATCCGAC
ACCGAGGACGGCGCCTCCAACTGGAACTGGGCCAACATGTTCGAAGCGATGAAGAAGGCCGAGACGTTCCACGCG
CCCGAGACGGAAGCTTGGGAGATTGGAGGGCAGTTCCCCTTTAGCGCTGAGAACCATGGGACGGATGGGCCGATG
CATTTGGGGTATCCTGGTGTTATGTTTAGCGCTGTGGGGAATTGGACTGCTGCGCTTGATGCTGCTGGGATTCCG
CCGCTTGAGGAGCCGAATGGGGGTGTTACGATGGGAGGGTTTATTAGTCCTTCCTCGATTAATCCTACGAATTGG
ACCCGCTCGTATTCGAGGTCGGCGTATATCGATTCACTCCCGCCCCGACCTAATCTGCACATCCTCCCGCAAGCC
ACTGTCACCAAAATCGGTTTCTCGGACAAGCATCGGGCTAATACGCAGGGGGAGCGGGACCAGCTTATTGCGAAT
ACGGTTGAGTTTGGGGATGAGAGGGAGGAGGGAGCGATGGAGGGTGGGGGGACGCGGTATGTGATTGGTGTGAAT
AGGGAGGTTGTTTTGGCTGGTGGGCCGCTTGGGAGTCCGAAGGTTTTGATGCATTCGGGTGTTGGGCCTAGTGAT
GTTTTGAGCCAGGTTGGGATGGATGTTGTGCTTGAGTTGCCGGGTGTTGGGCAGCATTTGCAGGATCATATGACT
GCGGGTGTTGTTTGGGAGTCGAGGGTTGAGACTGCTGGTGATGTTAGGAATACTGGATCAGAGTTCTCGCGTTCT
CGGGAGTTCCTCTCTTTCATCAACGACGCTGTCGCGTTCGCCGGCATCACCCGTCTCTTTGGTGAAAACAGTGAC
CAGTTCCAAGGCGAGATTCTCAACATCCTCGAGGCTATCAGCGATGGCAACAGCACCACGGTTGACGACCGCGAG
ATCTCGCTCGCGACGCTCGTCCCTGACGGTTCGCCTGAAGTTTTCGAAGGGTACAAAGCGACGTACAACATCACC
GCGCGGGAGCTCTGGGAGACAGGTCAAATCGAGATGCTGATGTCGCTCATCTCTGAAGGTGTGATCTCTATCCAG
AGTGCACTGCAACACCCCTACAGCCGCGGGCGTGTGTACATCAACTCTACGAACCCGTTCCACCCCATCCAGATT
GACCCCAACTACTTTTCGCACCCTATGGATCGGGTGATTATGCGTCAGGGAGTGAAGATGGTTAGGGATGTGGGG
AATGTGTTGAGGGAGATGGGGGTGGTTGGGGAGGAGGTTGTTCCGGGTCCGGGTGTTCAGACGGATGAGGATATT
GATGGGTGGTTGAGGGATGGTGGAGCGAATACGCAGTATCATCCTATGGGTAGTTGTGCGATGCTTCCGAGGAAG
TGGGGTGGGTGTGTGAATAGCAAGTTGAGGGTTTATGGGATCGCTAATGTCCGTATTGCGGATTCCTCTGTCTTC
CCGTTCGAGTTTGCGGCCCATCTTGCGAGTGCGACGTTTGGACTTGCTGAGACTGCGTCCGAGTTGATCAAGGAT
GAGTCGTATGATGTTCCGAAGAATGCGAAAGTGAATGAGAGGGAACTTGGGAGGCAGGGTGGGGATGGGGAGAGT
GGAGCTGCTGTTGCGCTTACTGGACGGGGAGCGGGGTTGGGAGTGGAGAGGTTTGGTGTGCTGGGTGTGTGGGTT
GGTGTTTTGAGTGTTTTGGTGATGGTTTTGTAG
Length 2208

Transcript

Sequence id CopciAB_447176.T0
Sequence >CopciAB_447176.T0
AAGGCGGCTTACATATACCTTCTTTCTTAACCTTCTACCACCACCACCGTTTTCGAGGGTTCGCTCCTCCCGCTC
ACTTTACTTGATACATACTCGTGCCTTTGGGCTACCACCACACGCTCCTTACCTTTCTTTTTCGTTTTTCTGGTC
TTTAATCGAGGTCTCTACCTATACTTATACCCCCCCAACATCACCTTGCCTCGCCGGAAATATCTTCAAACGATA
ACTGACCTCGTCTCTTAATCCAGCAATTCATCCGACGTTCACCCGGTGTAGCTCGCTAGCAATCAGCGCTCAGCC
TTGTTGAACATTCGAAGGATATACTTGTTGTTGTGACGAGATCCCGACCGGCATCTATCAAACCGACGGCGGCCT
TGCTTCTTGTTTCTTGTTCATCGACTACGACGACGAGAACAGACAACCAACAGCGCCTGCAATCGCCAACGACGA
TAGCCTCGCCAAGGATATCTGCGATTCTGCAGCGCTTTCAGCGGCTATAACCAGTACATAACATTTCGTTTCACG
TTTTCTCGACCTACGACCTTCGAACTTCGACCTTGGACCGTCGGATACACACAGTCGACACCTACAAGACACAGC
ATACCATACCCACGAAGCGTATCCATACCCACACGCAGACACATACATACCCGCCACGCCCGCCTGGACGACTAC
ACAAAACGTACAGCCGGATAGTTTTAAAGGAACGTTCTTTTGTTGGTTGATTGAAGGATTGGATTTGGATTTGGG
AGTTCAGTTTCTACGACGCCTTCGTTGAACCTATACCTCAAATAAACAACAACCGCGACGTTTAATACACCGGGT
CAATACACACATACCAGTCGAGCTTTCACACCCTTCATTCATCCTCGACTCCACTAATACCGCATTTATAACCGA
AATATACACCTACGACATCGACTCGACATTACAATTTCGACGATGCCTACTAGAACACGAGCGAGAACCAAGAGG
AGGGTGGTAGCTGCTCTTGCTGCTGTGGCATCTGTTTCGGCGCTTTCGCCGCCTAGCCAGTTGGTTGCGAGGGGT
GTTGATAGTCAAACGCACCGCTATTCGAAACGTGAATTCACCCTTATCAACCAAGACGAGGTCCTCAAGTCTTAC
GACTATGTTATCGTTGGCGGTGGTCTTGCCGGATTGGTCTTGGCTTCTCGCCTTAGTGAGGACAAGGACACGAGT
GTGATCGTCCTCGAGGCTGGGTTGAGCGGAGATGAAGTCAAGGAGGACATTGATGCACCCGCTGGAGCCTACTAC
AACTCGATTGTTGGCACTGATTATGACTGGAAGTATGACATTGTCAACCAGCAATATTTGAACAACCGAGGTGGA
CAATGGCCACGAGGAAAGATCCTCGGAGGCTCCACTGCGATGAACGCCATGTACCTCGTCCGACCAGCCCAAGTG
GAGCTCGACGCCTGGTCCAACATGCTCAGCTCAGAATCCGACACCGAGGACGGCGCCTCCAACTGGAACTGGGCC
AACATGTTCGAAGCGATGAAGAAGGCCGAGACGTTCCACGCGCCCGAGACGGAAGCTTGGGAGATTGGAGGGCAG
TTCCCCTTTAGCGCTGAGAACCATGGGACGGATGGGCCGATGCATTTGGGGTATCCTGGTGTTATGTTTAGCGCT
GTGGGGAATTGGACTGCTGCGCTTGATGCTGCTGGGATTCCGCCGCTTGAGGAGCCGAATGGGGGTGTTACGATG
GGAGGGTTTATTAGTCCTTCCTCGATTAATCCTACGAATTGGACCCGCTCGTATTCGAGGTCGGCGTATATCGAT
TCACTCCCGCCCCGACCTAATCTGCACATCCTCCCGCAAGCCACTGTCACCAAAATCGGTTTCTCGGACAAGCAT
CGGGCTAATACGCAGGGGGAGCGGGACCAGCTTATTGCGAATACGGTTGAGTTTGGGGATGAGAGGGAGGAGGGA
GCGATGGAGGGTGGGGGGACGCGGTATGTGATTGGTGTGAATAGGGAGGTTGTTTTGGCTGGTGGGCCGCTTGGG
AGTCCGAAGGTTTTGATGCATTCGGGTGTTGGGCCTAGTGATGTTTTGAGCCAGGTTGGGATGGATGTTGTGCTT
GAGTTGCCGGGTGTTGGGCAGCATTTGCAGGATCATATGACTGCGGGTGTTGTTTGGGAGTCGAGGGTTGAGACT
GCTGGTGATGTTAGGAATACTGGATCAGAGTTCTCGCGTTCTCGGGAGTTCCTCTCTTTCATCAACGACGCTGTC
GCGTTCGCCGGCATCACCCGTCTCTTTGGTGAAAACAGTGACCAGTTCCAAGGCGAGATTCTCAACATCCTCGAG
GCTATCAGCGATGGCAACAGCACCACGGTTGACGACCGCGAGATCTCGCTCGCGACGCTCGTCCCTGACGGTTCG
CCTGAAGTTTTCGAAGGGTACAAAGCGACGTACAACATCACCGCGCGGGAGCTCTGGGAGACAGGTCAAATCGAG
ATGCTGATGTCGCTCATCTCTGAAGGTGTGATCTCTATCCAGAGTGCACTGCAACACCCCTACAGCCGCGGGCGT
GTGTACATCAACTCTACGAACCCGTTCCACCCCATCCAGATTGACCCCAACTACTTTTCGCACCCTATGGATCGG
GTGATTATGCGTCAGGGAGTGAAGATGGTTAGGGATGTGGGGAATGTGTTGAGGGAGATGGGGGTGGTTGGGGAG
GAGGTTGTTCCGGGTCCGGGTGTTCAGACGGATGAGGATATTGATGGGTGGTTGAGGGATGGTGGAGCGAATACG
CAGTATCATCCTATGGGTAGTTGTGCGATGCTTCCGAGGAAGTGGGGTGGGTGTGTGAATAGCAAGTTGAGGGTT
TATGGGATCGCTAATGTCCGTATTGCGGATTCCTCTGTCTTCCCGTTCGAGTTTGCGGCCCATCTTGCGAGTGCG
ACGTTTGGACTTGCTGAGACTGCGTCCGAGTTGATCAAGGATGAGTCGTATGATGTTCCGAAGAATGCGAAAGTG
AATGAGAGGGAACTTGGGAGGCAGGGTGGGGATGGGGAGAGTGGAGCTGCTGTTGCGCTTACTGGACGGGGAGCG
GGGTTGGGAGTGGAGAGGTTTGGTGTGCTGGGTGTGTGGGTTGGTGTTTTGAGTGTTTTGGTGATGGTTTTGTAG
GTGGTGTATTCGAGGTGATGGTTTTTGTAGTTGGGCGGTGAAGGTGTGGTAGTCCTGGGCGTTCACGCGCTGATT
CATGCGTTGTGTTGTTGTGGATATCTTTATTTATTTATTTTTCGATTCCTCTCTTTCGATGAAAACGTCTCTTTG
TAACCCTTCTCGTTGTGATGTGATGGTTTGTTTTTTTTCTGTGATGCATACATACCTCTTTTTATATACTTGGCG
TCCTTTTTGGTTAATGCTTAGTTAGATCCTGAATGTTTTTTACGCTTTACGCTTTGATTTGAATATTGAGCTTTT
GTGATTTGTGTTTTT
Length 3465

Gene

Sequence id CopciAB_447176.T0
Sequence >CopciAB_447176.T0
AAGGCGGCTTACATATACCTTCTTTCTTAACCTTCTACCACCACCACCGTTTTCGAGGGTTCGCTCCTCCCGCTC
ACTTTACTTGATACATACTCGTGCCTTTGGGCTACCACCACACGCTCCTTACCTTTCTTTTTCGTTTTTCTGGTC
TTTAATCGAGGTCTCTACCTATACTTATACCCCCCCAACATCACCTTGCCTCGCCGGAAATATCTTCAAACGATA
ACTGACCTCGTCTCTTAATCCAGCAATTCATCCGACGTTCACCCGGTGTAGCTCGCTAGCAATCAGCGCTCAGCC
TTGTTGAACATTCGAAGGATATACTTGGTTCGTTTTTGTTTCGTTCGTTCAACGTTGCGCTGCTCGTCGGCCAGG
GCTCAGAAATACTCAACGCGATACCGTTCTTCCATCAGTTGTTGTGACGAGATCCCGACCGGCATCTATCAAACC
GACGGCGGCCTTGCTTCTTGTTTCTTGTTCATCGACTACGACGACGAGAACAGACAACCAACAGCGCCTGCAATC
GCCAACGACGATAGCCTCGCCAAGGATATCTGCGATTCTGCAGCGCTTTCAGCGGCTATAACCAGTACATAACAT
TTCGTTTCACGTTTTCTCGACCTACGACCTTCGAACTTCGACCTTGGACCGTCGGATACACACAGTCGACACCTA
CAAGACACAGCATACCATACCCACGAAGCGTATCCATACCCACACGCAGACACATACATACCCGCCACGCCCGCC
TGGACGACTACACAAAACGTACAGCCGGATAGTTTTAAAGGAACGTTCTTTTGTTGGTTGATTGAAGGATTGGAT
TTGGATTTGGGAGTTCAGGTATGTTCCATGTTACTTTGCGGGTTTGAGGTCTTTCTTTCCTTGTTCCATGTTTTT
GTTTCCCCGCTTGTTCTTGTGTTTCCCATTCCCGCGTTCTCTTCGCCTTCTCGGATCCCGTTTCATGTTCTCGGA
GCGAGGGGTTGCTATGCGCGCACGACGAGTTAGTCGAAACACCCTCGGCCATGCATCCCGCCCCACCTTTGAATC
CAATTATGCAAGAGCGCCCATGTCTCTCGGATCTCTTGTTCAACATCCCGCATCGTCCACCGTTACGTTCTTTTG
TTGCCCTTACGTTCCTTCATCCCCGCTTTTTCGAATGTTCCTTCACCACCGGAATCGGGCGCTCCCCAGCGATTT
CGTCTATTTCTGGCGGTTTGGGACATTGAATCACTTTTGGTTCCTGGGCGGGCTCTCGTTTTCGAGGAGATCTCA
TCTCTCTGGACCGGGGATGACAGGGATGGGAATAGACGATGGGCGTACCACCGACTTACGCCCCTGGCGCCCACA
CATGAGCCCCTTGCATTCATTTCACCTTTCACCTGCCTGTCGGTGAGGGCGTTCCTGGGACTTTTCGCTTGTTTA
GCCTTTTTGTTCACATTTGATGATCTTTCTTGCCTTGGCTTGACTCGCTAGTCGAGATACTTTGGCGCCGCCTTG
AAACACGAGTACATAGCTCCACCACAATCTGTTCAAATTCTCGGGTATCAAAGGTATATGACAAAGGGAACTGGC
TTTCATTAAATAGTTGCCCTTTGGTCCACGTTGCGCTTTTGGTTCATTACTTCCTCGTTGCGACGTTGTCATTTC
ACCTTCTCGTCCTTTCTTCTCCTTCCCCTTTCCCTACTTGCTGCCCACTCGTTCTTAGCTCTTGCGTTTTAACGT
TGGGGTTTTGAAAGTTTGAAGCCTGCCATTCATTTCGATTTGATACCTTCCTTTTTTTCCTGGGTTTGGTGAATT
TATTGGATCGCGCGGCGGATCTTGGGTGATAAGCTGACCACACTTTCTCTTCCAGTTTCTACGACGCCTTCGTTG
AACCTATACCTCAAATAAACAACAACCGCGACGTTTAATACACCGGGTCAATACACACATACCAGTCGAGGTATG
TACCTTTTCCGTGCACTGCTCGCTCTCTTTTCGGCCTTGAAATGCGTCGCTGTTATCGATTCCCCCCGTCCTTTC
GGGCTGCGCAGGGCGGTGAGAGCATAAGAATATCACGCCCGACTTGGTTTTAAAACCCTTGCGACATAGGCTGAT
GACCCCTACCTCCTCCCAGCTTTCACACCCTTCATTCATCCTCGACTCCACTAATACCGCATTTATAACCGAAAT
ATACACCTACGACATCGACTCGACATTACAATTTCGACGATGCCTACTAGAACACGAGCGAGAACCAAGAGGAGG
GTGGTAGCTGCTCTTGCTGCTGTGGCATCTGTTTCGGCGCTTTCGCCGCCTAGCCAGTTGGTTGCGAGGGGTGTT
GATAGGTGAGCTGTCCTTTTTTCATGTGGGTTGTGGAGTGGGAGGATCCTACGTGGACAAGTGCTCGCGGGACAG
ACGATGCGCAGCAGGGCTTGACTTGACGGGCATGGGTGGCAGCCAAGTGAAACGACGTGTCCCGGCCAAGTCGGT
GTGTTGTACTCGCCGTCTTGGCTTTCGGGCTGCTTGTTCCCTTCGCCCAGCGTTCTCGAGAACTCGAATCAGCGT
TTGGGCGGCTTTTCGAGGCTATTCACCGCTCTCTTCAACGACCTCGAATCGGAAAGCTGATGTATATTCCATTCC
CGCAGTCAAACGCACCGCTATTCGAAACGTGAATTCACCCTTATCAACCAAGACGAGGTCCTCAAGTCTTACGAC
TATGTTATCGTTGGCGGTGGTCTTGCCGGATTGGTCTTGGCTTCTCGCCTTAGTGAGGACAAGGACACGAGTGTG
ATCGTCCTCGAGGCTGGGTTGAGCGGAGATGAAGTCAAGGAGGACATTGGTCAGTCGCCTTAGGCTGTGTCTTCA
TCACTTTACTGACGTTTTTGTGGTTTAGATGCACCCGCTGGAGCCTACTACAACTCGATTGTTGGCACTGATTAT
GACTGGAAGTATGACATTGTCAACCAGCAATATTTGAACAACCGAGGTGGACAATGGCCACGAGGAAAGGTGCGT
ACTCCTCTGGATCATATCGCGGATCTCATCTAACCCTTACCCAGATCCTCGGAGGCTCCACTGCGATGAACGCCA
TGTACCTCGTCCGACCAGCCCAAGTGGAGCTCGACGCCTGGTCCAACATGCTCAGCTCAGAATCCGACACCGAGG
ACGGCGCCTCCAACTGGAACTGGGCCAACATGTTCGAAGCGATGAAGAAGGCCGAGACGTTCCACGCGCCCGAGA
CGGAAGCTTGGGAGATTGGAGGGCAGTTCCCCTTTAGCGCTGAGAACCATGGGACGGATGGGCCGATGCATTTGG
GGTATCCTGGTGTTATGTTTAGCGCTGTGGGGAATTGGACTGCTGCGCTTGATGCTGCTGGGATTCCGCCGCTTG
AGGAGCCGAATGGGGGTGTTACGATGGGAGGGTTTATTAGTCCTTCCTCGATTAATCCTACGAATTGGACCCGCT
CGTATTCGAGGTCGGCGTATATCGATTCACTCCCGCCCCGACCTAATCTGCACATCCTCCCGCAAGCCACTGTCA
CCAAAATCGGTTTCTCGGACAAGCATCGGGCTAATACGCAGGGGGAGCGGGACCAGCTTATTGCGAATACGGTTG
AGTTTGGGGATGAGAGGGAGGAGGGAGCGATGGAGGGTGGGGGGACGCGGTATGTGATTGGTGTGAATAGGGAGG
TTGTTTTGGCTGGTGGGCCGCTTGGGAGTCCGAAGGTTTTGATGCATTCGGGTGTTGGGCCTAGTGATGTTTTGA
GCCAGGTTGGGATGGATGTTGTGCTTGAGTTGCCGGGTGTTGGGCAGCATTTGCAGGATCATATGGTGCGTGTTT
ACTTGTTCTTTGTTGGTTTGGGTTTGGGTCCTGATGGGGTTTGGGATGTGTAGACTGCGGGTGTTGTTTGGGAGT
CGAGGGTTGAGACTGCTGGTGATGTTAGGAATACTGGATCAGAGTTCTCGGTGCGTTTCTCCTTTTTGTTGGGTG
TTGTGGGTCGGTGGCTGATGGTTGGTGGGTGTGGTGTAGCGTTCTCGGGAGTTCCTCTCTTTCATCAACGACGCT
GTCGCGTTCGCCGGCATCACCCGTCTCTTTGGTGAAAACAGTGACCAGTTCCAAGGCGAGATTCTCAACATCCTC
GAGGCTATCAGCGATGGCAACAGCACCACGGTTGACGACCGCGAGATCTCGCTCGCGACGCTCGTCCCTGACGGT
TCGCCTGAAGTTTTCGAAGGGTACAAAGCGACGTACAACATCACCGCGCGGGAGCTCTGGGAGACAGGTCAAATC
GAGATGCTGATGTCGCTCATCTCTGAAGGTGTGATCTCTATCCAGAGTGCACTGCAACACCCCTACAGCCGCGGG
CGTGTGTACATCAACTCTACGAACCCGTTCCACCCCATCCAGATTGACCCCAACTACTTTTCGCACCCTATGGAT
CGGGTGATTATGCGTCAGGGAGTGAAGATGGTTAGGGATGTGGGGAATGTGTTGAGGGAGATGGGGGTGGTTGGG
GAGGAGGTTGTTCCGGGTCCGGGTGTTCAGACGGATGAGGATATTGATGGGTGGTTGAGGGATGGTGGAGCGAAT
ACGCAGTATCATCCTATGGGTAGTTGTGCGATGCTTCCGAGGAAGTGGGGTGGGTGTGTGAATAGCAAGTTGAGG
GTTTATGGGATCGGTGAGTCTTTTTTTTTTTATATATATGTATTGCGCTCGAAGCTCGGAGCTCGGAAACTGGTT
TCGGTTTTACTGATTGGACGTTCGTGTGTAGCTAATGTCCGTATTGCGGATTCCTCTGTCTTCCCGTTCGAGTTT
GCGGCCCATCTTGCGAGTGCGACGTTTGGACTTGCTGAGACTGCGTCCGAGTTGATCAAGGATGAGTCGTATGAT
GTTCCGAAGAATGCGAAAGTGAATGAGAGGGAACTTGGGAGGCAGGGTGGGGATGGGGAGAGTGGAGCTGCTGTT
GCGCTTACTGGACGGGGAGCGGGGTTGGGAGTGGAGAGGTTTGGTGTGCTGGGTGTGTGGGTTGGTGTTTTGAGT
GTTTTGGTGATGGTTTTGTAGGTGGTGTATTCGAGGTGATGGTTTTTGTAGTTGGGCGGTGAAGGTGTGGTAGTC
CTGGGCGTTCACGCGCTGATTCATGCGTTGTGTTGTTGTGGATATCTTTATTTATTTATTTTTCGATTCCTCTCT
TTCGATGAAAACGTCTCTTTGTAACCCTTCTCGTTGTGATGTGATGGTTTGTTTTTTTTCTGTGATGCATACATA
CCTCTTTTTATATACTTGGCGTCCTTTTTGGTTAATGCTTAGTTAGATCCTGAATGTTTTTTACGCTTTACGCTT
TGATTTGAATATTGAGCTTTTGTGATTTGTGTTTTT
Length 5361