CopciAB_544459
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_544459 Strain Coprinopsis cinerea Okayama 7
Standard name exgD Synonyms 544459
Uniprot id Functional description Glycoside hydrolase family 5 protein
Location scaffold_2:1931759..1935094 Strand +
Gene length (nt) 3336 Transcript length (nt) 2953
CDS length (nt) 2421 Protein length (aa) 806

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Aspergillus nidulans exgD
Aspergillus niger exgD

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7267896 66.1 0 1122
Hypsizygus marmoreus strain 51987-8 Hypma_RDB21561 64 0 1095
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_63154 60.6 0 1047
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_33887 60.6 0 1044
Pleurotus ostreatus PC15 PleosPC15_2_60667 59 4.95E-304 985
Pleurotus ostreatus PC9 PleosPC9_1_114096 59 4.845E-304 985
Pleurotus eryngii ATCC 90797 Pleery1_1479769 58.9 6.331E-304 982
Flammulina velutipes Flave_chr09AA00203 57.1 1.171E-299 929
Lentinula edodes W1-26 v1.0 Lentinedodes1_2760 52.6 2.109E-283 882
Lentinula edodes B17 Lened_B_1_1_3627 52.4 8.938E-282 877
Ganoderma sp. 10597 SS1 v1.0 Gansp1_109089 53 7.019E-277 863
Lentinula edodes NBRC 111202 Lenedo1_1058758 56 1.705E-266 833
Schizophyllum commune H4-8 Schco3_2481161 61.1 1.084E-243 767
Auricularia subglabra Aurde3_1_1273308 47.5 1.065E-227 721

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 82.0718 1.4649 0.8457
oidia 123.7263 20.3029 11.7219
vegetative_mycelium 126.4926 9.7406 5.6238
primordia 88.5036 3.4167 1.9726
hyphal_knot 84.5426 5.0674 2.9257
young_fruiting_body 112.1673 3.6008 2.079
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 83.8293 8.9599 5.173
Wheat bran 113.3546 43.4934 25.1109
Horse manure 159.6825 59.4339 34.3142
Oak leaves 283.9068 108.9088 62.8785
Hay 183.0732 55.9752 32.3173
Corn stalk 191.9029 41.2223 23.7997
Pectine 137.9203 8.2857 4.7838
Microcrystalline cellulose 102.7065 13.2089 7.6261
Xylose 107.7525 10.6778 6.1649
Cellobiose 68.9896 6.8468 3.953
Lignin 131.4951 16.5039 9.5285
Apple peels 116.1078 9.7079 5.6048
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 91.144 1.7962 1.037
Bsubtilis 101.1091 1.8817 1.0864
Ecoli 115.9337 3.0594 1.7663
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 23.5025 1.683 0.9717
BS 4h 25.0528 2.1932 1.2662
BS 8h 44.2766 7.3162 4.224
BS 12h 46.5781 9.9914 5.7685
Oidia 0 h 21.4591 6.6294 3.8275
Oidia 18 h 59.1931 4.35 2.5115
Sclerotia 16.8023 4.6363 2.6768
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 53.1841 7.7755 4.4892
DM 36h 58.1134 2.1246 1.2267
DM 60h 58.5776 5.4292 3.1345
DM 84h 57.7628 4.6085 2.6607
DM 108h 61.1126 2.8625 1.6526
DM 132h 58.349 5.0867 2.9368
DM 156hAE 60.5131 1.3254 0.7652
ELI1hAE 51.3597 4.8172 2.7812
ELI2hAE 50.9461 4.9532 2.8597
LI2hAE 47.7834 8.9098 5.1441
LI6hAE 45.8765 0.7368 0.4254
LI12hAE 35.3272 13.7855 7.9591
LI18hAE 29.2764 4.7878 2.7642
LI 24hAE 49.7355 11.1554 6.4405
DM 156hAM 50.003 4.1015 2.368
ELI1hAM 43.1502 14.3106 8.2622
ELI2hAM 44.7879 9.9444 5.7414
LI2hAM 47.9074 12.5295 7.2339
LI6hAM 50.6018 13.9956 8.0804
LI12hAM 27.4385 1.5197 0.8774
LI18hAM 20.1479 9.6651 5.5802
LI 24hAM 32.908 2.8597 1.651
LI 24hHK 31.1871 4.491 2.5929
L/D 6h 30.5294 2.9708 1.7152
L/D 12h 33.1751 3.7414 2.1601
L/D 18h 40.1386 2.2744 1.3131
L/D 24h 34.4347 4.5718 2.6396
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 40.4817 3.6666 2.1169
Hyphal knots 68.717 8.2562 4.7667
Primordium 1 69.8904 14.436 8.3346
Primordium 2 66.0843 13.5109 7.8005
Young Fruiting body cap 101.1816 17.3089 9.9933
Younf fruiting body gill 92.051 18.8787 10.8996
Young fruiting body stipe 147.9949 22.2388 12.8396
Mature fruiting body cap_gill 44.5115 5.6653 3.2709
Mature fruiting body stipe 101.3641 11.1881 6.4595
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 109.5996 1.8461 1.0658
NH4NO3 101.6643 12.7564 7.3649
Proline 106.277 4.0136 2.3173
Tryptophan 97.4114 8.135 4.6968
Isoleucin 104.2154 8.5541 4.9387
Arginine 114.181 4.6792 2.7015
Metionine 124.3692 5.5734 3.2178
NaNO3 107.3128 5.2872 3.0525
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 109.5996 1.8461 1.0658
Citrus peel 111.7096 22.5456 13.0167
Poplar leaves 131.8925 9.6219 5.5552
Typha leaves 138.9346 20.9543 12.098
Overwintered Salix leaves 136.4023 10.4671 6.0432
Reed flowering 124.51 10.7709 6.2186
Tigernut 110.7626 8.1159 4.6857
Energy cane 126.6676 9.6371 5.564
Guar gum 122.9044 22.7862 13.1556
Apple peels 129.4037 23.3753 13.4958
Cellobiose 130.9112 4.1404 2.3905
Corn stalk 134.4082 19.7466 11.4007
Horse manure 110.2406 23.8786 13.7863
Lignin 69.3007 11.5245 6.6537
Microcrystalline cellulose 111.5563 20.5985 11.8925
Oak leaves 124.9293 10.8621 6.2712
Pectin esterified 100.3828 4.0916 2.3623
Poplar sawdust 99.7783 26.202 15.1277
Wheat bran 88.2415 10.8123 6.2425
Chlamydomonas reinhardtii 123.3142 25.7805 14.8844
Vertatryl alcohol 64.5574 6.7258 3.8832
Furfural 77.3566 3.4143 1.9712
Autoclaved mycelium 111.3898 3.7216 2.1487
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 111.6537 7.5545 4.3616
Ribose 134.4712 5.122 2.9572
Mannose 132.3993 0.1031 0.0729
Fructose 119.8269 12.2822 7.0911
Arabinose 129.4 5.2149 3.0108
Xylose 144.8946 4.7159 2.7227
Galacturonic acid 125.9294 16.969 9.797
Rhamnogalacturonan 114.9591 6.5895 3.8045
Pectin esterified 114.6797 2.7764 1.603
Polygalacturonic acid 122.7979 7.7752 4.489
Sodium acetate 134.5296 4.5434 2.6231
No nitrogen 119.5961 5.45 3.1466
BSA 127.2105 1.9005 1.0973
Glutamine 122.509 7.6094 4.3933
No phosphate 127.0981 1.9731 1.1392
No carbon 124.7054 4.6818 3.3105
No sulphur 130.1644 15.8217 9.1347
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 109.5996 1.8461 1.0658
Amylose 105.1635 12.8964 7.4458
Fucose 98.7995 11.7401 6.7781
Galactose 98.7634 7.1096 4.1047
Lactose 96.9974 5.8174 3.3587
Maltose 100.4604 15.178 8.763
Mannitol 102.986 14.2118 8.2052
Rhamnose 103.8709 17.0967 9.8708
Sorbitol 95.4636 8.4116 4.8564
Trehalose 108.1951 11.7798 6.801
Glycerol 107.7654 3.5089 2.0259
Glucuronic acid 110.4621 19.5779 11.3033
Arabinan 97.336 5.268 3.0415
Galactan 121.5702 4.6659 2.6939
Galactomannan 117.8376 13.3325 7.6975
Glucan 114.5588 13.7378 7.9315
Xylan 123.6559 14.3793 8.3019
Xyloglucan 139.6775 4.3161 2.4919
Arabinogalactan 117.0314 9.634 5.5622
Pectin 73.1366 23.1607 13.3718
Rhamnogalacturonan 78.9394 10.0522 5.8037
Polygalacturonic acid 94.1553 10.8592 6.2695
Mannan 103.3845 6.1837 3.5701
Amylopectin 91.6478 16.8974 9.7557
Inulin 123.1526 13.8546 7.9989
BSA 95.5191 7.8425 4.5279
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 58.5776 5.4292 3.1345
2h WAT 48.9488 5.4339 3.1373
4h WAT 48.0903 14.1327 8.1595
8h WAT 27.1879 2.0852 1.2039
16h WAT 48.8752 5.6874 3.2836
24h WAT 38.8511 4.4127 2.5477
WAT hyphal knot -30h 47.6598 6.4672 3.7338
WAT hyphal knot -22h 60.0098 7.5476 4.3576
WAT hyphal knot -15h 52.446 4.8787 2.8167
WAT hyphal knot -7.5h 38.6311 4.636 2.6766
WAT hyphal knot 44.1263 3.6108 2.0847
WAT hyphal knot +7.5h 30.6244 4.404 2.5427
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 107.2424 33.281 19.2148
Straw 3h 99.1367 1.8569 1.0721
Straw 6h 77.9432 31.4344 18.1487
Straw 12h 134.3748 14.5417 8.3957
Straw 24h 119.3343 38.7119 22.3503
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 38.5804 2.3682 1.3673
Frost (-20C, 30min) 26.4777 2.3225 1.3409
Heat shock (47C, 2h) 39.3147 3.1205 1.8016
High CO2 33.1945 8.5945 4.962
Drought (4% agar, 12h) 24.5991 3.6926 2.1319
Oxidative (1mM H2O2, 3h) 29.3357 5.5127 3.1828
Acidic (pH4, 3h) 35.378 4.123 2.3804
Alkaline (pH9, 3h) 32.8476 4.1354 2.3876
Osmotic (sorbitol 2h) 28.4935 3.8895 2.2456
CongoRed (3h) 35.7727 2.2435 1.2953
Cobalt chloride control 19.1051 0.4371 0.2523
Cobalt chloride 2mM 20.5418 5.5777 3.2203
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 40.0605 7.9496 4.5897
Cold stimulation 35.9085 7.4152 4.2811
Scratched surface 55.4879 1.6663 0.962
Ca2+, 200mM, 24h 38.3651 3.4477 1.9905
Cu2+, 2mM, 6h 40.9796 7.2657 4.1949
Voriconazole 24.1995 4.2494 2.4534
Trichoderma interaction, early 49.5415 5.6893 3.2847
Trichoderma interaction 60h 20.7642 9.7734 5.6427
Cobalt chloride 2mM repeat 44.77 11.8278 6.8288
Hypoxia 29.1281 3.8757 2.2376
Hypoxia control 25.187 4.7686 2.7532
Protoplastation control 25.73 2.4243 1.7142
Protoplastation 3.5h 23.9562 3.653 2.583
Protoplastation 1.5h 42.0678 13.6706 9.6666

General data

Systematic name exgD
Protein id CopciAB_544459.T0
Description Glycoside hydrolase family 5 protein

Annotation summary

0 200 400 600 800 806

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF00150 Cellulase (glycosyl hydrolase family 5) IPR001547 324 483

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
1 156 178 22

InterPro

Accession Description
IPR001547 Glycoside hydrolase, family 5
IPR017853 Glycoside hydrolase superfamily

GO

Go id Term Ontology
GO:0004553 hydrolase activity, hydrolyzing O-glycosyl compounds MF
GO:0071704 organic substance metabolic process BP

KEGG

KEGG Orthology
K01210

EggNOG

COG category Description
G Glycoside hydrolase family 5 protein

CAZy

Class Family Subfamily
GH GH5 GH5_9

Transcription factor

Group
No records

Conservation of CopciAB_544459 across fungi.

Arrow shows the origin of gene family containing CopciAB_544459.

Protein

Sequence id CopciAB_544459.T0
Sequence >CopciAB_544459.T0
MANNPQNPSGNVVYDPLPLTGDDVPSNALYNAPPSPDPRLTSFNTPQMGHSDLPRDDTFIPPGAAQPRFMGQYDE
ASARNSFTSSQPSLRQSEYGSVYHLNDAQGSSAQFNNYRDEPNYTDNVPMSPVGHSRGMLHEKNTAYTAPRQKSK
RKVMIIGAIVAAILILAAIAIPLYFAVIKPKTSKDNSKSDSNHDKPDSTASPSGKPGSGASRAVVTGGDGSTITM
EDGTTFVYRNPFGGYWYYDPNDPFNNGAKAQSWTPALNETFRYGIDKIRGVNVGGWLLTEPFISPALYEKYLDDP
AGPAIDEWDLSLRMRADTAGGGIDQMEEHYKTFITERDFAEIAGAGLNYVRVPIGYWAVETRGDEPYLSQVSWTY
FLKAVKWARKYGLRINLDLHGVPGSQNGWNHSGRFGTIGFLHGPMGYANAQRTLDIIRVLAEFISQPQYKDVVTM
FGIMNEPLGDPMGQDALSRFYMESYNIIRRAGGGTGEGNGVWISLHDGFFGRAPWEGFLPNADRVTLDTHPYLCF
GEQSAAPMSSYAQTPCTTWGHLVNNSMANFGLTNAGEFSNAVTDCGLFLNGVNLGTRYEGDYTPGSWPRIGDCSE
WTDYTRYSDQMKSDIRQFALASMDALQHYFFWTWRIGETLRSGRVETPAWSYQLGLREGWMPTDPRDADGVCGNS
SPWTPPLQPWQTGGAGAGDIPPSVTEALAWPPPEIRNGGPIESLPRYTQTGALPTLTGMAITAGPSETITRTVDI
GNGWNNPADTVGFAVEIPGCTYLDPWVTPAAAPPSPLCAAARREAAQEPAVTLPPS
Length 806

Coding

Sequence id CopciAB_544459.T0
Sequence >CopciAB_544459.T0
ATGGCCAACAACCCGCAGAATCCATCAGGAAACGTAGTGTACGACCCACTCCCCTTGACTGGGGATGACGTGCCC
TCGAATGCGCTCTACAATGCCCCGCCATCGCCAGATCCGCGTCTGACATCGTTCAATACCCCTCAGATGGGCCAC
TCAGACCTGCCTCGCGATGACACCTTCATCCCCCCGGGAGCAGCCCAACCACGTTTCATGGGTCAATATGATGAA
GCTTCTGCCCGCAACTCATTTACTTCTTCCCAACCTAGTCTGCGCCAGTCAGAGTATGGTTCAGTTTACCACCTC
AACGACGCCCAAGGCTCCTCGGCCCAATTCAACAATTACCGTGACGAACCCAACTACACCGACAACGTCCCCATG
TCTCCCGTCGGTCATTCACGCGGTATGCTCCACGAAAAGAACACAGCCTACACCGCTCCCCGGCAGAAGTCGAAA
CGAAAGGTCATGATCATTGGGGCTATCGTTGCTGCCATCCTCATCCTAGCTGCCATCGCCATACCGCTCTACTTC
GCCGTTATTAAACCAAAAACAAGCAAAGACAACAGCAAGTCCGATAGCAATCATGATAAACCGGACTCGACGGCT
TCACCTAGCGGAAAGCCAGGCAGCGGTGCTTCGCGGGCTGTCGTCACAGGCGGTGATGGTAGCACCATCACAATG
GAGGACGGAACGACGTTCGTCTATCGTAATCCATTCGGCGGCTACTGGTACTACGATCCCAACGATCCTTTCAAC
AATGGCGCAAAGGCCCAGTCTTGGACCCCTGCACTGAACGAAACCTTCCGCTATGGAATCGACAAAATCCGAGGG
GTTAATGTCGGTGGTTGGCTTTTGACCGAACCGTTCATCTCTCCAGCCCTGTATGAAAAGTACCTGGATGACCCA
GCAGGTCCCGCCATCGACGAGTGGGACTTAAGCCTCCGTATGCGAGCTGATACTGCTGGTGGAGGGATTGACCAG
ATGGAGGAGCATTACAAGACCTTTATCACTGAAAGGGACTTTGCCGAAATCGCCGGTGCTGGACTCAACTATGTC
CGCGTCCCAATCGGCTATTGGGCCGTCGAAACTCGTGGAGACGAACCCTATCTGTCTCAGGTCTCTTGGACGTAC
TTTTTGAAGGCCGTGAAGTGGGCAAGGAAATACGGACTCAGAATCAATCTCGACCTTCACGGGGTCCCTGGAAGC
CAGAACGGATGGAACCATTCGGGCCGCTTTGGCACTATTGGCTTTCTTCACGGTCCTATGGGTTATGCAAATGCC
CAGCGTACCTTGGATATCATTCGTGTCCTCGCCGAGTTCATTTCTCAACCCCAGTATAAAGATGTTGTCACCATG
TTCGGGATTATGAACGAGCCCCTTGGCGATCCCATGGGCCAGGATGCTCTTTCACGATTCTACATGGAAAGTTAC
AATATCATCCGCCGGGCTGGAGGTGGAACCGGTGAAGGAAACGGCGTTTGGATCTCTCTACACGATGGTTTCTTC
GGCCGTGCCCCTTGGGAAGGCTTCCTTCCCAACGCTGACCGAGTGACCTTAGACACTCACCCATACCTCTGTTTC
GGTGAACAGTCTGCTGCACCGATGTCGTCCTACGCTCAAACACCTTGTACAACCTGGGGCCATCTCGTCAACAAC
TCGATGGCCAACTTCGGGTTGACCAATGCTGGTGAATTCAGCAATGCTGTTACTGACTGTGGGCTATTCCTGAAT
GGAGTCAACCTTGGTACTCGGTACGAAGGTGATTACACCCCGGGTAGCTGGCCTCGCATCGGCGATTGCTCCGAA
TGGACCGATTACACTCGTTACAGTGATCAGATGAAGAGCGACATTCGACAGTTCGCACTCGCGTCCATGGATGCC
CTTCAGCACTACTTCTTCTGGACATGGAGGATTGGCGAGACACTTCGCAGCGGACGGGTCGAGACGCCAGCATGG
TCTTATCAGCTGGGACTGCGCGAAGGCTGGATGCCTACTGACCCTCGTGATGCCGACGGCGTTTGTGGCAACAGC
TCGCCTTGGACCCCGCCCCTTCAACCATGGCAAACGGGCGGTGCAGGTGCGGGGGATATTCCTCCTTCTGTGACG
GAAGCTCTTGCCTGGCCCCCCCCAGAAATTCGCAACGGTGGTCCCATTGAATCACTTCCCCGATACACGCAGACT
GGGGCCCTCCCGACACTGACAGGAATGGCCATCACTGCCGGACCCAGCGAGACCATCACCAGAACCGTCGACATC
GGCAATGGTTGGAATAACCCGGCAGATACCGTTGGTTTCGCCGTTGAAATTCCAGGCTGCACCTACCTCGACCCT
TGGGTAACTCCTGCTGCCGCTCCCCCTTCCCCTTTGTGCGCAGCAGCCCGCCGTGAGGCAGCGCAGGAGCCTGCC
GTCACTCTCCCTCCCTCGTAA
Length 2421

Transcript

Sequence id CopciAB_544459.T0
Sequence >CopciAB_544459.T0
AGAGGTTGTGTCCCTCCTTTCTTCACCACTGCATTGTCGCTCTTCGATTCAGTCCTTCTTCTGCTCATCGTTGCC
GACGTTGACCGAGGGCCTCTTGTCCGCCGTTCCTTAAGCTCGACCGGCGCGTCTTTTCGTGCTTCCTCATCATGG
CCAACAACCCGCAGAATCCATCAGGAAACGTAGTGTACGACCCACTCCCCTTGACTGGGGATGACGTGCCCTCGA
ATGCGCTCTACAATGCCCCGCCATCGCCAGATCCGCGTCTGACATCGTTCAATACCCCTCAGATGGGCCACTCAG
ACCTGCCTCGCGATGACACCTTCATCCCCCCGGGAGCAGCCCAACCACGTTTCATGGGTCAATATGATGAAGCTT
CTGCCCGCAACTCATTTACTTCTTCCCAACCTAGTCTGCGCCAGTCAGAGTATGGTTCAGTTTACCACCTCAACG
ACGCCCAAGGCTCCTCGGCCCAATTCAACAATTACCGTGACGAACCCAACTACACCGACAACGTCCCCATGTCTC
CCGTCGGTCATTCACGCGGTATGCTCCACGAAAAGAACACAGCCTACACCGCTCCCCGGCAGAAGTCGAAACGAA
AGGTCATGATCATTGGGGCTATCGTTGCTGCCATCCTCATCCTAGCTGCCATCGCCATACCGCTCTACTTCGCCG
TTATTAAACCAAAAACAAGCAAAGACAACAGCAAGTCCGATAGCAATCATGATAAACCGGACTCGACGGCTTCAC
CTAGCGGAAAGCCAGGCAGCGGTGCTTCGCGGGCTGTCGTCACAGGCGGTGATGGTAGCACCATCACAATGGAGG
ACGGAACGACGTTCGTCTATCGTAATCCATTCGGCGGCTACTGGTACTACGATCCCAACGATCCTTTCAACAATG
GCGCAAAGGCCCAGTCTTGGACCCCTGCACTGAACGAAACCTTCCGCTATGGAATCGACAAAATCCGAGGGGTTA
ATGTCGGTGGTTGGCTTTTGACCGAACCGTTCATCTCTCCAGCCCTGTATGAAAAGTACCTGGATGACCCAGCAG
GTCCCGCCATCGACGAGTGGGACTTAAGCCTCCGTATGCGAGCTGATACTGCTGGTGGAGGGATTGACCAGATGG
AGGAGCATTACAAGACCTTTATCACTGAAAGGGACTTTGCCGAAATCGCCGGTGCTGGACTCAACTATGTCCGCG
TCCCAATCGGCTATTGGGCCGTCGAAACTCGTGGAGACGAACCCTATCTGTCTCAGGTCTCTTGGACGTACTTTT
TGAAGGCCGTGAAGTGGGCAAGGAAATACGGACTCAGAATCAATCTCGACCTTCACGGGGTCCCTGGAAGCCAGA
ACGGATGGAACCATTCGGGCCGCTTTGGCACTATTGGCTTTCTTCACGGTCCTATGGGTTATGCAAATGCCCAGC
GTACCTTGGATATCATTCGTGTCCTCGCCGAGTTCATTTCTCAACCCCAGTATAAAGATGTTGTCACCATGTTCG
GGATTATGAACGAGCCCCTTGGCGATCCCATGGGCCAGGATGCTCTTTCACGATTCTACATGGAAAGTTACAATA
TCATCCGCCGGGCTGGAGGTGGAACCGGTGAAGGAAACGGCGTTTGGATCTCTCTACACGATGGTTTCTTCGGCC
GTGCCCCTTGGGAAGGCTTCCTTCCCAACGCTGACCGAGTGACCTTAGACACTCACCCATACCTCTGTTTCGGTG
AACAGTCTGCTGCACCGATGTCGTCCTACGCTCAAACACCTTGTACAACCTGGGGCCATCTCGTCAACAACTCGA
TGGCCAACTTCGGGTTGACCAATGCTGGTGAATTCAGCAATGCTGTTACTGACTGTGGGCTATTCCTGAATGGAG
TCAACCTTGGTACTCGGTACGAAGGTGATTACACCCCGGGTAGCTGGCCTCGCATCGGCGATTGCTCCGAATGGA
CCGATTACACTCGTTACAGTGATCAGATGAAGAGCGACATTCGACAGTTCGCACTCGCGTCCATGGATGCCCTTC
AGCACTACTTCTTCTGGACATGGAGGATTGGCGAGACACTTCGCAGCGGACGGGTCGAGACGCCAGCATGGTCTT
ATCAGCTGGGACTGCGCGAAGGCTGGATGCCTACTGACCCTCGTGATGCCGACGGCGTTTGTGGCAACAGCTCGC
CTTGGACCCCGCCCCTTCAACCATGGCAAACGGGCGGTGCAGGTGCGGGGGATATTCCTCCTTCTGTGACGGAAG
CTCTTGCCTGGCCCCCCCCAGAAATTCGCAACGGTGGTCCCATTGAATCACTTCCCCGATACACGCAGACTGGGG
CCCTCCCGACACTGACAGGAATGGCCATCACTGCCGGACCCAGCGAGACCATCACCAGAACCGTCGACATCGGCA
ATGGTTGGAATAACCCGGCAGATACCGTTGGTTTCGCCGTTGAAATTCCAGGCTGCACCTACCTCGACCCTTGGG
TAACTCCTGCTGCCGCTCCCCCTTCCCCTTTGTGCGCAGCAGCCCGCCGTGAGGCAGCGCAGGAGCCTGCCGTCA
CTCTCCCTCCCTCGTAACCCATCCCTGTCGATTCGCTTTTCATGGCACGTCCTTTATACTTTGACGTCACTTATT
TTTACCTACCGCACACATATGGTATACCATCGGATTGTCGGCTGTTCGCTTTCCTTGCATTAGTGCTTGTATATT
TCTGCCTATCGAACGGACATATTATTGGACTCTCATATAGTACAGATTTAGCATACCATCGTTTATATCCCAGTT
TGTCTCACCTGGTTTTCAATCCTGTTCGATAACCAGAACACTTGGACGTGCATGTCATGTCACTACTGTCTTTAC
TCTCCGTTTCAGTCACCTTCGACAAGATAGATCTTTGATTGTATGTACAGAGATTTATTCAAATCCTAATGCTCG
CCGCTTGTGGTGGCATAACGATCCTCAA
Length 2953

Gene

Sequence id CopciAB_544459.T0
Sequence >CopciAB_544459.T0
AGAGGTTGTGTCCCTCCTTTCTTCACCACTGCATTGTCGCTCTTCGATTCAGTCCTTCTTCTGCTCATCGTTGCC
GACGTTGACCGAGGGCCTCTTGTCCGCCGTTCCTTAAGCTCGACCGGCGCGTCTTTTCGTGCTTCCTCATCATGG
CCAACAACCCGCAGAATCCATCAGGAAACGTAGTGTACGACCCACTCCCCTTGACTGGGGATGACGTGCCCTCGA
ATGCGCTCTACAATGCCCCGCCATCGCCAGATCCGCGTCTGACATCGTTCAATACCCCTCAGATGGGCCACTCAG
ACCTGCCTCGCGATGACACCTTCATCCCCCCGGGAGCAGCCCAACCACGTTTCATGGGTCAATATGATGAAGCTT
CTGCCCGCAACTCATTTACTTCTTCCCAACCTAGTCTGCGCCAGTCAGAGTATGGTTCAGTTTACCACCTCAACG
ACGCCCAAGGCTCCTCGGCCCAATTCAACAATTACCGTGACGAACCCAACTACACCGACAACGTCCCCATGTCTC
CCGTCGGTCATTCACGCGGTATGCTCCACGAAAAGAACACAGCCTACACCGCTCCCCGGCAGAAGTCGAAACGAA
AGGTCATGATCATTGGGGCTATCGTTGCTGCCATCCTCATCCTAGCTGCCATCGCCATACCGCTCTACTTCGCCG
TTATTAAACCAAAAACAAGCAAAGACAACAGCAAGTCCGATAGCAATCATGATAAACCGGACTCGACGGCTTCAC
CTAGCGGAAAGCCAGGCAGCGGTGCTTCGCGGGCTGTCGTCACAGGCGGTGATGGTAGCACCATCACAATGGAGG
ACGGAACGACGTTCGTCTATCGTAATCCATTCGGCGGCTACTGGTACTACGATCCCAACGATCCTTTCAACAATG
GCGCAAAGGCCCAGTCTTGGACCCCTGCACTGAACGAAACCTTCCGCTATGGAATCGACAAAATCCGAGGGTGTG
TATTCACCTAGTTCATTTCAAGAGGGTCTCTAAATATCACAAACAGGGTTAATGTCGGTGGTTGGCTTTTGACCG
AACCGGTAAGTCCACAGCCCTCGTCGCGTTGTCCATGTCAGTCTTCTAATGCCAATTTTAGTTCATGCAAGTAGA
GTACCTTATCTTCGCAAACGCGGCGCCTAATTCTCCTTTCCAGCTCTCCAGCCCTGTATGAAAAGTACCTGGATG
ACCCAGCAGGTCCCGCCATCGACGAGTGGGACTTAAGCCTCCGTATGCGAGCTGATACTGCTGGTGGAGGGATTG
ACCAGATGGAGGAGCATTACAAGACCTTTATCGTGAGGCCATCATCTGGTACACCCTACTGATAACTTTGCTAAC
GAAACATTCACTCAGACTGAAAGGGACTTTGCCGAAATCGCCGGTGCTGGACTCAACTATGTCCGCGTCCCAATC
GGCTATTGGGCCGTCGAAACTCGTGGAGACGAACCCTATCTGTCTCAGGTCTCTTGGACGTGAGGTCGCAATGGT
CTCTCTTCCATCAAGCTGCTCATTCTGTTTCAATTAGGTACTTTTTGAAGGCCGTGAAGTGGGCAAGGAAATACG
GACTCAGAATCAATCTCGACCTTCACGGGGTCCCTGGAAGCCAGAACGGATGGAACCATTCGGGCCGCTTTGGCA
CTATTGGCTTTCTTCACGGTCCTATGGGTTATGCAAATGCCCAGCGTACCTTGGATATCATTCGTGTCCTCGCCG
AGTTCATTTCTCAACCCCAGTATAAAGATGTTGTCACCATGTTCGGGATTATGAACGAGCCCCTTGGCGATCCCA
TGGGCCAGGATGCTCTTTCACGATTGTGAGGTCATTTTTCCCTTCCATAGTCGGTGGTCTGACAGTGTCCCTCTC
TCCTAGCTACATGGAAAGTTACAATATCATCCGCCGGGCTGGAGGTGGAACCGGTGAAGGAAACGGCGTTTGGAT
CTCTCTACACGATGGTTTCTTCGGCCGTGCCCCTTGGGAAGGCTTCCTTCCCAACGCTGACCGAGTGACCTTAGA
CACTCACCCATACCTCTGTTTCGGTGAACAGTCTGCTGCACCGATGTCGTCCTACGCTCAAACACCTTGTACAAC
CTGGGGCCATCTCGTCAACAACTCGATGGCCAACTTCGGGTTGACCAATGCTGGTGAATTCAGCAATGCTGTTAC
TGACTGTGGGCTATTCCTGAATGGAGTCAACCTTGGTACTCGGTACGAAGGTGATTACACCCCGGGTAGCTGGCC
TCGCATCGGCGATTGCTCCGAATGGACCGATTACACTCGTTACAGTGATCAGATGAAGAGCGACATTCGACAGTT
CGCACTCGCGTCCATGGATGCCCTTCAGGTCAGTTAAATCAGCATCAATCAGTGATACCAGGAAAGTTGACCAAA
AGACATACAGCACTACTTCTTCTGGACATGGAGGATTGGCGAGACACTTCGCAGCGGACGGGTCGAGACGCCAGC
ATGGTCTTATCAGCTGGGACTGCGCGAAGGCTGGATGCCTACTGACCCTCGTGATGCCGACGGCGTTTGTGGCAA
CAGCTCGCCTTGGACCCCGCCCCTTCAACCATGGCAAACGGGCGGTGCAGGTGCGGGGGATATTCCTCCTTCTGT
GACGGAAGCTCTTGCCTGGCCCCCCCCAGAAATTCGCAACGGTGGTCCCATTGAATCACTTCCCCGATACACGCA
GACTGGGGCCCTCCCGACACTGACAGGAATGGCCATCACTGCCGGACCCAGCGAGACCATCACCAGAACCGTCGA
CATCGGCAATGGTTGGAATAACCCGGCAGATACCGTTGGTTTCGCCGTTGAAATTCCAGGCTGCACCTACCTCGA
CCCTTGGGTAACTCCTGCTGCCGCTCCCCCTTCCCCTTTGTGCGCAGCAGCCCGCCGTGAGGCAGCGCAGGAGCC
TGCCGTCACTCTCCCTCCCTCGTAACCCATCCCTGTCGATTCGCTTTTCATGGCACGTCCTTTATACTTTGACGT
CACTTATTTTTACCTACCGCACACATATGGTATACCATCGGATTGTCGGCTGTTCGCTTTCCTTGCATTAGTGCT
TGTATATTTCTGCCTATCGAACGGACATATTATTGGACTCTCATATAGTACAGATTTAGCATACCATCGTTTATA
TCCCAGTTTGTCTCACCTGGTTTTCAATCCTGTTCGATAACCAGAACACTTGGACGTGCATGTCATGTCACTACT
GTCTTTACTCTCCGTTTCAGTCACCTTCGACAAGATAGATCTTTGATTGTATGTACAGAGATTTATTCAAATCCT
AATGCTCGCCGCTTGTGGTGGCATAACGATCCTCAA
Length 3336