CopciAB_408932
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_408932 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 408932
Uniprot id Functional description
Location scaffold_8:2078977..2082525 Strand +
Gene length (nt) 3549 Transcript length (nt) 3194
CDS length (nt) 2949 Protein length (aa) 982

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
0

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 0.7385 0.1153 0.0666
oidia 1.7131 0.4361 0.2518
vegetative_mycelium 1.9124 0.334 0.1929
primordia 0.7878 0.3266 0.1885
hyphal_knot 2.3981 0.426 0.2459
young_fruiting_body 1.1839 0.5694 0.3287
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 4.9492 2.9353 1.6947
Wheat bran 3.4951 1.114 0.6432
Horse manure 3.3608 1.8829 1.0871
Oak leaves 3.0537 1.8906 1.0915
Hay 2.6926 0.8374 0.4835
Corn stalk 4.35 1.0375 0.599
Pectine 4.0246 1.0553 0.6093
Microcrystalline cellulose 0.9254 0.4645 0.2682
Xylose 8.78 3.3546 1.9368
Cellobiose 5.6517 0.7301 0.4215
Lignin 1.2822 1.0293 0.5942
Apple peels 2.1829 0.3938 0.2273
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 2.0296 0.1395 0.0806
Bsubtilis 1.3237 0.3812 0.2201
Ecoli 1.596 0.1903 0.1099
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 0.1547 0.268 0.1547
BS 4h 0.0271 0.047 0.0271
BS 8h 0.0383 0.0664 0.0383
BS 12h 0.0331 0.0574 0.0331
Oidia 0 h 2.0392 0.2963 0.1711
Oidia 18 h 0.14 0.1273 0.0735
Sclerotia 0.0694 0.1202 0.0694
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 0.4529 0.1544 0.0891
DM 36h 0.3671 0.285 0.1646
DM 60h 0.7801 0.1386 0.08
DM 84h 0.8151 0.1975 0.114
DM 108h 0.4733 0.3288 0.1898
DM 132h 0.5384 0.1158 0.0669
DM 156hAE 0.6718 0.2891 0.1669
ELI1hAE 1.5953 0.6194 0.3576
ELI2hAE 0.6856 0.1253 0.0723
LI2hAE 1.1283 0.9907 0.572
LI6hAE 1.3337 0.2076 0.1199
LI12hAE 1.4352 0.665 0.3839
LI18hAE 1.073 0.5825 0.3363
LI 24hAE 0.804 0.9267 0.535
DM 156hAM 0.5878 0.3078 0.1777
ELI1hAM 0.8662 0.5007 0.2891
ELI2hAM 0.875 0.3015 0.1741
LI2hAM 1.1446 1.1717 0.6765
LI6hAM 0.8895 0.658 0.3799
LI12hAM 1.6438 0.09 0.052
LI18hAM 2.0101 0.5707 0.3295
LI 24hAM 0.8487 0.5719 0.3302
LI 24hHK 1.2566 0.7722 0.4458
L/D 6h 0.8818 0.4175 0.241
L/D 12h 1.274 0.0677 0.0391
L/D 18h 1.092 0.1766 0.102
L/D 24h 0.3383 0.1164 0.0672
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 3.0875 2.1064 1.2161
Hyphal knots 2.5257 0.8633 0.4984
Primordium 1 3.1955 0.4976 0.2873
Primordium 2 3.0838 1.1992 0.6923
Young Fruiting body cap 0.6609 0.2454 0.1417
Younf fruiting body gill 0.3714 0.2176 0.1256
Young fruiting body stipe 2.0871 0.9163 0.529
Mature fruiting body cap_gill 3.9472 0.908 0.5243
Mature fruiting body stipe 9.0757 2.5384 1.4656
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 3.6062 0.6805 0.3929
NH4NO3 3.1694 1.1953 0.6901
Proline 2.5184 1.107 0.6391
Tryptophan 1.8886 0.3664 0.2115
Isoleucin 1.5301 0.1033 0.0597
Arginine 3.5296 0.5395 0.3115
Metionine 2.1739 0.7546 0.4357
NaNO3 2.2599 0.444 0.2563
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 3.6062 0.6805 0.3929
Citrus peel 2.4789 0.4917 0.2839
Poplar leaves 2.3001 0.6124 0.3536
Typha leaves 2.611 0.0189 0.0109
Overwintered Salix leaves 3.2255 0.7279 0.4203
Reed flowering 2.9867 1.0282 0.5936
Tigernut 2.7682 0.4541 0.2621
Energy cane 3.1305 1.2313 0.7109
Guar gum 3.3416 0.289 0.1669
Apple peels 1.8198 0.3745 0.2162
Cellobiose 2.2568 0.3371 0.1946
Corn stalk 4.183 0.3682 0.2126
Horse manure 3.4088 0.9719 0.5611
Lignin 2.2281 0.2227 0.1286
Microcrystalline cellulose 1.9083 0.9173 0.5296
Oak leaves 3.5333 0.9811 0.5665
Pectin esterified 2.266 0.3272 0.1889
Poplar sawdust 3.8417 0.7788 0.4497
Wheat bran 2.6738 0.3562 0.2056
Chlamydomonas reinhardtii 2.464 0.2793 0.1612
Vertatryl alcohol 6.9095 0.6378 0.3682
Furfural 0.754 0.3735 0.2156
Autoclaved mycelium 1.8359 0.4432 0.2559
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 3.077 0.4811 0.2778
Ribose 2.7899 1.058 0.6108
Mannose 3.5511 0.9677 0.6842
Fructose 3.6471 1.6442 0.9493
Arabinose 3.5383 1.0831 0.6254
Xylose 3.0748 0.371 0.2142
Galacturonic acid 2.723 0.2864 0.1653
Rhamnogalacturonan 3.5419 0.4 0.231
Pectin esterified 2.642 0.6625 0.3825
Polygalacturonic acid 4.0062 0.9679 0.5588
Sodium acetate 2.3777 0.7359 0.4249
No nitrogen 3.3625 1.3496 0.7792
BSA 3.2108 0.5835 0.3369
Glutamine 3.0739 0.3223 0.1861
No phosphate 2.5384 0.3059 0.1766
No carbon 2.2758 0.159 0.1125
No sulphur 2.6357 0.542 0.3129
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 3.6062 0.6805 0.3929
Amylose 2.8392 1.0448 0.6032
Fucose 3.0241 0.43 0.2482
Galactose 2.7572 0.3075 0.1775
Lactose 2.0987 0.4618 0.2666
Maltose 2.2948 0.4461 0.2575
Mannitol 2.0043 0.9168 0.5293
Rhamnose 2.2867 0.6741 0.3892
Sorbitol 2.5738 0.4164 0.2404
Trehalose 3.2801 0.0987 0.057
Glycerol 3.1293 0.4157 0.24
Glucuronic acid 4.3016 0.4694 0.271
Arabinan 2.5554 0.5366 0.3098
Galactan 2.0265 0.3468 0.2002
Galactomannan 5.382 2.0042 1.1571
Glucan 2.2821 0.1821 0.1051
Xylan 2.4956 1.1271 0.6507
Xyloglucan 3.5629 0.5749 0.3319
Arabinogalactan 3.3533 0.7714 0.4454
Pectin 1.8444 0.6574 0.3796
Rhamnogalacturonan 1.6586 0.2457 0.1419
Polygalacturonic acid 3.2173 1.5137 0.8739
Mannan 3.0211 0.4441 0.2564
Amylopectin 2.2166 0.8184 0.4725
Inulin 3.1196 0.9975 0.5759
BSA 2.0082 0.7514 0.4338
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 0.7801 0.1386 0.08
2h WAT 1.1502 0.696 0.4018
4h WAT 1.1353 0.3051 0.1762
8h WAT 1.0091 0.6933 0.4003
16h WAT 0.4493 0.4512 0.2605
24h WAT 1.7281 0.7756 0.4478
WAT hyphal knot -30h 1.1623 0.6721 0.388
WAT hyphal knot -22h 1.2973 0.7694 0.4442
WAT hyphal knot -15h 0.6688 0.3046 0.1759
WAT hyphal knot -7.5h 2.5375 2.7703 1.5994
WAT hyphal knot 1.4714 0.7153 0.413
WAT hyphal knot +7.5h 1.8981 1.4374 0.8299
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 1.7872 0.2695 0.1556
Straw 3h 1.6732 0.7277 0.4201
Straw 6h 2.5136 1.6245 0.9379
Straw 12h 4.5809 2.0101 1.1605
Straw 24h 4.5649 3.6473 2.1058
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 0.6233 0.4383 0.253
Frost (-20C, 30min) 0.8303 0.3552 0.2051
Heat shock (47C, 2h) 0.7956 0.55 0.3175
High CO2 0.2982 0.3206 0.1851
Drought (4% agar, 12h) 0.9115 0.4442 0.2565
Oxidative (1mM H2O2, 3h) 0.2268 0.0533 0.0308
Acidic (pH4, 3h) 0.5181 0.5429 0.3134
Alkaline (pH9, 3h) 0.672 0.3583 0.2069
Osmotic (sorbitol 2h) 0.4045 0.2924 0.1688
CongoRed (3h) 0.6299 0.214 0.1236
Cobalt chloride control 0.6062 0.2158 0.1246
Cobalt chloride 2mM 0.2629 0.196 0.1132
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 0.5446 0.3135 0.181
Cold stimulation 0.359 0.2286 0.132
Scratched surface 0.8125 0.5072 0.2928
Ca2+, 200mM, 24h 0.4487 0.1267 0.0732
Cu2+, 2mM, 6h 0.8062 0.5418 0.3128
Voriconazole 1.1846 0.7301 0.4215
Trichoderma interaction, early 0.8215 0.2447 0.1413
Trichoderma interaction 60h 0.6274 0.6457 0.3728
Cobalt chloride 2mM repeat 0.4301 0.2089 0.1206
Hypoxia 0.9408 0.7311 0.4221
Hypoxia control 0.5884 0.6506 0.3756
Protoplastation control 1.2057 0.1683 0.119
Protoplastation 3.5h 2.0158 1.4799 1.0465
Protoplastation 1.5h 1.7603 1.234 0.8725

General data

Systematic name -
Protein id CopciAB_408932.T0
Description

Annotation summary

0 200 400 600 800 982

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 289 756

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR011009 Protein kinase-like domain superfamily
IPR040976 Fungal-type protein kinase

GO

Go id Term Ontology
No records

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
No records

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_408932 across fungi.

Arrow shows the origin of gene family containing CopciAB_408932.

Protein

Sequence id CopciAB_408932.T0
Sequence >CopciAB_408932.T0
MKPTTEPITPKRDSVAQAAPGAKSAPVGTTPRTGQDITNVDDTTTTLRIDIARLMNAEIILCDAEAFLGYYMPKY
DEDTAKYVLIRLATEKRPDGTTVLVPRRASNTAADSEQTSEEDAVSISADGDGYEEGPEDSATEDETEDERWATP
ITSKRARVVLDEAEFNDGEEEYPDEFEGETTENTKDEREVHSEEDIYPYVLYDFKHRPSMVKKTYLVNKKKRVAN
LRKVDEGSLFSTLTGIGNAVRDALRARGVAVNDYHILMCPNTAMSSGIDGCDQRIDAALTKKKDVKGITVYDVIV
PFEFKVDCKNSIIFENRRQVVSHVNHTMNDDPRRLFMHAISIEDDLVSIWYFSRSHSAKAACFSMVERPDILVKV
FISLFCATDQQLGFDPYVTLVEDDRFVYELPPNENRCKSLFYRTIECISHPRSLRLRGRSTRVWKVEQVQSKKDH
TRVAGTGEMILKDVSMSSDTAPEPHIQNMIFHDLDKLSSDPNWRKRDILKDCTPQQLEELACLLEGRRFTDFFSC
VKEHHIGNSGPLVIPYSWRLPSVFLKPDRPSIPCNNVRTNVTPDSPSTGQLQDDNMTEVEGAPPAAVEMPLKQTL
VPRRQCRFVFHHVYTPLLHIRTMGDAMDILKGCVLVLRLMFCAGWVHRDLSPGNILAARVSPDGPWQVKLSDLEY
AKRFPSDNPPGATPKTASHNYMAYEVSTQKKIVSEEEEVELECESGEEESSIVKEFAVASTPVDHNYQHDLESIW
WISLWLGSARVDMDLPRDKFVNTVFPTTMDLSYSQYHGRWNIFIACPTLLEDGPLVQSLPRAISKTTFLARLDTL
RKSLKAEYRKRNHRNEHRDLGTYSLILNVAFRNFFRGIEKSRKEWGNLRLIKDPVPQKLAKGKESSHNLDAPLAD
PLTGQKRKFNQPIRFNHGGTSDRTERKIARLPHRAKAKQRGPSKLPVQVLAGPNQGSGGKGMETSNQWEDEANQG
RNKRARR
Length 982

Coding

Sequence id CopciAB_408932.T0
Sequence >CopciAB_408932.T0
ATGAAGCCCACGACAGAGCCGATAACGCCGAAGCGAGATTCGGTGGCTCAGGCTGCCCCTGGGGCTAAATCAGCA
CCCGTAGGGACCACTCCACGAACAGGGCAGGACATCACCAATGTAGACGACACGACGACTACACTTCGCATCGAC
ATCGCTCGGTTGATGAACGCGGAGATCATCCTTTGCGATGCTGAAGCCTTTCTCGGCTACTATATGCCTAAATAC
GACGAGGATACAGCGAAATACGTATTAATTCGCCTGGCCACTGAGAAGAGGCCAGACGGCACCACCGTTCTTGTA
CCACGCCGCGCTTCCAACACCGCAGCGGACTCCGAGCAGACCAGTGAAGAGGACGCGGTGTCCATCAGTGCGGAC
GGTGATGGGTATGAGGAAGGGCCTGAAGACTCTGCCACAGAGGATGAGACTGAAGACGAGCGATGGGCCACACCG
ATTACCAGTAAAAGGGCAAGAGTGGTTTTGGATGAAGCCGAGTTTAACGATGGCGAAGAGGAGTACCCCGATGAA
TTCGAAGGAGAGACGACGGAGAACACGAAGGACGAAAGAGAGGTACACTCGGAAGAGGATATTTACCCCTACGTC
CTTTACGACTTCAAGCACAGGCCGTCCATGGTGAAGAAGACATACCTCGTCAACAAGAAGAAACGAGTTGCCAAT
TTGCGCAAGGTCGACGAGGGCTCCCTCTTCAGTACACTGACTGGCATCGGAAACGCCGTACGCGATGCCCTTCGT
GCTAGAGGAGTGGCGGTAAATGACTATCACATTTTGATGTGTCCCAACACGGCAATGTCGTCTGGAATCGATGGG
TGCGATCAGAGAATCGACGCTGCCCTCACGAAGAAGAAAGATGTCAAGGGGATAACAGTCTACGACGTCATTGTC
CCATTCGAGTTCAAAGTGGACTGCAAGAACAGCATCATATTTGAGAACCGGAGGCAAGTGGTCTCGCACGTCAAT
CATACGATGAATGACGATCCACGACGCCTCTTTATGCATGCGATCTCCATTGAAGATGACCTTGTATCCATTTGG
TACTTCTCTCGGTCGCATTCGGCCAAAGCCGCCTGTTTTAGCATGGTCGAGCGCCCTGATATCCTCGTCAAGGTC
TTTATCTCGCTTTTCTGCGCGACGGATCAACAACTCGGCTTCGACCCATATGTCACCCTGGTTGAAGACGACAGA
TTTGTTTACGAGCTCCCACCCAACGAGAATCGCTGCAAGTCTCTCTTCTACCGAACCATCGAATGCATCTCCCAC
CCGCGCTCCCTACGGCTTAGAGGACGATCGACTCGAGTTTGGAAGGTCGAGCAGGTACAATCAAAGAAGGACCAC
ACCCGCGTTGCTGGGACGGGGGAGATGATACTGAAAGACGTTTCGATGAGCTCCGACACGGCACCGGAGCCTCAC
ATTCAGAATATGATTTTCCATGACTTGGACAAGCTCTCGTCGGACCCAAACTGGCGCAAGCGCGATATATTGAAG
GACTGCACACCGCAACAACTGGAGGAACTGGCATGTCTTTTGGAGGGCCGTCGCTTCACAGATTTCTTCTCATGC
GTGAAGGAGCACCATATAGGCAACTCTGGTCCCCTGGTCATTCCCTATTCTTGGAGGCTTCCGTCGGTCTTCTTG
AAACCAGACAGGCCTAGCATACCCTGCAATAATGTTCGCACCAATGTCACTCCCGACTCCCCGTCCACGGGCCAA
TTGCAAGATGACAATATGACCGAAGTGGAGGGGGCGCCCCCGGCGGCGGTGGAGATGCCCCTCAAACAGACACTT
GTGCCTCGACGACAATGTCGTTTCGTCTTTCACCACGTCTACACTCCGCTGCTCCATATCAGAACCATGGGTGAT
GCTATGGATATCCTAAAAGGTTGTGTACTAGTGCTTCGACTCATGTTCTGTGCGGGATGGGTCCATCGAGATCTC
AGCCCTGGTAATATCCTCGCTGCCCGTGTCTCTCCAGATGGTCCGTGGCAGGTGAAGCTTTCCGACCTTGAGTAT
GCGAAAAGGTTTCCTTCTGATAATCCCCCCGGTGCGACGCCCAAAACGGCCTCCCACAACTATATGGCGTATGAG
GTGTCTACCCAGAAGAAGATTGTTTCTGAAGAGGAGGAAGTGGAGCTGGAATGCGAGTCAGGGGAGGAAGAGTCC
AGTATTGTGAAAGAATTTGCTGTTGCAAGCACTCCGGTCGATCACAACTATCAGCACGATCTCGAGTCAATCTGG
TGGATTTCTCTTTGGTTGGGCTCTGCTCGAGTGGATATGGATCTTCCGAGGGATAAATTTGTGAACACTGTTTTC
CCCACCACCATGGACCTCAGCTATTCGCAGTATCATGGGCGTTGGAACATATTCATCGCGTGCCCCACGCTTCTG
GAAGATGGCCCCCTTGTGCAAAGCCTTCCGCGTGCGATATCCAAAACCACTTTCCTTGCGAGATTAGACACCCTA
AGGAAGAGTCTCAAAGCGGAGTACAGAAAGCGCAACCACAGAAATGAACACAGAGATCTTGGGACCTACTCTTTA
ATTCTCAATGTCGCTTTCCGAAACTTCTTCCGCGGCATCGAAAAGTCAAGGAAAGAGTGGGGAAACCTCCGGCTG
ATTAAGGACCCAGTGCCGCAGAAACTCGCGAAAGGGAAGGAGTCGTCCCACAATCTTGATGCCCCACTGGCGGAT
CCGCTGACGGGCCAGAAGCGCAAGTTCAACCAACCGATTAGATTCAATCATGGGGGTACTTCCGACCGCACTGAA
AGGAAAATCGCTCGTCTACCGCATAGAGCAAAGGCTAAGCAAAGGGGACCTTCGAAGCTACCAGTACAGGTATTG
GCTGGTCCTAATCAAGGAAGCGGTGGCAAGGGGATGGAGACGAGCAATCAATGGGAGGACGAAGCCAATCAGGGA
CGGAACAAGAGGGCTCGTCGCTGA
Length 2949

Transcript

Sequence id CopciAB_408932.T0
Sequence >CopciAB_408932.T0
GCCGACGCCTCTTTCTTCCTAACCACAACCATACTGTTTGACACCCTTCTCATACTGATACTTACATTCGGAGGA
GATCCACCGAGAGTTATAACAGAAGACTGGTGCTATGAAGCCCACGACAGAGCCGATAACGCCGAAGCGAGATTC
GGTGGCTCAGGCTGCCCCTGGGGCTAAATCAGCACCCGTAGGGACCACTCCACGAACAGGGCAGGACATCACCAA
TGTAGACGACACGACGACTACACTTCGCATCGACATCGCTCGGTTGATGAACGCGGAGATCATCCTTTGCGATGC
TGAAGCCTTTCTCGGCTACTATATGCCTAAATACGACGAGGATACAGCGAAATACGTATTAATTCGCCTGGCCAC
TGAGAAGAGGCCAGACGGCACCACCGTTCTTGTACCACGCCGCGCTTCCAACACCGCAGCGGACTCCGAGCAGAC
CAGTGAAGAGGACGCGGTGTCCATCAGTGCGGACGGTGATGGGTATGAGGAAGGGCCTGAAGACTCTGCCACAGA
GGATGAGACTGAAGACGAGCGATGGGCCACACCGATTACCAGTAAAAGGGCAAGAGTGGTTTTGGATGAAGCCGA
GTTTAACGATGGCGAAGAGGAGTACCCCGATGAATTCGAAGGAGAGACGACGGAGAACACGAAGGACGAAAGAGA
GGTACACTCGGAAGAGGATATTTACCCCTACGTCCTTTACGACTTCAAGCACAGGCCGTCCATGGTGAAGAAGAC
ATACCTCGTCAACAAGAAGAAACGAGTTGCCAATTTGCGCAAGGTCGACGAGGGCTCCCTCTTCAGTACACTGAC
TGGCATCGGAAACGCCGTACGCGATGCCCTTCGTGCTAGAGGAGTGGCGGTAAATGACTATCACATTTTGATGTG
TCCCAACACGGCAATGTCGTCTGGAATCGATGGGTGCGATCAGAGAATCGACGCTGCCCTCACGAAGAAGAAAGA
TGTCAAGGGGATAACAGTCTACGACGTCATTGTCCCATTCGAGTTCAAAGTGGACTGCAAGAACAGCATCATATT
TGAGAACCGGAGGCAAGTGGTCTCGCACGTCAATCATACGATGAATGACGATCCACGACGCCTCTTTATGCATGC
GATCTCCATTGAAGATGACCTTGTATCCATTTGGTACTTCTCTCGGTCGCATTCGGCCAAAGCCGCCTGTTTTAG
CATGGTCGAGCGCCCTGATATCCTCGTCAAGGTCTTTATCTCGCTTTTCTGCGCGACGGATCAACAACTCGGCTT
CGACCCATATGTCACCCTGGTTGAAGACGACAGATTTGTTTACGAGCTCCCACCCAACGAGAATCGCTGCAAGTC
TCTCTTCTACCGAACCATCGAATGCATCTCCCACCCGCGCTCCCTACGGCTTAGAGGACGATCGACTCGAGTTTG
GAAGGTCGAGCAGGTACAATCAAAGAAGGACCACACCCGCGTTGCTGGGACGGGGGAGATGATACTGAAAGACGT
TTCGATGAGCTCCGACACGGCACCGGAGCCTCACATTCAGAATATGATTTTCCATGACTTGGACAAGCTCTCGTC
GGACCCAAACTGGCGCAAGCGCGATATATTGAAGGACTGCACACCGCAACAACTGGAGGAACTGGCATGTCTTTT
GGAGGGCCGTCGCTTCACAGATTTCTTCTCATGCGTGAAGGAGCACCATATAGGCAACTCTGGTCCCCTGGTCAT
TCCCTATTCTTGGAGGCTTCCGTCGGTCTTCTTGAAACCAGACAGGCCTAGCATACCCTGCAATAATGTTCGCAC
CAATGTCACTCCCGACTCCCCGTCCACGGGCCAATTGCAAGATGACAATATGACCGAAGTGGAGGGGGCGCCCCC
GGCGGCGGTGGAGATGCCCCTCAAACAGACACTTGTGCCTCGACGACAATGTCGTTTCGTCTTTCACCACGTCTA
CACTCCGCTGCTCCATATCAGAACCATGGGTGATGCTATGGATATCCTAAAAGGTTGTGTACTAGTGCTTCGACT
CATGTTCTGTGCGGGATGGGTCCATCGAGATCTCAGCCCTGGTAATATCCTCGCTGCCCGTGTCTCTCCAGATGG
TCCGTGGCAGGTGAAGCTTTCCGACCTTGAGTATGCGAAAAGGTTTCCTTCTGATAATCCCCCCGGTGCGACGCC
CAAAACGGCCTCCCACAACTATATGGCGTATGAGGTGTCTACCCAGAAGAAGATTGTTTCTGAAGAGGAGGAAGT
GGAGCTGGAATGCGAGTCAGGGGAGGAAGAGTCCAGTATTGTGAAAGAATTTGCTGTTGCAAGCACTCCGGTCGA
TCACAACTATCAGCACGATCTCGAGTCAATCTGGTGGATTTCTCTTTGGTTGGGCTCTGCTCGAGTGGATATGGA
TCTTCCGAGGGATAAATTTGTGAACACTGTTTTCCCCACCACCATGGACCTCAGCTATTCGCAGTATCATGGGCG
TTGGAACATATTCATCGCGTGCCCCACGCTTCTGGAAGATGGCCCCCTTGTGCAAAGCCTTCCGCGTGCGATATC
CAAAACCACTTTCCTTGCGAGATTAGACACCCTAAGGAAGAGTCTCAAAGCGGAGTACAGAAAGCGCAACCACAG
AAATGAACACAGAGATCTTGGGACCTACTCTTTAATTCTCAATGTCGCTTTCCGAAACTTCTTCCGCGGCATCGA
AAAGTCAAGGAAAGAGTGGGGAAACCTCCGGCTGATTAAGGACCCAGTGCCGCAGAAACTCGCGAAAGGGAAGGA
GTCGTCCCACAATCTTGATGCCCCACTGGCGGATCCGCTGACGGGCCAGAAGCGCAAGTTCAACCAACCGATTAG
ATTCAATCATGGGGGTACTTCCGACCGCACTGAAAGGAAAATCGCTCGTCTACCGCATAGAGCAAAGGCTAAGCA
AAGGGGACCTTCGAAGCTACCAGTACAGGTATTGGCTGGTCCTAATCAAGGAAGCGGTGGCAAGGGGATGGAGAC
GAGCAATCAATGGGAGGACGAAGCCAATCAGGGACGGAACAAGAGGGCTCGTCGCTGATTATATGTATCCTGACG
TGACTATGCTCAGTCTGTATCACCTATAAGTACCTGTACTACGGGATAATGAAATCGAAGTACTAGTAGTAGCGT
ACGTACAGCAATAGGTCATGAATTTGACACGATGTTTGCTCCTT
Length 3194

Gene

Sequence id CopciAB_408932.T0
Sequence >CopciAB_408932.T0
GCCGACGCCTCTTTCTTCCTAACCACAACCATACTGTTTGACACCCTTCTCATACTGATACTTACATTCGGAGGA
GATCCACCGAGAGTTATAACAGAAGACTGGTGCTATGAAGCCCACGACAGAGCCGATGTGAGTGTTTTTCGATAT
CTACCCCAATCACTGAGTGGCATCGCTAACAACGACATACCAGAACGCCGAAGCGAGATTCGGTGGCTCAGGCTG
CCCCTGGGGCTAAATCAGCACCCGTAGGGACCACTCCACGAACAGGGCAGGACATCACCAATGTAGACGACACGA
CGACTACACTTCGCATCGACATCGCTCGGTTGATGAACGCGGAGATCATCCTTTGCGATGCTGAAGCCTTTCTCG
GCTACTATATGCCTAAATACGACGAGGATACAGCGAAATACGTATTAATTCGCCTGGCCACTGAGAAGAGGCCAG
ACGGCACCACCGTTCTTGTACCACGCCGCGCTTCCAACACCGCAGCGGACTCCGAGCAGACCAGTGAAGAGGACG
CGGTGTCCATCAGTGCGGACGGTGATGGGTATGAGGAAGGGCCTGAAGACTCTGCCACAGAGGATGAGACTGAAG
ACGAGCGATGGGCCACACCGATTACCAGTAAAAGGGCAAGAGTGGTTTTGGATGAAGCCGAGTTTAACGATGGCG
AAGAGGAGTACCCCGATGAATTCGAAGGAGAGACGACGGAGAACACGAAGGACGAAAGAGAGGTACACTCGGAAG
AGGATATTTACCCCTACGTCCTTTACGACTTCAAGCACAGGCCGTCCATGGTGAAGAAGACATACCTCGTCAACA
AGAAGAAACGAGTTGCCAATTTGCGCAAGGTCGACGAGGGCTCCCTCTTCAGTACACTGACTGGCATCGGAAACG
CCGTACGCGATGCCCTTCGTGCTAGAGGAGTGGCGGTAAATGACTATCACATTTTGATGTGTCCCAACACGGCAA
TGTCGTCTGGAATCGATGGGTGCGATCAGAGAATCGACGCTGCCCTCACGAAGAAGAAAGATGTCAAGGGGATAA
CAGTCTACGACGTCATTGTCCCATTCGAGTTCAAAGTGGACTGCAAGAACAGCATCATATTTGAGGTATGTGACT
CTCTGGCTCTCGAGTAACCTTGCGCACTGACCTTGTGACTATAGAACCGGAGGCAAGTGGTCTCGCACGTCAATC
ATACGATGAATGACGATCCACGACGCCTCTTTATGCATGCGGTGAGTGCTTTCGGCTATCGGAACTCTGATCATC
AAAGCTCACGAGTAGCCTTGTGCCAGATCTCCATTGAAGATGACCTTGTATCCATTTGGTACTTCTCTCGGTCGC
ATTCGGCCAAAGCCGCCTGTTTTAGCATGGTCGAGGTGCGCGTTCTTTCGAATCTTGACACGTTATACGGCCTAA
CATCGCCTCAGCGCCCTGATATCCTCGTCAAGGTCTTTATCTCGCTTTTCTGCGCGACGGATCAACAACTCGGCT
TCGACCCATATGTCACCCTGGTTGAAGACGACAGATTTGTTTACGAGCTCCCACCCAACGAGAATCGCTGCAAGT
CTCTCTTCTACCGAACCATCGAATGCATCTCCCACCCGCGCTCCCTACGGCTTAGAGGACGATCGACTCGAGTTT
GGAAGGTCGAGCAGGTACAATCAAAGAAGGACCACACCCGCGTTGCTGGGACGGGGGAGATGATACTGAAAGACG
TTTCGATGAGCTCCGACACGGCACCGGAGCCTCACATTCAGAATATGATTTTCCATGACTTGGACAAGCTCTCGT
CGGACCCAAACTGGCGCAAGCGCGATATATTGAAGGACTGCACACCGCAACAACTGGAGGAACTGGCATGTCTTT
TGGAGGGCCGTCGCTTCACAGATTTCTTCTCATGCGTGAAGGAGCACCATATAGGCAACTCTGGTCCCCTGGTCA
TTCCCTATTCTTGGAGGCTTCCGTCGGTCTTCTTGAAACCAGACAGGCCTAGCATACCCTGCAATAATGTTCGCA
CCAATGTCACTCCCGACTCCCCGTCCACGGGCCAATTGCAAGATGACAATATGACCGAAGTGGAGGGGGCGCCCC
CGGCGGCGGTGGAGATGCCCCTCAAACAGACACTTGTGCCTCGACGACAATGTCGTTTCGTCTTTCACCACGTCT
ACACTCCGCTGCTCCATATCAGAACCATGGGTGATGCTATGGATATCCTAAAAGGTTGTGTACTAGGTACGTTTC
CATCTTTTTAATTCGTCGCATGAGAGGCAGTTGTTCACCTTCCAGCACTAGTGCTTCGACTCATGTTCTGTGCGG
GATGGGTCCATCGAGATCTCAGCCCTGGTAATATCCTCGCTGCCCGTGTCTCTCCAGATGGTCCGTGGCAGGTGA
AGCTTTCCGACCTTGAGTATGCGAAAAGGTTTCCTTCTGATAATCCCCCCGGTGCGACGCCCAAAACGGTGAGAT
CCCCCTCTTGCTTCCAACTCTGCGCGATCGATCATCTGACGACAAGCGATTTAAATTCCCAGGCCTCCCACAACT
ATATGGCGTATGAGGTGTCTACCCAGAAGAAGATTGTTTCTGAAGAGGAGGAAGTGGAGCTGGAATGCGAGTCAG
GGGAGGAAGAGTCCAGTATTGTGAAAGAATTTGCTGTTGCAAGCACTCCGGTCGATCACAACTATCAGCACGATC
TCGAGTCAATCTGGTGGATTTCTCTTTGGTTGGGCTCTGCTCGAGTGGATATGGATCTTCCGAGGGATAAATTTG
TGAACACTGTTTTCCCCACCACCATGGACCTCAGCTATTCGCAGTATCATGGGCGTTGGAACATATTCATCGCGT
GCCCCACGCTTCTGGAAGATGGCCCCCTTGTGCAAAGCCTTCCGCGTGCGATATCCAAAACCACTTTCCTTGCGA
GATTAGACACCCTAAGGAAGAGTCTCAAAGCGGAGTACAGAAAGCGCAACCACAGAAATGAACACAGAGATCTTG
GGACCTACTCTTTAATTCTCAATGTCGCTTTCCGAAACTTCTTCCGCGGCATCGAAAAGTCAAGGAAAGAGTGGG
GAAACCTCCGGCTGATTAAGGACCCAGTGCCGCAGAAACTCGCGAAAGGGAAGGAGTCGTCCCACAATCTTGATG
CCCCACTGGCGGATCCGCTGACGGGCCAGAAGCGCAAGTTCAACCAACCGATTAGATTCAATCATGGGGGTACTT
CCGACCGCACTGAAAGGAAAATCGCTCGTCTACCGCATAGAGCAAAGGCTAAGCAAAGGGGACCTTCGAAGCTAC
CAGTACAGGTATTGGCTGGTCCTAATCAAGGAAGCGGTGGCAAGGGGATGGAGACGAGCAATCAATGGGAGGACG
AAGCCAATCAGGGACGGAACAAGAGGGCTCGTCGCTGATTATATGTATCCTGACGTGACTATGCTCAGTCTGTAT
CACCTATAAGTACCTGTACTACGGGATAATGAAATCGAAGTACTAGTAGTAGCGTACGTACAGCAATAGGTCATG
AATTTGACACGATGTTTGCTCCTT
Length 3549