CopciAB_490617
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_490617 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 490617
Uniprot id Functional description other FunK1 protein kinase
Location scaffold_1:3629616..3632728 Strand +
Gene length (nt) 3113 Transcript length (nt) 2745
CDS length (nt) 2511 Protein length (aa) 836

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 18.2318 0.137 0.0791
oidia 24.9733 1.2231 0.7062
vegetative_mycelium 20.8885 2.4494 1.4141
primordia 13.9146 2.0683 1.1941
hyphal_knot 13.8656 4.3662 2.5208
young_fruiting_body 7.4563 2.0924 1.208
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 8.569 3.6141 2.0866
Wheat bran 4.6625 1.923 1.1103
Horse manure 7.1439 0.9486 0.5477
Oak leaves 4.7064 1.1278 0.6511
Hay 7.4255 0.7493 0.4326
Corn stalk 5.7016 1.0849 0.6264
Pectine 6.9311 0.1748 0.1009
Microcrystalline cellulose 7.1289 0.9553 0.5515
Xylose 3.9454 0.2288 0.1321
Cellobiose 5.9909 1.8422 1.0636
Lignin 8.0121 3.6178 2.0888
Apple peels 11.9765 0.2204 0.1272
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 13.9899 1.0825 0.625
Bsubtilis 13.673 0.4009 0.2314
Ecoli 12.0367 0.5598 0.3232
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 5.7093 0.7026 0.4056
BS 4h 4.6864 1.4297 0.8254
BS 8h 3.3607 0.7306 0.4218
BS 12h 2.5145 1.4955 0.8634
Oidia 0 h 6.3746 1.3191 0.7616
Oidia 18 h 2.3398 0.2019 0.1166
Sclerotia 0.7724 0.6751 0.3897
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 3.7804 1.0733 0.6196
DM 36h 2.8853 0.3907 0.2256
DM 60h 1.7525 0.916 0.5288
DM 84h 2.1747 0.1902 0.1098
DM 108h 2.2492 0.1128 0.0651
DM 132h 1.2816 0.2406 0.1389
DM 156hAE 2.8129 0.2607 0.1505
ELI1hAE 2.9238 0.9988 0.5767
ELI2hAE 3.2864 2.0905 1.2069
LI2hAE 2.783 0.7885 0.4552
LI6hAE 2.1006 1.2855 0.7422
LI12hAE 2.8225 1.1866 0.6851
LI18hAE 3.4709 0.5858 0.3382
LI 24hAE 2.7542 1.1766 0.6793
DM 156hAM 1.5621 1.0907 0.6297
ELI1hAM 2.1117 0.2033 0.1174
ELI2hAM 1.379 0.3653 0.2109
LI2hAM 1.6962 1.1404 0.6584
LI6hAM 1.6891 0.7209 0.4162
LI12hAM 1.9326 0.8062 0.4655
LI18hAM 1.2569 0.5162 0.2981
LI 24hAM 1.7113 0.4919 0.284
LI 24hHK 2.3569 1.535 0.8862
L/D 6h 2.0923 0.7356 0.4247
L/D 12h 3.3341 1.2783 0.738
L/D 18h 2.0204 0.3579 0.2066
L/D 24h 2.8288 0.7218 0.4167
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 3.1612 0.6628 0.3827
Hyphal knots 2.6872 1.1274 0.6509
Primordium 1 2.9189 0.2685 0.155
Primordium 2 2.8909 1.1324 0.6538
Young Fruiting body cap 1.7325 0.4878 0.2816
Younf fruiting body gill 6.2438 0.181 0.1045
Young fruiting body stipe 4.2587 0.33 0.1906
Mature fruiting body cap_gill 3.4872 1.2994 0.7502
Mature fruiting body stipe 3.9401 1.3183 0.7611
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 10.8899 2.2811 1.317
NH4NO3 5.7869 0.8165 0.4714
Proline 5.6696 1.4416 0.8323
Tryptophan 3.3405 1.7006 0.9819
Isoleucin 5.4012 0.7013 0.4049
Arginine 5.5399 0.2585 0.1492
Metionine 7.3347 0.5405 0.3121
NaNO3 6.1206 0.1016 0.0587
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 10.8899 2.2811 1.317
Citrus peel 10.0483 1.8496 1.0678
Poplar leaves 9.6929 2.6794 1.5469
Typha leaves 11.8123 1.5401 0.8892
Overwintered Salix leaves 12.6894 2.5073 1.4476
Reed flowering 9.0877 1.1559 0.6674
Tigernut 10.0186 1.8478 1.0668
Energy cane 11.6549 0.9594 0.5539
Guar gum 9.2797 2.7504 1.5879
Apple peels 8.9579 2.9331 1.6934
Cellobiose 8.285 0.6441 0.3719
Corn stalk 11.7864 0.8711 0.503
Horse manure 11.72 0.0707 0.0408
Lignin 5.4247 1.1706 0.6758
Microcrystalline cellulose 7.7949 1.1152 0.6439
Oak leaves 10.8356 0.4381 0.2529
Pectin esterified 9.4915 0.6687 0.3861
Poplar sawdust 9.637 1.364 0.7875
Wheat bran 10.103 2.466 1.4237
Chlamydomonas reinhardtii 12.3836 2.3753 1.3714
Vertatryl alcohol 5.4093 1.096 0.6328
Furfural 7.9892 3.2115 1.8542
Autoclaved mycelium 10.2255 1.4716 0.8497
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 5.6198 0.7128 0.4115
Ribose 9.0667 0.9478 0.5472
Mannose 7.3076 0.4596 0.325
Fructose 7.1997 1.5812 0.9129
Arabinose 8.7149 0.1341 0.0774
Xylose 7.6948 0.5704 0.3293
Galacturonic acid 9.0127 1.8502 1.0682
Rhamnogalacturonan 5.9682 0.1193 0.0689
Pectin esterified 7.2511 1.0993 0.6347
Polygalacturonic acid 7.1873 1.4826 0.856
Sodium acetate 8.9414 1.7794 1.0273
No nitrogen 4.7437 0.1245 0.0719
BSA 7.3627 1.2686 0.7324
Glutamine 8.2593 1.2521 0.7229
No phosphate 5.2941 1.1172 0.645
No carbon 10.8795 0.3106 0.2196
No sulphur 5.6916 0.9734 0.562
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 10.8899 2.2811 1.317
Amylose 11.2457 0.2471 0.1427
Fucose 11.267 0.3101 0.179
Galactose 12.1037 0.5095 0.2942
Lactose 8.2678 1.4873 0.8587
Maltose 7.9663 2.2101 1.276
Mannitol 8.5276 2.6148 1.5097
Rhamnose 10.1688 0.7649 0.4416
Sorbitol 10.8929 0.9483 0.5475
Trehalose 9.3659 2.3225 1.3409
Glycerol 9.9256 2.3361 1.3487
Glucuronic acid 12.5361 0.8748 0.5051
Arabinan 11.18 2.7505 1.588
Galactan 12.1285 0.4041 0.2333
Galactomannan 10.4112 1.6861 0.9735
Glucan 11.9921 2.907 1.6783
Xylan 14.597 2.2711 1.3112
Xyloglucan 14.0164 1.952 1.127
Arabinogalactan 13.131 2.5981 1.5
Pectin 12.1355 1.0741 0.6202
Rhamnogalacturonan 16.5768 6.0356 3.4846
Polygalacturonic acid 10.2939 1.0791 0.623
Mannan 12.1762 2.6335 1.5204
Amylopectin 7.2403 1.6664 0.9621
Inulin 9.7434 1.5746 0.9091
BSA 7.3269 0.5685 0.3282
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 1.7525 0.916 0.5288
2h WAT 3.1041 1.186 0.6847
4h WAT 3.5996 0.3778 0.2181
8h WAT 2.2172 1.473 0.8504
16h WAT 3.1771 0.7757 0.4478
24h WAT 2.8987 1.7392 1.0041
WAT hyphal knot -30h 4.6314 1.1717 0.6765
WAT hyphal knot -22h 4.809 0.4725 0.2728
WAT hyphal knot -15h 4.8787 1.2774 0.7375
WAT hyphal knot -7.5h 2.7328 0.5654 0.3265
WAT hyphal knot 2.8884 0.5409 0.3123
WAT hyphal knot +7.5h 3.5409 1.5026 0.8675
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 5.3822 3.4259 1.9779
Straw 3h 5.8785 2.0518 1.1846
Straw 6h 5.5773 1.4327 0.8271
Straw 12h 10.1913 3.0832 1.7801
Straw 24h 7.6724 3.2404 1.8708
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 0.8457 0.3484 0.2011
Frost (-20C, 30min) 1.8003 0.0886 0.0511
Heat shock (47C, 2h) 7.7581 2.4204 1.3974
High CO2 0.9572 0.2212 0.1277
Drought (4% agar, 12h) 1.8101 0.8271 0.4775
Oxidative (1mM H2O2, 3h) 2.3983 0.5467 0.3156
Acidic (pH4, 3h) 0.9226 0.7996 0.4617
Alkaline (pH9, 3h) 1.4344 0.5404 0.312
Osmotic (sorbitol 2h) 1.3257 0.5773 0.3333
CongoRed (3h) 1.0977 0.7067 0.408
Cobalt chloride control 1.7761 0.0858 0.0495
Cobalt chloride 2mM 1.3808 0.7837 0.4525
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 1.1675 0.8995 0.5193
Cold stimulation 1.7969 0.266 0.1536
Scratched surface 4.8639 0.4136 0.2388
Ca2+, 200mM, 24h 1.0438 1.2264 0.7081
Cu2+, 2mM, 6h 1.1566 0.1547 0.0893
Voriconazole 1.2031 1.1112 0.6416
Trichoderma interaction, early 3.047 0.5182 0.2992
Trichoderma interaction 60h 13.4012 13.8364 7.9884
Cobalt chloride 2mM repeat 3.9265 0.5745 0.3317
Hypoxia 1.0854 0.7563 0.4367
Hypoxia control 1.2394 0.5622 0.3246
Protoplastation control 2.4318 1.0571 0.7475
Protoplastation 3.5h 4.246 3.8114 2.6951
Protoplastation 1.5h 1.9982 0.4173 0.2951

General data

Systematic name -
Protein id CopciAB_490617.T0
Description other FunK1 protein kinase

Annotation summary

0 200 400 600 800 836

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 193 543
Pfam PF17667 Fungal protein kinase IPR040976 647 687

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

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

GO

Go id Term Ontology
No records

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
H other FunK1 protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_490617 across fungi.

Arrow shows the origin of gene family containing CopciAB_490617.

Protein

Sequence id CopciAB_490617.T0
Sequence >CopciAB_490617.T0
MTDSTEAESLYLNFRGKPMLLSDEVKYHTSLCALEDFIDLLLSPSLNGAEVASILDLLSLSGKYSTERERWEAGL
PEAKGESEQSYAAPFVDISNSILKAVVDVKGASSLALPSTWQQGHAGRTFQNDLDRLATPDLVNVTVNQPDADLQ
ERKGPFKEEETVDEGMERPAKRRRLDDTVNSQGGTSLDTARLERTIWPRTLVVGVVHSDNEGAGIWQGVVRLATG
LRNILWNQQDRRFAFGLLFFHRSLSLWYCDRSGALGADKLLDIDKHPDMFVRVMATLATMSPQQLGFDPTMKIVV
PNYPPSFSYSLPLDKIPTQRKWLHWRIEIAGATYQTVELVSVDRTEVMCGGGIHVWRAYRLDERGSFSENDKLVL
IKQHWRPFSDRNWRNELDVYHLLGNFDGQKPVPCVGEDVHQANTLRDFRKSITTTSLTGYLDIDKRSLPESSAQF
LLRLTYANDKNRPEQTRDFLERVLTRLVIPINGILLEKATGLRELVSVLLDVVKDYEWMYYSKGVCHGGITVGSI
FIDHETRRGHLADYHHARDHGPNYKPRKVSSLQEELRDHLAEFRKYGPQSEVSDNLAFLLLHLTRSKKTVRSNAS
TANSRLWDYLDASGTSPNGPLEISDMLPGLGDDPVLPPDFSERTAIHAVATQGTVAFMSHQLLGRRRETHDAIHD
MESFFWVLFFLCLTREGPGGRQRPEPEDDVEGDELYEASLLRYHLFEGSKDEIEELKGDMFSMTIRDKMLRVLED
HVFPWFHPSFKPLHELLSEWWKILCSGFDRYGNILCRHYPVTAFRHALEKALEKLPAEPGPNDVLVQQQLDMASV
RRDAIALAQSV
Length 836

Coding

Sequence id CopciAB_490617.T0
Sequence >CopciAB_490617.T0
ATGACAGACTCCACCGAAGCGGAGAGCCTCTATCTCAACTTCAGAGGGAAACCGATGCTCCTGTCCGACGAAGTC
AAGTACCACACCAGCCTCTGCGCTCTCGAAGATTTCATCGACCTGCTGCTCTCTCCATCTCTGAATGGCGCTGAG
GTGGCATCCATCCTCGATCTCCTCTCCCTATCCGGGAAGTATTCGACGGAAAGGGAACGTTGGGAAGCTGGACTA
CCCGAGGCCAAGGGGGAATCAGAGCAAAGCTATGCTGCACCTTTTGTGGACATTTCCAACTCCATCCTAAAGGCA
GTTGTGGATGTCAAAGGTGCCAGCTCACTCGCTCTACCGTCGACCTGGCAGCAAGGGCACGCGGGAAGGACATTT
CAAAATGACCTTGACAGACTTGCCACACCAGACTTGGTGAATGTGACGGTGAATCAGCCTGACGCCGACCTACAG
GAACGCAAGGGGCCTTTCAAGGAAGAAGAGACGGTTGACGAGGGTATGGAACGGCCAGCAAAGCGGCGGAGACTA
GATGACACCGTCAATTCTCAGGGTGGTACATCGCTAGACACCGCACGACTTGAACGCACAATTTGGCCCAGAACC
CTCGTCGTGGGCGTAGTCCACTCCGACAATGAAGGCGCGGGCATCTGGCAGGGTGTCGTACGGCTAGCAACGGGC
CTTCGGAACATCCTATGGAACCAACAAGATCGTCGATTCGCATTCGGGCTTCTGTTCTTCCATCGCTCCCTTTCG
CTGTGGTACTGCGACCGTTCCGGTGCCCTGGGCGCAGACAAGTTACTCGACATCGACAAGCATCCGGACATGTTC
GTACGGGTCATGGCCACCCTCGCTACAATGTCACCTCAGCAACTGGGATTCGATCCAACAATGAAGATCGTGGTG
CCGAACTACCCACCCTCGTTCAGCTATTCCTTGCCGCTTGACAAGATTCCGACGCAACGAAAGTGGTTGCATTGG
CGAATCGAAATCGCGGGAGCCACGTACCAAACTGTGGAACTAGTCAGCGTGGATCGAACCGAAGTAATGTGCGGT
GGAGGCATCCATGTATGGCGGGCGTATCGCCTGGATGAACGAGGTTCTTTCAGCGAAAACGACAAGCTGGTGCTC
ATCAAGCAGCATTGGCGACCCTTTTCGGATCGAAATTGGCGTAACGAACTGGACGTCTACCACCTCCTAGGCAAT
TTCGATGGCCAGAAACCAGTTCCGTGCGTTGGCGAAGACGTACACCAGGCCAACACCCTACGAGATTTCCGGAAA
AGCATCACAACGACAAGCCTCACCGGTTACCTTGACATCGACAAGCGTAGTCTGCCGGAGTCCAGCGCTCAGTTT
CTCCTTCGTTTGACCTATGCCAACGACAAGAACCGTCCAGAACAAACTCGAGACTTCCTGGAGCGAGTTCTGACC
AGACTGGTCATTCCCATCAACGGGATTTTGCTAGAGAAGGCAACAGGACTAAGAGAATTGGTATCGGTACTTCTG
GACGTCGTGAAAGATTACGAGTGGATGTACTACAGCAAGGGCGTCTGTCATGGCGGTATCACTGTTGGAAGCATC
TTCATCGACCATGAGACGCGGCGAGGGCATCTAGCTGACTATCATCATGCGAGGGATCATGGCCCCAACTACAAA
CCGAGGAAGGTGTCGTCGCTGCAGGAAGAGCTGCGCGACCATTTGGCTGAGTTCCGCAAATACGGCCCTCAGTCG
GAGGTTTCAGACAATCTTGCTTTTCTGCTCCTTCATCTTACCCGGTCCAAAAAAACTGTTCGAAGCAATGCATCG
ACTGCGAACAGCCGTCTCTGGGACTACCTCGACGCTAGTGGCACATCGCCGAACGGGCCTCTCGAAATATCAGAT
ATGCTTCCAGGGCTGGGGGACGATCCTGTCCTCCCTCCAGATTTTTCCGAACGCACAGCAATACATGCCGTGGCG
ACTCAGGGCACTGTCGCGTTCATGAGCCACCAATTGCTTGGTCGCAGACGAGAGACACATGATGCTATACACGAC
ATGGAGTCATTCTTTTGGGTCCTTTTCTTCCTCTGCCTCACCCGTGAAGGGCCCGGCGGAAGGCAGCGACCTGAG
CCAGAGGATGACGTCGAGGGCGACGAGCTCTACGAAGCTTCCCTTCTACGCTATCATCTCTTCGAGGGCAGCAAG
GACGAGATCGAGGAATTGAAAGGGGATATGTTCTCTATGACTATTCGCGACAAGATGCTGCGAGTGCTGGAGGAC
CATGTGTTCCCCTGGTTCCACCCCTCATTCAAGCCCCTCCATGAACTGCTTTCCGAGTGGTGGAAAATTCTCTGC
AGCGGCTTCGACCGGTACGGAAATATCTTATGTCGCCACTACCCAGTTACCGCGTTTCGTCACGCTTTGGAGAAA
GCTCTTGAGAAACTCCCAGCGGAGCCAGGCCCAAATGACGTACTCGTGCAGCAGCAGCTGGACATGGCAAGCGTG
CGCAGGGATGCCATTGCCCTCGCTCAAAGTGTTTGA
Length 2511

Transcript

Sequence id CopciAB_490617.T0
Sequence >CopciAB_490617.T0
AGTACGCGACAGAGGTATCTCGCGTTCCGCCACCAGCTTTGGTTGTAGGCTGCGCATACGTCGTTCAAATCCGTC
TTTCACAAACATCACAGCTCGCATTTCGGGAGAGGCAACCAAGAACTGCCAAAACAACCATGACAGACTCCACCG
AAGCGGAGAGCCTCTATCTCAACTTCAGAGGGAAACCGATGCTCCTGTCCGACGAAGTCAAGTACCACACCAGCC
TCTGCGCTCTCGAAGATTTCATCGACCTGCTGCTCTCTCCATCTCTGAATGGCGCTGAGGTGGCATCCATCCTCG
ATCTCCTCTCCCTATCCGGGAAGTATTCGACGGAAAGGGAACGTTGGGAAGCTGGACTACCCGAGGCCAAGGGGG
AATCAGAGCAAAGCTATGCTGCACCTTTTGTGGACATTTCCAACTCCATCCTAAAGGCAGTTGTGGATGTCAAAG
GTGCCAGCTCACTCGCTCTACCGTCGACCTGGCAGCAAGGGCACGCGGGAAGGACATTTCAAAATGACCTTGACA
GACTTGCCACACCAGACTTGGTGAATGTGACGGTGAATCAGCCTGACGCCGACCTACAGGAACGCAAGGGGCCTT
TCAAGGAAGAAGAGACGGTTGACGAGGGTATGGAACGGCCAGCAAAGCGGCGGAGACTAGATGACACCGTCAATT
CTCAGGGTGGTACATCGCTAGACACCGCACGACTTGAACGCACAATTTGGCCCAGAACCCTCGTCGTGGGCGTAG
TCCACTCCGACAATGAAGGCGCGGGCATCTGGCAGGGTGTCGTACGGCTAGCAACGGGCCTTCGGAACATCCTAT
GGAACCAACAAGATCGTCGATTCGCATTCGGGCTTCTGTTCTTCCATCGCTCCCTTTCGCTGTGGTACTGCGACC
GTTCCGGTGCCCTGGGCGCAGACAAGTTACTCGACATCGACAAGCATCCGGACATGTTCGTACGGGTCATGGCCA
CCCTCGCTACAATGTCACCTCAGCAACTGGGATTCGATCCAACAATGAAGATCGTGGTGCCGAACTACCCACCCT
CGTTCAGCTATTCCTTGCCGCTTGACAAGATTCCGACGCAACGAAAGTGGTTGCATTGGCGAATCGAAATCGCGG
GAGCCACGTACCAAACTGTGGAACTAGTCAGCGTGGATCGAACCGAAGTAATGTGCGGTGGAGGCATCCATGTAT
GGCGGGCGTATCGCCTGGATGAACGAGGTTCTTTCAGCGAAAACGACAAGCTGGTGCTCATCAAGCAGCATTGGC
GACCCTTTTCGGATCGAAATTGGCGTAACGAACTGGACGTCTACCACCTCCTAGGCAATTTCGATGGCCAGAAAC
CAGTTCCGTGCGTTGGCGAAGACGTACACCAGGCCAACACCCTACGAGATTTCCGGAAAAGCATCACAACGACAA
GCCTCACCGGTTACCTTGACATCGACAAGCGTAGTCTGCCGGAGTCCAGCGCTCAGTTTCTCCTTCGTTTGACCT
ATGCCAACGACAAGAACCGTCCAGAACAAACTCGAGACTTCCTGGAGCGAGTTCTGACCAGACTGGTCATTCCCA
TCAACGGGATTTTGCTAGAGAAGGCAACAGGACTAAGAGAATTGGTATCGGTACTTCTGGACGTCGTGAAAGATT
ACGAGTGGATGTACTACAGCAAGGGCGTCTGTCATGGCGGTATCACTGTTGGAAGCATCTTCATCGACCATGAGA
CGCGGCGAGGGCATCTAGCTGACTATCATCATGCGAGGGATCATGGCCCCAACTACAAACCGAGGAAGGTGTCGT
CGCTGCAGGAAGAGCTGCGCGACCATTTGGCTGAGTTCCGCAAATACGGCCCTCAGTCGGAGGTTTCAGACAATC
TTGCTTTTCTGCTCCTTCATCTTACCCGGTCCAAAAAAACTGTTCGAAGCAATGCATCGACTGCGAACAGCCGTC
TCTGGGACTACCTCGACGCTAGTGGCACATCGCCGAACGGGCCTCTCGAAATATCAGATATGCTTCCAGGGCTGG
GGGACGATCCTGTCCTCCCTCCAGATTTTTCCGAACGCACAGCAATACATGCCGTGGCGACTCAGGGCACTGTCG
CGTTCATGAGCCACCAATTGCTTGGTCGCAGACGAGAGACACATGATGCTATACACGACATGGAGTCATTCTTTT
GGGTCCTTTTCTTCCTCTGCCTCACCCGTGAAGGGCCCGGCGGAAGGCAGCGACCTGAGCCAGAGGATGACGTCG
AGGGCGACGAGCTCTACGAAGCTTCCCTTCTACGCTATCATCTCTTCGAGGGCAGCAAGGACGAGATCGAGGAAT
TGAAAGGGGATATGTTCTCTATGACTATTCGCGACAAGATGCTGCGAGTGCTGGAGGACCATGTGTTCCCCTGGT
TCCACCCCTCATTCAAGCCCCTCCATGAACTGCTTTCCGAGTGGTGGAAAATTCTCTGCAGCGGCTTCGACCGGT
ACGGAAATATCTTATGTCGCCACTACCCAGTTACCGCGTTTCGTCACGCTTTGGAGAAAGCTCTTGAGAAACTCC
CAGCGGAGCCAGGCCCAAATGACGTACTCGTGCAGCAGCAGCTGGACATGGCAAGCGTGCGCAGGGATGCCATTG
CCCTCGCTCAAAGTGTTTGATTCTCTGTGTTTCTGCGGAACCGCCTCACGTTTGGAGGATACTGGGTCTATACTT
AATGTATATCCGGATTGATTATGCATCCTCCAGCTTATCGATTGG
Length 2745

Gene

Sequence id CopciAB_490617.T0
Sequence >CopciAB_490617.T0
AGTACGCGACAGAGGTATCTCGCGTTCCGCCACCAGCTTTGGTTGTAGGCTGCGCATACGTCGTTCAAATCCGTC
TTTCACAAACATCACAGCTCGCATTTCGGGAGAGGCAACCAAGAACTGCCAAAACAACCATGACAGACTCCACCG
AAGCGGAGAGCCTCTATCTCAACTTCAGAGGGAAACCGATGCTCCTGTCCGACGAAGTCAAGTACCACACCAGCC
TCTGCGCTCTCGAAGATTTCATCGACCTGCTGCTCTCTCCATCTCTGAATGGCGCTGAGGTGGCATCCATCCTCG
ATCTCCTCTCCCTATCCGGGAAGTATTCGACGGAAAGGGAACGTTGGGAAGCTGGACTACCCGAGGCCAAGGGGG
AATCAGAGCAAAGCTATGCTGCACCTTTTGTGGACATTTCCAACTCCATCCTAAAGGCAGTTGTGGATGTCAAAG
GTGCCAGCTCACTCGCTCTACCGTCGACCTGGCAGCAAGGGCACGCGGGAAGGACATTTCAAAATGACCTTGACA
GACTTGCCACACCAGACTTGGTGAATGTGACGGTGAATCAGCCTGACGCCGACCTACAGGAACGCAAGGGGCCTT
TCAAGGTGCGTTGTCGGATTCTGTGTACGGTTAACACGGAGCTGAGCAGGACCACTAGGAAGAAGAGACGGTTGA
CGAGGGTATGGAACGGCCAGCAAAGCGGCGGAGACTAGATGACACCGTCAATTCTCAGGTACGACATTCAAGATA
AACCCTGGAGGCCCAACTTGACTGTCTCGCCAGGGTGGTACATCGCTAGACACCGCACGACTTGAACGCACAATT
TGGCCCAGAACCCTCGTCGTGGGCGTAGTCCACTCCGACAATGAAGGCGCGGGCATCTGGCAGGGTGTCGTACGG
CTAGCAACGGGCCTTCGGAACATCCTATGGAACCAACAAGATCGTCGATTCGCATTCGGGCTTCTGTTCTTCCAT
CGCTCCCTTTCGCTGTGGTACTGCGACCGTTCCGGTGCCCTGGGCGCAGACAAGTTACTCGACATCGACAAGGTA
TGCATTGTACCACATCCAAGGTACACAGAGCCGGAACCTCATGCCGATTGTAGCATCCGGACATGTTCGTACGGG
TCATGGCCACCCTCGCTACAATGTCACCTCAGCAACTGGGATTCGATCCAACAATGAAGATCGTGGTGCCGAACT
ACCCACCCTCGTTCAGCTATTCCTTGCCGCTTGACAAGATTCCGACGCAACGAAAGTGGTTGCATTGGCGAATCG
AAATCGCGGGAGCCACGTACCAAACTGTGGAACTAGTCAGCGTGGATCGAACCGAAGTAATGTGCGGTGGAGGCA
TCCATGTATGGCGGGCGTATCGCCTGGATGAACGAGGTTCTTTCAGCGAAAACGACAAGGTAAGAGCTCTCCGGA
GTATTGTGTACACCACGATAACCTCCTTTGCCGCCAGCTGGTGCTCATCAAGCAGCATTGGCGACCCTTTTCGGA
TCGAAATTGGCGTAACGAACTGGACGTCTACCACCTCCTAGGCAATTTCGATGGCCAGAAACCAGTTCCGTGCGT
TGGCGAAGACGTACACCAGGCCAACACCCTACGAGATTTCCGGAAAAGCATCACAACGACAAGCCTCACCGGTTA
CCTTGACATCGACAAGCGTAGTCTGCCGGAGTCCAGCGCTCAGTTTCTCCTTCGTTTGACCTATGCCAACGACAA
GAACCGTCCAGAACAAACTCGAGACTTCCTGGAGCGAGTTCTGACCAGACTGGTCATTCCCATCAACGGGATTTT
GCTAGAGAAGGCAACAGGACTAAGAGAATTGGTATCGGTACTTCTGGACGTCGTGAAAGGTCAGATCTCCGTTGT
AGTTTGTTACTGACACTCACCTGAACATCGCAGATTACGAGTGGATGTACTACAGCAAGGGCGTCTGTCATGGCG
GTATCACTGTTGGAAGCATCTTCATCGACCATGAGACGCGGCGAGGGCATCTAGCTGACTATCATCATGCGAGGG
ATCATGGCCCCAACTACAAACCGAGGAAGGTGTCGTCGCTGCAGGAAGAGCTGCGCGACCATTTGGCTGAGTTCC
GCAAATACGGCCCTCAGTCGGAGGTTTCAGACAATCTTGCTTTTCTGCTCCTTCATCTTACCCGGTCCAAAAAAA
CTGTTCGAAGCAATGCATCGACTGCGAACAGCCGTCTCTGGGACTACCTCGACGCTAGTGGCACATCGCCGAACG
GGCCTCTCGAAATATCAGATATGCTTCCAGGGCTGGGGGACGATGTGCGTACCTTGAAACACCTTTTTCCTTCTC
TTCTGACGGTAGTCGTTGGTCCAGCCTGTCCTCCCTCCAGATTTTTCCGAACGCACAGCAATACATGCCGTGGCG
ACTGTGAGTGAACCGAGTCCTGCCTCTTTTACCAGCTGCTCAAACATCTTTGCAGCAGGGCACTGTCGCGTTCAT
GAGCCACCAATTGCTTGGTCGCAGACGAGAGACACATGATGCTATACACGACATGGAGTCATTCTTTTGGGTCCT
TTTCTTCCTCTGCCTCACCCGTGAAGGGCCCGGCGGAAGGCAGCGACCTGAGCCAGAGGATGACGTCGAGGGCGA
CGAGCTCTACGAAGCTTCCCTTCTACGCTATCATCTCTTCGAGGGCAGCAAGGACGAGATCGAGGAATTGAAAGG
GGATATGTTCTCTATGACTATTCGCGACAAGATGCTGCGAGTGCTGGAGGACCATGTGTTCCCCTGGTTCCACCC
CTCATTCAAGCCCCTCCATGAACTGCTTTCCGAGTGGTGGAAAATTCTCTGCAGCGGCTTCGACCGGTACGGAAA
TATCTTATGTCGCCACTACCCAGTTACCGCGTTTCGTCACGCTTTGGAGAAAGCTCTTGAGAAACTCCCAGCGGA
GCCAGGCCCAAATGACGTACTCGTGCAGCAGCAGCTGGACATGGCAAGCGTGCGCAGGGATGCCATTGCCCTCGC
TCAAAGTGTTTGATTCTCTGTGTTTCTGCGGAACCGCCTCACGTTTGGAGGATACTGGGTCTATACTTAATGTAT
ATCCGGATTGATTATGCATCCTCCAGCTTATCGATTGG
Length 3113