CopciAB_366673
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_366673 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 366673
Uniprot id Functional description Agc agc-unique protein kinase
Location scaffold_3:2362036..2366425 Strand +
Gene length (nt) 4390 Transcript length (nt) 3993
CDS length (nt) 3375 Protein length (aa) 1124

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 17.315 1.4011 0.8089
oidia 13.0691 2.8374 1.6382
vegetative_mycelium 10.685 1.2108 0.6991
primordia 42.0752 5.4647 3.1551
hyphal_knot 17.0543 2.4278 1.4017
young_fruiting_body 1596.8495 240.6342 138.9302
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 6.5294 1.1085 0.64
Wheat bran 3.4694 1.5137 0.874
Horse manure 7.3034 1.7162 0.9909
Oak leaves 6.0782 0.3421 0.1975
Hay 4.4358 2.2622 1.3061
Corn stalk 7.2897 0.5751 0.332
Pectine 7.5022 0.672 0.388
Microcrystalline cellulose 8.3025 2.5933 1.4972
Xylose 7.207 0.3378 0.195
Cellobiose 4.369 0.5519 0.3187
Lignin 6.9512 1.3371 0.772
Apple peels 11.196 0.863 0.4982
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 8.4629 0.569 0.3285
Bsubtilis 8.3333 0.6632 0.3829
Ecoli 4.2653 0.314 0.1813
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 34.3748 15.967 9.2186
BS 4h 4.3654 0.6231 0.3597
BS 8h 3.926 0.7428 0.4288
BS 12h 3.189 0.7571 0.4371
Oidia 0 h 2.7998 1.7393 1.0042
Oidia 18 h 3.2423 0.8898 0.5137
Sclerotia 1.6132 1.924 1.1108
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 1.4022 0.6101 0.3522
DM 36h 1.9689 0.2443 0.141
DM 60h 1.6965 0.4012 0.2316
DM 84h 2.0942 0.4278 0.247
DM 108h 2.372 0.7523 0.4344
DM 132h 2.7633 0.6728 0.3884
DM 156hAE 3.8836 1.0702 0.6179
ELI1hAE 2.3036 1.0792 0.6231
ELI2hAE 1.7124 1.2587 0.7267
LI2hAE 1.4518 0.5156 0.2977
LI6hAE 2.7865 0.6798 0.3925
LI12hAE 1.5852 0.5062 0.2922
LI18hAE 2.7248 1.5033 0.868
LI 24hAE 3.3577 0.809 0.4671
DM 156hAM 1.9414 0.6277 0.3624
ELI1hAM 0.8348 0.6064 0.3501
ELI2hAM 1.34 0.7207 0.4161
LI2hAM 0.9305 0.4114 0.2375
LI6hAM 2.7854 0.7637 0.4409
LI12hAM 3.3247 0.5181 0.2991
LI18hAM 3.232 1.2927 0.7463
LI 24hAM 3.9472 1.3246 0.7648
LI 24hHK 4.6086 2.36 1.3625
L/D 6h 4.6733 1.9591 1.1311
L/D 12h 7.7095 4.3459 2.5091
L/D 18h 8.3964 1.8554 1.0712
L/D 24h 10.0009 1.6701 0.9642
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 5.2024 0.5872 0.339
Hyphal knots 10.27 4.3968 2.5385
Primordium 1 14.5363 3.2431 1.8724
Primordium 2 12.93 5.1939 2.9987
Young Fruiting body cap 79.5959 27.9758 16.1519
Younf fruiting body gill 120.1567 151.0239 87.1937
Young fruiting body stipe 7.1677 0.9057 0.5229
Mature fruiting body cap_gill 20.0117 7.5921 4.3833
Mature fruiting body stipe 2.1779 0.2797 0.1615
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 5.4353 0.9759 0.5635
NH4NO3 9.5239 1.833 1.0583
Proline 6.9645 1.6878 0.9744
Tryptophan 6.3834 2.4977 1.442
Isoleucin 7.8979 1.7694 1.0216
Arginine 4.6072 1.0167 0.587
Metionine 6.0863 0.8262 0.477
NaNO3 6.3536 0.3807 0.2198
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 5.4353 0.9759 0.5635
Citrus peel 3.0221 1.2372 0.7143
Poplar leaves 6.3866 1.0003 0.5775
Typha leaves 4.7418 1.7345 1.0014
Overwintered Salix leaves 6.6829 0.2927 0.169
Reed flowering 5.6554 1.0075 0.5817
Tigernut 4.9947 1.6085 0.9286
Energy cane 6.6187 1.9771 1.1415
Guar gum 7.3813 2.3855 1.3773
Apple peels 4.5976 0.4723 0.2727
Cellobiose 7.0608 1.1511 0.6646
Corn stalk 7.0958 2.0611 1.19
Horse manure 5.9983 2.2454 1.2964
Lignin 3.5548 1.6785 0.9691
Microcrystalline cellulose 5.3484 1.2452 0.7189
Oak leaves 4.8353 1.1679 0.6743
Pectin esterified 4.207 2.013 1.1622
Poplar sawdust 7.7777 1.2272 0.7085
Wheat bran 4.2036 1.1552 0.6669
Chlamydomonas reinhardtii 6.4068 0.7602 0.4389
Vertatryl alcohol 11.8685 1.9532 1.1277
Furfural 3.6916 0.5281 0.3049
Autoclaved mycelium 7.7457 1.2494 0.7213
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 10.9209 1.3901 0.8026
Ribose 9.9512 0.9049 0.5225
Mannose 13.164 3.3996 2.4039
Fructose 13.5867 1.4018 0.8093
Arabinose 12.5452 0.2726 0.1574
Xylose 12.9862 0.323 0.1865
Galacturonic acid 11.0842 1.3253 0.7652
Rhamnogalacturonan 11.9525 2.8289 1.6333
Pectin esterified 11.8104 0.7286 0.4207
Polygalacturonic acid 13.152 0.1327 0.0766
Sodium acetate 11.8627 2.3873 1.3783
No nitrogen 6.7225 1.4787 0.8537
BSA 12.816 1.2865 0.7428
Glutamine 12.0783 3.3215 1.9176
No phosphate 8.1566 0.3521 0.2033
No carbon 11.4305 0.5955 0.4211
No sulphur 8.4159 0.9122 0.5267
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 5.4353 0.9759 0.5635
Amylose 8.3252 1.5929 0.9197
Fucose 5.4922 1.3531 0.7812
Galactose 9.0158 0.6294 0.3634
Lactose 10.3642 1.7473 1.0088
Maltose 8.9475 0.804 0.4642
Mannitol 10.0585 1.8786 1.0846
Rhamnose 8.7683 0.3324 0.1919
Sorbitol 9.9831 0.4438 0.2562
Trehalose 8.9368 2.3146 1.3364
Glycerol 7.0315 2.1007 1.2129
Glucuronic acid 8.3764 1.1319 0.6535
Arabinan 6.2981 3.0458 1.7585
Galactan 6.7912 0.6887 0.3976
Galactomannan 4.3718 0.6517 0.3763
Glucan 6.6131 0.8081 0.4666
Xylan 9.515 0.7077 0.4086
Xyloglucan 7.8552 0.6576 0.3797
Arabinogalactan 8.8999 0.1438 0.083
Pectin 2.7137 0.6413 0.3703
Rhamnogalacturonan 2.3397 1.088 0.6281
Polygalacturonic acid 6.0125 1.1555 0.6671
Mannan 11.1743 2.72 1.5704
Amylopectin 7.0415 0.7773 0.4488
Inulin 8.2724 0.1177 0.068
BSA 9.2796 0.2198 0.1269
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 1.6965 0.4012 0.2316
2h WAT 1.3679 0.9588 0.5536
4h WAT 1.4822 0.6416 0.3704
8h WAT 2.744 1.1327 0.654
16h WAT 2.0731 1.2073 0.697
24h WAT 3.4753 1.39 0.8025
WAT hyphal knot -30h 1.6903 0.9069 0.5236
WAT hyphal knot -22h 2.3538 0.4344 0.2508
WAT hyphal knot -15h 2.6976 0.9305 0.5372
WAT hyphal knot -7.5h 3.2696 1.5115 0.8727
WAT hyphal knot 2.782 0.3981 0.2298
WAT hyphal knot +7.5h 1.7864 1.0082 0.5821
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 3.7453 0.9325 0.5384
Straw 3h 2.3626 1.4001 0.8083
Straw 6h 2.8231 0.4167 0.2406
Straw 12h 5.1861 0.1534 0.0886
Straw 24h 4.4866 0.3474 0.2006
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 1.5479 0.1957 0.113
Frost (-20C, 30min) 2.3859 0.0518 0.0299
Heat shock (47C, 2h) 6.8966 0.7258 0.4191
High CO2 1.0487 0.6978 0.4029
Drought (4% agar, 12h) 1.5726 0.469 0.2708
Oxidative (1mM H2O2, 3h) 2.2468 0.4431 0.2558
Acidic (pH4, 3h) 1.6832 0.8809 0.5086
Alkaline (pH9, 3h) 1.6355 0.8698 0.5022
Osmotic (sorbitol 2h) 1.1433 0.3299 0.1905
CongoRed (3h) 1.1682 0.2876 0.166
Cobalt chloride control 3.0205 0.2848 0.1644
Cobalt chloride 2mM 1.2972 0.5606 0.3237
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 2.2766 1.9156 1.106
Cold stimulation 4.5999 1.894 1.0935
Scratched surface 2.1858 0.4166 0.2405
Ca2+, 200mM, 24h 1.2354 0.8466 0.4888
Cu2+, 2mM, 6h 1.2335 0.5255 0.3034
Voriconazole 1.6171 1.0358 0.598
Trichoderma interaction, early 1.4808 0.1556 0.0898
Trichoderma interaction 60h 0.1731 0.2998 0.1731
Cobalt chloride 2mM repeat 0.9859 0.2101 0.1213
Hypoxia 2.2046 1.4038 0.8105
Hypoxia control 2.4295 0.9269 0.5351
Protoplastation control 1.9529 0.6103 0.4316
Protoplastation 3.5h 3.4053 1.2157 0.8596
Protoplastation 1.5h 8.2995 5.6648 4.0056

General data

Systematic name -
Protein id CopciAB_366673.T0
Description Agc agc-unique protein kinase

Annotation summary

0 300 600 900 1124

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd05123 STKc_AGC IPR045270 262 549
Pfam PF00069 Protein kinase domain IPR000719 258 549

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
IPR045270 Serine/Threonine Kinase AGC, catalytic domain
IPR000719 Protein kinase domain
IPR008271 Serine/threonine-protein kinase, active site
IPR000961 AGC-kinase, C-terminal

GO

Go id Term Ontology
GO:0004674 protein serine/threonine kinase activity MF
GO:0005524 ATP binding MF
GO:0004672 protein kinase activity MF
GO:0006468 protein phosphorylation BP

KEGG

KEGG Orthology
K06069
K13303

EggNOG

COG category Description
T Agc agc-unique protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_366673 across fungi.

Arrow shows the origin of gene family containing CopciAB_366673.

Protein

Sequence id CopciAB_366673.T0
Sequence >CopciAB_366673.T0
MRWAQEKLSSEVSFFRPLGARSSVRVSEVTDGSDGDSGPVANRFGLSIFSKGFSDDMDLEAGKRSNLRQGSCFDR
VPANYLKDQPPMTLHSNPSSFLPFHHIESDIRNNTGAPEQSSLKIYNPNYPSFVPPPKLHPPFLVHVDEIPRTPA
SFISPVPDLVYEGETSTSAFHSGHHHHPKRSRHGGKENAHRARPAIRRKPVPKVLMDDKIRTSSFMKISSMNSFP
ALRARDPNVKPQERVPSKPSTFDRTNDIGEYSLTRFLSQGAQGKVYLAKSNQSGKMAAVKVISKLTLENYHTLLQ
EQNLLKRLKGHPFILNLIDSFHDTENFYLISDYYPAGDLAHRLYKLKRFDTDTARFYISELIVAIRFLHANDIIH
RDLKPSNILIKADGHICIIDFGLCKDFRAKNARAPSRGDLDSNPPNTHTRTHAARTHAQAQARVHARHRRAVVGP
VTDGFAGTLVYMSPQVISQEIYSYETDWWSMGIILYELLQGDTPWTGSDVTCMMRKIKKEPLLFRAAVDEPASDF
LYKLLEKRVEDRIHVSEFAAHEFFRSIDFDDVEGGLLTPPYIPHINDAMLSSRVLRDKEKIYVGRRYQQDVDPFP
EYNYDYQTPAHSMNLEDLAEAGIPLFDPPGERGQAKDQVEISADPLGYVEPPTTPKTTTRGIAGSFNISSLRLDQ
TVSPALMKNYDLTSTTLLSVISSPKDVFYTPRRSPLVPNLLRHAPVSNVRSRFRHMYPTQYSSVYDPSLDSDLRL
SRLEEGSSSNFSRGANFERTLDEEEDSIPRIVQPKIYVLPEEPSPSPLQKKAGRFTRRGNLLLGGQGKFQLGGSP
RSPTPTKPRPFTLSEFHKHDTFQRSPLPPQPQFLPVTPSSLTPPLPSFFTASRSMGRMSGGGATANSSRNGNNSH
INGANSSSNTTSHTNNTHSTATSSNLFASTAGNSLFSMSEMNNGFSEGYTTEMTLPSLNMSDALVGLGKVGSVSS
LSGGPAGGGGGSGSADVGTGAGMEPKCLTAFGPLLSMPFPYLHPASSSANATTGGLVERDSATPLNPIPTAANDG
DKRGTTIILADPSPPKSRRLGAAAAKVGVEVGVGLVRPHQHSTTQWIKTAVHSVYGVFKQIFRKVVFRAGAVSG
Length 1124

Coding

Sequence id CopciAB_366673.T0
Sequence >CopciAB_366673.T0
ATGCGATGGGCACAGGAGAAGTTGTCCTCGGAAGTCTCGTTCTTTCGACCTCTTGGTGCTAGAAGCTCGGTTAGG
GTGTCTGAAGTGACCGATGGCTCTGACGGGGACAGCGGTCCAGTTGCCAATCGCTTTGGGCTCTCTATCTTTTCG
AAAGGGTTCTCGGACGATATGGACTTGGAAGCAGGAAAAAGATCCAACCTACGCCAGGGCTCTTGTTTCGACCGA
GTCCCGGCCAATTATTTGAAGGACCAACCCCCTATGACTCTCCACTCAAACCCGTCCTCGTTTCTACCCTTCCAC
CACATCGAGAGCGACATTCGAAACAACACTGGCGCACCAGAGCAATCCTCTCTCAAGATCTACAATCCCAACTAC
CCCTCGTTCGTACCCCCACCAAAGCTCCACCCTCCTTTCCTCGTCCACGTCGATGAGATTCCACGCACACCCGCG
TCATTCATCTCGCCCGTCCCTGACCTCGTCTACGAAGGCGAGACGTCCACCAGTGCTTTCCACTCTGGTCATCAT
CATCATCCTAAACGCTCCCGACATGGCGGGAAAGAAAATGCGCATCGAGCACGTCCCGCTATTCGTCGCAAGCCC
GTTCCAAAGGTCCTCATGGACGATAAGATACGCACTTCCTCGTTCATGAAGATCTCCAGCATGAACTCGTTCCCC
GCCCTGCGCGCTCGAGATCCCAATGTCAAACCGCAGGAGCGAGTTCCCTCAAAGCCCTCCACATTCGACCGGACC
AACGATATAGGCGAATACTCCTTGACGCGATTCCTCAGCCAAGGCGCACAAGGAAAAGTCTACCTCGCCAAATCT
AATCAATCGGGCAAGATGGCCGCGGTCAAGGTCATTTCGAAACTTACGCTGGAGAACTACCATACCCTTCTCCAG
GAGCAGAACCTATTGAAGAGGTTGAAGGGGCACCCTTTCATACTGAACTTGATCGATAGTTTCCATGACACGGAG
AACTTCTACTTGATTAGCGACTATTACCCAGCCGGCGATCTCGCTCACAGACTGTACAAGCTAAAAAGGTTCGAC
ACCGACACCGCGCGGTTCTACATCTCCGAACTAATCGTCGCCATCCGCTTCCTCCACGCCAACGACATCATCCAC
CGCGACCTCAAACCTAGCAACATCCTCATCAAAGCCGACGGGCACATCTGCATAATCGATTTCGGACTCTGCAAG
GACTTTCGGGCTAAAAATGCTCGAGCGCCCTCTCGGGGCGACCTTGACAGTAACCCTCCCAACACTCATACCCGC
ACCCATGCTGCCCGTACTCATGCCCAAGCCCAAGCTCGCGTTCATGCTCGACATCGGAGAGCTGTCGTGGGACCG
GTGACGGACGGGTTTGCGGGCACGCTGGTGTACATGTCCCCACAGGTCATCTCGCAGGAAATCTATTCGTATGAG
ACGGATTGGTGGTCCATGGGGATTATCCTTTATGAATTGTTGCAGGGAGATACGCCGTGGACGGGCTCTGATGTT
ACTTGCATGATGAGGAAGATCAAGAAGGAGCCTTTGCTCTTTCGTGCAGCGGTGGACGAACCTGCTTCGGATTTT
TTGTATAAACTACTGGAGAAACGCGTCGAAGACAGGATCCATGTCTCTGAATTCGCCGCCCACGAATTCTTTCGC
TCGATTGACTTTGATGATGTCGAAGGAGGACTTCTAACCCCGCCATACATCCCACACATCAACGACGCGATGCTC
TCCTCTCGGGTCCTCAGAGACAAAGAGAAGATCTACGTAGGTCGACGATACCAACAAGATGTCGACCCCTTCCCC
GAGTACAACTACGACTACCAAACCCCAGCGCACTCAATGAACCTCGAGGACCTTGCTGAGGCCGGTATACCCCTG
TTTGACCCTCCGGGCGAGCGCGGGCAGGCCAAAGACCAGGTGGAAATCAGCGCCGACCCGCTGGGGTACGTCGAA
CCGCCCACCACTCCAAAGACGACGACCAGGGGTATCGCAGGCTCGTTTAACATCTCGTCCTTGAGGCTGGACCAG
ACTGTCTCCCCTGCGCTCATGAAGAACTACGATCTAACCAGCACCACGTTGTTGTCCGTCATCTCCTCCCCCAAG
GACGTATTCTACACGCCCCGGCGGTCGCCGCTCGTACCAAACTTGCTGCGCCATGCGCCCGTCTCCAACGTCCGA
TCGCGGTTCAGACATATGTATCCGACGCAGTACAGCAGCGTCTACGACCCCTCTTTGGATAGCGATCTGCGCTTG
AGCCGTCTCGAAGAGGGATCATCCTCCAATTTCTCTCGGGGCGCGAACTTCGAGCGGACCCTAGATGAAGAAGAA
GATTCGATTCCACGAATCGTCCAACCCAAGATCTACGTTCTCCCCGAGGAGCCTTCTCCCTCGCCTCTGCAGAAG
AAAGCCGGTCGCTTCACCCGGCGTGGTAATCTCTTGCTTGGAGGGCAGGGCAAGTTCCAGCTGGGGGGATCGCCT
CGTAGTCCGACACCGACGAAACCACGCCCGTTCACCCTCTCGGAGTTTCACAAACACGATACTTTCCAACGAAGT
CCTCTACCACCACAACCGCAGTTCCTACCTGTTACGCCATCAAGTTTGACGCCGCCTCTCCCGTCGTTTTTTACC
GCTTCGCGGTCGATGGGGAGGATGAGTGGTGGTGGTGCTACCGCGAACAGCAGTCGCAACGGTAACAACAGCCAC
ATCAACGGCGCCAACAGCAGCAGCAACACCACCAGCCACACCAACAACACCCACAGCACCGCGACCTCGTCCAAC
CTCTTCGCCAGCACCGCCGGGAACTCGCTCTTCTCGATGTCGGAAATGAACAATGGGTTCTCGGAAGGGTATACG
ACGGAGATGACGCTTCCTTCTTTGAATATGTCGGATGCGCTGGTGGGGCTGGGTAAGGTGGGGTCTGTGAGTAGT
TTGAGTGGTGGCCCTGCTGGTGGAGGTGGTGGGAGTGGGAGTGCGGATGTAGGAACTGGGGCGGGGATGGAACCG
AAGTGCTTAACGGCGTTCGGTCCTCTCCTGAGCATGCCATTCCCTTACCTCCACCCAGCTTCCTCCTCAGCCAAC
GCTACCACCGGAGGCCTTGTCGAGAGAGACTCGGCGACTCCTCTCAACCCCATTCCAACAGCTGCCAACGACGGA
GATAAACGCGGTACTACCATCATCCTCGCCGACCCCTCCCCTCCTAAGTCCCGTCGACTTGGAGCAGCTGCAGCG
AAAGTTGGAGTAGAAGTGGGAGTGGGACTCGTCCGCCCACACCAACATTCAACAACGCAGTGGATCAAGACGGCT
GTTCATTCAGTTTACGGAGTCTTCAAACAGATTTTCAGGAAGGTTGTGTTTAGGGCTGGGGCTGTTTCTGGGTAG
Length 3375

Transcript

Sequence id CopciAB_366673.T0
Sequence >CopciAB_366673.T0
GGGTCTCTCGTTCTCCTGTTTTGGATCGAGTTTTGGTTTATGCGATGGGCACAGGAGAAGTTGTCCTCGGAAGTC
TCGTTCTTTCGACCTCTTGGTGCTAGAAGCTCGGTTAGGGTGTCTGAAGTGACCGATGGCTCTGACGGGGACAGC
GGTCCAGTTGCCAATCGCTTTGGGCTCTCTATCTTTTCGAAAGGGTTCTCGGACGATATGGACTTGGAAGCAGGA
AAAAGATCCAACCTACGCCAGGGCTCTTGTTTCGACCGAGTCCCGGCCAATTATTTGAAGGACCAACCCCCTATG
ACTCTCCACTCAAACCCGTCCTCGTTTCTACCCTTCCACCACATCGAGAGCGACATTCGAAACAACACTGGCGCA
CCAGAGCAATCCTCTCTCAAGATCTACAATCCCAACTACCCCTCGTTCGTACCCCCACCAAAGCTCCACCCTCCT
TTCCTCGTCCACGTCGATGAGATTCCACGCACACCCGCGTCATTCATCTCGCCCGTCCCTGACCTCGTCTACGAA
GGCGAGACGTCCACCAGTGCTTTCCACTCTGGTCATCATCATCATCCTAAACGCTCCCGACATGGCGGGAAAGAA
AATGCGCATCGAGCACGTCCCGCTATTCGTCGCAAGCCCGTTCCAAAGGTCCTCATGGACGATAAGATACGCACT
TCCTCGTTCATGAAGATCTCCAGCATGAACTCGTTCCCCGCCCTGCGCGCTCGAGATCCCAATGTCAAACCGCAG
GAGCGAGTTCCCTCAAAGCCCTCCACATTCGACCGGACCAACGATATAGGCGAATACTCCTTGACGCGATTCCTC
AGCCAAGGCGCACAAGGAAAAGTCTACCTCGCCAAATCTAATCAATCGGGCAAGATGGCCGCGGTCAAGGTCATT
TCGAAACTTACGCTGGAGAACTACCATACCCTTCTCCAGGAGCAGAACCTATTGAAGAGGTTGAAGGGGCACCCT
TTCATACTGAACTTGATCGATAGTTTCCATGACACGGAGAACTTCTACTTGATTAGCGACTATTACCCAGCCGGC
GATCTCGCTCACAGACTGTACAAGCTAAAAAGGTTCGACACCGACACCGCGCGGTTCTACATCTCCGAACTAATC
GTCGCCATCCGCTTCCTCCACGCCAACGACATCATCCACCGCGACCTCAAACCTAGCAACATCCTCATCAAAGCC
GACGGGCACATCTGCATAATCGATTTCGGACTCTGCAAGGACTTTCGGGCTAAAAATGCTCGAGCGCCCTCTCGG
GGCGACCTTGACAGTAACCCTCCCAACACTCATACCCGCACCCATGCTGCCCGTACTCATGCCCAAGCCCAAGCT
CGCGTTCATGCTCGACATCGGAGAGCTGTCGTGGGACCGGTGACGGACGGGTTTGCGGGCACGCTGGTGTACATG
TCCCCACAGGTCATCTCGCAGGAAATCTATTCGTATGAGACGGATTGGTGGTCCATGGGGATTATCCTTTATGAA
TTGTTGCAGGGAGATACGCCGTGGACGGGCTCTGATGTTACTTGCATGATGAGGAAGATCAAGAAGGAGCCTTTG
CTCTTTCGTGCAGCGGTGGACGAACCTGCTTCGGATTTTTTGTATAAACTACTGGAGAAACGCGTCGAAGACAGG
ATCCATGTCTCTGAATTCGCCGCCCACGAATTCTTTCGCTCGATTGACTTTGATGATGTCGAAGGAGGACTTCTA
ACCCCGCCATACATCCCACACATCAACGACGCGATGCTCTCCTCTCGGGTCCTCAGAGACAAAGAGAAGATCTAC
GTAGGTCGACGATACCAACAAGATGTCGACCCCTTCCCCGAGTACAACTACGACTACCAAACCCCAGCGCACTCA
ATGAACCTCGAGGACCTTGCTGAGGCCGGTATACCCCTGTTTGACCCTCCGGGCGAGCGCGGGCAGGCCAAAGAC
CAGGTGGAAATCAGCGCCGACCCGCTGGGGTACGTCGAACCGCCCACCACTCCAAAGACGACGACCAGGGGTATC
GCAGGCTCGTTTAACATCTCGTCCTTGAGGCTGGACCAGACTGTCTCCCCTGCGCTCATGAAGAACTACGATCTA
ACCAGCACCACGTTGTTGTCCGTCATCTCCTCCCCCAAGGACGTATTCTACACGCCCCGGCGGTCGCCGCTCGTA
CCAAACTTGCTGCGCCATGCGCCCGTCTCCAACGTCCGATCGCGGTTCAGACATATGTATCCGACGCAGTACAGC
AGCGTCTACGACCCCTCTTTGGATAGCGATCTGCGCTTGAGCCGTCTCGAAGAGGGATCATCCTCCAATTTCTCT
CGGGGCGCGAACTTCGAGCGGACCCTAGATGAAGAAGAAGATTCGATTCCACGAATCGTCCAACCCAAGATCTAC
GTTCTCCCCGAGGAGCCTTCTCCCTCGCCTCTGCAGAAGAAAGCCGGTCGCTTCACCCGGCGTGGTAATCTCTTG
CTTGGAGGGCAGGGCAAGTTCCAGCTGGGGGGATCGCCTCGTAGTCCGACACCGACGAAACCACGCCCGTTCACC
CTCTCGGAGTTTCACAAACACGATACTTTCCAACGAAGTCCTCTACCACCACAACCGCAGTTCCTACCTGTTACG
CCATCAAGTTTGACGCCGCCTCTCCCGTCGTTTTTTACCGCTTCGCGGTCGATGGGGAGGATGAGTGGTGGTGGT
GCTACCGCGAACAGCAGTCGCAACGGTAACAACAGCCACATCAACGGCGCCAACAGCAGCAGCAACACCACCAGC
CACACCAACAACACCCACAGCACCGCGACCTCGTCCAACCTCTTCGCCAGCACCGCCGGGAACTCGCTCTTCTCG
ATGTCGGAAATGAACAATGGGTTCTCGGAAGGGTATACGACGGAGATGACGCTTCCTTCTTTGAATATGTCGGAT
GCGCTGGTGGGGCTGGGTAAGGTGGGGTCTGTGAGTAGTTTGAGTGGTGGCCCTGCTGGTGGAGGTGGTGGGAGT
GGGAGTGCGGATGTAGGAACTGGGGCGGGGATGGAACCGAAGTGCTTAACGGCGTTCGGTCCTCTCCTGAGCATG
CCATTCCCTTACCTCCACCCAGCTTCCTCCTCAGCCAACGCTACCACCGGAGGCCTTGTCGAGAGAGACTCGGCG
ACTCCTCTCAACCCCATTCCAACAGCTGCCAACGACGGAGATAAACGCGGTACTACCATCATCCTCGCCGACCCC
TCCCCTCCTAAGTCCCGTCGACTTGGAGCAGCTGCAGCGAAAGTTGGAGTAGAAGTGGGAGTGGGACTCGTCCGC
CCACACCAACATTCAACAACGCAGTGGATCAAGACGGCTGTTCATTCAGTTTACGGAGTCTTCAAACAGATTTTC
AGGAAGGTTGTGTTTAGGGCTGGGGCTGTTTCTGGGTAGTTTGAGGTTGTGGTGTTTGGGTTTTGTGACTGGGTG
CGCCTGGTTGATTGGTTCTCGCATCTTGTTCTTGCTTTTTGTGACTTGTGATGTGATCTGTCGGGTTCCTTTGCT
TTTCTCTGTCGTTATTTTCGCTGCTATGTTCTTGTCATTTTCCCCTGCTATGTTCTTGTGATCTTTTCCGTGCTT
CGATCTGCCTCTGTTTCCCTTTTGCTCTGGTTCTCGCTGCTTTCGCTTCGTTCCATCATCAATCTACTGCTTTCT
ATCAATTCGGCCTTCCCGTCCATACTATCCGCCTATCGATGGCCCACACGTTCCTTGCTTGTATTTCTGTTGCAC
GTCTCTGGCGTTCTCCGTCTGTTTGGTTTCCATTCGTTTCGAACGACAAGTCTCTATTTTCCTTGCTTGTACATT
TTTTGTTCCGCATCTCTGGCGTTTCCCTCTTTGGTTGCCATTCGTTTCGTACCAGATGTCTCGACCATGTCTTCC
AAACTTCAGCTGCATCATCTTCTGCATGTATACACATTTCATCCATTCTCTACTCTTTTGATATGATGATATCCC
CGACAACCCTTGTCTGTC
Length 3993

Gene

Sequence id CopciAB_366673.T0
Sequence >CopciAB_366673.T0
GGGTCTCTCGTTCTCCTGTTTTGGATCGAGTTTTGGTTTATGCGATGGGCACAGGAGAAGTTGTCCTCGGAAGTC
TCGTTCTTTCGACCTCTTGGTGCTAGAAGCTCGGTTAGGGTGTCTGAAGTGACCGATGGCTCTGACGGGGACAGC
GGTCCAGTTGCCAATCGCTTTGGGCTCTCTATCTTTTCGAAAGGGTTCTCGGACGATATGGACTTGGAAGCAGGA
AAAAGATCCAACCTACGCCAGGTGCATACATTGTCTTCTTCTCCACCCACCCTGGACCACTCACCTTCTCGGAAG
GGCTCTTGTTTCGACCGAGTCCCGGCCAATTATTTGAAGGACCAACCCCCTATGACTCTCCACTCAAACCCGTCC
TCGTTTCTACCCTTCCACCACATCGAGAGCGACATTCGAAACAACACTGGCGCACCAGAGCAATCCTCTCTCAAG
ATCTACAATCCCAACTACCCCTCGTTCGTACCCCCACCAAAGCTCCACCCTCCTTTCCTCGTCCACGTCGATGAG
ATTCCACGCACACCCGCGTCATTCATCTCGCCCGTCCCTGACCTCGTCTACGAAGGCGAGACGTCCACCAGTGCT
TTCCACTCTGGTCATCATCATCATCCTAAACGCTCCCGACATGGCGGGAAAGAAAATGCGCATCGAGCACGTCCC
GCTATTCGTCGCAAGCCCGTTCCAAAGGTCCTCATGGACGATAAGATACGCACTTCCTCGTTCATGAAGATCTCC
AGCATGAACTCGTTCCCCGCCCTGCGCGCTCGAGATCCCAATGTCAAACCGCAGGAGCGAGTTCCCTCAAAGCCC
TCCACATTCGACCGGACCAACGATATAGGCGAATACTCCTTGACGCGATTCCTCAGCCAAGGCGCACAAGGAAAA
GTCTACCTCGCCAAATCTAATCAATCGGGCAAGATGGCCGCGGTCAAGGTCATTTCGAAACTTACGCTGGAGAAC
TACCATACCCTTCTCCAGGAGCAGAACCTATTGAAGAGGTTGAAGGGGCACCCTTTCATACTGAACTTGATCGAT
AGTTTCCATGACACGGAGAACTTCTACTTGATTAGCGTAAGCTTTTTCCTCGTTTCCTCGATGAAGGCTGTTGGC
TTAATTGAAGTCATCAGGACTATTACCCAGCCGGCGATCTCGCTCACAGACTGTACAAGCTAAAAAGGTTCGACA
CCGACACCGCGCGGTTCTACATCTCCGAACTAGTGAGTGCAGATCTTTCGCCCCTTTCCTTCATCCGCCCTCACA
AAGGACTAACCATCTCATCCATAGATCGTCGCCATCCGCTTCCTCCACGCCAACGACATCATCCACCGCGACCTC
AAACCTAGCAACATCCTCATCAAAGCCGACGGGCACATCTGCATAATCGATTTCGGACTCTGCAAGGACTTTCGG
GCTAAAAATGCTCGAGCGCCCTCTCGGGGCGACCTTGACAGTAACCCTCCCAACACTCATACCCGCACCCATGCT
GCCCGTACTCATGCCCAAGCCCAAGCTCGCGTTCATGCTCGACATCGGAGAGCTGTCGTGGGACCGGTGACGGAC
GGGTTTGCGGGCACGCTGGTGTACATGTCCCCACAGGTCATCTCGCAGGAAATCTATTCGTATGAGACGGATTGG
TGGTCCATGGGGATTATCCTTTATGAATTGTTGCAGGGAGATGTGAGTGCTTTGTCTTTCACGACTTTGCTTATT
TGAAGACGGTGTTGACTGGGTTGTGTAGACGCCGTGGACGGGCTCTGATGTTACTTGCATGATGAGGAAGATCAA
GAAGGAGCCTTTGCTCTTTCGTGCAGCGGTGGACGAACCTGCTTCGGATTTTTTGTATAAAGTGGGTCTTGTCTC
TAGTCCAGGTAGGGGCATGCCTGACCGTGCGCGCTATAGCTACTGGAGAAACGCGTCGAAGACAGGATCCATGTC
TCTGAATTCGCCGCCCACGAATTCTTTCGCTCGATGTACGTTCACTCTCTTCCACTCCTCTCCGTTTTTCTTACC
CGACATTGTTTGCAGTGACTTTGATGATGTCGAAGGAGGACTTCTAACCCGTACGCCTCCTTCTATGCTCTCTCG
CATAATGTTTCCTGACGCTCCCGCAGCGCCATACATCCCACACATCAACGACGCGATGCTCTCCTCTCGGGTCCT
CAGAGACAAAGAGAAGATCTACGTAGGTCGACGATACCAACAAGATGTCGACCCCTTCCCCGAGTACAACTACGA
CTACCAAACCCCAGCGCACTCAATGAACCTCGAGGACCTTGCTGAGGCCGGTATACCCCTGTTTGACCCTCCGGG
CGAGCGCGGGCAGGCCAAAGACCAGGTGGAAATCAGCGCCGACCCGCTGGGGTACGTCGAACCGCCCACCACTCC
AAAGACGACGACCAGGGGTATCGCAGGCTCGTTTAACATCTCGTCCTTGAGGCTGGACCAGACTGTCTCCCCTGC
GCTCATGAAGAACTACGATCTAACCAGCACCACGTTGTTGTCCGTCATCTCCTCCCCCAAGGACGTATTCTACAC
GCCCCGGCGGTCGCCGCTCGTACCAAACTTGCTGCGCCATGCGCCCGTCTCCAACGTCCGATCGCGGTTCAGACA
TATGTATCCGACGCAGTACAGCAGCGTCTACGACCCCTCTTTGGATAGCGATCTGCGCTTGAGCCGTCTCGAAGA
GGGATCATCCTCCAATTTCTCTCGGGGCGCGAACTTCGAGCGGACCCTAGATGAAGAAGAAGATTCGATTCCACG
AATCGTCCAACCCAAGATCTACGTTCTCCCCGAGGAGCCTTCTCCCTCGCCTCTGCAGAAGAAAGCCGGTCGCTT
CACCCGGCGTGGTAATCTCTTGCTTGGAGGGCAGGGCAAGTTCCAGCTGGGGGGATCGCCTCGTAGTCCGACACC
GACGAAACCACGCCCGTTCACCCTCTCGGAGTTTCACAAACACGATACTTTCCAACGAAGTCCTCTACCACCACA
ACCGCAGTTCCTACCTGTTACGCCATCAAGTTTGACGCCGCCTCTCCCGTCGTTTTTTACCGCTTCGCGGTCGAT
GGGGAGGATGAGTGGTGGTGGTGCTACCGCGAACAGCAGTCGCAACGGTAACAACAGCCACATCAACGGCGCCAA
CAGCAGCAGCAACACCACCAGCCACACCAACAACACCCACAGCACCGCGACCTCGTCCAACCTCTTCGCCAGCAC
CGCCGGGAACTCGCTCTTCTCGATGTCGGAAATGAACAATGGGTTCTCGGAAGGGTATACGACGGAGATGACGCT
TCCTTCTTTGAATATGTCGGATGCGCTGGTGGGGCTGGGTAAGGTGGGGTCTGTGAGTAGTTTGAGTGGTGGCCC
TGCTGGTGGAGGTGGTGGGAGTGGGAGTGCGGATGTAGGAACTGGGGCGGGGATGGAACCGAAGTGCTTAACGGC
GTTCGGTCCTCTCCTGAGCATGCCATTCCCTTACCTCCACCCAGCTTCCTCCTCAGCCAACGCTACCACCGGAGG
CCTTGTCGAGAGAGACTCGGCGACTCCTCTCAACCCCATTCCAACAGCTGCCAACGACGGAGATAAACGCGGTAC
TACCATCATCCTCGCCGACCCCTCCCCTCCTAAGTCCCGTCGACTTGGAGCAGCTGCAGCGAAAGTTGGAGTAGA
AGTGGGAGTGGGACTCGTCCGCCCACACCAACATTCAACAACGCAGTGGATCAAGACGGCTGTTCATTCAGTTTA
CGGAGTCTTCAAACAGATTTTCAGGAAGGTTGTGTTTAGGGCTGGGGCTGTTTCTGGGTAGTTTGAGGTTGTGGT
GTTTGGGTTTTGTGACTGGGTGCGCCTGGTTGATTGGTTCTCGCATCTTGTTCTTGCTTTTTGTGACTTGTGATG
TGATCTGTCGGGTTCCTTTGCTTTTCTCTGTCGTTATTTTCGCTGCTATGTTCTTGTCATTTTCCCCTGCTATGT
TCTTGTGATCTTTTCCGTGCTTCGATCTGCCTCTGTTTCCCTTTTGCTCTGGTTCTCGCTGCTTTCGCTTCGTTC
CATCATCAATCTACTGCTTTCTATCAATTCGGCCTTCCCGTCCATACTATCCGCCTATCGATGGCCCACACGTTC
CTTGCTTGTATTTCTGTTGCACGTCTCTGGCGTTCTCCGTCTGTTTGGTTTCCATTCGTTTCGAACGACAAGTCT
CTATTTTCCTTGCTTGTACATTTTTTGTTCCGCATCTCTGGCGTTTCCCTCTTTGGTTGCCATTCGTTTCGTACC
AGATGTCTCGACCATGTCTTCCAAACTTCAGCTGCATCATCTTCTGCATGTATACACATTTCATCCATTCTCTAC
TCTTTTGATATGATGATATCCCCGACAACCCTTGTCTGTC
Length 4390