CopciAB_464731
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_464731 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 464731
Uniprot id Functional description other FunK1 protein kinase
Location scaffold_9:172573..175122 Strand +
Gene length (nt) 2550 Transcript length (nt) 2375
CDS length (nt) 2148 Protein length (aa) 715

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 28.9209 1.735 1.0017
oidia 36.1148 4.3287 2.4992
vegetative_mycelium 34.538 5.0676 2.9258
primordia 77.8022 6.1945 3.5764
hyphal_knot 34.0567 2.7013 1.5596
young_fruiting_body 99.895 5.8713 3.3898
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 38.95 4.6655 2.6936
Wheat bran 51.109 10.8157 6.2444
Horse manure 57.6993 13.5621 7.8301
Oak leaves 77.9799 12.302 7.1026
Hay 62.147 13.0323 7.5242
Corn stalk 68.417 14.4709 8.3548
Pectine 46.1369 3.2092 1.8528
Microcrystalline cellulose 41.1174 5.8021 3.3499
Xylose 44.6339 1.2167 0.7025
Cellobiose 46.762 1.7161 0.9908
Lignin 40.5675 5.9749 3.4496
Apple peels 44.6656 2.8533 1.6474
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 28.4981 4.2067 2.4287
Bsubtilis 35.1583 3.3298 1.9225
Ecoli 36.3477 1.8767 1.0835
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 20.3463 2.0551 1.1865
BS 4h 13.3328 2.2558 1.3024
BS 8h 14.5781 1.9021 1.0982
BS 12h 8.2173 0.3996 0.2307
Oidia 0 h 56.9898 5.8554 3.3806
Oidia 18 h 18.8291 2.8008 1.617
Sclerotia 6.1444 4.1218 2.3797
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 7.7231 1.0112 0.5838
DM 36h 9.1506 0.9181 0.5301
DM 60h 7.8871 0.3274 0.189
DM 84h 7.1084 0.7733 0.4465
DM 108h 7.8232 0.321 0.1853
DM 132h 6.8791 0.408 0.2356
DM 156hAE 8.6942 1.1428 0.6598
ELI1hAE 8.7965 0.3984 0.23
ELI2hAE 9.0606 1.4051 0.8112
LI2hAE 9.6426 1.5001 0.8661
LI6hAE 7.159 0.9124 0.5268
LI12hAE 11.2715 3.3816 1.9524
LI18hAE 10.5517 5.1018 2.9455
LI 24hAE 9.6528 1.9474 1.1243
DM 156hAM 8.2981 1.4767 0.8526
ELI1hAM 10.8189 1.5331 0.8851
ELI2hAM 9.5749 0.9349 0.5397
LI2hAM 10.2261 1.5515 0.8958
LI6hAM 7.315 1.8615 1.0747
LI12hAM 6.2531 3.37 1.9456
LI18hAM 8.2793 2.4765 1.4298
LI 24hAM 5.6019 1.3478 0.7782
LI 24hHK 14.5276 4.4395 2.5631
L/D 6h 14.0155 5.4689 3.1575
L/D 12h 15.0363 3.0886 1.7832
L/D 18h 19.0577 6.943 4.0085
L/D 24h 17.8581 2.8283 1.6329
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 28.6345 1.6054 0.9269
Hyphal knots 38.1379 5.9251 3.4209
Primordium 1 56.5825 11.5262 6.6547
Primordium 2 41.4732 7.3765 4.2588
Young Fruiting body cap 140.0625 51.8579 29.9402
Younf fruiting body gill 74.7935 12.005 6.9311
Young fruiting body stipe 165.4907 15.2397 8.7987
Mature fruiting body cap_gill 48.6965 2.8133 1.6242
Mature fruiting body stipe 55.1096 7.4776 4.3172
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 43.0752 1.2829 0.7407
NH4NO3 38.8633 1.8259 1.0542
Proline 35.2298 2.5345 1.4633
Tryptophan 28.1171 8.0135 4.6266
Isoleucin 34.5112 4.0297 2.3265
Arginine 41.4772 0.7288 0.4208
Metionine 42.9909 4.059 2.3435
NaNO3 36.0423 4.566 2.6362
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 43.0752 1.2829 0.7407
Citrus peel 31.4875 2.8718 1.6581
Poplar leaves 39.4909 2.512 1.4503
Typha leaves 38.6285 3.2635 1.8842
Overwintered Salix leaves 39.7265 3.591 2.0733
Reed flowering 37.2714 5.1632 2.981
Tigernut 37.2204 3.9209 2.2637
Energy cane 37.8309 2.2382 1.2922
Guar gum 36.2374 5.1498 2.9732
Apple peels 41.9999 4.4574 2.5735
Cellobiose 41.7809 1.5847 0.9149
Corn stalk 36.0779 2.9107 1.6805
Horse manure 36.978 2.0748 1.1979
Lignin 29.604 10.829 6.2521
Microcrystalline cellulose 39.2153 6.0325 3.4828
Oak leaves 36.2652 0.9553 0.5516
Pectin esterified 35.0637 2.7086 1.5638
Poplar sawdust 35.1947 6.6911 3.8631
Wheat bran 31.5786 4.9582 2.8626
Chlamydomonas reinhardtii 38.3273 5.4756 3.1613
Vertatryl alcohol 31.4691 2.1066 1.2163
Furfural 27.0535 2.4892 1.4371
Autoclaved mycelium 42.1157 1.1748 0.6783
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 40.6678 1.4252 0.8228
Ribose 47.546 0.8567 0.4946
Mannose 43.8393 4.2056 2.9738
Fructose 41.8808 0.444 0.2564
Arabinose 46.0503 4.2376 2.4466
Xylose 41.5967 3.2044 1.8501
Galacturonic acid 45.9059 6.9192 3.9948
Rhamnogalacturonan 38.7981 2.8138 1.6245
Pectin esterified 38.5635 1.8155 1.0482
Polygalacturonic acid 41.3681 0.9676 0.5586
Sodium acetate 41.8467 3.9709 2.2926
No nitrogen 39.4063 2.8224 1.6295
BSA 42.1486 4.7991 2.7707
Glutamine 40.5662 1.3703 0.7912
No phosphate 42.8905 1.5121 0.873
No carbon 44.4813 0.545 0.3854
No sulphur 49.4826 4.909 2.8342
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 43.0752 1.2829 0.7407
Amylose 31.4702 3.2987 1.9045
Fucose 29.9612 0.7597 0.4386
Galactose 33.4766 2.306 1.3314
Lactose 33.2595 1.9261 1.112
Maltose 31.8942 2.941 1.698
Mannitol 38.8726 1.605 0.9266
Rhamnose 35.4785 3.001 1.7326
Sorbitol 34.74 4.1991 2.4244
Trehalose 34.3479 1.8172 1.0492
Glycerol 31.3251 4.2223 2.4378
Glucuronic acid 35.7951 2.2734 1.3126
Arabinan 30.565 0.9455 0.5459
Galactan 33.5561 5.4889 3.169
Galactomannan 35.5597 0.4995 0.2884
Glucan 35.8735 2.3086 1.3329
Xylan 37.4992 2.2674 1.3091
Xyloglucan 37.6196 1.828 1.0554
Arabinogalactan 39.0827 4.5331 2.6172
Pectin 41.7802 10.672 6.1615
Rhamnogalacturonan 46.729 6.6602 3.8453
Polygalacturonic acid 33.9171 2.2866 1.3202
Mannan 33.2603 0.3177 0.1834
Amylopectin 29.3335 0.2907 0.1678
Inulin 32.6965 2.3059 1.3313
BSA 48.5892 0.9126 0.5269
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 7.8871 0.3274 0.189
2h WAT 9.2675 1.03 0.5947
4h WAT 9.4577 0.5964 0.3443
8h WAT 8.1649 1.9898 1.1488
16h WAT 8.3215 2.2694 1.3103
24h WAT 8.0643 1.3652 0.7882
WAT hyphal knot -30h 11.2452 1.907 1.101
WAT hyphal knot -22h 10.8003 0.9848 0.5686
WAT hyphal knot -15h 10.7083 0.7217 0.4167
WAT hyphal knot -7.5h 9.1025 0.5973 0.3448
WAT hyphal knot 7.3724 0.1496 0.0864
WAT hyphal knot +7.5h 7.6325 1.562 0.9018
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 35.4974 9.1257 5.2687
Straw 3h 42.1099 9.1322 5.2725
Straw 6h 32.3292 7.3401 4.2378
Straw 12h 38.7576 1.0748 0.6205
Straw 24h 29.7958 8.3046 4.7947
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 10.8516 2.3073 1.3321
Frost (-20C, 30min) 9.582 0.5707 0.3295
Heat shock (47C, 2h) 66.4282 2.6721 1.5428
High CO2 8.0001 1.3446 0.7763
Drought (4% agar, 12h) 7.3314 0.4546 0.2625
Oxidative (1mM H2O2, 3h) 10.3127 1.8664 1.0776
Acidic (pH4, 3h) 10.7146 1.921 1.1091
Alkaline (pH9, 3h) 9.7702 1.3442 0.7761
Osmotic (sorbitol 2h) 8.6405 1.2604 0.7277
CongoRed (3h) 12.9611 1.2002 0.6929
Cobalt chloride control 7.3216 1.9324 1.1157
Cobalt chloride 2mM 9.9343 2.2832 1.3182
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 13.4164 7.6325 4.4066
Cold stimulation 8.7366 1.8992 1.0965
Scratched surface 19.2818 4.2855 2.4742
Ca2+, 200mM, 24h 7.3543 3.0267 1.7474
Cu2+, 2mM, 6h 8.6293 2.241 1.2938
Voriconazole 11.6953 3.5144 2.029
Trichoderma interaction, early 11.5773 1.1205 0.6469
Trichoderma interaction 60h 18.8572 10.8585 6.2691
Cobalt chloride 2mM repeat 10.5196 0.1836 0.106
Hypoxia 4.8416 0.7908 0.4566
Hypoxia control 6.751 0.7792 0.4499
Protoplastation control 9.2143 1.5818 1.1185
Protoplastation 3.5h 10.006 2.0249 1.4318
Protoplastation 1.5h 8.3563 7.8505 5.5511

General data

Systematic name -
Protein id CopciAB_464731.T0
Description other FunK1 protein kinase

Annotation summary

0 200 400 600 715

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 143 344
Pfam PF17667 Fungal protein kinase IPR040976 381 522

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
IPR008266 Tyrosine-protein kinase, active site

GO

Go id Term Ontology
GO:0004672 protein kinase activity MF
GO:0006468 protein phosphorylation BP

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
G other FunK1 protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_464731 across fungi.

Arrow shows the origin of gene family containing CopciAB_464731.

Protein

Sequence id CopciAB_464731.T0
Sequence >CopciAB_464731.T0
MQGRFIACPYDTVMNRYLPIPPRTQVPQFELTAGLRNMKDGLRKNKKREVEMYGHLTTTLNRWLKQAYPGKEPKF
TVVISGNKSDPDDWTKQRIDGGVYEDDEKPTEDHPPKWEALELGIEVKRHHTCDFFSDEYQKGYAPNSKTSEDAL
GQAMSYSSLVFFHQHRTHHFSILIFGTMARIVRWDRAGLIFTDAFDYFDEPQKLGEFLWRYAQMDSVDRGHDPTV
TRVVAKGDEDTLMDTRALMDTRAKVSRKVEKVVVDDEIRKLFDETVSTHGPRHILHVQGKKFLVGKPHTYTTVLA
GRGTRGYIAIDLDDPKGPFVFLKDTWRVVGEGLDEEGKVLADLNSPDEQDQRGRKYIPTLVCHGDLEGRWQKTDS
QDFWLTRNPNSDQKCPMRTHQHYRLVVKEVGLPISNFRNGREMVTLISHGVAAHGYGYKKGYMHRDISAGNLLIF
VRQDVVNGQLKEERHGLLTDWELAKKLTDKGPRQLERTGTWQFLAVDILNNPSKPVEVWHEMESWFHLTLWLAVQ
YLPHNVQDVAVFMSDFFDDAAKPYDGSTHYKCGTLKRTSMETGRIRFADGTPFEFGAQDDPFFPHAINKVLAQLA
RAFSYRYQELLRANAKPWLEVDVADPTPAQLKALENIGDQVRFEELLLEYINGPGWPENDKTAPQVSLSEREPFP
SSYRTRGSKRPPSDGTADLDVPQPKHPAVAGPSGSRPKRG
Length 715

Coding

Sequence id CopciAB_464731.T0
Sequence >CopciAB_464731.T0
ATGCAAGGGCGATTCATTGCGTGCCCTTACGACACAGTGATGAATCGCTACCTCCCGATTCCCCCTCGAACTCAG
GTTCCTCAATTCGAGTTGACTGCCGGGTTGAGGAACATGAAGGATGGTCTGAGGAAAAATAAAAAACGGGAGGTA
GAAATGTACGGACATCTGACTACTACATTGAACCGGTGGCTTAAGCAGGCATATCCAGGTAAAGAGCCTAAATTC
ACGGTGGTCATCTCAGGAAACAAGTCGGATCCAGATGATTGGACCAAGCAGCGTATCGATGGCGGAGTCTACGAA
GACGACGAGAAACCGACTGAAGACCATCCGCCCAAGTGGGAAGCACTCGAGCTAGGCATCGAGGTCAAGCGACAT
CACACCTGCGACTTCTTCAGCGACGAATACCAGAAAGGTTATGCTCCCAACTCGAAAACCAGCGAAGACGCACTT
GGTCAGGCCATGTCATACTCCTCGCTTGTTTTCTTCCACCAACACCGCACACACCACTTCTCCATCCTTATTTTC
GGAACCATGGCTCGAATCGTTCGATGGGACCGTGCTGGCCTGATATTCACCGATGCATTCGACTACTTCGACGAG
CCCCAGAAGTTGGGCGAATTCCTCTGGCGATATGCTCAGATGGACTCCGTCGACAGAGGCCACGACCCGACCGTT
ACGAGGGTGGTGGCCAAGGGGGACGAAGACACTCTGATGGATACAAGGGCTCTGATGGATACAAGGGCCAAGGTT
TCGCGAAAGGTCGAAAAGGTTGTTGTTGATGACGAGATCAGGAAGCTGTTCGACGAAACCGTATCGACTCATGGT
CCAAGACACATACTGCACGTTCAAGGCAAAAAATTCCTGGTCGGCAAACCACATACGTACACCACTGTCCTTGCA
GGTCGCGGCACCCGCGGCTATATCGCGATCGACCTCGACGACCCGAAGGGACCTTTTGTTTTCCTAAAAGATACC
TGGCGGGTTGTGGGGGAAGGCTTGGATGAGGAGGGGAAAGTCCTTGCCGACCTCAACAGTCCCGACGAGCAGGAT
CAGAGGGGTCGGAAGTATATCCCAACGCTGGTTTGCCACGGCGACCTCGAGGGCCGGTGGCAGAAAACCGACTCT
CAAGACTTTTGGCTCACTCGCAATCCCAATTCCGACCAGAAGTGTCCCATGCGAACCCACCAACATTACCGCCTC
GTTGTAAAGGAGGTCGGTCTGCCTATTAGCAACTTCAGGAACGGACGCGAAATGGTTACTCTCATCTCGCACGGT
GTTGCCGCGCATGGCTACGGCTACAAGAAAGGATACATGCACCGGGACATTAGTGCCGGAAATCTCTTGATCTTC
GTCCGTCAAGACGTTGTAAACGGCCAGTTGAAAGAGGAGCGTCATGGACTCCTCACGGACTGGGAGCTGGCGAAG
AAGCTCACAGACAAGGGGCCACGGCAGCTGGAACGGACAGGTACCTGGCAGTTCCTCGCCGTCGACATCCTCAAC
AATCCCTCCAAGCCAGTCGAGGTGTGGCACGAAATGGAATCGTGGTTTCATCTCACCCTCTGGCTTGCGGTCCAG
TACTTGCCACACAACGTCCAGGATGTTGCCGTGTTTATGTCGGATTTTTTTGATGACGCCGCAAAACCATATGAT
GGTTCCACCCATTACAAATGCGGGACATTGAAGAGAACTAGCATGGAAACAGGTCGTATACGCTTTGCTGATGGA
ACACCCTTCGAGTTTGGCGCCCAGGACGATCCCTTCTTCCCTCATGCCATCAACAAAGTCCTGGCCCAGCTTGCA
CGAGCCTTCTCATACCGTTATCAAGAATTGCTACGCGCTAATGCTAAACCTTGGCTCGAAGTCGATGTAGCCGAC
CCGACCCCGGCGCAGCTCAAGGCACTCGAAAATATTGGCGATCAAGTCCGATTCGAAGAGCTGCTCCTCGAATAT
ATAAACGGCCCCGGCTGGCCCGAAAATGACAAGACTGCGCCTCAGGTCTCCCTGAGCGAACGGGAGCCATTCCCT
TCAAGCTACCGCACTCGCGGCAGTAAGCGGCCACCATCGGATGGGACAGCGGACTTGGATGTGCCACAACCGAAG
CATCCAGCAGTCGCGGGTCCTTCGGGGAGTCGGCCTAAGAGAGGATAG
Length 2148

Transcript

Sequence id CopciAB_464731.T0
Sequence >CopciAB_464731.T0
ATTAAAACCGGCTCTCCAGCATTCCATCTCGACGCCCAGTGCTGTATCCGCGACTCTTTCACAGCAAACACCAAA
CCCAGTAAAACCATCCAATTGCAATATCGGTTAAGCATGCAAGGGCGATTCATTGCGTGCCCTTACGACACAGTG
ATGAATCGCTACCTCCCGATTCCCCCTCGAACTCAGGTTCCTCAATTCGAGTTGACTGCCGGGTTGAGGAACATG
AAGGATGGTCTGAGGAAAAATAAAAAACGGGAGGTAGAAATGTACGGACATCTGACTACTACATTGAACCGGTGG
CTTAAGCAGGCATATCCAGGTAAAGAGCCTAAATTCACGGTGGTCATCTCAGGAAACAAGTCGGATCCAGATGAT
TGGACCAAGCAGCGTATCGATGGCGGAGTCTACGAAGACGACGAGAAACCGACTGAAGACCATCCGCCCAAGTGG
GAAGCACTCGAGCTAGGCATCGAGGTCAAGCGACATCACACCTGCGACTTCTTCAGCGACGAATACCAGAAAGGT
TATGCTCCCAACTCGAAAACCAGCGAAGACGCACTTGGTCAGGCCATGTCATACTCCTCGCTTGTTTTCTTCCAC
CAACACCGCACACACCACTTCTCCATCCTTATTTTCGGAACCATGGCTCGAATCGTTCGATGGGACCGTGCTGGC
CTGATATTCACCGATGCATTCGACTACTTCGACGAGCCCCAGAAGTTGGGCGAATTCCTCTGGCGATATGCTCAG
ATGGACTCCGTCGACAGAGGCCACGACCCGACCGTTACGAGGGTGGTGGCCAAGGGGGACGAAGACACTCTGATG
GATACAAGGGCTCTGATGGATACAAGGGCCAAGGTTTCGCGAAAGGTCGAAAAGGTTGTTGTTGATGACGAGATC
AGGAAGCTGTTCGACGAAACCGTATCGACTCATGGTCCAAGACACATACTGCACGTTCAAGGCAAAAAATTCCTG
GTCGGCAAACCACATACGTACACCACTGTCCTTGCAGGTCGCGGCACCCGCGGCTATATCGCGATCGACCTCGAC
GACCCGAAGGGACCTTTTGTTTTCCTAAAAGATACCTGGCGGGTTGTGGGGGAAGGCTTGGATGAGGAGGGGAAA
GTCCTTGCCGACCTCAACAGTCCCGACGAGCAGGATCAGAGGGGTCGGAAGTATATCCCAACGCTGGTTTGCCAC
GGCGACCTCGAGGGCCGGTGGCAGAAAACCGACTCTCAAGACTTTTGGCTCACTCGCAATCCCAATTCCGACCAG
AAGTGTCCCATGCGAACCCACCAACATTACCGCCTCGTTGTAAAGGAGGTCGGTCTGCCTATTAGCAACTTCAGG
AACGGACGCGAAATGGTTACTCTCATCTCGCACGGTGTTGCCGCGCATGGCTACGGCTACAAGAAAGGATACATG
CACCGGGACATTAGTGCCGGAAATCTCTTGATCTTCGTCCGTCAAGACGTTGTAAACGGCCAGTTGAAAGAGGAG
CGTCATGGACTCCTCACGGACTGGGAGCTGGCGAAGAAGCTCACAGACAAGGGGCCACGGCAGCTGGAACGGACA
GGTACCTGGCAGTTCCTCGCCGTCGACATCCTCAACAATCCCTCCAAGCCAGTCGAGGTGTGGCACGAAATGGAA
TCGTGGTTTCATCTCACCCTCTGGCTTGCGGTCCAGTACTTGCCACACAACGTCCAGGATGTTGCCGTGTTTATG
TCGGATTTTTTTGATGACGCCGCAAAACCATATGATGGTTCCACCCATTACAAATGCGGGACATTGAAGAGAACT
AGCATGGAAACAGGTCGTATACGCTTTGCTGATGGAACACCCTTCGAGTTTGGCGCCCAGGACGATCCCTTCTTC
CCTCATGCCATCAACAAAGTCCTGGCCCAGCTTGCACGAGCCTTCTCATACCGTTATCAAGAATTGCTACGCGCT
AATGCTAAACCTTGGCTCGAAGTCGATGTAGCCGACCCGACCCCGGCGCAGCTCAAGGCACTCGAAAATATTGGC
GATCAAGTCCGATTCGAAGAGCTGCTCCTCGAATATATAAACGGCCCCGGCTGGCCCGAAAATGACAAGACTGCG
CCTCAGGTCTCCCTGAGCGAACGGGAGCCATTCCCTTCAAGCTACCGCACTCGCGGCAGTAAGCGGCCACCATCG
GATGGGACAGCGGACTTGGATGTGCCACAACCGAAGCATCCAGCAGTCGCGGGTCCTTCGGGGAGTCGGCCTAAG
AGAGGATAGTCGATGGAAGCGTTGTTACTCTTAGCCCAATGTACCAATGGAATGTCGTCGTGCAGACCTACCCCT
ATACATAGTACCATGTACCCTCACTTCCACCAAATGTGACATCGTTGATG
Length 2375

Gene

Sequence id CopciAB_464731.T0
Sequence >CopciAB_464731.T0
ATTAAAACCGGCTCTCCAGCATTCCATCTCGACGCCCAGTGCTGTATCCGCGACTCTTTCACAGCAAACACCAAA
CCCAGTAAAACCATCCAATTGCAATATCGGTTAAGCATGCAAGGGCGATTCATTGCGTGCCCTTACGACACAGTG
ATGAATCGCTACCTCCCGATTCCCCCTCGAACTCAGGTTCCTCAATTCGAGTTGACTGCCGGGTTGAGGAACATG
AAGGATGGTCTGAGGAAAAATAAAAAACGGGAGGTAGAAATGTACGGACATCTGGTATGTATCCTGCTCGTATCG
ACCTTTATCCCCCGTCCCGCTGAACTGGTGTACTCTAGACTACTACATTGAACCGGTGGCTTAAGCAGGCATATC
CAGGTAAAGAGCCTAAATTCACGGTGGTCATCTCAGGAAACAAGTCGGATCCAGATGATTGGACCAAGCAGCGTA
TCGATGGCGGAGTCTACGAAGACGACGAGAAACCGACTGAAGACCATCCGCCCAAGTGGGAAGCACTCGAGCTAG
GCATCGAGGTCAAGCGACATCACACCTGCGACTTCTTCAGCGACGAATACCAGAAAGGTTATGCTCCCAACTCGA
AAACCAGCGAAGACGCACTTGGTCAGGCCATGTCATACTCCTCGCTTGTTTTCTTCCACCAACACCGCACACACC
ACTTCTCCATCCTTATTTTCGGAACCATGGCTCGAATCGTTCGATGGGACCGTGCTGGCCTGATATTCACCGATG
CATTCGACTACTTCGACGAGCCCCAGAAGTTGGGCGAATTCCTCTGGCGATATGCTCAGATGGACTCCGTCGACA
GAGGCCACGACCCGACCGTTACGAGGGTGGTGGCCAAGGGGGACGAAGACACTCTGATGGATACAAGGGCTCTGA
TGGATACAAGGGCCAAGGTTTCGCGAAAGGTCGAAAAGGTTGTTGTTGATGACGAGATCAGGAAGCTGTTCGACG
AAACCGTATCGACTCATGGTCCAAGACACATACTGCACGTTCAAGGCAAAAAATTCCTGGTCGGCAAACCACATA
CGTACACCACTGTCCTTGCAGGTCGCGGCACCCGCGGCTATATCGCGATCGACCTCGACGACCCGAAGGGACCTT
TTGTTTTCCTAAAAGATACCTGGCGGGTTGTGGGGGAAGGCTTGGATGAGGAGGGGAAAGTCCTTGCCGACCTCA
ACAGTCCCGACGAGCAGGATCAGAGGGGTCGGAAGTATATCCCAACGCTGGTTTGCCACGGCGACCTCGAGGGCC
GGTGGCAGAAAACCGACTCTCAAGACTTTTGGCTCACTCGCAATCCCAATTCCGACCAGAAGTGTCCCATGCGAA
CCCACCAACATTACCGCCTCGTTGTAAAGGAGGTCGGTCTGCCTATTAGCAACTTCAGGAACGGACGCGAAATGG
TTACTCTCATCTCGCACGGTGTTGCCGGTGAGCCTTGTGTTGTAGGATGGTCTCATATACTGGTTTGCTGATTTA
CGTTGACAACCAGCGCATGGCTACGGCTACAAGAAAGGATACATGCACCGGGACATTAGTGCCGGAAATCTCTTG
ATCTTCGTCCGTCAAGACGTTGTAAACGGCCAGTTGAAAGAGGAGCGTCATGGACTCCTCACGGACTGGGAGCTG
GCGAAGAAGCTCACAGACAAGGGGCCACGGCAGCTGGAACGGACAGTGAGTATTCTGAACCCCATGAGCGCCCTC
TGCGATGTCTAACACTTTCGGTTAGGGTACCTGGCAGTTCCTCGCCGTCGACATCCTCAACAATCCCTCCAAGCC
AGTCGAGGTGTGGCACGAAATGGAATCGTGGTTTCATCTCACCCTCTGGCTTGCGGTCCAGTACTTGCCACACAA
CGTCCAGGATGTTGCCGTGTTTATGTCGGATTTTTTTGATGACGCCGCAAAACCATATGATGGTTCCACCCATTA
CAAATGCGGGACATTGAAGAGAACTAGCATGGAAACAGGTCGTATACGCTTTGCTGATGGAACACCCTTCGAGTT
TGGCGCCCAGGACGATCCCTTCTTCCCTCATGCCATCAACAAAGTCCTGGCCCAGCTTGCACGAGCCTTCTCATA
CCGTTATCAAGAATTGCTACGCGCTAATGCTAAACCTTGGCTCGAAGTCGATGTAGCCGACCCGACCCCGGCGCA
GCTCAAGGCACTCGAAAATATTGGCGATCAAGTCCGATTCGAAGAGCTGCTCCTCGAATATATAAACGGCCCCGG
CTGGCCCGAAAATGACAAGACTGCGCCTCAGGTCTCCCTGAGCGAACGGGAGCCATTCCCTTCAAGCTACCGCAC
TCGCGGCAGTAAGCGGCCACCATCGGATGGGACAGCGGACTTGGATGTGCCACAACCGAAGCATCCAGCAGTCGC
GGGTCCTTCGGGGAGTCGGCCTAAGAGAGGATAGTCGATGGAAGCGTTGTTACTCTTAGCCCAATGTACCAATGG
AATGTCGTCGTGCAGACCTACCCCTATACATAGTACCATGTACCCTCACTTCCACCAAATGTGACATCGTTGATG
Length 2550