CopciAB_448707
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_448707 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 448707
Uniprot id Functional description other FunK1 protein kinase
Location scaffold_3:3483574..3486479 Strand +
Gene length (nt) 2906 Transcript length (nt) 2515
CDS length (nt) 2304 Protein length (aa) 767

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 4.8522 1.3788 0.7961
oidia 11.8095 1.7332 1.0007
vegetative_mycelium 9.4214 0.0756 0.0436
primordia 17.5028 2.2538 1.3012
hyphal_knot 6.1075 0.679 0.392
young_fruiting_body 6.2087 3.472 2.0046
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 2.4069 0.7708 0.445
Wheat bran 8.3945 2.2036 1.2722
Horse manure 8.761 3.7283 2.1525
Oak leaves 6.9372 3.5972 2.0769
Hay 9.7331 1.5406 0.8895
Corn stalk 10.2343 3.2922 1.9007
Pectine 8.9699 0.9615 0.5551
Microcrystalline cellulose 2.4091 0.3028 0.1748
Xylose 2.0382 1.1187 0.6459
Cellobiose 1.7169 0.1734 0.1001
Lignin 1.4096 0.1832 0.1058
Apple peels 5.3277 0.9091 0.5249
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 10.1166 1.3225 0.7635
Bsubtilis 7.794 1.9847 1.1459
Ecoli 8.1361 1.6136 0.9316
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 4.4159 0.6688 0.3862
BS 4h 0.9088 0.102 0.0589
BS 8h 0.7962 0.3262 0.1883
BS 12h 0.5016 0.071 0.041
Oidia 0 h 0.4035 0.3188 0.1841
Oidia 18 h 0.6392 0.0477 0.0275
Sclerotia 0.3278 0.2937 0.1695
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 9.8299 1.9314 1.1151
DM 36h 7.8268 0.4616 0.2665
DM 60h 4.8238 0.3997 0.2307
DM 84h 5.6373 0.6024 0.3478
DM 108h 5.6883 0.2947 0.1701
DM 132h 5.6146 1.8494 1.0678
DM 156hAE 4.9225 0.9743 0.5625
ELI1hAE 8.7923 2.0405 1.1781
ELI2hAE 6.3484 3.5876 2.0713
LI2hAE 9.8344 1.7839 1.0299
LI6hAE 10.6468 5.0358 2.9074
LI12hAE 8.588 1.7561 1.0139
LI18hAE 4.9981 3.4806 2.0095
LI 24hAE 5.3542 1.1299 0.6523
DM 156hAM 4.6277 0.9134 0.5274
ELI1hAM 5.8197 2.47 1.4261
ELI2hAM 4.4629 1.5427 0.8907
LI2hAM 6.3825 2.3956 1.3831
LI6hAM 7.3289 1.339 0.7731
LI12hAM 2.9118 0.7353 0.4245
LI18hAM 2.3031 1.0292 0.5942
LI 24hAM 0.898 0.3935 0.2272
LI 24hHK 3.2533 1.3398 0.7735
L/D 6h 3.1106 0.1683 0.0972
L/D 12h 3.7778 2.5832 1.4914
L/D 18h 9.1752 1.7505 1.0107
L/D 24h 12.8602 1.4145 0.8166
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 4.0302 0.6813 0.3933
Hyphal knots 17.3643 6.8279 3.9421
Primordium 1 28.7271 11.5225 6.6525
Primordium 2 20.2467 5.6335 3.2525
Young Fruiting body cap 7.1477 2.357 1.3608
Younf fruiting body gill 7.8369 3.6204 2.0902
Young fruiting body stipe 26.4659 3.4765 2.0071
Mature fruiting body cap_gill 4.9204 1.55 0.8949
Mature fruiting body stipe 7.1296 0.7029 0.4058
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 14.4926 2.4995 1.4431
NH4NO3 9.1577 2.0565 1.1873
Proline 10.0392 2.3976 1.3842
Tryptophan 5.3426 2.9809 1.721
Isoleucin 7.0039 1.3562 0.783
Arginine 10.2425 1.9853 1.1462
Metionine 9.9036 1.3613 0.7859
NaNO3 9.0857 0.6406 0.3699
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 14.4926 2.4995 1.4431
Citrus peel 15.2318 1.3267 0.7659
Poplar leaves 16.9712 1.8345 1.0591
Typha leaves 20.9815 2.8622 1.6525
Overwintered Salix leaves 17.6285 1.7415 1.0055
Reed flowering 14.2138 6.476 3.7389
Tigernut 15.9071 2.4875 1.4361
Energy cane 16.8865 0.778 0.4492
Guar gum 15.1111 5.9602 3.4411
Apple peels 17.2038 4.6295 2.6728
Cellobiose 16.6782 3.1672 1.8286
Corn stalk 15.9158 3.6024 2.0798
Horse manure 15.3324 5.8104 3.3547
Lignin 10.4756 6.5443 3.7783
Microcrystalline cellulose 13.6063 5.2582 3.0358
Oak leaves 15.8849 2.6463 1.5278
Pectin esterified 16.0109 1.3119 0.7574
Poplar sawdust 12.0764 4.3846 2.5314
Wheat bran 17.2434 6.0732 3.5063
Chlamydomonas reinhardtii 20.0856 2.5044 1.4459
Vertatryl alcohol 9.225 1.0207 0.5893
Furfural 6.7879 2.4595 1.42
Autoclaved mycelium 12.8319 2.3973 1.3841
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 12.1579 1.6086 0.9287
Ribose 23.0106 3.3903 1.9574
Mannose 19.7386 1.7102 1.2093
Fructose 19.5781 6.7532 3.899
Arabinose 18.8458 1.1024 0.6365
Xylose 25.0507 2.081 1.2015
Galacturonic acid 22.2253 3.4797 2.009
Rhamnogalacturonan 19.2672 4.3781 2.5277
Pectin esterified 20.0508 1.602 0.9249
Polygalacturonic acid 20.4013 1.4128 0.8157
Sodium acetate 25.9433 2.8517 1.6464
No nitrogen 19.06 1.65 0.9526
BSA 20.7569 1.5478 0.8936
Glutamine 19.7003 4.0489 2.3376
No phosphate 13.1779 1.1553 0.667
No carbon 22.3955 1.6092 1.1379
No sulphur 11.5218 3.8264 2.2092
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 14.4926 2.4995 1.4431
Amylose 16.1154 1.762 1.0173
Fucose 13.551 1.5867 0.9161
Galactose 11.0763 3.0154 1.7409
Lactose 9.8014 3.007 1.7361
Maltose 10.9073 3.2071 1.8516
Mannitol 8.7309 1.8042 1.0416
Rhamnose 10.1435 1.7003 0.9817
Sorbitol 12.2409 0.9813 0.5665
Trehalose 11.1196 2.1996 1.2699
Glycerol 12.2158 3.1463 1.8165
Glucuronic acid 14.074 4.968 2.8683
Arabinan 13.3516 2.4485 1.4136
Galactan 16.4569 1.1012 0.6358
Galactomannan 22.6947 4.9811 2.8758
Glucan 11.5004 1.6173 0.9337
Xylan 20.8699 6.2149 3.5882
Xyloglucan 20.0472 1.9388 1.1194
Arabinogalactan 16.0386 1.6526 0.9541
Pectin 9.4754 2.182 1.2598
Rhamnogalacturonan 6.9483 1.1426 0.6597
Polygalacturonic acid 11.4178 3.0284 1.7485
Mannan 14.2349 0.4255 0.2456
Amylopectin 11.3427 1.1849 0.6841
Inulin 15.2819 1.9425 1.1215
BSA 13.6943 1.3472 0.7778
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 4.8238 0.3997 0.2307
2h WAT 5.6715 0.8185 0.4725
4h WAT 5.564 1.4367 0.8295
8h WAT 4.3931 1.9578 1.1304
16h WAT 4.4511 1.2864 0.7427
24h WAT 5.1979 0.3603 0.208
WAT hyphal knot -30h 9.1454 1.0468 0.6044
WAT hyphal knot -22h 11.532 1.8064 1.0429
WAT hyphal knot -15h 8.6426 0.2197 0.1268
WAT hyphal knot -7.5h 5.7055 0.4892 0.2825
WAT hyphal knot 5.3491 2.8234 1.6301
WAT hyphal knot +7.5h 4.0433 2.1028 1.214
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 9.4387 4.6313 2.6739
Straw 3h 15.5946 2.1237 1.2261
Straw 6h 15.3854 8.5547 4.9391
Straw 12h 20.6715 3.4243 1.977
Straw 24h 18.5486 10.4875 6.055
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 2.7063 0.6276 0.3623
Frost (-20C, 30min) 2.8254 0.5546 0.3202
Heat shock (47C, 2h) 2.4336 1.2556 0.7249
High CO2 1.3944 0.9912 0.5723
Drought (4% agar, 12h) 3.0064 0.1625 0.0938
Oxidative (1mM H2O2, 3h) 2.0749 0.6717 0.3878
Acidic (pH4, 3h) 2.7388 0.267 0.1542
Alkaline (pH9, 3h) 3.2732 1.7392 1.0041
Osmotic (sorbitol 2h) 2.0268 0.3447 0.199
CongoRed (3h) 2.0858 0.4708 0.2718
Cobalt chloride control 1.0316 0.2991 0.1727
Cobalt chloride 2mM 0.9205 0.4536 0.2619
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 2.3092 2.5972 1.4995
Cold stimulation 4.5525 2.2383 1.2923
Scratched surface 9.6949 1.0613 0.6127
Ca2+, 200mM, 24h 1.4154 0.7402 0.4273
Cu2+, 2mM, 6h 3.1422 0.8779 0.5068
Voriconazole 1.8663 1.2488 0.721
Trichoderma interaction, early 6.6513 0.143 0.0826
Trichoderma interaction 60h 4.7709 0.9854 0.5689
Cobalt chloride 2mM repeat 12.5872 2.4987 1.4426
Hypoxia 3.1035 1.7004 0.9817
Hypoxia control 2.654 1.3476 0.778
Protoplastation control 2.666 1.1475 0.8114
Protoplastation 3.5h 0.7806 0.8152 0.5764
Protoplastation 1.5h 2.3042 3.2586 2.3042

General data

Systematic name -
Protein id CopciAB_448707.T0
Description other FunK1 protein kinase

Annotation summary

0 200 400 600 767

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 221 658

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
S other FunK1 protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_448707 across fungi.

Arrow shows the origin of gene family containing CopciAB_448707.

Protein

Sequence id CopciAB_448707.T0
Sequence >CopciAB_448707.T0
MSDSEDEIVQSTLSSPANSDGNLSHSNVDYEDYDSNADSLPWVEFGRPMPEETERMKYRDRVHEQIGVEMIGEIF
VCPVDPFLDHYLPPLPGSVDVAAVVEELAKANLLIKDHTTQSYRFAGFEEGFGAEDDDADEVEREEVCFTFSPLT
AIGDAIRAILKGMGVRINPFRLALCLNPWLKGGHLPLDAMACKVDGCITSASLDFDGAVVQPAGELCPTDLVVPI
ALKACRHDYTTNNLQIVVSANHIFNEDARRRFSYGISIEGEYASIWYFSRSHSMKADSFNFIEEPELLVKVLASL
FCATEEQLGFDSHITLIPGRDPRTYLYELPADGVTRLESQFFKTTQIIHEPWSNRIAGRITRVWKVVQVKSKDDL
DAIDPKAAPLALKDAWIKASADDEYQIQQNVFRDIDTFYADDGWRSHPLLSDIASDDVEDIKDVLENYKNFFSVI
RLHHSSEPNKPISSEGCWTEENLFFPSWTRSSPFQSRDTSWQLEREIRAFESKRRCFFVYEHVCTRISDLPTLGD
AMDVLFQAYAVLMVMFCAGWVHRDISHGNILAFKEEGVWQVKLSDLEYAKRFPPDSAQTSSAPKTGTPFFMAHEI
LTSSSLSGFYHQNLAVPKRTSRRAARRGGAVESSPPVIIVHNYQHDLESLWWMALWLVTMRIDYEESYDAVQSIF
SGSTPISTERRNCFTLGITSDIKDEFHPSTRNFVPSLEIVRRTFIAGYKTRHPKDVCKREQYSLVCAGFFNFFGE
IEEDRDVWGPLPLSNPT
Length 767

Coding

Sequence id CopciAB_448707.T0
Sequence >CopciAB_448707.T0
ATGTCGGACAGCGAGGATGAAATTGTCCAATCCACTCTGTCTTCCCCAGCCAACAGCGACGGGAATTTATCACAT
TCAAATGTCGACTATGAGGACTATGACTCGAACGCCGACTCCCTCCCTTGGGTAGAATTTGGGCGTCCCATGCCG
GAGGAGACAGAGCGAATGAAATACCGAGATAGAGTCCACGAGCAAATTGGAGTGGAGATGATAGGCGAAATATTC
GTCTGCCCCGTTGATCCATTCCTTGACCATTACCTCCCACCCCTGCCCGGTTCTGTGGACGTGGCTGCTGTGGTG
GAGGAGCTGGCGAAGGCGAATCTCCTCATTAAGGATCACACTACGCAGTCCTACCGCTTTGCAGGGTTTGAAGAG
GGTTTCGGTGCGGAAGATGATGACGCCGACGAGGTTGAACGAGAGGAAGTGTGTTTCACTTTCTCCCCGTTGACG
GCCATCGGCGATGCCATCCGTGCAATCCTGAAGGGTATGGGAGTCAGGATCAACCCATTCCGCCTTGCCCTGTGC
CTCAATCCGTGGCTTAAGGGCGGACACTTGCCTTTGGATGCTATGGCATGCAAGGTTGACGGGTGCATAACCTCC
GCGAGCTTGGATTTCGATGGAGCTGTTGTACAGCCTGCCGGAGAGCTCTGTCCTACGGATTTAGTCGTTCCTATC
GCGCTCAAGGCGTGTCGTCATGATTACACTACTAATAACCTCCAGATTGTTGTATCTGCTAACCATATCTTTAAT
GAAGATGCTCGACGAAGATTCAGTTACGGCATCTCCATTGAGGGCGAATACGCCTCCATTTGGTACTTTTCTCGT
TCACATTCTATGAAAGCTGATAGCTTCAACTTTATCGAGGAGCCGGAATTGCTGGTCAAAGTTCTAGCATCACTC
TTCTGTGCCACGGAGGAGCAGCTCGGATTCGATTCACACATCACGCTCATTCCAGGTCGCGACCCCAGGACGTAC
CTATACGAACTACCCGCCGACGGGGTCACGAGGCTCGAATCGCAATTCTTCAAGACGACACAGATAATCCACGAG
CCCTGGTCCAACCGAATAGCGGGGCGCATCACTCGAGTGTGGAAGGTCGTTCAGGTCAAATCGAAGGACGATTTG
GACGCCATCGACCCGAAAGCAGCTCCCTTGGCACTGAAGGACGCCTGGATTAAGGCCAGTGCCGACGATGAGTAC
CAAATCCAGCAGAACGTTTTCCGCGACATCGACACGTTTTACGCTGACGACGGTTGGCGTTCCCATCCCCTGCTG
TCTGACATTGCGAGTGACGACGTGGAAGATATCAAAGACGTACTCGAAAACTATAAGAATTTCTTCTCTGTTATA
CGACTTCACCACTCGAGTGAACCGAATAAGCCAATCTCATCGGAGGGGTGTTGGACCGAAGAGAATCTCTTCTTT
CCTTCATGGACGCGGAGCAGCCCGTTCCAATCCCGAGATACATCCTGGCAATTGGAACGAGAGATTCGGGCATTT
GAGAGCAAGCGACGGTGCTTCTTTGTGTATGAGCACGTCTGCACACGGATAAGCGATCTTCCTACTTTAGGAGAT
GCGATGGACGTACTATTCCAAGCGTATGCTGTGCTAATGGTGATGTTCTGTGCTGGGTGGGTTCACCGGGACATA
AGCCACGGGAATATCTTGGCCTTCAAAGAGGAAGGGGTATGGCAAGTGAAACTCTCCGACCTCGAATATGCCAAG
CGATTCCCTCCGGACAGCGCGCAGACCAGCTCTGCCCCTAAGACGGGAACGCCTTTCTTCATGGCACACGAAATC
TTAACCTCCTCGTCACTCTCGGGGTTCTACCACCAAAATCTCGCCGTCCCGAAGCGCACATCCAGGCGCGCTGCC
AGGCGCGGTGGTGCGGTCGAATCCAGCCCCCCAGTCATCATCGTCCACAATTATCAGCACGATCTCGAATCGTTA
TGGTGGATGGCTCTCTGGCTTGTCACCATGCGAATCGACTACGAGGAGTCCTACGACGCTGTCCAGTCCATATTC
AGCGGCTCAACACCCATTTCTACGGAGCGTAGGAACTGCTTTACTCTAGGCATCACCTCAGATATTAAGGACGAG
TTCCATCCGTCCACTAGAAATTTCGTCCCCTCTCTCGAGATCGTCCGCCGTACCTTTATAGCTGGTTACAAGACT
CGCCATCCGAAGGACGTGTGCAAACGGGAGCAGTACAGCCTCGTCTGCGCTGGGTTTTTCAACTTCTTTGGTGAG
ATAGAGGAAGACCGAGATGTTTGGGGGCCGCTTCCCCTCTCGAATCCAACGTGA
Length 2304

Transcript

Sequence id CopciAB_448707.T0
Sequence >CopciAB_448707.T0
AGGTCTTAATTGCAACTGCCATGTCGGACAGCGAGGATGAAATTGTCCAATCCACTCTGTCTTCCCCAGCCAACA
GCGACGGGAATTTATCACATTCAAATGTCGACTATGAGGACTATGACTCGAACGCCGACTCCCTCCCTTGGGTAG
AATTTGGGCGTCCCATGCCGGAGGAGACAGAGCGAATGAAATACCGAGATAGAGTCCACGAGCAAATTGGAGTGG
AGATGATAGGCGAAATATTCGTCTGCCCCGTTGATCCATTCCTTGACCATTACCTCCCACCCCTGCCCGGTTCTG
TGGACGTGGCTGCTGTGGTGGAGGAGCTGGCGAAGGCGAATCTCCTCATTAAGGATCACACTACGCAGTCCTACC
GCTTTGCAGGGTTTGAAGAGGGTTTCGGTGCGGAAGATGATGACGCCGACGAGGTTGAACGAGAGGAAGTGTGTT
TCACTTTCTCCCCGTTGACGGCCATCGGCGATGCCATCCGTGCAATCCTGAAGGGTATGGGAGTCAGGATCAACC
CATTCCGCCTTGCCCTGTGCCTCAATCCGTGGCTTAAGGGCGGACACTTGCCTTTGGATGCTATGGCATGCAAGG
TTGACGGGTGCATAACCTCCGCGAGCTTGGATTTCGATGGAGCTGTTGTACAGCCTGCCGGAGAGCTCTGTCCTA
CGGATTTAGTCGTTCCTATCGCGCTCAAGGCGTGTCGTCATGATTACACTACTAATAACCTCCAGATTGTTGTAT
CTGCTAACCATATCTTTAATGAAGATGCTCGACGAAGATTCAGTTACGGCATCTCCATTGAGGGCGAATACGCCT
CCATTTGGTACTTTTCTCGTTCACATTCTATGAAAGCTGATAGCTTCAACTTTATCGAGGAGCCGGAATTGCTGG
TCAAAGTTCTAGCATCACTCTTCTGTGCCACGGAGGAGCAGCTCGGATTCGATTCACACATCACGCTCATTCCAG
GTCGCGACCCCAGGACGTACCTATACGAACTACCCGCCGACGGGGTCACGAGGCTCGAATCGCAATTCTTCAAGA
CGACACAGATAATCCACGAGCCCTGGTCCAACCGAATAGCGGGGCGCATCACTCGAGTGTGGAAGGTCGTTCAGG
TCAAATCGAAGGACGATTTGGACGCCATCGACCCGAAAGCAGCTCCCTTGGCACTGAAGGACGCCTGGATTAAGG
CCAGTGCCGACGATGAGTACCAAATCCAGCAGAACGTTTTCCGCGACATCGACACGTTTTACGCTGACGACGGTT
GGCGTTCCCATCCCCTGCTGTCTGACATTGCGAGTGACGACGTGGAAGATATCAAAGACGTACTCGAAAACTATA
AGAATTTCTTCTCTGTTATACGACTTCACCACTCGAGTGAACCGAATAAGCCAATCTCATCGGAGGGGTGTTGGA
CCGAAGAGAATCTCTTCTTTCCTTCATGGACGCGGAGCAGCCCGTTCCAATCCCGAGATACATCCTGGCAATTGG
AACGAGAGATTCGGGCATTTGAGAGCAAGCGACGGTGCTTCTTTGTGTATGAGCACGTCTGCACACGGATAAGCG
ATCTTCCTACTTTAGGAGATGCGATGGACGTACTATTCCAAGCGTATGCTGTGCTAATGGTGATGTTCTGTGCTG
GGTGGGTTCACCGGGACATAAGCCACGGGAATATCTTGGCCTTCAAAGAGGAAGGGGTATGGCAAGTGAAACTCT
CCGACCTCGAATATGCCAAGCGATTCCCTCCGGACAGCGCGCAGACCAGCTCTGCCCCTAAGACGGGAACGCCTT
TCTTCATGGCACACGAAATCTTAACCTCCTCGTCACTCTCGGGGTTCTACCACCAAAATCTCGCCGTCCCGAAGC
GCACATCCAGGCGCGCTGCCAGGCGCGGTGGTGCGGTCGAATCCAGCCCCCCAGTCATCATCGTCCACAATTATC
AGCACGATCTCGAATCGTTATGGTGGATGGCTCTCTGGCTTGTCACCATGCGAATCGACTACGAGGAGTCCTACG
ACGCTGTCCAGTCCATATTCAGCGGCTCAACACCCATTTCTACGGAGCGTAGGAACTGCTTTACTCTAGGCATCA
CCTCAGATATTAAGGACGAGTTCCATCCGTCCACTAGAAATTTCGTCCCCTCTCTCGAGATCGTCCGCCGTACCT
TTATAGCTGGTTACAAGACTCGCCATCCGAAGGACGTGTGCAAACGGGAGCAGTACAGCCTCGTCTGCGCTGGGT
TTTTCAACTTCTTTGGTGAGATAGAGGAAGACCGAGATGTTTGGGGGCCGCTTCCCCTCTCGAATCCAACGTGAT
TGACGGTTAATTGACCCCGACAAGGAGCAGGGCGAAGCCATCTTGTGTTCAGCCTGGGTTGGTTCCATCATCAAT
CCAGTGTTCTACGATTCAAGCCTCATCGATATCACTTTGCATAACCGTTCTGTATTTCTCGTCTTTATGTACCGT
ACAGGTGTTCTTTGCATTACTATACATAAGTGTAATCTGG
Length 2515

Gene

Sequence id CopciAB_448707.T0
Sequence >CopciAB_448707.T0
AGGTCTTAATTGCAACTGCCATGTCGGACAGCGAGGATGAAATTGTCCAATCCACTCTGTCTTCCCCAGCCAACA
GGTACGTGGTTTCTCCGCTTTCCAGGCTGGAACGCTAAGAATACGCCCTCACCCAACCTCGTTAGCGACGGGAAT
TTATCACATTCAAATGTCGACTATGAGGACTATGACTCGAACGCCGACTCCCTCCCTTGGGTAGAATTGTGGGTT
GTTCTACGATTCAATACTTCACTGTCAATTTAGTAACTGATTGACAATGTCACAGTGGGCGTCCCATGCCGGAGG
AGACAGAGCGAATGAAATACCGAGATAGAGTCCACGAGCAAATTGGAGTGGAGATGATAGGCGAAATATTCGTCT
GCCCCGTTGATCCATTCCTTGACCATTACCTCCCACCCCTGCCCGGTTCTGTGGACGTGGCTGCTGTGGTGGAGG
AGCTGGCGAAGGCGAATCTCCTCATTAAGGATCACACTACGCAGTCCTACCGCTTTGCAGGGTTTGAAGAGGGTT
TCGGTGCGGAAGATGATGACGCCGACGAGGTTGAACGAGAGGAAGTGTGTTTCACTTTCTCCCCGTTGACGGCCA
TCGGCGATGCCATCCGTGCAATCCTGAAGGGTATGGGAGTCAGGATCAACCCATTCCGCCTTGCCCTGTGCCTCA
ATCCGTGGCTTAAGGGCGGACACTTGCCTTTGGATGCTATGGCATGCAAGGTTGACGGGTGCATAACCTCCGCGA
GCTTGGATTTCGATGGAGCTGTTGTACAGCCTGCCGGAGAGCTCTGTCCTACGGATTTAGTCGTTCCTATCGCGC
TCAAGGCGTGTCGTCATGATTACACTACTGTGAGTTAATTACAATATTTCCCATTATCCAAGTTTCTCATGCGAT
ATTCTAGAATAACCTCCAGATTGTTGTATCTGCTAACCATATCTTTAATGAAGATGCTCGACGAAGATTCAGTTA
CGGCGTACGTTCGTCTAATACATCATCCCCGAATTTGCTCTGACATGCCGTAGATCTCCATTGAGGGCGAATACG
CCTCCATTTGGTACTTTTCTCGTTCACATTCTATGAAAGCTGATAGCTTCAACTTTATCGAGGTCAGTTTCAGTG
TACTGAAAATAAGAAACGTTCTGCTGATACTCAACGCACCATAGGAGCCGGAATTGCTGGTCAAAGTTCTAGCAT
CACTCTTCTGTGCCACGGAGGAGCAGCTCGGATTCGATTCACACATCACGCTCATTCCAGGTCGCGACCCCAGGA
CGTACCTATACGAACTACCCGCCGACGGGGTCACGAGGCTCGAATCGCAATTCTTCAAGACGACACAGATAATCC
ACGAGCCCTGGTCCAACCGAATAGCGGGGCGCATCACTCGAGTGTGGAAGGTCGTTCAGGTCAAATCGAAGGACG
ATTTGGACGCCATCGACCCGAAAGCAGCTCCCTTGGCACTGAAGGACGCCTGGATTAAGGCCAGTGCCGACGATG
AGTACCAAATCCAGCAGAACGTTTTCCGCGACATCGACACGTTTTACGCTGACGACGGTTGGCGTTCCCATCCCC
TGCTGTCTGACATTGCGAGTGACGACGTGGAAGATATCAAAGACGTACTCGAAAACTATAAGAATTTCTTCTCTG
TTATACGACTTCACCACTCGAGTGAACCGAATAAGCCAATCTCATCGGAGGGGTGTTGGACCGAAGAGAATCTCT
TCTTTCCTTCATGGACGCGGAGCAGCCCGTTCCAATCCCGAGATACATCCTGGCAATTGGAACGAGAGATTCGGG
CATTTGAGAGCAAGCGACGGTGCTTCTTTGTGTATGAGCACGTCTGCACACGGATAAGCGATCTTCCTACTTTAG
GAGATGCGATGGACGTACTATTCCAAGCGTATGCTGGTGAGCCATAATTGCATCTGGTTCTCTCTGGGACTAATG
TTTTGGTGCAGTGCTAATGGTGATGTTCTGTGCTGGGTGGGTTCACCGGGACATAAGCCACGGGAATATCTTGGC
CTTCAAAGAGGAAGGGGTATGGCAAGTGAAACTCTCCGACCTCGAATATGCCAAGCGATTCCCTCCGGACAGCGC
GCAGACCAGCTCTGCCCCTAAGACGGTATGACGTACTTTTTCCCCAGCGTTTCGCTTCATCCTGACATCCCTCCG
ATGCAGGGAACGCCTTTCTTCATGGCACACGAAATCTTAACCTCCTCGTCACTCTCGGGGTTCTACCACCAAAAT
CTCGCCGTCCCGAAGCGCACATCCAGGCGCGCTGCCAGGCGCGGTGGTGCGGTCGAATCCAGCCCCCCAGTCATC
ATCGTCCACAATTATCAGCACGATCTCGAATCGTTATGGTGGATGGCTCTCTGGCTTGTCACCATGCGAATCGAC
TACGAGGAGTCCTACGACGCTGTCCAGTCCATATTCAGCGGCTCAACACCCATTTCTACGGAGCGTAGGAACTGC
TTTACTCTAGGCATCACCTCAGATATTAAGGACGAGTTCCATCCGTCCACTAGAAATTTCGTCCCCTCTCTCGAG
ATCGTCCGCCGTACCTTTATAGCTGGTTACAAGACTCGCCATCCGAAGGACGTGTGCAAACGGGAGCAGTACAGC
CTCGTCTGCGCTGGGTTTTTCAACTTCTTTGGTGAGATAGAGGAAGACCGAGATGTTTGGGGGCCGCTTCCCCTC
TCGAATCCAACGTGATTGACGGTTAATTGACCCCGACAAGGAGCAGGGCGAAGCCATCTTGTGTTCAGCCTGGGT
TGGTTCCATCATCAATCCAGTGTTCTACGATTCAAGCCTCATCGATATCACTTTGCATAACCGTTCTGTATTTCT
CGTCTTTATGTACCGTACAGGTGTTCTTTGCATTACTATACATAAGTGTAATCTGG
Length 2906