CopciAB_446922
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_446922 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 446922
Uniprot id Functional description
Location scaffold_10:1727406..1730364 Strand -
Gene length (nt) 2959 Transcript length (nt) 2686
CDS length (nt) 2325 Protein length (aa) 774

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 14.5883 0.8888 0.5132
oidia 19.9984 1.8647 1.0766
vegetative_mycelium 17.2167 3.8425 2.2185
primordia 30.0625 0.7421 0.4285
hyphal_knot 20.0974 3.8308 2.2117
young_fruiting_body 4.9063 0.4545 0.2624
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 9.9058 1.1247 0.6494
Wheat bran 14.7383 1.5018 0.8671
Horse manure 19.3686 1.8521 1.0693
Oak leaves 21.1658 4.6222 2.6686
Hay 14.8613 2.5335 1.4627
Corn stalk 17.0617 3.2772 1.8921
Pectine 23.7087 2.2417 1.2942
Microcrystalline cellulose 21.5867 2.2663 1.3085
Xylose 6.6951 2.0495 1.1833
Cellobiose 7.2834 1.4475 0.8357
Lignin 11.8213 2.1004 1.2127
Apple peels 15.0564 2.4295 1.4027
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 17.398 3.1438 1.8151
Bsubtilis 15.63 2.7429 1.5836
Ecoli 12.1027 2.4347 1.4057
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 2.2154 0.37 0.2136
BS 4h 2.1482 0.7221 0.4169
BS 8h 0.8688 0.3312 0.1912
BS 12h 0.3769 0.5207 0.3006
Oidia 0 h 0.6711 0.0904 0.0522
Oidia 18 h 0.5982 0.1591 0.0918
Sclerotia 4.4751 1.5327 0.8849
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 5.9582 1.2992 0.7501
DM 36h 5.0094 0.6566 0.3791
DM 60h 5.1392 1.3658 0.7886
DM 84h 4.7632 0.5173 0.2987
DM 108h 4.4466 0.5001 0.2887
DM 132h 5.2554 2.0383 1.1768
DM 156hAE 5.7411 1.712 0.9884
ELI1hAE 7.832 1.1276 0.651
ELI2hAE 7.8489 1.3644 0.7877
LI2hAE 7.9546 1.1656 0.673
LI6hAE 6.08 1.7511 1.011
LI12hAE 8.0688 1.2357 0.7134
LI18hAE 5.6198 0.3973 0.2294
LI 24hAE 4.2628 0.6922 0.3996
DM 156hAM 3.8091 0.8325 0.4807
ELI1hAM 5.0752 1.3797 0.7966
ELI2hAM 5.2007 1.1206 0.647
LI2hAM 6.5094 0.5484 0.3166
LI6hAM 4.8989 0.4904 0.2831
LI12hAM 6.071 3.9996 2.3092
LI18hAM 5.2527 3.0816 1.7792
LI 24hAM 3.3818 0.979 0.5652
LI 24hHK 3.2468 0.4085 0.2358
L/D 6h 5.6376 0.7196 0.4155
L/D 12h 7.2496 1.4406 0.8317
L/D 18h 8.6187 1.7515 1.0112
L/D 24h 8.7806 1.119 0.646
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 7.9486 2.1875 1.263
Hyphal knots 10.9477 0.7645 0.4414
Primordium 1 15.2531 1.6643 0.9609
Primordium 2 12.1369 0.1522 0.0879
Young Fruiting body cap 6.7629 3.402 1.9641
Younf fruiting body gill 16.2159 8.243 4.7591
Young fruiting body stipe 10.0114 0.8845 0.5107
Mature fruiting body cap_gill 3.8846 1.9326 1.1158
Mature fruiting body stipe 7.8565 0.9272 0.5353
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 7.7973 1.1517 0.6649
NH4NO3 17.1623 4.3503 2.5116
Proline 9.7164 0.9448 0.5455
Tryptophan 11.0429 6.9953 4.0387
Isoleucin 11.762 4.5006 2.5984
Arginine 8.3066 1.2225 0.7058
Metionine 4.1673 0.7964 0.4598
NaNO3 4.9241 0.4711 0.272
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 7.7973 1.1517 0.6649
Citrus peel 6.4866 1.9008 1.0974
Poplar leaves 11.4608 1.8471 1.0664
Typha leaves 10.86 2.3459 1.3544
Overwintered Salix leaves 11.4949 1.9634 1.1336
Reed flowering 8.6196 3.0459 1.7585
Tigernut 7.4076 0.708 0.4088
Energy cane 10.3826 1.3082 0.7553
Guar gum 9.4334 3.5512 2.0503
Apple peels 12.4039 0.8924 0.5152
Cellobiose 14.8072 2.5275 1.4592
Corn stalk 12.2201 2.2983 1.3269
Horse manure 12.7619 6.5008 3.7532
Lignin 5.9229 1.5893 0.9176
Microcrystalline cellulose 11.4825 4.5354 2.6185
Oak leaves 15.2379 1.8901 1.0912
Pectin esterified 12.6641 0.328 0.1894
Poplar sawdust 15.8136 1.5326 0.8848
Wheat bran 14.3202 3.1186 1.8005
Chlamydomonas reinhardtii 10.5546 2.124 1.2263
Vertatryl alcohol 7.5257 0.2127 0.1228
Furfural 4.9103 1.5693 0.906
Autoclaved mycelium 9.0566 1.2717 0.7342
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 21.9745 3.7597 2.1706
Ribose 23.4784 1.7251 0.996
Mannose 18.9118 1.2606 0.8914
Fructose 24.5595 1.8807 1.0858
Arabinose 22.6399 2.4245 1.3998
Xylose 24.8767 1.3273 0.7663
Galacturonic acid 26.1492 0.5488 0.3168
Rhamnogalacturonan 25.5708 2.5465 1.4702
Pectin esterified 24.6632 3.0938 1.7862
Polygalacturonic acid 27.1494 2.6336 1.5205
Sodium acetate 22.455 1.1819 0.6824
No nitrogen 21.998 2.1004 1.2127
BSA 26.8685 1.3251 0.765
Glutamine 26.3515 0.3305 0.1908
No phosphate 19.4065 0.5826 0.3363
No carbon 20.4806 3.823 2.7032
No sulphur 19.9817 2.0467 1.1817
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 7.7973 1.1517 0.6649
Amylose 12.5998 1.3346 0.7705
Fucose 11.0518 2.5144 1.4517
Galactose 10.7334 1.9163 1.1064
Lactose 14.6247 3.5547 2.0523
Maltose 15.6548 4.4407 2.5638
Mannitol 15.6032 3.1485 1.8178
Rhamnose 12.7189 3.143 1.8146
Sorbitol 14.0964 0.4297 0.2481
Trehalose 12.4902 4.4375 2.562
Glycerol 11.1194 3.1528 1.8203
Glucuronic acid 13.2535 0.3238 0.187
Arabinan 13.1731 2.8137 1.6245
Galactan 10.5931 0.9517 0.5495
Galactomannan 10.1213 0.8071 0.466
Glucan 9.6181 0.4581 0.2645
Xylan 15.011 4.5861 2.6478
Xyloglucan 13.516 1.4411 0.832
Arabinogalactan 13.3945 0.6246 0.3606
Pectin 4.0643 1.267 0.7315
Rhamnogalacturonan 3.9044 1.8048 1.042
Polygalacturonic acid 11.8039 3.9335 2.271
Mannan 12.2324 1.0841 0.6259
Amylopectin 9.9771 1.6576 0.957
Inulin 10.3262 1.6619 0.9595
BSA 4.0242 0.9866 0.5696
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 5.1392 1.3658 0.7886
2h WAT 6.19 0.8077 0.4663
4h WAT 6.0435 0.8472 0.4892
8h WAT 8.234 1.9708 1.1378
16h WAT 7.4551 2.0279 1.1708
24h WAT 7.425 0.4194 0.2422
WAT hyphal knot -30h 6.7894 0.6994 0.4038
WAT hyphal knot -22h 8.4862 0.4463 0.2577
WAT hyphal knot -15h 8.1659 2.3755 1.3715
WAT hyphal knot -7.5h 5.6006 1.1744 0.678
WAT hyphal knot 6.1739 2.4605 1.4206
WAT hyphal knot +7.5h 6.1692 1.4138 0.8163
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 10.6782 3.485 2.0121
Straw 3h 8.8345 3.4631 1.9994
Straw 6h 11.4228 6.4937 3.7492
Straw 12h 14.8418 2.5777 1.4882
Straw 24h 9.0615 3.9449 2.2776
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 2.3457 0.1362 0.0786
Frost (-20C, 30min) 2.9804 1.0794 0.6232
Heat shock (47C, 2h) 1.1978 0.3907 0.2256
High CO2 3.9345 0.8933 0.5158
Drought (4% agar, 12h) 2.9704 1.6153 0.9326
Oxidative (1mM H2O2, 3h) 1.4797 0.238 0.1374
Acidic (pH4, 3h) 3.0898 1.3475 0.778
Alkaline (pH9, 3h) 3.8767 0.2826 0.1632
Osmotic (sorbitol 2h) 1.413 0.6736 0.3889
CongoRed (3h) 2.1402 0.6453 0.3726
Cobalt chloride control 5.0271 0.3735 0.2157
Cobalt chloride 2mM 4.2358 0.1476 0.0852
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 4.4107 2.0391 1.1773
Cold stimulation 4.3316 1.3909 0.803
Scratched surface 6.6095 1.6838 0.9721
Ca2+, 200mM, 24h 3.5036 1.0071 0.5814
Cu2+, 2mM, 6h 0.9957 0.3674 0.2121
Voriconazole 3.6343 0.9431 0.5445
Trichoderma interaction, early 5.3285 0.2622 0.1514
Trichoderma interaction 60h 1.1781 2.0406 1.1781
Cobalt chloride 2mM repeat 8.9119 2.795 1.6137
Hypoxia 2.9576 1.4715 0.8496
Hypoxia control 5.4733 1.0503 0.6064
Protoplastation control 3.3202 1.3145 0.9295
Protoplastation 3.5h 0.5919 0.2596 0.1836
Protoplastation 1.5h 0.7968 0.2899 0.205

General data

Systematic name -
Protein id CopciAB_446922.T0
Description

Annotation summary

0 200 400 600 774

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 201 614

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_446922 across fungi.

Arrow shows the origin of gene family containing CopciAB_446922.

Protein

Sequence id CopciAB_446922.T0
Sequence >CopciAB_446922.T0
MWPGQNNVDNSDSDLCFARYITTPDVGLENRRRKMHLLNVKDHILECGTMESWFEACLSNPADERWGERSSLEVK
DRLGMTLPLVEVPGEGGDGFDGECVSRDSLNLAFSRVREAARETLSLDSDFLGETVAVDIFTPTRTTVNNMHGSN
LKPNGRIVVMPAVEPPELVLRRCPPPVANSGHVVPEIPPRLTDMVVASLLEHHPNVTDQWTVGLCLHDTIAQSRS
CFPQNCRRMLGSAAFVLYNDPRRTRLYGITIEKTVARFWHFDRGLVLISPVFDCRKKPEHFIRFSLYLMYASPVQ
LGYDPTVKMVNDGKEGIRMPDFIYRIGEGLYRTIGQPLSEEDAFFTISPGLRIWRVRACDEEGVVQEGADERMLR
DLWVPEGTLHEKDIQAQILQALPTDQAEEMGKLLLGILDEVTLQGETQTTLAKPPDATQFRLFLPNTDPIWEYPL
TSLGLQFRRTQLDSFTRYMNRIAPPKPRLYHRQTHRRVLLECCLPFYEVPSPRVAWQVSKEFVRGLDLFRRAGFI
HRNISGASCVLSFDRGAQRYQAKLGHLEYCARYQTAELHDHISEPGAFSAIEVLKRDWRGKGIDYDRLPPFHPHY
YHDLESFFWLLTWYITTYLPIGDGDNMDDIVSKIYLLEWKERVSDELFPVEYHLRPAHFRVDLGLNPVVMGRRLV
RDVGWPIDTVECLQKISALVGQFEDAYAALQQNPPGSGQVRWPEASFDDLLYGEFKKALDVVADCLATGGCVSMW
ELMKEGMAMWNHDEGEDQLEGNDH
Length 774

Coding

Sequence id CopciAB_446922.T0
Sequence >CopciAB_446922.T0
ATGTGGCCAGGACAAAACAATGTCGACAATTCGGATTCAGATCTCTGTTTCGCGAGATATATCACTACCCCCGAC
GTAGGCCTCGAGAATCGAAGAAGAAAGATGCATCTCCTCAATGTGAAGGATCATATCCTGGAGTGCGGCACGATG
GAGAGTTGGTTTGAAGCTTGTCTCTCGAATCCGGCGGATGAAAGGTGGGGTGAACGAAGTTCGTTGGAGGTTAAG
GATCGACTTGGGATGACGCTTCCTTTGGTTGAAGTTCCGGGAGAAGGAGGGGATGGGTTTGACGGGGAATGTGTT
AGTCGGGATTCACTCAACTTGGCGTTCTCGAGGGTCAGAGAAGCGGCACGCGAGACGCTCAGTCTCGATTCCGAC
TTCTTGGGGGAGACAGTTGCAGTCGACATATTCACTCCAACTCGGACGACGGTTAATAACATGCATGGATCCAAC
TTGAAGCCTAATGGGAGGATCGTTGTCATGCCTGCTGTTGAGCCTCCAGAGTTGGTGCTTCGCCGATGTCCCCCA
CCAGTGGCAAATTCAGGCCATGTAGTTCCTGAAATACCGCCCCGTCTAACCGACATGGTGGTCGCCTCGCTCCTC
GAACATCACCCCAATGTTACAGATCAATGGACTGTAGGACTTTGCTTGCATGACACGATTGCCCAGTCACGGTCA
TGTTTTCCACAGAACTGCCGCCGGATGCTGGGTAGTGCCGCTTTCGTCTTGTACAACGATCCCCGCCGCACTCGC
CTATACGGTATCACCATCGAAAAGACCGTAGCGCGTTTTTGGCATTTCGATCGTGGGCTGGTACTCATCAGCCCT
GTATTCGATTGCCGAAAGAAACCGGAGCATTTCATTAGATTCTCGCTGTACTTGATGTACGCGAGTCCTGTGCAG
CTTGGCTACGACCCCACCGTGAAGATGGTCAACGACGGGAAGGAAGGGATCCGGATGCCTGATTTCATCTACCGC
ATCGGGGAGGGACTGTATCGCACCATCGGACAGCCCTTGTCCGAGGAAGACGCGTTCTTCACCATTTCGCCAGGG
CTACGCATCTGGCGTGTTCGAGCATGTGATGAAGAGGGTGTCGTGCAAGAGGGGGCGGACGAAAGGATGTTGAGG
GACCTATGGGTGCCCGAAGGTACCCTCCACGAGAAGGATATCCAGGCCCAGATCCTCCAAGCTCTACCCACGGAC
CAGGCTGAGGAGATGGGGAAGCTACTCCTCGGTATATTGGACGAGGTTACCCTCCAAGGCGAAACGCAAACAACG
CTCGCCAAGCCGCCAGATGCAACCCAGTTTCGACTGTTCCTACCCAACACTGACCCCATTTGGGAGTACCCACTG
ACTTCACTAGGGCTACAGTTCAGGAGAACACAACTGGACTCGTTCACTAGGTATATGAACCGGATCGCACCTCCA
AAGCCCCGCCTGTACCATAGGCAGACTCACCGTCGGGTCCTACTTGAGTGTTGTCTCCCGTTTTACGAGGTTCCG
AGTCCCAGGGTCGCTTGGCAAGTCAGCAAAGAGTTTGTCAGAGGCTTGGACTTGTTCCGGCGTGCAGGATTCATA
CACCGTAATATCAGCGGCGCCAGCTGTGTGCTTTCATTCGACCGGGGCGCGCAAAGGTACCAAGCAAAATTGGGC
CATTTGGAGTATTGTGCGAGGTATCAGACGGCCGAACTTCACGATCATATATCCGAACCGGGGGCCTTCTCAGCC
ATCGAGGTCTTGAAACGGGACTGGCGAGGAAAGGGCATAGATTACGACAGACTTCCTCCGTTCCATCCGCACTAC
TATCACGACCTCGAGTCGTTCTTCTGGCTCCTAACCTGGTACATCACGACCTATCTTCCCATCGGCGACGGAGAC
AACATGGACGACATCGTCTCTAAAATCTACCTGCTGGAATGGAAGGAACGGGTTTCAGATGAGCTGTTCCCAGTG
GAATACCACCTCCGACCAGCTCACTTCAGAGTGGACCTCGGCCTAAATCCAGTTGTCATGGGCCGTCGTTTGGTT
CGTGACGTCGGATGGCCGATCGACACAGTCGAATGCCTCCAGAAAATCTCGGCTCTTGTGGGGCAGTTCGAAGAC
GCGTATGCAGCACTGCAACAGAACCCGCCGGGGAGTGGACAAGTCCGGTGGCCTGAGGCGAGTTTCGATGATTTG
CTGTATGGGGAGTTCAAGAAGGCTCTGGACGTCGTTGCGGATTGCCTTGCAACTGGGGGTTGTGTTTCAATGTGG
GAGTTGATGAAGGAGGGGATGGCGATGTGGAATCATGATGAAGGCGAGGATCAGTTGGAAGGAAACGATCACTAG
Length 2325

Transcript

Sequence id CopciAB_446922.T0
Sequence >CopciAB_446922.T0
GGCATTCTCAGGCTGAACGTGCCCCCACATAGTTATCCTCGGGGACCTCAGCTCTATCCCACTCGCTCGACCGGG
AAGGATGTGGCCAGGACAAAACAATGTCGACAATTCGGATTCAGATCTCTGTTTCGCGAGATATATCACTACCCC
CGACGTAGGCCTCGAGAATCGAAGAAGAAAGATGCATCTCCTCAATGTGAAGGATCATATCCTGGAGTGCGGCAC
GATGGAGAGTTGGTTTGAAGCTTGTCTCTCGAATCCGGCGGATGAAAGGTGGGGTGAACGAAGTTCGTTGGAGGT
TAAGGATCGACTTGGGATGACGCTTCCTTTGGTTGAAGTTCCGGGAGAAGGAGGGGATGGGTTTGACGGGGAATG
TGTTAGTCGGGATTCACTCAACTTGGCGTTCTCGAGGGTCAGAGAAGCGGCACGCGAGACGCTCAGTCTCGATTC
CGACTTCTTGGGGGAGACAGTTGCAGTCGACATATTCACTCCAACTCGGACGACGGTTAATAACATGCATGGATC
CAACTTGAAGCCTAATGGGAGGATCGTTGTCATGCCTGCTGTTGAGCCTCCAGAGTTGGTGCTTCGCCGATGTCC
CCCACCAGTGGCAAATTCAGGCCATGTAGTTCCTGAAATACCGCCCCGTCTAACCGACATGGTGGTCGCCTCGCT
CCTCGAACATCACCCCAATGTTACAGATCAATGGACTGTAGGACTTTGCTTGCATGACACGATTGCCCAGTCACG
GTCATGTTTTCCACAGAACTGCCGCCGGATGCTGGGTAGTGCCGCTTTCGTCTTGTACAACGATCCCCGCCGCAC
TCGCCTATACGGTATCACCATCGAAAAGACCGTAGCGCGTTTTTGGCATTTCGATCGTGGGCTGGTACTCATCAG
CCCTGTATTCGATTGCCGAAAGAAACCGGAGCATTTCATTAGATTCTCGCTGTACTTGATGTACGCGAGTCCTGT
GCAGCTTGGCTACGACCCCACCGTGAAGATGGTCAACGACGGGAAGGAAGGGATCCGGATGCCTGATTTCATCTA
CCGCATCGGGGAGGGACTGTATCGCACCATCGGACAGCCCTTGTCCGAGGAAGACGCGTTCTTCACCATTTCGCC
AGGGCTACGCATCTGGCGTGTTCGAGCATGTGATGAAGAGGGTGTCGTGCAAGAGGGGGCGGACGAAAGGATGTT
GAGGGACCTATGGGTGCCCGAAGGTACCCTCCACGAGAAGGATATCCAGGCCCAGATCCTCCAAGCTCTACCCAC
GGACCAGGCTGAGGAGATGGGGAAGCTACTCCTCGGTATATTGGACGAGGTTACCCTCCAAGGCGAAACGCAAAC
AACGCTCGCCAAGCCGCCAGATGCAACCCAGTTTCGACTGTTCCTACCCAACACTGACCCCATTTGGGAGTACCC
ACTGACTTCACTAGGGCTACAGTTCAGGAGAACACAACTGGACTCGTTCACTAGGTATATGAACCGGATCGCACC
TCCAAAGCCCCGCCTGTACCATAGGCAGACTCACCGTCGGGTCCTACTTGAGTGTTGTCTCCCGTTTTACGAGGT
TCCGAGTCCCAGGGTCGCTTGGCAAGTCAGCAAAGAGTTTGTCAGAGGCTTGGACTTGTTCCGGCGTGCAGGATT
CATACACCGTAATATCAGCGGCGCCAGCTGTGTGCTTTCATTCGACCGGGGCGCGCAAAGGTACCAAGCAAAATT
GGGCCATTTGGAGTATTGTGCGAGGTATCAGACGGCCGAACTTCACGATCATATATCCGAACCGGGGGCCTTCTC
AGCCATCGAGGTCTTGAAACGGGACTGGCGAGGAAAGGGCATAGATTACGACAGACTTCCTCCGTTCCATCCGCA
CTACTATCACGACCTCGAGTCGTTCTTCTGGCTCCTAACCTGGTACATCACGACCTATCTTCCCATCGGCGACGG
AGACAACATGGACGACATCGTCTCTAAAATCTACCTGCTGGAATGGAAGGAACGGGTTTCAGATGAGCTGTTCCC
AGTGGAATACCACCTCCGACCAGCTCACTTCAGAGTGGACCTCGGCCTAAATCCAGTTGTCATGGGCCGTCGTTT
GGTTCGTGACGTCGGATGGCCGATCGACACAGTCGAATGCCTCCAGAAAATCTCGGCTCTTGTGGGGCAGTTCGA
AGACGCGTATGCAGCACTGCAACAGAACCCGCCGGGGAGTGGACAAGTCCGGTGGCCTGAGGCGAGTTTCGATGA
TTTGCTGTATGGGGAGTTCAAGAAGGCTCTGGACGTCGTTGCGGATTGCCTTGCAACTGGGGGTTGTGTTTCAAT
GTGGGAGTTGATGAAGGAGGGGATGGCGATGTGGAATCATGATGAAGGCGAGGATCAGTTGGAAGGAAACGATCA
CTAGGGGGTGCAACGGAGGCAGGGTCTGGCCAGTGCAGAAGGGGGACAGTAGTTGCCTTATCCAAAAGCGACCGA
CGGTCTCCGCTGTATTCATTTTCTTTCTATCAGCTTCTTCCGTGGACTGTATGTTTATTCCTCGCCCACAGCTGC
ATTTCCTTCCTCATTATCTGAGTCCCCTCTGTGTCCGCTAGTGTAAACATGCATCAGGGCGGAGTCATATATATA
TTCCGCCGAGAAAATTCATAATTTTAAGCGCCCACCTATTTGTAGGGCGCTAAGTGTACAA
Length 2686

Gene

Sequence id CopciAB_446922.T0
Sequence >CopciAB_446922.T0
GGCATTCTCAGGCTGAACGTGCCCCCACATAGTTATCCTCGGGGACCTCAGCTCTATCCCACTCGCTCGACCGGG
AAGGATGTGGCCAGGACAAAACAATGTCGACAATTCGGTGAGCCGATTCATTTTTGGCAGAACTTCGAATGGACG
ATACCAATGAATATTGAATACTCACGTCCGATGGTGCATTCGTTGTTCAAGGATTCAGATCTCTGTTTCGCGAGA
TATATCACTACCCCCGACGTAGGCCTCGAGAATCGAAGAAGAAAGATGCATCTCCTCAATGTGAAGGATCATATC
CTGGAGTGCGGCACGATGGAGAGTTGGTTTGAAGCTTGTCTCTCGAATCCGGCGGATGAAAGGTGGGGTGAACGA
AGTTCGTTGGAGGTTAAGGATCGACTTGGGATGACGCTTCCTTTGGTTGAAGTTCCGGGAGAAGGAGGGGATGGG
TTTGACGGGGAATGTGTTAGTCGGGATTCACTCAACTTGGCGTTCTCGAGGGTCAGAGAAGCGGCACGCGAGACG
CTCAGTCTCGATTCCGACTTCTTGGGGGAGACAGTTGCAGTCGACATATTCACTCCAACTCGGACGACGGTTAAT
AACATGCATGGATCCAACTTGAAGCCTAATGGGAGGATCGTTGTCATGCCTGCTGTTGAGCCTCCAGAGTTGGTG
CTTCGCCGATGTCCCCCACCAGTGGCAAATTCAGGCCATGTAGTTCCTGAAATACCGCCCCGTCTAACCGACATG
GTGGTCGCCTCGCTCCTCGAACATCACCCCAATGTTACAGATCAATGGACTGTAGGACTTTGCTTGCATGACACG
ATTGCCCAGTCACGGTCATGTTTTCCACAGAACTGCCGCCGGATGCTGGGTAGTGCCGCTTTCGTCTTGTACAAC
GATCCCCGCCGCACTCGCCTATACGGTATCACCATCGAAAAGACCGTAGCGCGTTTTTGGCATTTCGATCGTGGG
CTGGTACTCATCAGCCCTGTATTCGATTGCCGAAAGGTGGGTGCCAGGTGTCTCGCCGTCGTGTTTCTCGAATCT
GACAACTCGACTCTCTCAAAGAAACCGGAGCATTTCATTAGATTCTCGCTGTACTTGATGTACGCGAGTCCTGTG
CAGCTTGGCTACGACCCCACCGTGAAGATGGTCAACGACGGGAAGGAAGGGATCCGGATGCCTGATTTCATCTAC
CGCATCGGGGAGGGACTGTATCGCACCATCGGACAGCCCTTGTCCGAGGAAGACGCGTTCTTCACCATTTCGCCA
GGGCTACGCATCTGGCGTGTTCGAGCATGTGATGAAGAGGGTGTCGTGCAAGAGGGGGCGGACGAAAGGATGTTG
AGGGACCTATGGGTGCCCGAAGGTACCCTCCACGAGAAGGATATCCAGGCCCAGATCCTCCAAGCTCTACCCACG
GACCAGGCTGAGGAGATGGGGAAGCTACTCCTCGGTATATTGGACGAGGTTACCCTCCAAGGCGAAACGCAAACA
ACGCTCGCCAAGCCGCCAGATGCAACCCAGTTTCGACTGTTCCTACCCAACACTGACCCCATTTGGGAGTACCCA
CTGACTTCACTAGGGCTACAGTTCAGGAGAACACAACTGGACTCGTTCACTAGGTATATGAACCGGATCGCACCT
CCAAAGCCCCGCCTGTACCATAGGCAGACTCACCGTCGGGTCCTACTTGAGTGTTGTCTCCCGTTTTACGAGGTT
CCGAGTCCCAGGGTCGCTTGGCAAGTCAGCAAAGAGTTTGTCAGAGGTGTGTCCAAGTTCCAAGGTTCTCTAAGT
CCAGTGGTCCACGGCAGCTGACAACACGGGCGAACCTACTAGGCTTGGACTTGTTCCGGCGTGCAGGATTCATAC
ACCGTAATATCAGCGGCGCCAGCTGTGTGCTTTCATTCGACCGGGGCGCGCAAAGGTACCAAGCAAAATTGGGCC
ATTTGGAGTATTGTGCGAGGTATCAGACGGCCGAACTTCACGATCATATATCCGTGAGTATTTACTCTTTATCTC
CTGCTTGCTAAATATAATCCTAACCGTCTAGGAACCGGGGGCCTTCTCAGCCATCGAGGTCTTGAAACGGGACTG
GCGAGGAAAGGGCATAGATTACGACAGACTTCCTCCGTTCCATCCGCACTACTATCACGACCTCGAGTCGTTCTT
CTGGCTCCTAACCTGGTACATCACGACCTATCTTCCCATCGGCGACGGAGACAACATGGACGACATCGTCTCTAA
AATCTACCTGCTGGAATGGAAGGAACGGGTTTCAGATGAGCTGTTCCCAGTGGAATACCACCTCCGACCAGCTCA
CTTCAGAGTGGACCTCGGCCTAAATCCAGTTGTCATGGGCCGTCGTTTGGTTCGTGACGTCGGATGGCCGATCGA
CACAGTCGAATGCCTCCAGAAAATCTCGGCTCTTGTGGGGCAGTTCGAAGACGCGTATGCAGCACTGCAACAGAA
CCCGCCGGGGAGTGGACAAGTCCGGTGGCCTGAGGCGAGTTTCGATGATTTGCTGTATGGGGAGTTCAAGAAGGC
TCTGGACGTCGTTGCGGATTGCCTTGCAACTGGGGGTTGTGTTTCAATGTGGGAGTTGATGAAGGAGGGGATGGC
GATGTGGAATCATGATGAAGGCGAGGATCAGTTGGAAGGAAACGATCACTAGGGGGTGCAACGGAGGCAGGGTCT
GGCCAGTGCAGAAGGGGGACAGTAGTTGCCTTATCCAAAAGCGACCGACGGTCTCCGCTGTATTCATTTTCTTTC
TATCAGCTTCTTCCGTGGACTGTATGTTTATTCCTCGCCCACAGCTGCATTTCCTTCCTCATTATCTGAGTCCCC
TCTGTGTCCGCTAGTGTAAACATGCATCAGGGCGGAGTCATATATATATTCCGCCGAGAAAATTCATAATTTTAA
GCGCCCACCTATTTGTAGGGCGCTAAGTGTACAA
Length 2959