CopciAB_444092
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_444092 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 444092
Uniprot id Functional description other FunK1 protein kinase
Location scaffold_6:2669114..2672553 Strand +
Gene length (nt) 3440 Transcript length (nt) 2944
CDS length (nt) 2658 Protein length (aa) 885

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Pleurotus eryngii ATCC 90797 Pleery1_1438822 27.4 4.708E-43 171
Pleurotus ostreatus PC15 PleosPC15_2_1104955 39.2 6.102E-9 59

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 202.6334 13.9678 8.0643
oidia 116.5533 2.8259 1.6315
vegetative_mycelium 128.7306 6.0016 3.465
primordia 75.7941 8.2087 4.7393
hyphal_knot 175.3591 10.0576 5.8068
young_fruiting_body 192.5713 9.6605 5.5775
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 210.6028 23.5532 13.5984
Wheat bran 172.7129 43.1074 24.8881
Horse manure 171.3252 46.1977 26.6723
Oak leaves 260.8447 64.3276 37.1396
Hay 155.3858 19.181 11.0742
Corn stalk 211.0502 32.5448 18.7898
Pectine 179.8307 10.9297 6.3102
Microcrystalline cellulose 194.9481 21.9768 12.6883
Xylose 190.1574 5.6062 3.2367
Cellobiose 257.8515 24.1142 13.9224
Lignin 194.7095 23.1361 13.3577
Apple peels 270.0622 20.4202 11.7896
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 185.8547 2.9377 1.6961
Bsubtilis 167.9195 1.3112 0.757
Ecoli 158.6193 3.1865 1.8397
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 22.5171 3.5576 2.054
BS 4h 18.8382 3.2073 1.8517
BS 8h 18.8633 2.183 1.2604
BS 12h 15.6649 1.6085 0.9287
Oidia 0 h 23.6905 7.781 4.4923
Oidia 18 h 39.3655 1.3767 0.7948
Sclerotia 27.7031 7.3447 4.2405
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 13.9179 2.31 1.3337
DM 36h 21.5854 1.1778 0.68
DM 60h 13.7451 1.3121 0.7576
DM 84h 15.3106 1.4254 0.823
DM 108h 16.8175 1.3636 0.7873
DM 132h 17.2924 2.5191 1.4544
DM 156hAE 22.8147 1.6383 0.9458
ELI1hAE 21.3935 2.8083 1.6214
ELI2hAE 18.4698 2.8187 1.6274
LI2hAE 19.4196 5.0853 2.936
LI6hAE 18.756 0.4385 0.2532
LI12hAE 22.4626 4.2372 2.4464
LI18hAE 22.4843 2.4942 1.44
LI 24hAE 19.471 3.891 2.2465
DM 156hAM 19.5475 1.8436 1.0644
ELI1hAM 13.4787 4.3976 2.539
ELI2hAM 15.7234 4.2531 2.4555
LI2hAM 16.9076 3.9388 2.2741
LI6hAM 17.1748 6.004 3.4664
LI12hAM 16.8019 3.1966 1.8456
LI18hAM 18.1945 2.7488 1.587
LI 24hAM 21.0957 2.9859 1.7239
LI 24hHK 11.1583 3.3906 1.9576
L/D 6h 37.4765 6.4418 3.7192
L/D 12h 44.3544 11.4441 6.6073
L/D 18h 35.3954 4.1197 2.3785
L/D 24h 19.9756 1.5235 0.8796
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 82.1157 14.9614 8.638
Hyphal knots 100.1485 29.6162 17.0989
Primordium 1 84.4718 14.567 8.4103
Primordium 2 94.1165 18.0429 10.4171
Young Fruiting body cap 151.0154 46.4393 26.8118
Younf fruiting body gill 77.8095 49.0843 28.3388
Young fruiting body stipe 154.5584 48.5515 28.0312
Mature fruiting body cap_gill 242.6323 76.1924 43.9897
Mature fruiting body stipe 211.0554 16.7799 9.6879
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 165.8359 14.2112 8.2048
NH4NO3 117.0514 10.8996 6.2929
Proline 126.6941 3.2649 1.885
Tryptophan 89.4112 26.0572 15.0441
Isoleucin 124.0595 7.8671 4.542
Arginine 118.7761 8.8956 5.1359
Metionine 124.9926 8.5277 4.9235
NaNO3 111.7865 3.0693 1.7721
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 165.8359 14.2112 8.2048
Citrus peel 136.0207 15.1179 8.7283
Poplar leaves 139.9877 8.5021 4.9087
Typha leaves 126.6205 2.0789 1.2003
Overwintered Salix leaves 132.7442 4.6543 2.6871
Reed flowering 147.4032 17.0899 9.8669
Tigernut 134.1523 9.0984 5.253
Energy cane 152.4945 11.7038 6.7572
Guar gum 152.3342 18.0735 10.4347
Apple peels 102.6264 21.8021 12.5874
Cellobiose 145.6248 9.9399 5.7388
Corn stalk 109.9902 9.7861 5.65
Horse manure 119.0695 11.2127 6.4737
Lignin 124.6545 61.9625 35.7741
Microcrystalline cellulose 115.9225 16.0505 9.2668
Oak leaves 114.0587 19.2537 11.1161
Pectin esterified 96.2585 11.7416 6.779
Poplar sawdust 127.6553 30.7075 17.729
Wheat bran 117.7697 24.0966 13.9122
Chlamydomonas reinhardtii 156.4639 9.3953 5.4244
Vertatryl alcohol 104.237 9.3541 5.4006
Furfural 111.9497 10.3261 5.9618
Autoclaved mycelium 159.5379 9.6978 5.5991
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 139.3419 5.3708 3.1008
Ribose 139.5626 12.2422 7.068
Mannose 139.3114 5.9864 4.233
Fructose 153.7288 11.3188 6.5349
Arabinose 151.4163 15.3591 8.8676
Xylose 134.3326 6.2471 3.6068
Galacturonic acid 150.2382 31.9165 18.427
Rhamnogalacturonan 148.4091 10.3062 5.9503
Pectin esterified 146.0489 17.0177 9.8252
Polygalacturonic acid 160.7618 11.1125 6.4158
Sodium acetate 135.6264 9.0921 5.2493
No nitrogen 165.5579 19.1261 11.0424
BSA 157.3568 10.8183 6.246
Glutamine 155.3704 8.1849 4.7255
No phosphate 156.7195 3.6004 2.0787
No carbon 154.9079 14.1133 9.9796
No sulphur 175.9008 18.0853 10.4416
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 165.8359 14.2112 8.2048
Amylose 165.2887 7.6997 4.4454
Fucose 145.4027 6.6636 3.8472
Galactose 160.9861 1.2254 0.7075
Lactose 165.1128 21.2535 12.2707
Maltose 177.3795 16.032 9.2561
Mannitol 196.3852 11.8602 6.8475
Rhamnose 184.4141 10.8029 6.2371
Sorbitol 174.9866 8.8247 5.095
Trehalose 156.9538 15.3967 8.8893
Glycerol 153.7157 42.4397 24.5026
Glucuronic acid 173.5661 11.1916 6.4614
Arabinan 138.4454 31.7294 18.319
Galactan 131.3225 10.2285 5.9054
Galactomannan 131.4651 20.1231 11.6181
Glucan 153.8079 24.2888 14.0232
Xylan 160.5185 11.0945 6.4054
Xyloglucan 148.0721 5.336 3.0807
Arabinogalactan 166.9052 11.3272 6.5397
Pectin 127.8207 35.1812 20.3119
Rhamnogalacturonan 130.4259 1.8809 1.086
Polygalacturonic acid 175.1255 18.6945 10.7933
Mannan 173.1166 6.45 3.7239
Amylopectin 122.9363 12.9957 7.5031
Inulin 125.9658 8.5066 4.9113
BSA 188.3843 16.125 9.3098
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 13.7451 1.3121 0.7576
2h WAT 12.8047 1.2634 0.7294
4h WAT 14.5992 0.4509 0.2603
8h WAT 12.8633 2.3497 1.3566
16h WAT 16.7696 2.4605 1.4206
24h WAT 20.8055 1.5913 0.9188
WAT hyphal knot -30h 20.5437 1.2485 0.7208
WAT hyphal knot -22h 20.0138 3.4889 2.0143
WAT hyphal knot -15h 24.9642 5.0594 2.9211
WAT hyphal knot -7.5h 24.8874 4.2456 2.4512
WAT hyphal knot 21.4184 4.4543 2.5717
WAT hyphal knot +7.5h 17.6761 5.7744 3.3339
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 117.1979 46.1648 26.6533
Straw 3h 108.3929 23.0643 13.3162
Straw 6h 81.0745 16.6911 9.6366
Straw 12h 125.1088 14.6311 8.4473
Straw 24h 91.7908 14.2359 8.2191
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 16.2294 5.2501 3.0312
Frost (-20C, 30min) 11.6474 0.808 0.4665
Heat shock (47C, 2h) 69.0197 6.2532 3.6103
High CO2 13.0314 4.8955 2.8264
Drought (4% agar, 12h) 9.7742 1.598 0.9226
Oxidative (1mM H2O2, 3h) 13.5764 2.4268 1.4011
Acidic (pH4, 3h) 14.0356 3.3977 1.9616
Alkaline (pH9, 3h) 14.9728 1.9354 1.1174
Osmotic (sorbitol 2h) 12.3298 3.0412 1.7558
CongoRed (3h) 12.0032 2.3502 1.3569
Cobalt chloride control 12.5344 1.8525 1.0696
Cobalt chloride 2mM 14.7522 0.5745 0.3317
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 10.6708 2.001 1.1553
Cold stimulation 9.9743 3.6431 2.1033
Scratched surface 16.328 0.8277 0.4779
Ca2+, 200mM, 24h 12.5935 1.183 0.683
Cu2+, 2mM, 6h 11.4757 2.7455 1.5851
Voriconazole 16.4954 1.1867 0.6851
Trichoderma interaction, early 10.4262 1.6107 0.9299
Trichoderma interaction 60h 13.7842 5.0652 2.9244
Cobalt chloride 2mM repeat 26.8288 4.33 2.4999
Hypoxia 15.0342 3.8886 2.2451
Hypoxia control 15.308 0.2106 0.1216
Protoplastation control 10.4229 0.2942 0.208
Protoplastation 3.5h 27.3973 8.3138 5.8788
Protoplastation 1.5h 22.0365 7.9393 5.614

General data

Systematic name -
Protein id CopciAB_444092.T0
Description other FunK1 protein kinase

Annotation summary

0 200 400 600 800 885

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 192 545

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
H other FunK1 protein kinase

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_444092 across fungi.

Arrow shows the origin of gene family containing CopciAB_444092.

Protein

Sequence id CopciAB_444092.T0
Sequence >CopciAB_444092.T0
MTTNSFVTTADMVEEAVSQDVEHHTWLCATEEFLEKFLGCQLGDEKVRAILKKLPPEVYTSKGGWQGLPAEAGGP
EKPYYKPLTLILNAIVEAARNLGFIGADAIQCRWLDRHSVAPKSNTMDASKIRPDILDAILGPDGPDVAKEFMKS
AYDAEREQLKAEEGEETDLNRATKRPRTDTEENTAPPPTAHIASWIRTLLPVEVKPKGGDVWDVVKQLCTYFRQI
LREQHDRRFVLGLIFLHRSLCLWYCDRSGILGTATLIDIDENPELLVRVIASFAMMTPERLGFDPNMKLSVEGHL
PSFSYNMSYVNIPKLRSQLHWRILISGQWYQTVEALSTARSEVMCGRAPVVWRAFRIDDPNRELVIIKQSWRPHM
GEKSEGEIYELLGDFGRGEPRVISEDVERSNTQLHFRGKIDRFEPDGTPAFDNHTKRQRPLPEPTDENCLVHRTF
NLKSLRKVPAKPHKFMERVQCRLVIPVNGLPLKMAVSSKDLLSALEGILEDYEYAYLMKGVCHRDLSIGNLVIQV
VSGKRRGRLIDFDHSKVLDSFVRERASSLREELSEELDEFHFLTAHKKCPKATDNLALLLLDLTRREGGKIRVMV
YNAVAAYCTLCSSLKPNRGSGPVAPSELLPWLDDDPVLPPRFEKRKVVHSFVTGTDAFISHRLLRDGAETHIAIH
DMESLLWVVLYIFLTREGFGGKPRPDPRDDISHMAAIRRYWLFEASKHEIKDIKSQLFSLAYGSDPQLFDTEIHP
FVHPSFKPLAPLVDDWWNILCKAFHPEDTDLLYKYYPVAAFRQSVRNLKDSLPASDPSAAEGLLDQQLKAMAKLH
ELAARLTRDVEVESSTTPPTASAQLPAAPLDQTPPAKKKGVEKWNVGQQSTDPLPTLEFS
Length 885

Coding

Sequence id CopciAB_444092.T0
Sequence >CopciAB_444092.T0
ATGACGACGAATAGCTTTGTGACTACAGCCGATATGGTCGAGGAGGCTGTTAGCCAGGACGTGGAGCACCACACC
TGGCTTTGCGCGACCGAGGAGTTTCTCGAGAAATTCCTTGGTTGCCAACTCGGCGACGAGAAGGTCCGTGCGATC
CTCAAAAAGTTACCTCCCGAGGTGTATACGAGTAAGGGTGGGTGGCAAGGCCTTCCTGCGGAGGCTGGCGGGCCA
GAGAAACCATACTACAAACCCCTGACCTTGATCCTCAATGCAATCGTGGAGGCTGCAAGGAACCTGGGCTTCATC
GGAGCAGATGCGATACAATGTCGCTGGCTGGACCGACACTCAGTGGCGCCCAAGTCCAACACCATGGACGCCAGC
AAGATTCGGCCAGACATCTTGGACGCTATCCTTGGTCCGGATGGACCGGATGTGGCAAAGGAGTTTATGAAGTCG
GCGTATGATGCGGAACGTGAACAACTGAAAGCGGAGGAGGGGGAAGAGACGGATCTAAACCGCGCAACCAAGCGA
CCCCGCACCGATACAGAGGAAAATACGGCACCGCCTCCAACAGCTCACATTGCCTCTTGGATCAGAACTCTCCTC
CCGGTCGAGGTGAAGCCGAAGGGCGGCGATGTTTGGGACGTCGTCAAGCAGCTATGCACCTACTTTCGCCAGATT
CTCCGCGAACAACACGACCGCCGCTTTGTGTTAGGGCTCATCTTCCTTCACCGCTCTCTATGCCTCTGGTACTGC
GATCGTTCAGGAATCCTCGGGACAGCGACGTTGATTGATATCGACGAGAATCCCGAATTACTCGTTCGCGTCATT
GCTAGTTTTGCAATGATGACTCCCGAACGACTTGGCTTCGATCCCAATATGAAGCTCTCGGTGGAGGGACACCTT
CCTTCCTTCAGCTACAATATGTCATACGTCAACATTCCCAAACTCAGATCGCAGTTACATTGGCGGATTTTGATT
TCGGGCCAATGGTACCAAACTGTTGAGGCTCTGAGCACTGCTCGCTCCGAGGTCATGTGTGGCCGGGCGCCGGTC
GTTTGGCGAGCATTCCGCATCGACGATCCCAATCGAGAGCTAGTTATTATCAAGCAAAGTTGGCGCCCACACATG
GGCGAAAAGAGCGAAGGCGAAATCTACGAGCTACTGGGGGACTTCGGCAGGGGCGAACCCAGAGTCATCTCCGAG
GATGTCGAAAGGTCCAACACACAGCTGCATTTTCGCGGAAAGATTGACAGATTCGAGCCGGATGGCACCCCCGCC
TTCGACAACCACACCAAACGGCAACGTCCCTTGCCTGAACCGACTGACGAGAATTGTCTGGTGCATCGGACCTTC
AATCTCAAGTCGTTAAGGAAGGTACCCGCCAAACCTCATAAGTTCATGGAACGCGTTCAGTGCCGGCTGGTTATC
CCTGTGAATGGTCTGCCCCTCAAAATGGCTGTGTCTTCGAAGGATCTATTGTCCGCATTGGAGGGCATTCTTGAA
GATTACGAGTACGCCTATCTCATGAAGGGCGTTTGCCATCGCGATTTGAGCATCGGCAATCTCGTTATTCAAGTT
GTATCTGGCAAGCGGCGAGGACGCCTGATTGATTTCGACCACTCTAAAGTCCTCGACAGCTTCGTGCGAGAGAGG
GCCTCGTCCCTTCGAGAGGAGCTGAGCGAGGAGCTGGATGAATTCCACTTCTTGACCGCCCATAAAAAGTGTCCG
AAAGCCACAGACAATCTTGCACTTCTCCTTCTCGACCTTACACGCCGCGAAGGGGGGAAGATTAGAGTTATGGTG
TACAACGCGGTAGCGGCGTACTGCACATTGTGTTCATCTCTCAAGCCGAACAGGGGTTCAGGGCCGGTGGCTCCA
TCAGAACTGCTTCCATGGTTAGACGACGACCCGGTACTTCCTCCTCGCTTTGAGAAACGAAAAGTAGTGCATAGT
TTCGTGACGGGAACTGATGCGTTCATTAGCCATCGACTTCTGCGTGATGGAGCCGAAACCCACATAGCTATCCAC
GACATGGAGTCACTCCTATGGGTCGTCTTGTACATCTTCCTTACCCGTGAGGGCTTTGGAGGTAAACCGCGACCT
GACCCTCGTGATGACATATCCCACATGGCGGCAATTCGACGGTATTGGCTCTTTGAGGCCTCCAAGCATGAAATC
AAGGACATCAAGTCCCAGTTGTTCTCGCTGGCTTACGGCAGTGACCCCCAACTCTTTGACACGGAAATCCACCCA
TTCGTCCACCCCAGTTTCAAACCCCTGGCCCCACTCGTTGATGATTGGTGGAACATCCTCTGCAAGGCCTTCCAT
CCGGAAGATACTGATCTCCTTTACAAGTATTACCCTGTCGCAGCCTTCCGTCAGTCGGTGCGGAACCTCAAGGAT
TCGCTTCCAGCCTCGGACCCTTCAGCTGCCGAAGGCCTCCTGGATCAGCAATTGAAGGCCATGGCTAAACTCCAT
GAACTTGCTGCTCGGCTCACCCGGGACGTAGAGGTCGAATCTTCTACCACTCCGCCTACTGCTAGTGCACAATTG
CCGGCAGCCCCTCTGGATCAGACTCCCCCTGCGAAGAAGAAAGGAGTCGAGAAGTGGAACGTAGGTCAGCAGAGC
ACCGATCCTCTACCTACCTTGGAATTCAGCTAG
Length 2658

Transcript

Sequence id CopciAB_444092.T0
Sequence >CopciAB_444092.T0
GTTTCTTCTCTGACGTTCAGCCCTTGAAATCGGGGGTCTCTTTTACCTATCGCAGGTTGATCGGTTGGACGAATC
TTCGTCTGTCCTTAACGGGAATAAGCCTCAAGAGTCAAGGCCACCTTATAGAGCTGGACTCTGGAATCGTTTCGA
GGTCTTCTCTTCCGACACACGGTCCACCGTAGCCCGTCTCTCTAAGGCTGACACTCTGCTCAAAAGCCAGATGAC
GACGAATAGCTTTGTGACTACAGCCGATATGGTCGAGGAGGCTGTTAGCCAGGACGTGGAGCACCACACCTGGCT
TTGCGCGACCGAGGAGTTTCTCGAGAAATTCCTTGGTTGCCAACTCGGCGACGAGAAGGTCCGTGCGATCCTCAA
AAAGTTACCTCCCGAGGTGTATACGAGTAAGGGTGGGTGGCAAGGCCTTCCTGCGGAGGCTGGCGGGCCAGAGAA
ACCATACTACAAACCCCTGACCTTGATCCTCAATGCAATCGTGGAGGCTGCAAGGAACCTGGGCTTCATCGGAGC
AGATGCGATACAATGTCGCTGGCTGGACCGACACTCAGTGGCGCCCAAGTCCAACACCATGGACGCCAGCAAGAT
TCGGCCAGACATCTTGGACGCTATCCTTGGTCCGGATGGACCGGATGTGGCAAAGGAGTTTATGAAGTCGGCGTA
TGATGCGGAACGTGAACAACTGAAAGCGGAGGAGGGGGAAGAGACGGATCTAAACCGCGCAACCAAGCGACCCCG
CACCGATACAGAGGAAAATACGGCACCGCCTCCAACAGCTCACATTGCCTCTTGGATCAGAACTCTCCTCCCGGT
CGAGGTGAAGCCGAAGGGCGGCGATGTTTGGGACGTCGTCAAGCAGCTATGCACCTACTTTCGCCAGATTCTCCG
CGAACAACACGACCGCCGCTTTGTGTTAGGGCTCATCTTCCTTCACCGCTCTCTATGCCTCTGGTACTGCGATCG
TTCAGGAATCCTCGGGACAGCGACGTTGATTGATATCGACGAGAATCCCGAATTACTCGTTCGCGTCATTGCTAG
TTTTGCAATGATGACTCCCGAACGACTTGGCTTCGATCCCAATATGAAGCTCTCGGTGGAGGGACACCTTCCTTC
CTTCAGCTACAATATGTCATACGTCAACATTCCCAAACTCAGATCGCAGTTACATTGGCGGATTTTGATTTCGGG
CCAATGGTACCAAACTGTTGAGGCTCTGAGCACTGCTCGCTCCGAGGTCATGTGTGGCCGGGCGCCGGTCGTTTG
GCGAGCATTCCGCATCGACGATCCCAATCGAGAGCTAGTTATTATCAAGCAAAGTTGGCGCCCACACATGGGCGA
AAAGAGCGAAGGCGAAATCTACGAGCTACTGGGGGACTTCGGCAGGGGCGAACCCAGAGTCATCTCCGAGGATGT
CGAAAGGTCCAACACACAGCTGCATTTTCGCGGAAAGATTGACAGATTCGAGCCGGATGGCACCCCCGCCTTCGA
CAACCACACCAAACGGCAACGTCCCTTGCCTGAACCGACTGACGAGAATTGTCTGGTGCATCGGACCTTCAATCT
CAAGTCGTTAAGGAAGGTACCCGCCAAACCTCATAAGTTCATGGAACGCGTTCAGTGCCGGCTGGTTATCCCTGT
GAATGGTCTGCCCCTCAAAATGGCTGTGTCTTCGAAGGATCTATTGTCCGCATTGGAGGGCATTCTTGAAGATTA
CGAGTACGCCTATCTCATGAAGGGCGTTTGCCATCGCGATTTGAGCATCGGCAATCTCGTTATTCAAGTTGTATC
TGGCAAGCGGCGAGGACGCCTGATTGATTTCGACCACTCTAAAGTCCTCGACAGCTTCGTGCGAGAGAGGGCCTC
GTCCCTTCGAGAGGAGCTGAGCGAGGAGCTGGATGAATTCCACTTCTTGACCGCCCATAAAAAGTGTCCGAAAGC
CACAGACAATCTTGCACTTCTCCTTCTCGACCTTACACGCCGCGAAGGGGGGAAGATTAGAGTTATGGTGTACAA
CGCGGTAGCGGCGTACTGCACATTGTGTTCATCTCTCAAGCCGAACAGGGGTTCAGGGCCGGTGGCTCCATCAGA
ACTGCTTCCATGGTTAGACGACGACCCGGTACTTCCTCCTCGCTTTGAGAAACGAAAAGTAGTGCATAGTTTCGT
GACGGGAACTGATGCGTTCATTAGCCATCGACTTCTGCGTGATGGAGCCGAAACCCACATAGCTATCCACGACAT
GGAGTCACTCCTATGGGTCGTCTTGTACATCTTCCTTACCCGTGAGGGCTTTGGAGGTAAACCGCGACCTGACCC
TCGTGATGACATATCCCACATGGCGGCAATTCGACGGTATTGGCTCTTTGAGGCCTCCAAGCATGAAATCAAGGA
CATCAAGTCCCAGTTGTTCTCGCTGGCTTACGGCAGTGACCCCCAACTCTTTGACACGGAAATCCACCCATTCGT
CCACCCCAGTTTCAAACCCCTGGCCCCACTCGTTGATGATTGGTGGAACATCCTCTGCAAGGCCTTCCATCCGGA
AGATACTGATCTCCTTTACAAGTATTACCCTGTCGCAGCCTTCCGTCAGTCGGTGCGGAACCTCAAGGATTCGCT
TCCAGCCTCGGACCCTTCAGCTGCCGAAGGCCTCCTGGATCAGCAATTGAAGGCCATGGCTAAACTCCATGAACT
TGCTGCTCGGCTCACCCGGGACGTAGAGGTCGAATCTTCTACCACTCCGCCTACTGCTAGTGCACAATTGCCGGC
AGCCCCTCTGGATCAGACTCCCCCTGCGAAGAAGAAAGGAGTCGAGAAGTGGAACGTAGGTCAGCAGAGCACCGA
TCCTCTACCTACCTTGGAATTCAGCTAGAAAAATATATTCTTCGATGTATTGATACAGTTCTATACACTCAACTC
GGCCTTGGGCCTTCGTTTC
Length 2944

Gene

Sequence id CopciAB_444092.T0
Sequence >CopciAB_444092.T0
GTTTCTTCTCTGACGTTCAGCCCTTGAAATCGGGGGTCTCTTTTACCTATCGCAGGTTGATCGGTTGGACGAATC
TTCGTCTGTCCTTAACGGGAATAAGCCTCAAGAGTCAAGGCCACCTTATAGAGCTGGACTCTGGAATCGTTTCGA
GGTGCGTCCACATCCCACATATGTCGAACTCTCAGAGTCACACTGCTTCCCAGGTCTTCTCTTCCGACACACGGT
CCACCGTAGCCCGTCTCTCTAAGGCTGACACTCTGCTCAAAAGCCAGATGACGACGAATAGCTTTGTGACTACAG
CCGATATGGTCGAGGAGGCTGTTAGCCAGGACGTGGAGCACCACACCTGGCTTTGCGCGACCGAGGAGTTTCTCG
AGAAATTCCTTGGTTGCCAACTCGGCGACGAGAAGGTCCGTGCGATCCTCAAAAAGTTACCTCCCGAGGTGTATA
CGAGTAAGGGTGGGTGGCAAGGCCTTCCTGCGGAGGCTGGCGGGCCAGAGAAACCATACTACAAACCCCTGACCT
TGATCCTCAATGCAATCGTGGAGGCTGCAAGGAACCTGGGCTTCATCGGAGCAGATGCGATACAATGTCGCTGGC
TGGACCGACACTCAGTGGCGCCCAAGTCCAACACCATGGACGCCAGCAAGATTCGGCCAGACATCTTGGACGCTA
TCCTTGGTCCGGATGGACCGGATGTGGCAAAGGAGTTTATGAAGGTTCGTTATTCTGGAATCTCGTATGTAGGCC
ACATTCTCACTCACGGTTTGCAGTCGGCGTATGATGCGGAACGTGAACAACTGAAAGCGGAGGAGGGGGAAGAGA
CGGATCTAAACCGCGCAACCAAGCGACCCCGCACCGATACAGAGGAAAATACGGTGAGACCTATACCCGTCCGCA
AACATCTAGGGCTAGGGCCCTCGCTGACTCCATTTGCGTTCGGTATAGGCACCGCCTCCAACAGCTCACATTGCC
TCTTGGATCAGAACTCTCCTCCCGGTCGAGGTGAAGCCGAAGGGCGGCGATGTTTGGGACGTCGTCAAGCAGCTA
TGCACCTACTTTCGCCAGATTCTCCGCGAACAACACGACCGCCGCTTTGTGTTAGGGCTCATCTTCCTTCACCGC
TCTCTATGCCTCTGGTACTGCGATCGTTCAGGAATCCTCGGGACAGCGACGTTGATTGATATCGACGAGGTGAGT
ATGGATTCTTTGTCGAGGTCTGGGTGCTAACCGTATGCATACTCAGAATCCCGAATTACTCGTTCGCGTCATTGC
TAGTTTTGCAATGATGACTCCCGAACGACTTGGCTTCGATCCCAATATGAAGCTCTCGGTGGAGGGACACCTTCC
TTCCTTCAGCTACAATATGTCATACGTCAACATTCCCAAACTCAGATCGCAGTTACATTGGCGGATTTTGATTTC
GGGCCAATGGTACCAAACTGTTGAGGCTCTGAGCACTGCTCGCTCCGAGGTCATGTGTGGCCGGGCGCCGGTCGT
TTGGCGAGCATTCCGCATCGACGATCCCAATCGAGAGGTGTGTTCCACAGGCTGTGGTATACGTCGCCGGATTGT
TGACTGTAGTTCAGCTAGTTATTATCAAGCAAAGTTGGCGCCCACACATGGGCGAAAAGAGCGAAGGCGAAATCT
ACGAGCTACTGGGGGACTTCGGCAGGGGCGAACCCAGAGTCATCTCCGAGGATGTCGAAAGGTCCAACACACAGC
TGCATTTTCGCGGAAAGATTGACAGATTCGAGCCGGATGGCACCCCCGCCTTCGACAACCACACCAAACGGCAAC
GTCCCTTGCCTGAACCGACTGACGAGAATTGTCTGGTGCATCGGACCTTCAATCTCAAGTCGTTAAGGAAGGTAC
CCGCCAAACCTCATAAGTTCATGGAACGCGTTCAGTGCCGGCTGGTTATCCCTGTGAATGGTCTGCCCCTCAAAA
TGGCTGTGTCTTCGAAGGATCTATTGTCCGCATTGGAGGGCATTCTTGAAGGTGAGCTTTCTCTATTCGCTCAAC
TATGGCCTCCTGAATCTCTGTCATAGATTACGAGTACGCCTATCTCATGAAGGGCGTTTGCCATCGCGATTTGAG
CATCGGCAATCTCGTTATTCAAGTTGTATCTGGCAAGCGGCGAGGACGCCTGATTGATTTCGACCACTCTAAAGT
CCTCGACAGCTTCGTGCGAGAGAGGGCCTCGTCCCTTCGAGAGGAGCTGAGCGAGGAGCTGGATGAATTCCACTT
CTTGACCGCCCATAAAAAGTGTCCGAAAGCCACAGACAATCTTGCACTTCTCCTTCTCGACCTTACACGCCGCGA
AGGGGGGAAGATTAGAGTTATGGTGTACAACGCGGTAGCGGCGTACTGCACATTGTGTTCATCTCTCAAGGTATG
TTTTGCTTGCTCCTCATACATACTTCGGATCCTGATCTGCTTTGGCAGCCGAACAGGGGTTCAGGGCCGGTGGCT
CCATCAGAACTGCTTCCATGGTTAGACGACGACGTGAGTGCCTTTAGGCTTGCTTCGTATTAGTGTGGCAAATGA
CACTCTTTTTTTCCAGCCGGTACTTCCTCCTCGCTTTGAGAAACGAAAAGTAGTGCATAGTTTCGTGACGGTAGC
TGCACGACTTCTACTTCCTTATCTTCGCAAACTCACCATGGTTTTCGCAGGGAACTGATGCGTTCATTAGCCATC
GACTTCTGCGTGATGGAGCCGAAACCCACATAGCTATCCACGACATGGAGTCACTCCTATGGGTCGTCTTGTACA
TCTTCCTTACCCGTGAGGGCTTTGGAGGTAAACCGCGACCTGACCCTCGTGATGACATATCCCACATGGCGGCAA
TTCGACGGTATTGGCTCTTTGAGGCCTCCAAGCATGAAATCAAGGACATCAAGTCCCAGTTGTTCTCGCTGGCTT
ACGGCAGTGACCCCCAACTCTTTGACACGGAAATCCACCCATTCGTCCACCCCAGTTTCAAACCCCTGGCCCCAC
TCGTTGATGATTGGTGGAACATCCTCTGCAAGGCCTTCCATCCGGAAGATACTGATCTCCTTTACAAGTATTACC
CTGTCGCAGCCTTCCGTCAGTCGGTGCGGAACCTCAAGGATTCGCTTCCAGCCTCGGACCCTTCAGCTGCCGAAG
GCCTCCTGGATCAGCAATTGAAGGCCATGGCTAAACTCCATGAACTTGCTGCTCGGCTCACCCGGGACGTAGAGG
TCGAATCTTCTACCACTCCGCCTACTGCTAGTGCACAATTGCCGGCAGCCCCTCTGGATCAGACTCCCCCTGCGA
AGAAGAAAGGAGTCGAGAAGTGGAACGTAGGTCAGCAGAGCACCGATCCTCTACCTACCTTGGAATTCAGCTAGA
AAAATATATTCTTCGATGTATTGATACAGTTCTATACACTCAACTCGGCCTTGGGCCTTCGTTTC
Length 3440