CopciAB_1000037
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_1000037 Strain
Standard name - Synonyms
Uniprot id Functional description Glycoside hydrolase family 55 protein
Location scaffold_1:261301..264991 Strand -
Gene length (nt) 3691 Transcript length (nt) 2664
CDS length (nt) 2451 Protein length (aa) 816

Reciprocal best hits in model fungi

Strain name Gene / Protein name

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_183321 64.7 0 1060
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_68739 64.3 0 1056
Pleurotus eryngii ATCC 90797 Pleery1_847712 64.1 0 1056
Pleurotus ostreatus PC9 PleosPC9_1_114098 63.3 0 1050
Pleurotus ostreatus PC15 PleosPC15_2_37178 63.2 0 1049
Flammulina velutipes Flave_chr09AA00239 57.3 6.808E-292 936

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 13.8614 4.3007 2.483
oidia 5.2676 1.0296 0.5945
vegetative_mycelium 5.4619 0.6887 0.3976
primordia 231.49 10.301 5.9473
hyphal_knot 14.081 1.5061 0.8696
young_fruiting_body 326.7045 70.7933 40.8725
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 8.7179 8.5128 4.9149
Wheat bran 5.2643 1.0122 0.5844
Horse manure 6.8704 1.2785 0.7382
Oak leaves 17.074 11.8129 6.8202
Hay 12.2767 2.2872 1.3205
Corn stalk 12.3336 5.3348 3.08
Pectine 2.1669 0.1191 0.0688
Microcrystalline cellulose 10.3763 1.6448 0.9496
Xylose 7.8016 2.8995 1.674
Cellobiose 20.5752 5.5116 3.1821
Lignin 264.1581 265.5527 153.3169
Apple peels 6.1382 0.7978 0.4606
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 3.3961 0.2423 0.1399
Bsubtilis 3.7855 0.6224 0.3593
Ecoli 2.0966 0.2267 0.1309
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 12.3126 2.1842 1.261
BS 4h 3.1617 0.5393 0.3113
BS 8h 1.2655 0.0543 0.0314
BS 12h 0.6384 0.2698 0.1558
Oidia 0 h 4.3414 1.525 0.8804
Oidia 18 h 0.7348 0.1868 0.1078
Sclerotia 0.4556 0.422 0.2436
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 2.5759 0.5111 0.2951
DM 36h 1.5056 0.4098 0.2366
DM 60h 1.3715 0.6763 0.3904
DM 84h 2.7314 1.0395 0.6001
DM 108h 1.5933 0.5182 0.2992
DM 132h 1.2754 0.3088 0.1783
DM 156hAE 1.7783 0.0613 0.0354
ELI1hAE 0.834 0.4205 0.2428
ELI2hAE 0.6939 0.2849 0.1645
LI2hAE 1.8416 1.4596 0.8427
LI6hAE 1.2885 0.6368 0.3676
LI12hAE 2.8865 1.253 0.7234
LI18hAE 2.7517 2.1338 1.232
LI 24hAE 3.2597 0.989 0.571
DM 156hAM 4.4681 2.4146 1.3941
ELI1hAM 2.3617 0.5316 0.3069
ELI2hAM 3.5159 1.9702 1.1375
LI2hAM 1.6103 0.3692 0.2132
LI6hAM 1.8142 0.6191 0.3574
LI12hAM 1.1134 1.4035 0.8103
LI18hAM 2.6126 2.0034 1.1567
LI 24hAM 12.9495 8.4127 4.8571
LI 24hHK 5.7259 2.2947 1.3249
L/D 6h 10.5469 2.1393 1.2351
L/D 12h 12.5025 4.1093 2.3725
L/D 18h 18.3055 8.729 5.0397
L/D 24h 15.0844 2.1502 1.2414
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 14.937 4.421 2.5525
Hyphal knots 23.8802 7.4183 4.2829
Primordium 1 90.733 12.5803 7.2633
Primordium 2 88.3266 10.5181 6.0727
Young Fruiting body cap 1094.0255 105.285 60.7863
Younf fruiting body gill 42.2639 23.489 13.5614
Young fruiting body stipe 1340.0073 333.1095 192.3209
Mature fruiting body cap_gill 859.2427 453.5023 261.8297
Mature fruiting body stipe 52.1023 10.7402 6.2008
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 7.5279 1.4634 0.8449
NH4NO3 6.8661 2.2187 1.281
Proline 4.3383 1.7116 0.9882
Tryptophan 3.4565 1.112 0.642
Isoleucin 3.3177 0.9194 0.5308
Arginine 6.6189 2.1368 1.2337
Metionine 5.9947 1.2481 0.7206
NaNO3 7.1689 1.201 0.6934
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 7.5279 1.4634 0.8449
Citrus peel 8.6941 2.3304 1.3454
Poplar leaves 25.9387 6.0066 3.4679
Typha leaves 17.5012 8.4869 4.8999
Overwintered Salix leaves 12.1844 3.2424 1.872
Reed flowering 11.8421 2.1802 1.2587
Tigernut 5.983 0.7576 0.4374
Energy cane 10.8462 3.2997 1.9051
Guar gum 19.4809 7.2722 4.1986
Apple peels 5.2442 0.5619 0.3244
Cellobiose 3.3593 1.2644 0.73
Corn stalk 9.2883 2.283 1.3181
Horse manure 11.7791 1.7558 1.0137
Lignin 7.1228 6.1946 3.5764
Microcrystalline cellulose 4.5539 1.4554 0.8403
Oak leaves 26.6577 7.8593 4.5376
Pectin esterified 11.2024 2.5203 1.4551
Poplar sawdust 13.2589 3.1051 1.7928
Wheat bran 7.001 0.9867 0.5697
Chlamydomonas reinhardtii 11.132 2.4364 1.4067
Vertatryl alcohol 3.2103 0.2106 0.1216
Furfural 7.7449 2.1288 1.229
Autoclaved mycelium 5.2664 1.8705 1.0799
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 3.2999 0.8887 0.5131
Ribose 43.2169 6.5146 3.7612
Mannose 5.3973 0.1862 0.1317
Fructose 14.8883 11.5094 6.645
Arabinose 55.5692 33.3481 19.2535
Xylose 12.9637 10.3825 5.9943
Galacturonic acid 35.0029 29.3904 16.9685
Rhamnogalacturonan 15.5704 7.6767 4.4321
Pectin esterified 19.0208 4.4594 2.5746
Polygalacturonic acid 19.2413 4.542 2.6223
Sodium acetate 47.6248 38.0359 21.96
No nitrogen 3.125 0.7186 0.4149
BSA 8.0768 1.2445 0.7185
Glutamine 9.5311 1.3252 0.7651
No phosphate 2.9379 0.9052 0.5226
No carbon 15.3162 2.971 2.1008
No sulphur 5.6373 0.7337 0.4236
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 7.5279 1.4634 0.8449
Amylose 12.6448 2.4219 1.3983
Fucose 11.6577 2.4063 1.3893
Galactose 9.9255 0.2579 0.1489
Lactose 8.6284 1.125 0.6495
Maltose 7.794 1.7503 1.0106
Mannitol 6.8758 1.6846 0.9726
Rhamnose 8.3358 3.1108 1.796
Sorbitol 9.9768 0.7535 0.435
Trehalose 8.6844 2.0395 1.1775
Glycerol 8.5255 1.7643 1.0186
Glucuronic acid 9.3129 1.6363 0.9447
Arabinan 9.7687 1.9289 1.1137
Galactan 7.9726 1.0724 0.6192
Galactomannan 9.2787 2.3667 1.3664
Glucan 5.8734 0.7707 0.445
Xylan 12.1212 0.4161 0.2402
Xyloglucan 11.7018 2.421 1.3978
Arabinogalactan 13.1634 0.8905 0.5141
Pectin 8.9879 1.7936 1.0355
Rhamnogalacturonan 9.1068 2.547 1.4705
Polygalacturonic acid 6.946 2.3755 1.3715
Mannan 10.6514 0.0492 0.0284
Amylopectin 7.9547 0.7733 0.4465
Inulin 8.6034 0.2164 0.1249
BSA 5.1715 0.9359 0.5403
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 1.3715 0.6763 0.3904
2h WAT 1.2603 0.981 0.5664
4h WAT 2.1422 0.8803 0.5082
8h WAT 7.2388 1.044 0.6028
16h WAT 10.8989 2.3116 1.3346
24h WAT 16.3115 2.3874 1.3784
WAT hyphal knot -30h 4.611 1.5617 0.9017
WAT hyphal knot -22h 9.389 0.4079 0.2355
WAT hyphal knot -15h 11.3506 2.9845 1.7231
WAT hyphal knot -7.5h 6.7337 1.9085 1.1019
WAT hyphal knot 8.1641 4.4006 2.5407
WAT hyphal knot +7.5h 8.0445 1.475 0.8516
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 5.5218 2.0893 1.2062
Straw 3h 9.3315 1.2892 0.7443
Straw 6h 7.0034 1.964 1.1339
Straw 12h 11.5065 2.95 1.7032
Straw 24h 16.7435 8.918 5.1488
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 3.2106 1.4338 0.8278
Frost (-20C, 30min) 1.2856 0.2682 0.1549
Heat shock (47C, 2h) 1.6607 0.4364 0.252
High CO2 2.254 0.7346 0.4241
Drought (4% agar, 12h) 0.7325 0.4236 0.2446
Oxidative (1mM H2O2, 3h) 2.104 0.5422 0.313
Acidic (pH4, 3h) 5.2526 1.952 1.127
Alkaline (pH9, 3h) 2.2174 0.4106 0.2371
Osmotic (sorbitol 2h) 6.9339 2.3165 1.3374
CongoRed (3h) 3.2245 1.3869 0.8007
Cobalt chloride control 0.7926 0.0938 0.0542
Cobalt chloride 2mM 0.2212 0.0168 0.0097
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 1.7407 1.5857 0.9155
Cold stimulation 3.6626 1.1762 0.6791
Scratched surface 1.6827 0.7201 0.4157
Ca2+, 200mM, 24h 2.9929 1.9741 1.1397
Cu2+, 2mM, 6h 4.1866 2.1173 1.2224
Voriconazole 1.7151 1.092 0.6305
Trichoderma interaction, early 1.118 0.0264 0.0152
Trichoderma interaction 60h 2.6039 1.8247 1.0535
Cobalt chloride 2mM repeat 1.9465 0.8321 0.4804
Hypoxia 2.0271 0.2369 0.1368
Hypoxia control 3.5041 1.2375 0.7145
Protoplastation control 7.8081 0.1764 0.1247
Protoplastation 3.5h 5.5927 1.3294 0.94
Protoplastation 1.5h 8.1576 3.3191 2.347

General data

Systematic name -
Protein id CopciAB_1000037.T0
Description Glycoside hydrolase family 55 protein

Annotation summary

0 200 400 600 800 816

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF12708 Pectate lyase superfamily protein IPR024535 98 323
Pfam PF12708 Pectate lyase superfamily protein IPR024535 453 514

SignalP

Prediction Start End Score
SP(Sec/SPI) 1 26 0.9968

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR012334 Pectin lyase fold
IPR011050 Pectin lyase fold/virulence factor
IPR024535 Pectate lyase superfamily protein
IPR039279 Polygalacturonase QRT3-like

GO

Go id Term Ontology
GO:0004650 polygalacturonase activity MF

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
G Glycoside hydrolase family 55 protein

CAZy

Class Family Subfamily
GH GH55

Transcription factor

Group
No records

Conservation of CopciAB_1000037 across fungi.

Arrow shows the origin of gene family containing CopciAB_1000037.

No data

Protein

Sequence id CopciAB_1000037.T0
Sequence >CopciAB_1000037.T0
MGVSTSMRLFLTTTLLALSLVNNVHAQADPDAPVSADIAGDLQVTETPDAPSPVDVAATCSEPLGNGRAGPNDPW
WMETIKHQGTSPTNPNPRDYRPFRNVKDFGAVGDGIHDDTRAINEAIAFQNRCGLGCNSSTVSPAIIYFPRGTYL
VSAPIIPYYYSQLIGDARNPPTLLASANFDGMAVIDADPYIPEGGGAQYWVNQNNFFRSVRNFVIDVRRVPPERP
QGTGLHWQVSQATSLVNIVVHMSEAPNTAHQGIWMENGSGGFMGDLVFNGGRFGIWGGNQQFTVRNLTVNRAKTG
VYSLWNWGWTYQGVTFNNCEIGFEIATGGLTIEEQSTGAQAIIDAVVIDTPTFIRTTKPSNGALAGSLVINNARL
VNVGVAVGVEGGATVVQGGTRTIASWGQGNVYRGGDGTRRFVQGELPVPPKDASLLDSAGRIVGRAHPQYENYHV
SEFINVKDYGARGDGVTDDTNALREIFARFANCKILFFDAGHYIITDTVLIPPGTRMVGEAWTVLAVRGPNFQDQ
HNPRVGFRVGNKGDVGVAEITDIVFSTVGPTPGAIIMEWNIRDPAGQKARAGMWDSHIRTAGAAGTELEGRHCPK
SGAAGYERCMVSFMNLHITKGATAYLEGTWAWLADHDLDGDGVSQITVYSGRGILSESEGPVWMIGTGSEHHTMY
QYRLVNARNHYMGLIQTESPYFQPSPPAPVPFVKNDAYHDPTPYDPVRGSAWALSVKESHNILIFGAGLYSFFDS
YNQDACIPGRNCQQQLADIDSRSGVHIFSLSTVASVWQLSVDGRPVINQADNINGFASTVTCWSNN
Length 816

Coding

Sequence id CopciAB_1000037.T0
Sequence >CopciAB_1000037.T0
ATGGGCGTCTCGACGTCTATGCGTCTGTTCTTGACCACGACGCTCCTGGCTTTATCTCTCGTGAATAACGTCCAT
GCTCAGGCTGACCCCGACGCCCCAGTCTCCGCCGACATTGCAGGCGACTTGCAGGTAACGGAGACCCCCGACGCC
CCCAGCCCAGTCGATGTGGCCGCCACATGCTCGGAACCCTTGGGCAATGGACGCGCTGGGCCAAACGACCCTTGG
TGGATGGAGACTATCAAGCACCAAGGAACTTCGCCTACCAATCCGAACCCTAGGGATTACCGTCCTTTCCGGAAT
GTCAAGGATTTTGGGGCCGTAGGCGACGGTATTCACGACGACACCAGAGCGATCAATGAAGCGATCGCCTTCCAG
AACCGCTGCGGTCTCGGGTGCAACTCGTCCACCGTTTCTCCTGCCATTATTTACTTCCCGCGAGGAACCTACCTC
GTTTCGGCCCCTATCATCCCATACTACTACAGTCAGCTTATCGGTGATGCGCGAAACCCTCCTACGTTACTTGCA
TCGGCAAATTTCGACGGAATGGCTGTTATTGACGCCGATCCTTACATCCCTGAGGGTGGCGGAGCGCAATACTGG
GTGAACCAAAACAACTTTTTCCGCTCAGTGCGCAACTTCGTCATTGATGTTCGACGGGTTCCACCGGAGAGACCT
CAAGGAACTGGTTTGCACTGGCAAGTCTCCCAGGCGACTTCGTTGGTCAACATCGTCGTTCACATGTCTGAGGCC
CCCAACACTGCGCACCAAGGTATCTGGATGGAGAATGGAAGTGGCGGCTTCATGGGTGACCTTGTCTTCAACGGA
GGTCGCTTTGGTATCTGGGGCGGAAACCAACAGTTCACTGTCCGAAACCTTACAGTCAACAGGGCCAAGACCGGT
GTTTACAGTCTTTGGAACTGGGGCTGGACTTACCAGGGTGTTACCTTCAACAACTGCGAGATTGGCTTCGAAATT
GCCACAGGAGGCCTAACCATCGAGGAGCAGTCCACCGGTGCCCAAGCCATCATCGACGCTGTCGTCATTGACACT
CCCACTTTCATCCGAACCACCAAGCCCAGCAACGGCGCCCTCGCTGGCTCTCTCGTCATCAACAATGCCAGGCTG
GTCAATGTCGGTGTTGCCGTCGGAGTTGAAGGAGGTGCCACTGTGGTTCAAGGTGGCACCAGGACGATCGCCTCG
TGGGGCCAGGGCAATGTTTACCGCGGTGGCGACGGCACTCGTCGATTCGTCCAGGGTGAGCTCCCCGTTCCTCCA
AAGGATGCCAGCTTGCTTGATAGCGCTGGACGCATCGTCGGACGTGCTCATCCCCAGTATGAGAACTACCACGTT
TCGGAGTTCATCAACGTCAAGGACTATGGTGCCCGGGGTGACGGTGTGACGGATGATACCAATGCTTTGCGGGAG
ATTTTTGCTCGGTTCGCGAACTGCAAGATTCTCTTCTTCGATGCCGGCCACTACATCATCACTGATACCGTCCTC
ATCCCTCCCGGAACGAGGATGGTTGGTGAGGCCTGGACTGTGCTCGCTGTCCGAGGCCCCAACTTCCAGGACCAG
CACAACCCCAGGGTCGGCTTCAGGGTCGGCAACAAGGGTGACGTCGGCGTTGCTGAGATCACTGATATCGTTTTC
TCGACTGTTGGACCCACCCCCGGTGCTATCATCATGGAATGGAACATCAGGGATCCCGCTGGCCAGAAGGCTAGG
GCCGGTATGTGGGACAGCCACATCCGAACTGCTGGGGCCGCTGGAACTGAACTCGAAGGCCGACACTGCCCCAAA
TCCGGTGCTGCTGGCTACGAGCGCTGCATGGTTTCCTTCATGAACTTGCACATCACCAAGGGCGCAACCGCTTAT
CTCGAGGGCACCTGGGCTTGGTTGGCTGACCACGATTTGGACGGCGATGGTGTTTCCCAAATCACTGTCTACTCT
GGACGCGGTATCTTGTCCGAGTCTGAGGGTCCTGTTTGGATGATCGGTACTGGATCTGAGCATCACACTATGTAC
CAATACCGCCTCGTCAACGCCAGGAACCACTACATGGGTCTGATTCAAACTGAGAGTCCTTACTTCCAACCTTCC
CCTCCTGCACCTGTCCCCTTCGTCAAGAACGACGCCTACCATGATCCCACCCCCTACGACCCTGTTAGAGGCTCG
GCATGGGCCCTTTCAGTCAAGGAGTCCCACAACATTCTCATCTTCGGCGCTGGCCTCTACAGCTTCTTCGACAGC
TACAACCAAGACGCCTGCATCCCCGGCCGCAACTGCCAGCAGCAGCTTGCAGACATCGACAGCCGATCGGGTGTG
CACATCTTCAGCTTGTCCACGGTTGCCTCGGTTTGGCAATTGAGCGTGGACGGCAGGCCTGTTATCAACCAAGCA
GATAACATTAACGGCTTCGCGTCTACTGTGACCTGCTGGAGCAATAACTAG
Length 2451

Transcript

Sequence id CopciAB_1000037.T0
Sequence >CopciAB_1000037.T0
AGGTCGCTTGTTGACTTCTCCCCACTTTCCTGTTTCCACCATGGGCGTCTCGACGTCTATGCGTCTGTTCTTGAC
CACGACGCTCCTGGCTTTATCTCTCGTGAATAACGTCCATGCTCAGGCTGACCCCGACGCCCCAGTCTCCGCCGA
CATTGCAGGCGACTTGCAGGTAACGGAGACCCCCGACGCCCCCAGCCCAGTCGATGTGGCCGCCACATGCTCGGA
ACCCTTGGGCAATGGACGCGCTGGGCCAAACGACCCTTGGTGGATGGAGACTATCAAGCACCAAGGAACTTCGCC
TACCAATCCGAACCCTAGGGATTACCGTCCTTTCCGGAATGTCAAGGATTTTGGGGCCGTAGGCGACGGTATTCA
CGACGACACCAGAGCGATCAATGAAGCGATCGCCTTCCAGAACCGCTGCGGTCTCGGGTGCAACTCGTCCACCGT
TTCTCCTGCCATTATTTACTTCCCGCGAGGAACCTACCTCGTTTCGGCCCCTATCATCCCATACTACTACAGTCA
GCTTATCGGTGATGCGCGAAACCCTCCTACGTTACTTGCATCGGCAAATTTCGACGGAATGGCTGTTATTGACGC
CGATCCTTACATCCCTGAGGGTGGCGGAGCGCAATACTGGGTGAACCAAAACAACTTTTTCCGCTCAGTGCGCAA
CTTCGTCATTGATGTTCGACGGGTTCCACCGGAGAGACCTCAAGGAACTGGTTTGCACTGGCAAGTCTCCCAGGC
GACTTCGTTGGTCAACATCGTCGTTCACATGTCTGAGGCCCCCAACACTGCGCACCAAGGTATCTGGATGGAGAA
TGGAAGTGGCGGCTTCATGGGTGACCTTGTCTTCAACGGAGGTCGCTTTGGTATCTGGGGCGGAAACCAACAGTT
CACTGTCCGAAACCTTACAGTCAACAGGGCCAAGACCGGTGTTTACAGTCTTTGGAACTGGGGCTGGACTTACCA
GGGTGTTACCTTCAACAACTGCGAGATTGGCTTCGAAATTGCCACAGGAGGCCTAACCATCGAGGAGCAGTCCAC
CGGTGCCCAAGCCATCATCGACGCTGTCGTCATTGACACTCCCACTTTCATCCGAACCACCAAGCCCAGCAACGG
CGCCCTCGCTGGCTCTCTCGTCATCAACAATGCCAGGCTGGTCAATGTCGGTGTTGCCGTCGGAGTTGAAGGAGG
TGCCACTGTGGTTCAAGGTGGCACCAGGACGATCGCCTCGTGGGGCCAGGGCAATGTTTACCGCGGTGGCGACGG
CACTCGTCGATTCGTCCAGGGTGAGCTCCCCGTTCCTCCAAAGGATGCCAGCTTGCTTGATAGCGCTGGACGCAT
CGTCGGACGTGCTCATCCCCAGTATGAGAACTACCACGTTTCGGAGTTCATCAACGTCAAGGACTATGGTGCCCG
GGGTGACGGTGTGACGGATGATACCAATGCTTTGCGGGAGATTTTTGCTCGGTTCGCGAACTGCAAGATTCTCTT
CTTCGATGCCGGCCACTACATCATCACTGATACCGTCCTCATCCCTCCCGGAACGAGGATGGTTGGTGAGGCCTG
GACTGTGCTCGCTGTCCGAGGCCCCAACTTCCAGGACCAGCACAACCCCAGGGTCGGCTTCAGGGTCGGCAACAA
GGGTGACGTCGGCGTTGCTGAGATCACTGATATCGTTTTCTCGACTGTTGGACCCACCCCCGGTGCTATCATCAT
GGAATGGAACATCAGGGATCCCGCTGGCCAGAAGGCTAGGGCCGGTATGTGGGACAGCCACATCCGAACTGCTGG
GGCCGCTGGAACTGAACTCGAAGGCCGACACTGCCCCAAATCCGGTGCTGCTGGCTACGAGCGCTGCATGGTTTC
CTTCATGAACTTGCACATCACCAAGGGCGCAACCGCTTATCTCGAGGGCACCTGGGCTTGGTTGGCTGACCACGA
TTTGGACGGCGATGGTGTTTCCCAAATCACTGTCTACTCTGGACGCGGTATCTTGTCCGAGTCTGAGGGTCCTGT
TTGGATGATCGGTACTGGATCTGAGCATCACACTATGTACCAATACCGCCTCGTCAACGCCAGGAACCACTACAT
GGGTCTGATTCAAACTGAGAGTCCTTACTTCCAACCTTCCCCTCCTGCACCTGTCCCCTTCGTCAAGAACGACGC
CTACCATGATCCCACCCCCTACGACCCTGTTAGAGGCTCGGCATGGGCCCTTTCAGTCAAGGAGTCCCACAACAT
TCTCATCTTCGGCGCTGGCCTCTACAGCTTCTTCGACAGCTACAACCAAGACGCCTGCATCCCCGGCCGCAACTG
CCAGCAGCAGCTTGCAGACATCGACAGCCGATCGGGTGTGCACATCTTCAGCTTGTCCACGGTTGCCTCGGTTTG
GCAATTGAGCGTGGACGGCAGGCCTGTTATCAACCAAGCAGATAACATTAACGGCTTCGCGTCTACTGTGACCTG
CTGGAGCAATAACTAGATTGCTCGTCGCCCAGATCGTGATTCACGTCCTTAGACCGAAAGTCGAGGATAGAGATT
GGGAACGACTAGTTAAAGCTACGCCGCATACACGAAAATAGAGTAGGAGTATTAACCTTAGTTTTGTCATGTCTG
TTTCGATACGTCCAATTTGATATTTCTCTTTCTTGCTTC
Length 2664

Gene

Sequence id CopciAB_1000037.T0
Sequence >CopciAB_1000037.T0
AGGTCGCTTGTTGACTTCTCCCCACTTTCCTGTTTCCACCATGGGCGTCTCGACGTCTATGCGTCTGTTCTTGAC
CACGACGCTCCTGGCTTTATCTCTCGTGAATAACGTCCATGCTCAGGCTGACCCCGACGCCCCAGTCTCCGCCGA
CATTGCAGGCGACTTGCAGGTAACGGAGACCCCCGACGCCCCCAGCCCAGTCGATGTGGCCGCCACATGCTCGGA
ACCCTTGGGCAATGGACGCGCTGGGCCAAACGACCCTTGGTGGATGGAGACTATCAAGCACCAAGGAACTTCGCC
TACCAATCCGAACCCTAGGGATTACCGTCCTTTCCGGAATGTCAAGGTTAGTCCATCGGTTGTCTACCCCAAACG
CCGACGCTGAGGTTTCTTCTCCTAGGATTTTGGGGCCGTAGGCGACGGTATTCACGACGACACCAGAGCGATCAA
GTAAGCACATGGCTTTGACATGGCTTAGGATCGTCTTGACCACGTTTTTTAGTGAAGCGATCGCCTTCCAGAACC
GCTGCGGTCTCGGGTGCAACTCGTCCACGTATGTCTCCCGTTGTCGTTATTGCGCAGAGGCTAACCAATTTTTCC
AGCGTTTCTCCTGCCATTATTTACTTCCCGCGAGGGTGAGTTTGCCTCTGGTTGCAAATGGTTTCAGTTATTGAA
CGCGCTTTACAGAACCTACCTCGTTTCGGCCCCTATCATCCCATACTACTACAGTCAGCTTATCGGTGATGCGCG
AAACCCTCCTACGTTACTTGCATCGGCAAATTTCGACGGAATGGCTGTTATTGGTGCGTTATCCGACTGAGACTA
TATCTTCATTGTGCTTATCAGCCCTTCTAGACGCCGATCCTTACATCCCTGAGGGTGGCGGAGCGCAATACTGGG
TGAACCAAAACAACTTGTACGTCCTCCTGTTCTTGGTTATCAAACCTCGTTCTAAATTCATTTCACAGTTTCCGC
TCAGTGCGCAACTTCGTCATTGATGTTCGACGGTACGCCGACTTGATTTCATTTTGTGATGGCAAGCCTCATTGT
ACTGCAGGGTTCCACCGGAGAGACCTCAAGGAACTGGTTTGCACTGGCAAGTCTCCCAGGCGACTTCGTTGGTCA
ACATCGTCGTTCACATGTCTGAGGCCCCCAACACTGCGCACCAAGGTATGATCACTAGTCATCGAAAACAATCGC
CATTCTGACTTTTGATATCAAGGTATCTGGATGGAGAATGGAAGGTAAGCAATTCACAACGTCTGTCGACGTGTA
GGTGCTGAACAGGCCGATAGTGGCGGCTTCATGGGTGACCTTGTCTTCAACGGAGGTCGCTTTGGTATCTGGGGC
GGAAACCAACAGTGAGTTTCTGTCTAACCTCGACACAACGTGACATGATCTAATCCCCGCGTAGGTTCACTGTCC
GAAACCTTACAGTCAACAGGGCCAAGACCGGTGTTTACAGTCTTTGGAACTGGGGTAAGTGGTACCATCTCCGCG
GCGTCCTACCAGATATTCATCTCTTGTATAGGCTGGACTTACCAGGGTGTTACCTTCAACAACTGCGAGATTGGC
TTCGAAATTGCCACAGGAGGCCTAACCATCGAGGAGCAGGTAAGTAGTCCCTCATGGAGCCTTCCAATGAGAAAC
TGACATCTTATTCCCCGTCTAGTCCACCGGTGCCCAAGCCATCATCGACGCTGTCGTCATTGACACTCCCACTTT
CATCCGAACCACCAAGCCCAGCAACGGCGCCCTCGCTGGCTCTCTCGTCATCAACAATGCCAGGCTGGTCAATGT
CGGTGTTGCCGTCGGAGTTGAAGGAGGTGCCACTGTGGTTCAAGGTGGCACCAGGACGATCGCCTCGTGGGGCCA
GGGCAATGTTTACCGCGGTGGCGACGGCACTCGTCGATTCGTCCAGGGTGAGCTCCCCGTTCCTCCAAAGGATGC
CAGCTTGCTTGATAGCGCTGGACGCATCGTCGGACGTGCTCATCCCCAGTATGAGAACTACCACGTTTCGGAGTT
CATCAACGTCAAGGACTATGGTGCCCGGGGTGACGGTGTGACGGATGATACCAATGCTTTGCGGGAGATTTTTGC
TCGGGTGAGTAGTTCTCGTTCCTTGAAAGCCTCCGGGACGTAACGCTGGTTGGTGATCATGATGTAGTTCGCGAA
CTGCAAGATTCTCTTCTTCGATGCCGGCCACTACATCATCACTGATACCGTCCTCATCCCTCCCGGAACGAGGAT
GGTTGGTGAGGCCTGGACTGTGCTCGCTGTCCGAGGCCCCAACTTCCAGGACCAGCACAACCCCAGGGTCGGCTT
CAGGGTCGGCAACAAGGGTGACGTCGGCGTTGCTGAGATCACTGATATCGTTTTCTCGACTGTTGGACCCAGTAA
GGCATACGTTCATCCTCGTTGTCTTCAGCGATATTGACCTCGCCCTTAGCCCCCGGTGCTATCATCATGGAATGG
AACATCAGGGATCCCGCTGGCCAGAAGGCTAGGGCCGGTATGTGGGACAGCCACATCCGAACTGCTGGGGGTACG
TCTCTCGTTCACTGTCCTCAGTATATGAGCTGACCTCGACCCCTCTAGCCGCTGGAACTGAACTCGAAGGCCGAC
ACTGCCCCAAATCCGGTGCTGCTGGCTACGAGCGCTGCATGGTTTCCTTCATGAACTTGCACATCACCAAGGGCG
CAACCGCTTATCTCGAGGTCCGCTTTACCTTCCCTTCTGCTTCATCTGGCCTTAACTGACACCGGTTAACAGGGC
ACCTGGGCTTGGTTGGCTGACCACGATTTGGACGGCGATGGTGTTTCCCAAATCACTGTCTACTCTGGACGCGGT
ATCTTGTCCGAGTCTGAGGGTCCTGTTTGGATGATCGGTACTGGATGTAAGTATCCTTCACCTGTACCTCTCAAC
ACAGCGACTGACATTTCGTCGTAGCTGAGCATCACACTATGTACCAATACCGCCTCGTCAACGCCAGGAACCACT
ACATGGGTCTGATTCAAACTGAGAGTGTACGTACCAACCTCCGTTCTCCTATGTGCACCATACTCACGATGTTTG
CCTTTTAGCCTTACTTCCAACCTTCCCCTCCTGCACCTGTCCCCTTCGTCAAGAACGACGCCTACCATGATCCCA
CCCCCTACGACCCTGTTAGAGGCTCGGCATGGGCCCTTTCAGTCAAGGAGTCCCACAACATTCTCATCTTCGGCG
CTGGCCTCTACAGCTTCTTCGACGTTCGTCCCCTCCCTTTTCTCATCGTCGCCCCCTTCTAACCACTTCTTCCTT
TCCTCCGTACACAGAGCTACAACCAAGACGCCTGCATCCCCGGCCGCAACTGCCAGCAGCAGCTTGCAGACATCG
ACAGCCGATCGGGTGTGCACATCTTCAGCTTGTCCACGGTTGCCTCGGTTTGGCAATTGAGCGTGGACGGCAGGC
CTGTTATCAACCAAGCAGATAACATTAACGGCTTCGCGTCTACTGTGACCTGCTGGAGCAATAACTAGATTGCTC
GTCGCCCAGATCGTGATTCACGTCCTTAGACCGAAAGTCGAGGATAGAGATTGGGAACGACTAGTTAAAGCTACG
CCGCATACACGAAAATAGAGTAGGAGTATTAACCTTAGTTTTGTCATGTCTGTTTCGATACGTCCAATTTGATAT
TTCTCTTTCTTGCTTC
Length 3691