CopciAB_234699
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_234699 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 234699
Uniprot id Functional description Glycosyltransferase like family 2
Location scaffold_4:2199799..2204222 Strand -
Gene length (nt) 4424 Transcript length (nt) 4255
CDS length (nt) 3444 Protein length (aa) 1147

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Ustilago maydis CHS7

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB24874 74 0 1752
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_221343 74.5 0 1725
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_119421 74.4 0 1723
Pleurotus ostreatus PC9 PleosPC9_1_115316 72.6 0 1713
Pleurotus eryngii ATCC 90797 Pleery1_1438792 72.7 0 1707
Flammulina velutipes Flave_chr07AA00521 70.9 0 1677
Pleurotus ostreatus PC15 PleosPC15_2_1065201 71.4 0 1673
Lentinula edodes NBRC 111202 Lenedo1_1105298 69.4 0 1633
Lentinula edodes W1-26 v1.0 Lentinedodes1_16063 69.4 0 1633
Ganoderma sp. 10597 SS1 v1.0 Gansp1_83870 69.9 0 1611
Grifola frondosa Grifr_OBZ66534 69.1 0 1609
Schizophyllum commune H4-8 Schco3_2704129 68.4 0 1584
Auricularia subglabra Aurde3_1_1237014 61.1 0 1441
Agrocybe aegerita Agrae_CAA7259260 85.5 0 1210
Lentinula edodes B17 Lened_B_1_1_16669 71.8 4.038E-240 772

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 460.6693 17.7439 10.2444
oidia 173.8707 6.3316 3.6556
vegetative_mycelium 181.1015 17.7466 10.246
primordia 111.7577 8.1407 4.7
hyphal_knot 206.6943 21.8782 12.6314
young_fruiting_body 315.6677 24.2065 13.9757
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 330.9761 43.8263 25.3031
Wheat bran 109.6229 50.1802 28.9716
Horse manure 233.6963 122.2954 70.6073
Oak leaves 384.9349 77.393 44.6829
Hay 207.2993 62.195 35.9083
Corn stalk 266.4714 27.937 16.1294
Pectine 318.8883 12.8829 7.4379
Microcrystalline cellulose 301.6357 61.4177 35.4595
Xylose 331.7412 64.191 37.0607
Cellobiose 342.0467 49.8334 28.7713
Lignin 280.372 30.0015 17.3214
Apple peels 331.4237 26.5407 15.3233
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 158.366 2.2024 1.2716
Bsubtilis 190.3479 14.883 8.5927
Ecoli 229.1153 14.6184 8.4399
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 33.0066 5.526 3.1904
BS 4h 53.3825 6.9171 3.9936
BS 8h 103.8709 8.7087 5.028
BS 12h 85.3601 15.288 8.8265
Oidia 0 h 65.7077 36.2602 20.9348
Oidia 18 h 139.6368 24.3813 14.0766
Sclerotia 291.5828 60.2586 34.7903
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 147.4951 46.1242 26.6298
DM 36h 187.5092 25.3674 14.6459
DM 60h 144.8659 11.6044 6.6998
DM 84h 126.4852 6.604 3.8128
DM 108h 155.4087 19.8899 11.4834
DM 132h 164.5037 15.7078 9.0689
DM 156hAE 214.0245 11.779 6.8006
ELI1hAE 198.4486 18.4901 10.6753
ELI2hAE 200.1006 13.0565 7.5382
LI2hAE 189.415 18.8873 10.9046
LI6hAE 210.693 19.6517 11.3459
LI12hAE 205.3769 3.9646 2.289
LI18hAE 224.4244 26.55 15.3287
LI 24hAE 237.1221 26.1582 15.1024
DM 156hAM 142.315 11.4964 6.6374
ELI1hAM 148.5328 24.0919 13.9095
ELI2hAM 130.8995 28.8645 16.6649
LI2hAM 134.6872 30.0092 17.3258
LI6hAM 169.0122 15.3534 8.8643
LI12hAM 171.1388 7.9766 4.6053
LI18hAM 233.725 6.4344 3.7149
LI 24hAM 231.791 24.2814 14.0189
LI 24hHK 138.1232 15.4184 8.9018
L/D 6h 213.7184 39.9869 23.0865
L/D 12h 206.2432 3.7643 2.1733
L/D 18h 180.9846 31.8977 18.4162
L/D 24h 169.278 15.2974 8.8319
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 107.8086 22.3437 12.9001
Hyphal knots 116.0824 2.052 1.1847
Primordium 1 108.9828 15.5248 8.9632
Primordium 2 100.5243 20.2059 11.6659
Young Fruiting body cap 136.9678 42.8812 24.7575
Younf fruiting body gill 112.554 51.6117 29.798
Young fruiting body stipe 95.5508 16.4063 9.4722
Mature fruiting body cap_gill 104.7429 23.4304 13.5276
Mature fruiting body stipe 150.9646 16.4089 9.4737
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 157.8058 18.5716 10.7223
NH4NO3 143.1138 8.345 4.818
Proline 145.4942 15.3611 8.8687
Tryptophan 148.8286 21.1809 12.2288
Isoleucin 152.1652 4.5341 2.6178
Arginine 138.9493 6.8302 3.9434
Metionine 156.0114 17.1837 9.921
NaNO3 128.5946 5.1283 2.9608
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 157.8058 18.5716 10.7223
Citrus peel 132.2272 15.708 9.069
Poplar leaves 172.3982 16.7722 9.6834
Typha leaves 151.2047 15.5576 8.9822
Overwintered Salix leaves 162.7971 15.2863 8.8255
Reed flowering 151.1977 14.8471 8.572
Tigernut 87.4858 9.298 5.3682
Energy cane 163.9446 22.3846 12.9238
Guar gum 160.0186 51.4271 29.6914
Apple peels 126.6697 32.6276 18.8376
Cellobiose 169.0721 10.109 5.8364
Corn stalk 140.3955 7.6259 4.4028
Horse manure 155.1119 45.0339 26.0004
Lignin 133.7457 65.933 38.0664
Microcrystalline cellulose 163.5629 18.2999 10.5654
Oak leaves 149.4561 44.7372 25.829
Pectin esterified 78.9638 15.9354 9.2003
Poplar sawdust 162.093 46.437 26.8104
Wheat bran 72.612 17.8168 10.2865
Chlamydomonas reinhardtii 170.5148 25.8583 14.9293
Vertatryl alcohol 182.7145 14.9127 8.6099
Furfural 114.1778 12.2371 7.0651
Autoclaved mycelium 156.5897 19.1561 11.0598
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 168.8922 11.0993 6.4082
Ribose 236.1068 4.4092 2.5457
Mannose 211.3088 9.5531 6.7551
Fructose 233.4785 6.6109 3.8168
Arabinose 258.7246 22.6829 13.096
Xylose 231.1478 9.1379 5.2758
Galacturonic acid 231.4726 6.901 3.9843
Rhamnogalacturonan 224.7613 10.9649 6.3306
Pectin esterified 225.0569 11.4934 6.6357
Polygalacturonic acid 237.8463 27.7567 16.0253
Sodium acetate 244.1827 5.4452 3.1438
No nitrogen 230.2104 28.4974 16.453
BSA 260.3482 4.6167 2.6655
Glutamine 250.2132 26.0574 15.0442
No phosphate 180.9534 12.7359 7.3531
No carbon 261.1508 8.3034 5.8714
No sulphur 225.7981 21.1626 12.2182
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 157.8058 18.5716 10.7223
Amylose 152.8013 3.4206 1.9749
Fucose 164.1214 10.259 5.923
Galactose 171.9656 13.3722 7.7205
Lactose 176.609 12.3947 7.1561
Maltose 195.9325 27.0625 15.6245
Mannitol 193.4921 16.4197 9.4799
Rhamnose 178.5345 12.9248 7.4621
Sorbitol 169.5942 7.2718 4.1984
Trehalose 170.0379 49.0099 28.2959
Glycerol 170.9971 34.6868 20.0264
Glucuronic acid 184.4376 12.4461 7.1857
Arabinan 153.0995 35.4238 20.452
Galactan 147.83 6.0287 3.4807
Galactomannan 122.8659 21.096 12.1798
Glucan 166.672 11.1796 6.4546
Xylan 138.4529 18.9194 10.9231
Xyloglucan 150.0707 28.8295 16.6447
Arabinogalactan 162.82 14.4203 8.3255
Pectin 105.6967 44.0226 25.4165
Rhamnogalacturonan 70.6924 17.8987 10.3338
Polygalacturonic acid 158.1096 1.6333 0.943
Mannan 144.655 7.5209 4.3422
Amylopectin 123.7562 10.1713 5.8724
Inulin 179.9952 14.4656 8.3517
BSA 129.0541 10.2076 5.8934
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 144.8659 11.6044 6.6998
2h WAT 160.7983 13.0843 7.5542
4h WAT 179.9788 17.6003 10.1616
8h WAT 189.7687 17.8909 10.3293
16h WAT 212.141 20.2101 11.6683
24h WAT 217.6201 10.1744 5.8742
WAT hyphal knot -30h 228.0817 1.9098 1.1026
WAT hyphal knot -22h 232.693 11.0459 6.3774
WAT hyphal knot -15h 235.8528 10.2459 5.9155
WAT hyphal knot -7.5h 215.7375 5.7039 3.2932
WAT hyphal knot 203.6927 12.6218 7.2872
WAT hyphal knot +7.5h 207.7986 7.08 4.0877
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 145.2137 63.3702 36.5868
Straw 3h 147.4237 22.5009 12.9909
Straw 6h 109.219 31.7048 18.3048
Straw 12h 162.1293 22.5548 13.022
Straw 24h 157.4642 38.1268 22.0125
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 114.0972 17.6856 10.2108
Frost (-20C, 30min) 145.9788 7.3615 4.2502
Heat shock (47C, 2h) 127.6302 13.5711 7.8353
High CO2 148.4504 22.4998 12.9902
Drought (4% agar, 12h) 113.9525 14.8567 8.5775
Oxidative (1mM H2O2, 3h) 120.3117 7.1199 4.1107
Acidic (pH4, 3h) 98.7637 16.1414 9.3192
Alkaline (pH9, 3h) 102.4745 10.7326 6.1965
Osmotic (sorbitol 2h) 94.9678 13.1766 7.6075
CongoRed (3h) 149.6059 16.4251 9.483
Cobalt chloride control 227.6429 7.5861 4.3798
Cobalt chloride 2mM 220.1477 18.0112 10.3988
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 100.2786 16.0633 9.2741
Cold stimulation 111.1799 27.7199 16.0041
Scratched surface 169.5056 8.5503 4.9365
Ca2+, 200mM, 24h 95.8397 13.3325 7.6975
Cu2+, 2mM, 6h 131.5882 62.4508 36.056
Voriconazole 157.3857 23.7355 13.7037
Trichoderma interaction, early 141.3671 8.5238 4.9212
Trichoderma interaction 60h 115.237 20.4931 11.8317
Cobalt chloride 2mM repeat 233.3227 45.8806 26.4892
Hypoxia 179.1678 44.2997 25.5764
Hypoxia control 140.5372 10.1998 5.8888
Protoplastation control 185.632 15.7921 11.1667
Protoplastation 3.5h 171.8249 10.8755 7.6901
Protoplastation 1.5h 236.2438 7.0661 4.9965

General data

Systematic name -
Protein id CopciAB_234699.T0
Description Glycosyltransferase like family 2

Annotation summary

0 300 600 900 1147

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd04190 Chitin_synth_C - 457 796
Pfam PF03142 Chitin synthase - 445 945

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
1 111 130 19
2 334 356 22
3 816 838 22
4 853 872 19
5 879 901 22

InterPro

Accession Description
IPR029044 Nucleotide-diphospho-sugar transferases
IPR004835 Chitin synthase
IPR001199 Cytochrome b5-like heme/steroid binding domain

GO

Go id Term Ontology
GO:0004100 chitin synthase activity MF
GO:0016758 transferase activity, transferring hexosyl groups MF

KEGG

KEGG Orthology
K00698

EggNOG

COG category Description
M Glycosyltransferase like family 2

CAZy

Class Family Subfamily
GT GT2 GT2_Chitin_synth_2GT2

Transcription factor

Group
No records

Conservation of CopciAB_234699 across fungi.

Arrow shows the origin of gene family containing CopciAB_234699.

Protein

Sequence id CopciAB_234699.T0
Sequence >CopciAB_234699.T0
MALRFQNNYDFQDVPIPTSTARQPPRTGATIKRAKTLTRPERSVAPVPLITPAQVSLPTPAGAQPDPQAYPGSQA
WRIASRIITFWAPDFLLSSLGGLKDAQVRQAWREKISLCFIIAVLCGCVGFATVGFQKVLCPASGESDRHFIRVG
SAPNTLGILGQMFNVTDSTPAPDVDFRALAAQSNGQDITPLFSRTASLFSLCQGLPYRIATEEPCSSANPCLLPS
IAANSTFQQFSLRNTNQLAGYDWDQVAGLRNYMVLDGAVLNLTPYLSIHTRPIPGDNVDKAIRTVMARIDSGRDA
TRLFTSREDLKSVIPCMKQRYLAGNIDKITPGCFASSLMLYAGLIVILALVLVRFAMACVFNWFMSSRLAGPPTS
QELNRSAISPAVMPEGANVSVDNKNGTAPWANPKKLSKPGNPKAGVPRSIASSASSATLTNNDGLSPVMSLTQIG
AELFAVCLVTCYSEGEESLRTTLDSISSTTYSDARKLLFVVADGMITGAGEKRSTPDICVSLLEADPRFGNPIPM
AYGAVGSGAKANNRAMVYAGHYTVAGRRTPTVIVVKCGTEQEALHDKKPGNRGKRDSQLILMNFFSRVTYNDRMT
PLDFDLFRKIHVLMGVTPDFFEVCLMVDADTKVFPDSLGYLVNCMHHDQMIMGVCGETRIANKRQSWVTAIQVFE
YFISHHLAKAFESVFGGVSCLPGCFSMFRLKARKASGDDWVPLIIKPEIVKEYSQSEVITLHQKNLLLLGEDRFL
TTILLRTFPNRKMMFLPQAKCRTIVPDTFPILLSQRRRWINSTIHNLMELVLVRNLCGTFCFSMQFVVFMDLLGT
VVLPIAIALTYSLVIASALNPPKNFEQAIPLLLLVSVLGLPAILILITTRKVIYVFWMLIYLFALPVWNFVLPLY
AFWHFDDFSWGETRKVEGEGKDTGHGDGGGVASAVPMRRWEDWERSRLRKIKREERRRRDLERSHPGGLFTGGER
GEYLVAPDTRSQYGDSSDTFSVNSSDDDHWGSQIGGYNENNAQFPPPPVALFTPHKNELDSAKTVDASELEAMLE
SGFDDRPTPPASVMRYQLSDGTSPIPPAGGGNGYVPLNRAGSPGQPQTPSALSPTTPAMTLPNDSSNWSPPRGPP
GRGPPQQQRYGPLGPLDPSTKF
Length 1147

Coding

Sequence id CopciAB_234699.T0
Sequence >CopciAB_234699.T0
ATGGCCCTTCGTTTCCAGAACAACTATGACTTTCAAGACGTCCCAATACCCACCAGCACAGCTCGCCAGCCTCCA
CGAACAGGTGCCACGATCAAGAGGGCGAAGACGTTGACGAGGCCAGAGCGGAGCGTTGCGCCAGTACCACTCATC
ACACCGGCTCAAGTCTCTCTACCAACTCCAGCAGGCGCCCAGCCAGACCCACAAGCCTACCCTGGCTCTCAGGCA
TGGCGAATAGCTTCCCGCATCATCACATTTTGGGCACCCGATTTCTTGCTCAGCTCACTCGGTGGCCTCAAGGAC
GCCCAGGTTAGGCAGGCTTGGAGAGAAAAAATATCTCTCTGCTTCATAATAGCCGTCCTGTGCGGTTGCGTAGGC
TTTGCTACAGTGGGCTTTCAAAAGGTCCTCTGCCCTGCCTCTGGCGAGTCAGACCGCCACTTTATCAGAGTGGGC
AGCGCTCCAAACACCCTCGGAATCCTGGGTCAAATGTTCAACGTAACCGACTCAACGCCAGCTCCCGACGTCGAT
TTTAGAGCCCTCGCAGCTCAAAGTAACGGCCAGGACATCACCCCCCTGTTTTCCAGGACAGCTTCCCTCTTCTCC
CTCTGTCAGGGCCTCCCTTATCGAATCGCCACGGAAGAACCCTGCTCCTCCGCAAACCCATGTCTTCTCCCATCC
ATCGCTGCAAATAGCACATTCCAGCAGTTTTCCTTGCGCAACACAAACCAACTCGCTGGATACGACTGGGATCAG
GTCGCTGGACTCCGGAACTACATGGTCCTCGACGGCGCTGTTCTCAACCTCACGCCCTACCTTTCGATTCACACC
CGCCCCATTCCTGGAGACAACGTCGATAAGGCCATTCGCACCGTCATGGCACGGATAGATAGCGGAAGGGATGCA
ACTCGCCTGTTCACAAGTCGGGAAGATCTCAAGTCCGTCATCCCTTGCATGAAGCAGCGATATCTCGCCGGAAAC
ATCGACAAGATCACCCCCGGTTGCTTCGCGTCAAGTCTCATGCTCTACGCCGGTCTCATCGTCATTCTCGCCTTG
GTGTTGGTTCGCTTCGCCATGGCCTGCGTGTTCAACTGGTTCATGTCATCGCGCCTTGCGGGGCCTCCCACAAGT
CAGGAACTGAACAGGTCTGCAATCAGTCCTGCGGTAATGCCCGAGGGCGCGAACGTTTCTGTCGACAACAAAAAT
GGCACAGCCCCCTGGGCCAATCCCAAGAAACTTAGCAAGCCAGGCAACCCCAAAGCAGGTGTACCACGTTCCATC
GCATCGTCAGCCTCGAGCGCAACTCTCACCAACAATGATGGCCTTTCACCCGTAATGAGCTTAACCCAAATAGGG
GCCGAGTTGTTTGCGGTCTGTCTTGTCACTTGTTACTCCGAAGGCGAAGAGTCCTTGCGAACAACCCTCGATTCC
ATCTCCTCCACCACCTATTCCGACGCTCGAAAACTTCTCTTCGTCGTCGCCGATGGAATGATCACTGGCGCTGGT
GAAAAGCGGAGCACACCAGATATTTGTGTTAGCTTGCTCGAGGCGGATCCTCGGTTCGGAAACCCGATTCCCATG
GCTTATGGGGCTGTCGGCTCAGGCGCCAAGGCAAACAATAGAGCGATGGTGTATGCTGGACATTACACTGTCGCT
GGTCGCCGAACGCCTACTGTCATCGTTGTCAAATGTGGTACCGAACAAGAGGCCCTTCATGACAAGAAGCCCGGA
AACCGTGGCAAGCGCGACAGTCAACTCATCCTAATGAATTTCTTCTCTCGTGTTACATATAACGACCGCATGACT
CCCCTCGATTTCGACCTCTTCCGAAAGATCCACGTGCTAATGGGCGTTACTCCCGACTTCTTCGAAGTCTGTCTC
ATGGTGGATGCCGACACCAAGGTCTTCCCCGATTCCCTCGGTTACCTGGTCAATTGTATGCACCATGACCAGATG
ATTATGGGTGTCTGTGGCGAAACCCGTATTGCGAACAAGCGGCAGTCTTGGGTAACTGCAATTCAGGTTTTCGAA
TACTTCATTTCCCATCATCTCGCAAAGGCCTTCGAATCCGTCTTTGGTGGTGTGTCCTGTCTTCCAGGTTGCTTC
TCCATGTTCCGTTTGAAGGCACGTAAAGCGTCGGGAGATGATTGGGTTCCTCTCATCATCAAACCTGAAATCGTC
AAGGAATACAGCCAGTCGGAAGTCATCACCCTCCACCAAAAGAACTTACTTCTCCTTGGTGAAGATCGATTCCTG
ACGACCATCCTCCTCCGAACGTTCCCTAACAGGAAGATGATGTTCCTGCCCCAAGCCAAGTGTCGCACCATCGTT
CCGGATACCTTCCCCATTCTCCTTTCACAGCGTCGCCGATGGATCAACTCCACCATTCACAACTTGATGGAGCTC
GTCCTCGTTCGCAATCTGTGCGGAACGTTCTGTTTCAGTATGCAATTCGTCGTTTTCATGGATCTTTTGGGCACT
GTTGTCCTCCCCATTGCTATCGCCCTCACATACTCGCTAGTCATCGCCTCGGCCCTCAACCCTCCAAAGAACTTT
GAACAAGCAATCCCGCTACTCCTCCTCGTTTCCGTCTTGGGTCTCCCCGCCATCCTTATCCTCATCACCACTCGC
AAAGTCATCTACGTCTTCTGGATGTTGATCTACCTGTTTGCTCTACCTGTTTGGAACTTTGTTCTCCCTCTTTAT
GCGTTCTGGCATTTCGACGACTTTTCATGGGGTGAAACGAGAAAGGTAGAAGGTGAAGGGAAAGATACTGGACAT
GGAGATGGTGGTGGAGTTGCTTCTGCCGTCCCAATGCGAAGATGGGAAGACTGGGAGCGTTCACGGCTACGCAAG
ATCAAGCGAGAAGAGCGACGACGCAGAGATCTCGAACGGTCTCACCCTGGTGGTCTTTTCACTGGAGGCGAGCGT
GGCGAATACCTCGTTGCACCAGATACACGCAGTCAATACGGCGACAGCAGCGACACCTTCTCCGTCAACTCGTCC
GACGACGACCACTGGGGTTCGCAAATCGGCGGATACAACGAAAACAATGCCCAATTCCCTCCACCACCGGTGGCG
CTCTTCACCCCTCATAAAAACGAACTGGATTCGGCAAAGACAGTGGACGCTTCTGAACTTGAGGCTATGTTAGAG
TCAGGGTTTGATGACCGACCCACACCTCCCGCGTCAGTGATGCGGTACCAACTATCCGATGGTACGTCACCAATA
CCTCCCGCAGGTGGCGGCAACGGATACGTACCACTGAACCGTGCAGGCTCGCCTGGGCAGCCACAAACGCCTAGC
GCCCTCTCCCCTACGACACCCGCCATGACCCTCCCCAACGACTCATCCAACTGGAGCCCACCGCGAGGACCACCT
GGCCGTGGCCCACCGCAACAACAGAGATATGGTCCTTTAGGTCCCCTCGATCCGTCAACGAAATTTTAA
Length 3444

Transcript

Sequence id CopciAB_234699.T0
Sequence >CopciAB_234699.T0
AGCAACACAGCGCTCAAAGCGACCTCTTCTCGTAGCAGACTCAAGCAAGCCTGGTCTCGCTCATAAAAGGCTAAG
GCCTTTTCCAGACATTCCTTTACATCCATGGCCCTTCGTTTCCAGAACAACTATGACTTTCAAGACGTCCCAATA
CCCACCAGCACAGCTCGCCAGCCTCCACGAACAGGTGCCACGATCAAGAGGGCGAAGACGTTGACGAGGCCAGAG
CGGAGCGTTGCGCCAGTACCACTCATCACACCGGCTCAAGTCTCTCTACCAACTCCAGCAGGCGCCCAGCCAGAC
CCACAAGCCTACCCTGGCTCTCAGGCATGGCGAATAGCTTCCCGCATCATCACATTTTGGGCACCCGATTTCTTG
CTCAGCTCACTCGGTGGCCTCAAGGACGCCCAGGTTAGGCAGGCTTGGAGAGAAAAAATATCTCTCTGCTTCATA
ATAGCCGTCCTGTGCGGTTGCGTAGGCTTTGCTACAGTGGGCTTTCAAAAGGTCCTCTGCCCTGCCTCTGGCGAG
TCAGACCGCCACTTTATCAGAGTGGGCAGCGCTCCAAACACCCTCGGAATCCTGGGTCAAATGTTCAACGTAACC
GACTCAACGCCAGCTCCCGACGTCGATTTTAGAGCCCTCGCAGCTCAAAGTAACGGCCAGGACATCACCCCCCTG
TTTTCCAGGACAGCTTCCCTCTTCTCCCTCTGTCAGGGCCTCCCTTATCGAATCGCCACGGAAGAACCCTGCTCC
TCCGCAAACCCATGTCTTCTCCCATCCATCGCTGCAAATAGCACATTCCAGCAGTTTTCCTTGCGCAACACAAAC
CAACTCGCTGGATACGACTGGGATCAGGTCGCTGGACTCCGGAACTACATGGTCCTCGACGGCGCTGTTCTCAAC
CTCACGCCCTACCTTTCGATTCACACCCGCCCCATTCCTGGAGACAACGTCGATAAGGCCATTCGCACCGTCATG
GCACGGATAGATAGCGGAAGGGATGCAACTCGCCTGTTCACAAGTCGGGAAGATCTCAAGTCCGTCATCCCTTGC
ATGAAGCAGCGATATCTCGCCGGAAACATCGACAAGATCACCCCCGGTTGCTTCGCGTCAAGTCTCATGCTCTAC
GCCGGTCTCATCGTCATTCTCGCCTTGGTGTTGGTTCGCTTCGCCATGGCCTGCGTGTTCAACTGGTTCATGTCA
TCGCGCCTTGCGGGGCCTCCCACAAGTCAGGAACTGAACAGGTCTGCAATCAGTCCTGCGGTAATGCCCGAGGGC
GCGAACGTTTCTGTCGACAACAAAAATGGCACAGCCCCCTGGGCCAATCCCAAGAAACTTAGCAAGCCAGGCAAC
CCCAAAGCAGGTGTACCACGTTCCATCGCATCGTCAGCCTCGAGCGCAACTCTCACCAACAATGATGGCCTTTCA
CCCGTAATGAGCTTAACCCAAATAGGGGCCGAGTTGTTTGCGGTCTGTCTTGTCACTTGTTACTCCGAAGGCGAA
GAGTCCTTGCGAACAACCCTCGATTCCATCTCCTCCACCACCTATTCCGACGCTCGAAAACTTCTCTTCGTCGTC
GCCGATGGAATGATCACTGGCGCTGGTGAAAAGCGGAGCACACCAGATATTTGTGTTAGCTTGCTCGAGGCGGAT
CCTCGGTTCGGAAACCCGATTCCCATGGCTTATGGGGCTGTCGGCTCAGGCGCCAAGGCAAACAATAGAGCGATG
GTGTATGCTGGACATTACACTGTCGCTGGTCGCCGAACGCCTACTGTCATCGTTGTCAAATGTGGTACCGAACAA
GAGGCCCTTCATGACAAGAAGCCCGGAAACCGTGGCAAGCGCGACAGTCAACTCATCCTAATGAATTTCTTCTCT
CGTGTTACATATAACGACCGCATGACTCCCCTCGATTTCGACCTCTTCCGAAAGATCCACGTGCTAATGGGCGTT
ACTCCCGACTTCTTCGAAGTCTGTCTCATGGTGGATGCCGACACCAAGGTCTTCCCCGATTCCCTCGGTTACCTG
GTCAATTGTATGCACCATGACCAGATGATTATGGGTGTCTGTGGCGAAACCCGTATTGCGAACAAGCGGCAGTCT
TGGGTAACTGCAATTCAGGTTTTCGAATACTTCATTTCCCATCATCTCGCAAAGGCCTTCGAATCCGTCTTTGGT
GGTGTGTCCTGTCTTCCAGGTTGCTTCTCCATGTTCCGTTTGAAGGCACGTAAAGCGTCGGGAGATGATTGGGTT
CCTCTCATCATCAAACCTGAAATCGTCAAGGAATACAGCCAGTCGGAAGTCATCACCCTCCACCAAAAGAACTTA
CTTCTCCTTGGTGAAGATCGATTCCTGACGACCATCCTCCTCCGAACGTTCCCTAACAGGAAGATGATGTTCCTG
CCCCAAGCCAAGTGTCGCACCATCGTTCCGGATACCTTCCCCATTCTCCTTTCACAGCGTCGCCGATGGATCAAC
TCCACCATTCACAACTTGATGGAGCTCGTCCTCGTTCGCAATCTGTGCGGAACGTTCTGTTTCAGTATGCAATTC
GTCGTTTTCATGGATCTTTTGGGCACTGTTGTCCTCCCCATTGCTATCGCCCTCACATACTCGCTAGTCATCGCC
TCGGCCCTCAACCCTCCAAAGAACTTTGAACAAGCAATCCCGCTACTCCTCCTCGTTTCCGTCTTGGGTCTCCCC
GCCATCCTTATCCTCATCACCACTCGCAAAGTCATCTACGTCTTCTGGATGTTGATCTACCTGTTTGCTCTACCT
GTTTGGAACTTTGTTCTCCCTCTTTATGCGTTCTGGCATTTCGACGACTTTTCATGGGGTGAAACGAGAAAGGTA
GAAGGTGAAGGGAAAGATACTGGACATGGAGATGGTGGTGGAGTTGCTTCTGCCGTCCCAATGCGAAGATGGGAA
GACTGGGAGCGTTCACGGCTACGCAAGATCAAGCGAGAAGAGCGACGACGCAGAGATCTCGAACGGTCTCACCCT
GGTGGTCTTTTCACTGGAGGCGAGCGTGGCGAATACCTCGTTGCACCAGATACACGCAGTCAATACGGCGACAGC
AGCGACACCTTCTCCGTCAACTCGTCCGACGACGACCACTGGGGTTCGCAAATCGGCGGATACAACGAAAACAAT
GCCCAATTCCCTCCACCACCGGTGGCGCTCTTCACCCCTCATAAAAACGAACTGGATTCGGCAAAGACAGTGGAC
GCTTCTGAACTTGAGGCTATGTTAGAGTCAGGGTTTGATGACCGACCCACACCTCCCGCGTCAGTGATGCGGTAC
CAACTATCCGATGGTACGTCACCAATACCTCCCGCAGGTGGCGGCAACGGATACGTACCACTGAACCGTGCAGGC
TCGCCTGGGCAGCCACAAACGCCTAGCGCCCTCTCCCCTACGACACCCGCCATGACCCTCCCCAACGACTCATCC
AACTGGAGCCCACCGCGAGGACCACCTGGCCGTGGCCCACCGCAACAACAGAGATATGGTCCTTTAGGTCCCCTC
GATCCGTCAACGAAATTTTAATCATTCTTCCCGATTGCGATAATATCCAACCTATACCGCTTATTGCTTCCCCAG
TCATAACAAGTATATAGCCCCTTTTTTGGTATACCCGTCACGCCCCATTTCACGCATTCGTTGTTCATCCCTTTC
TGCGTCGCAGCACAATGTTTATAATTTTCGTCATGATGGATTGACCTGTGGAACCATTTTCTCTCTTTTCTCTAG
GTACCTAGTATATATCTATAATACCCCCACCTCGCGGTGTGTGCGCTCTCTTTCTCTCCTTACTACTCATTAGAA
CAGCCTTGGATGTCGTCCTCCGTCCCGTTCGTTCCCTTGCTGCTGCTCTTCGAAGGATGGTTGGGCTGGGCTGGA
GGGACGACACCATCGGACTGTTGGTTGGGTTTGTTATGGATCTTTTGGTTTCATCTTCCCCGCCCTTGCATAGTA
GTACCTCGCTTTGGTTTCGGTTGAATTTCTTTCCCCCTCATGTCATTTAGTCCTGTCACAACATAGTATCTATCA
AACAACACATCTTCCTTTCCTCTCCTCCGCTTTTCTCACTAAGGTTCTCCTTTCTTGCAATTCCCCCAAACGCAT
ACTTGTTCTATATTCCAACCACCTCACTCTCCCTAAGTTAATCATCGACCTGTTGTTCTTTATTACTGTTCCTTA
CAAGGAGTATAGTCTTTTACTGTGACAACAATATATATATTCTGGGTTTCTGTTC
Length 4255

Gene

Sequence id CopciAB_234699.T0
Sequence >CopciAB_234699.T0
AGCAACACAGCGCTCAAAGCGACCTCTTCTCGTAGCAGACTCAAGCAAGCCTGGTCTCGCTCATAAAAGGCTAAG
GCCTTTTCCAGACATTCCTTTACATCCATGGCCCTTCGTTTCCAGAACAACTATGACTTTCAAGACGTCCCAATA
CCCACCAGCACAGCTCGCCAGCCTCCACGAACAGGTGCCACGATCAAGAGGGCGAAGACGTTGACGAGGCCAGAG
CGGAGCGTTGCGCCAGTACCACTCATCACACCGGCTCAAGTCTCTCTACCAACTCCAGCAGGCGCCCAGCCAGAC
CCACAAGCCTACCCTGGCTCTCAGGCATGGCGAATAGCTTCCCGCATCATCACATTTTGGGCACCCGATTTCTTG
CTCAGCTCACTCGGTGGCCTCAAGGACGCCCAGGTTAGGCAGGCTTGGAGAGAAAAAATATCTCTCTGCTTCATA
ATAGCCGTCCTGTGCGGTTGCGTAGGCTTTGCTACAGTGGGCTTTCAAAAGGTCCTCTGCCCTGCCTCTGGCGAG
TCAGACCGCCACTTTATCAGAGTGGGCAGCGCTCCAAACACCCTCGGAATCCTGGGTCAAATGTTCAACGTAACC
GACTCAACGCCAGCTCCCGACGTCGATTTTAGAGCCCTCGCAGCTCAAAGTAACGGCCAGGACATCACCCCCCTG
TTTTCCAGGACAGCTTCCCTCTTCTCCCTCTGTCAGGGCCTCCCTTATCGAATCGCCACGGAAGAACCCTGCTCC
TCCGCAAACCCATGTCTTCTCCCATCCATCGCTGCAAATAGCACATTCCAGCAGTTTTCCTTGCGCAACACAAAC
CAACTCGCTGGATACGACTGGGATCAGGTCGCTGGACTCCGGAACTACATGGTCCTCGACGGCGCTGTTCTCAAC
CTCACGCCCTACCTTTCGATTCACACCCGCCCCATTCCTGGAGACAACGTCGATAAGGCCATTCGCACCGTCATG
GCACGGATAGATAGCGGAAGGGATGCAACTCGCCTGTTCACAAGTCGGGAAGATCTCAAGTCCGTCATCCCTTGC
ATGAAGCAGCGATATCTCGCCGGAAACATCGACAAGATCACCCCCGGTTGCTTCGCGTCAAGTCTCATGCTCTAC
GCCGGTCTCATCGTCATTCTCGCCTTGGTGTTGGTTCGCTTCGCCATGGCCTGCGTGTTCAACTGGTTCATGTCA
TCGCGCCTTGCGGGGCCTCCCACAAGTCAGGAACTGAACAGGTCTGCAATCAGTCCTGCGGTAATGCCCGAGGGC
GCGAACGTTTCTGTCGACAACAAAAATGGCACAGCCCCCTGGGCCAATCCCAAGAAACTTAGCAAGCCAGGCAAC
CCCAAAGCAGGTGTACCACGTTCCATCGCATCGTCAGCCTCGAGCGCAACTCTCACCAACAATGATGGCCTTTCA
CCCGTAATGAGCTTAACCCAAATAGGGGCCGAGTTGTTTGCGGTCTGTCTTGTCACTTGTTACTCCGAAGGCGAA
GAGTCCTTGCGAACAACCCTCGATTCCATCTCCTCCACCACCTATTCCGACGCTCGAAAACTTCTCTTCGTCGTC
GCCGATGGAATGATCACTGGCGCTGGTGAAAAGCGGAGCACACCAGATATTTGTGTTAGCTTGCTCGAGGCGGAT
CCTCGGTTCGGAAACCCGATTCCCATGGCTTATGGGGCTGTCGGCTCAGGCGCCAAGGCAAACAATAGAGCGATG
GTGTATGCTGGACATTACAGTAAGTGCCTTAATCGTCCCTTCCATTGTTGTTGCTGAAAGTTTTCTCTTTCTCCG
TAGCTGTCGCTGGTCGCCGAACGCCTACTGTCATCGTTGTCAAATGTGGTACCGAACAAGAGGCCCTTCATGACA
AGAAGCCCGGAAACCGTGGCAAGCGCGACAGTCAACTCATCCTAATGAATTTCTTCTCTCGTGTTACATATAACG
ACCGCATGACTCCCCTCGATTTCGACCTCTTCCGAAAGATCCACGTGCTAATGGGCGTTACTCCCGACTTCTTCG
AAGTCTGTCTCATGGTGAGTGTGGCGTCTTCTTTTTTCATCGAGTTTAAATTCAACTTTCAATAGGTGGATGCCG
ACACCAAGGTCTTCCCCGATTCCCTCGGTTACCTGGTCAATTGTATGCACCATGACCAGATGATTATGGGTGTCT
GTGGCGAAACCCGTATTGCGAACAAGCGGCAGTCTTGGGTAACTGCAATTCAGGTTTTCGAATACTTCATTTCCC
ATCATCTCGCAAAGGCCTTCGAATCCGTCTTTGGTGGTGTGTCCTGTCTTCCAGGTTGCTTCTCCATGTTCCGTT
TGAAGGCACGTAAAGCGTCGGGAGATGATTGGGTTCCTCTCATCATCAAACCTGAAATCGTCAAGGAATACAGCC
AGTCGGAAGTCATCACCCTCCACCAAAAGAACTTACTTCTCCTTGGTGAAGATCGATTCCTGACGACCATCCTCC
TCCGAACGTTCCCTAACAGGAAGATGATGTTCCTGCCCCAAGCCAAGTGTCGCACCATCGTTCCGGATACCTTCC
CCATTCTCCTTTCACAGCGTCGCCGATGGATCAACTCCACCATTCACAACTTGATGGAGCTCGTCCTCGTTCGCA
ATCTGTGCGGAACGTTCTGTTTCAGTATGCAATTCGTCGTTTTCATGGATCTTTTGGGCACTGTTGTCCTCCCCA
TTGCTATCGCCCTCACATACTCGCTAGTCATCGCCTCGGCCCTCAACCCTCCAAAGAACTTTGAACAAGCAATCC
CGCTACTCCTCCTCGTTTCCGTCTTGGGTCTCCCCGCCATCCTTATCCTCATCACCACTCGCAAAGTCATCTACG
TCTTCTGGATGTTGATCTACCTGTTTGCTCTACCTGTTTGGAACTTTGTTCTCCCTCTTTATGCGTTCTGGCATT
TCGACGACTTTTCATGGGGTGAAACGAGGTTTGTCAGATATCTTTGCTACTTTTCGCGGTTAAAAACTAACTTGT
GCGCGTCAACAGAAAGGTAGAAGGTGAAGGGAAAGATACTGGACATGGAGATGGTGGTGGAGTTGCTTCTGCCGT
CCCAATGCGAAGATGGGAAGACTGGGAGCGTTCACGGCTACGCAAGATCAAGCGAGAAGAGCGACGACGCAGAGA
TCTCGAACGGTCTCACCCTGGTGGTCTTTTCACTGGAGGCGAGCGTGGCGAATACCTCGTTGCACCAGATACACG
CAGTCAATACGGCGACAGCAGCGACACCTTCTCCGTCAACTCGTCCGACGACGACCACTGGGGTTCGCAAATCGG
CGGATACAACGAAAACAATGCCCAATTCCCTCCACCACCGGTGGCGCTCTTCACCCCTCATAAAAACGAACTGGA
TTCGGCAAAGACAGTGGACGCTTCTGAACTTGAGGCTATGTTAGAGTCAGGGTTTGATGACCGACCCACACCTCC
CGCGTCAGTGATGCGGTACCAACTATCCGATGGTACGTCACCAATACCTCCCGCAGGTGGCGGCAACGGATACGT
ACCACTGAACCGTGCAGGCTCGCCTGGGCAGCCACAAACGCCTAGCGCCCTCTCCCCTACGACACCCGCCATGAC
CCTCCCCAACGACTCATCCAACTGGAGCCCACCGCGAGGACCACCTGGCCGTGGCCCACCGCAACAACAGAGATA
TGGTCCTTTAGGTCCCCTCGATCCGTCAACGAAATTTTAATCATTCTTCCCGATTGCGATAATATCCAACCTATA
CCGCTTATTGCTTCCCCAGTCATAACAAGTATATAGCCCCTTTTTTGGTATACCCGTCACGCCCCATTTCACGCA
TTCGTTGTTCATCCCTTTCTGCGTCGCAGCACAATGTTTATAATTTTCGTCATGATGGATTGACCTGTGGAACCA
TTTTCTCTCTTTTCTCTAGGTACCTAGTATATATCTATAATACCCCCACCTCGCGGTGTGTGCGCTCTCTTTCTC
TCCTTACTACTCATTAGAACAGCCTTGGATGTCGTCCTCCGTCCCGTTCGTTCCCTTGCTGCTGCTCTTCGAAGG
ATGGTTGGGCTGGGCTGGAGGGACGACACCATCGGACTGTTGGTTGGGTTTGTTATGGATCTTTTGGTTTCATCT
TCCCCGCCCTTGCATAGTAGTACCTCGCTTTGGTTTCGGTTGAATTTCTTTCCCCCTCATGTCATTTAGTCCTGT
CACAACATAGTATCTATCAAACAACACATCTTCCTTTCCTCTCCTCCGCTTTTCTCACTAAGGTTCTCCTTTCTT
GCAATTCCCCCAAACGCATACTTGTTCTATATTCCAACCACCTCACTCTCCCTAAGTTAATCATCGACCTGTTGT
TCTTTATTACTGTTCCTTACAAGGAGTATAGTCTTTTACTGTGACAACAATATATATATTCTGGGTTTCTGTTC
Length 4424