CopciAB_482713
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_482713 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 482713
Uniprot id Functional description
Location scaffold_8:2322682..2325579 Strand +
Gene length (nt) 2898 Transcript length (nt) 2555
CDS length (nt) 2481 Protein length (aa) 826

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 0 0 0
oidia 0.1141 0.0447 0.0258
vegetative_mycelium 0.0809 0.0787 0.0454
primordia 1.6641 0.4047 0.2337
hyphal_knot 0.4161 0.2246 0.1297
young_fruiting_body 0.1799 0.1558 0.0899
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 0.0628 0.1087 0.0628
Wheat bran 0.1756 0.1744 0.1007
Horse manure 0.1921 0.2564 0.148
Oak leaves 0.7049 0.5168 0.2984
Hay 0.3693 0.2657 0.1534
Corn stalk 0.314 0.3765 0.2174
Pectine 0.1408 0.1396 0.0806
Microcrystalline cellulose 0.1893 0.1154 0.0666
Xylose 0.5937 0.5255 0.3034
Cellobiose 0.0509 0.0881 0.0509
Lignin 0.7775 1.1037 0.6372
Apple peels 0.0794 0.085 0.0491
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 0.0159 0.0275 0.0159
Bsubtilis 0.0368 0.0323 0.0186
Ecoli 0 0 0
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 0.0291 0.0504 0.0291
BS 4h 0.0271 0.047 0.0271
BS 8h 0.0775 0.0223 0.0129
BS 12h 0.0266 0.0461 0.0266
Oidia 0 h 4.3729 1.3646 0.7879
Oidia 18 h 0.2257 0.1798 0.1038
Sclerotia 0.126 0.2182 0.126
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 0 0 0
DM 36h 0.074 0.0712 0.0411
DM 60h 0.0281 0.0487 0.0281
DM 84h 0.0901 0.1561 0.0901
DM 108h 0.0176 0.0305 0.0176
DM 132h 0.0308 0.0533 0.0308
DM 156hAE 0.0259 0.0449 0.0259
ELI1hAE 0.0902 0.1232 0.0711
ELI2hAE 0.0284 0.0492 0.0284
LI2hAE 0.1619 0.1449 0.0837
LI6hAE 0 0 0
LI12hAE 0.297 0.4443 0.2565
LI18hAE 0 0 0
LI 24hAE 0.1434 0.1776 0.1025
DM 156hAM 0 0 0
ELI1hAM 0.0515 0.0892 0.0515
ELI2hAM 0 0 0
LI2hAM 0.0978 0.1694 0.0978
LI6hAM 0.003 0.0052 0.003
LI12hAM 0 0 0
LI18hAM 0.2653 0.2308 0.1333
LI 24hAM 0.0102 0.0176 0.0102
LI 24hHK 0.169 0.1466 0.0846
L/D 6h 0.1596 0.0781 0.0451
L/D 12h 0.6464 0.6961 0.4019
L/D 18h 0 0 0
L/D 24h 0.446 0.5633 0.3252
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 0.102 0.1073 0.062
Hyphal knots 0.5974 0.3795 0.2191
Primordium 1 0.5071 0.0886 0.0511
Primordium 2 0.3425 0.1888 0.109
Young Fruiting body cap 0.2437 0.1699 0.0981
Younf fruiting body gill 0.5939 0.4425 0.2555
Young fruiting body stipe 0.0428 0.0406 0.0234
Mature fruiting body cap_gill 0.0797 0.0724 0.0418
Mature fruiting body stipe 0.1098 0.0275 0.0159
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 0.0578 0.1001 0.0578
NH4NO3 0.2194 0.1961 0.1132
Proline 0.0344 0.0597 0.0344
Tryptophan 0 0 0
Isoleucin 0.0593 0.0614 0.0354
Arginine 0.0194 0.0336 0.0194
Metionine 0.0731 0.0345 0.0199
NaNO3 0.098 0.0971 0.056
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 0.0578 0.1001 0.0578
Citrus peel 0 0 0
Poplar leaves 0.1277 0.136 0.0785
Typha leaves 0.0748 0.0656 0.0379
Overwintered Salix leaves 0.0602 0.0532 0.0307
Reed flowering 0.0776 0.0869 0.0502
Tigernut 0.1645 0.1448 0.0836
Energy cane 0.0879 0.109 0.0629
Guar gum 0.0898 0.0855 0.0494
Apple peels 0.0585 0.1013 0.0585
Cellobiose 0.1431 0.0452 0.0261
Corn stalk 0.079 0.0739 0.0427
Horse manure 0.1956 0.2041 0.1178
Lignin 0.2057 0.3563 0.2057
Microcrystalline cellulose 0.0805 0.0747 0.0431
Oak leaves 0.0798 0.1027 0.0593
Pectin esterified 0.1156 0.1058 0.0611
Poplar sawdust 0.2222 0.2623 0.1514
Wheat bran 0.1405 0.107 0.0618
Chlamydomonas reinhardtii 0.0884 0.0339 0.0196
Vertatryl alcohol 0.2043 0.0689 0.0398
Furfural 0.0609 0.0592 0.0342
Autoclaved mycelium 0.1794 0.192 0.1109
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 0.0778 0.0746 0.0431
Ribose 0 0 0
Mannose 0.1317 0.0244 0.0172
Fructose 0.2777 0.3366 0.1943
Arabinose 0.1375 0.0599 0.0346
Xylose 0 0 0
Galacturonic acid 0.0882 0.1527 0.0882
Rhamnogalacturonan 0.1387 0.1313 0.0758
Pectin esterified 0.3679 0.3518 0.2031
Polygalacturonic acid 0.103 0.0531 0.0306
Sodium acetate 0.0573 0.0647 0.0374
No nitrogen 0.1292 0.1579 0.0911
BSA 0.0441 0.0763 0.0441
Glutamine 0.0265 0.0459 0.0265
No phosphate 0.1556 0.1899 0.1096
No carbon 0.1523 0.0506 0.0358
No sulphur 0.1295 0.0938 0.0542
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 0.0578 0.1001 0.0578
Amylose 0.1603 0.1501 0.0866
Fucose 0.1598 0.1113 0.0642
Galactose 0.2037 0.0738 0.0426
Lactose 0.1044 0.094 0.0543
Maltose 0.2325 0.1329 0.0767
Mannitol 0.1343 0.0787 0.0455
Rhamnose 0.1472 0.0599 0.0346
Sorbitol 0.2061 0.1458 0.0842
Trehalose 0.1736 0.1804 0.1041
Glycerol 0.1066 0.0538 0.0311
Glucuronic acid 0.1119 0.0462 0.0266
Arabinan 0.1822 0.0796 0.0459
Galactan 0.1469 0.1146 0.0661
Galactomannan 0.2115 0.0924 0.0533
Glucan 0.1433 0.1574 0.0908
Xylan 0.1869 0.0381 0.022
Xyloglucan 0.0672 0.0782 0.0452
Arabinogalactan 0.167 0.2097 0.1211
Pectin 0.0229 0.0396 0.0229
Rhamnogalacturonan 0.1335 0.2312 0.1335
Polygalacturonic acid 0.1338 0.1103 0.0637
Mannan 0.1035 0.1054 0.0609
Amylopectin 0.0789 0.1366 0.0789
Inulin 0.1086 0.0959 0.0554
BSA 0.0274 0.0475 0.0274
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 0.0281 0.0487 0.0281
2h WAT 0.0299 0.0517 0.0299
4h WAT 0 0 0
8h WAT 0 0 0
16h WAT 0 0 0
24h WAT 0.2756 0.3205 0.1851
WAT hyphal knot -30h 0.0634 0.1098 0.0634
WAT hyphal knot -22h 0.1429 0.2475 0.1429
WAT hyphal knot -15h 0 0 0
WAT hyphal knot -7.5h 0.0557 0.0964 0.0557
WAT hyphal knot 0.3388 0.5868 0.3388
WAT hyphal knot +7.5h 0.0591 0.1023 0.0591
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 0.0913 0.0954 0.0551
Straw 3h 0.1722 0.0987 0.057
Straw 6h 0.2452 0.2394 0.1382
Straw 12h 0.1548 0.1646 0.095
Straw 24h 0.06 0.1039 0.06
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 0 0 0
Frost (-20C, 30min) 0.115 0.0259 0.0149
Heat shock (47C, 2h) 0.2547 0.2555 0.1475
High CO2 0.056 0.0694 0.0401
Drought (4% agar, 12h) 0.1083 0.1019 0.0588
Oxidative (1mM H2O2, 3h) 0 0 0
Acidic (pH4, 3h) 0 0 0
Alkaline (pH9, 3h) 0.0309 0.0535 0.0309
Osmotic (sorbitol 2h) 0.0065 0.0112 0.0065
CongoRed (3h) 0.0657 0.1139 0.0657
Cobalt chloride control 0.006 0.0104 0.006
Cobalt chloride 2mM 0 0 0
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 0 0 0
Cold stimulation 0 0 0
Scratched surface 0.0617 0.107 0.0617
Ca2+, 200mM, 24h 0.1581 0.2739 0.1581
Cu2+, 2mM, 6h 0 0 0
Voriconazole 0 0 0
Trichoderma interaction, early 0.0329 0.0289 0.0167
Trichoderma interaction 60h 14.1861 10.0363 5.7945
Cobalt chloride 2mM repeat 0 0 0
Hypoxia 0.0652 0.1029 0.0594
Hypoxia control 0 0 0
Protoplastation control 0.0543 0.0768 0.0543
Protoplastation 3.5h 0 0 0
Protoplastation 1.5h 0 0 0

General data

Systematic name -
Protein id CopciAB_482713.T0
Description

Annotation summary

0 200 400 600 800 826

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF17667 Fungal protein kinase IPR040976 206 662

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_482713 across fungi.

Arrow shows the origin of gene family containing CopciAB_482713.

Protein

Sequence id CopciAB_482713.T0
Sequence >CopciAB_482713.T0
MAPRSLPPRTPKKYKKKLAHARTVPNPKDTPRSLPSLAPLIEARRLRAEIGDLMNSETLVCTPDEFMDCYMPPRD
QEKIQIVLDLLLDAGILVPRNPNLPTATESTKGAYRYVFKVFQQKPSEVKKGAKKRPQGDDGESSERTVNEIRMF
DNLGEVGQAILHALKNVDGVKTNGYQIRMCPHKPVTSTIEGDGHQIDAALTRNLNKKIPLLVTDIIIPFEFKLEL
VNKEGNRQQLVCHVNHTMNDDPRRLWVYGMTIEDDQVTIWYFSRSHSMMSTSFSFLDRADLLVEILVSFFCATDE
QLGIDPNVKLVGKDKYVYRFPADSTNPEPAYYYTVDSIEEYRPLKLRCRATRLWRVTQVESFDNYNRITDKDFVL
KEVFLNSDAPSEMDIQQKLFEDVKKFRDDKGWRQREILSAFSPESKRTLGAALKDFKKYFSCAIRQHSGNPGLEV
SPKARAVSNIFPVYVPPPEQPLGSTVRRMSGTQPPVKKGGARKATQKKHTGAMGSPPDPNALTPRRPCRVLFENV
CTPLHDIPTLGEAIDVLKQCVIALQIMFCAGWVHRDISAGNVLALRRKRGGKWQVKLSDLEYAKRFPSDAPASSQ
PKTGTPYFMPCEILMQRLFRKVAYNRVTDISDEPSTSVVPRPSVIHGYQHDLESVWWIILWLITMRVAMKLPRTW
GKKIFCNEPDANNRKVVLDPSDPLPEQPDLVEGLPEILKGSSFLTAVDNLRRNILVEYMNRNADNKHSDLTSYSW
IAGEAFKLFFSHVSLSRKEWEGLEMKQKMDDLEDDILEDESDSDSDDSAPPSPTAMAINRGSGPRPSKKARVDKL
R
Length 826

Coding

Sequence id CopciAB_482713.T0
Sequence >CopciAB_482713.T0
ATGGCTCCACGAAGTCTTCCACCGCGGACGCCCAAGAAATACAAGAAGAAACTGGCCCATGCCAGAACCGTACCG
AACCCGAAGGATACACCACGGTCGCTCCCATCGTTGGCCCCGCTTATCGAAGCGCGCAGGCTTCGCGCCGAAATT
GGCGACTTGATGAATTCGGAAACTCTCGTCTGCACGCCCGACGAGTTCATGGACTGCTACATGCCACCCCGAGAC
CAAGAGAAGATACAGATAGTGTTGGACCTCTTACTCGACGCAGGAATTCTTGTCCCTCGCAATCCTAATCTGCCG
ACCGCTACCGAGTCGACAAAGGGTGCATACCGCTATGTGTTTAAGGTCTTCCAGCAAAAGCCCTCTGAAGTGAAG
AAGGGAGCGAAGAAGCGTCCCCAAGGAGATGACGGCGAGAGCAGTGAGAGAACCGTGAATGAGATCCGGATGTTC
GACAATCTAGGCGAGGTCGGCCAGGCGATTCTCCATGCCTTGAAGAATGTCGATGGGGTGAAAACCAACGGCTAC
CAGATTCGCATGTGCCCGCACAAGCCAGTCACATCGACAATCGAGGGAGATGGTCACCAGATAGATGCTGCACTC
ACGAGGAATCTCAACAAGAAGATACCTCTGCTCGTGACTGACATTATAATCCCGTTTGAATTCAAACTGGAACTT
GTTAACAAAGAAGGGAACCGCCAGCAATTGGTTTGCCATGTGAACCACACCATGAACGACGATCCCCGTCGTCTA
TGGGTCTATGGAATGACTATTGAGGATGACCAGGTCACTATCTGGTACTTCTCCCGTTCGCACTCGATGATGTCG
ACGTCCTTCAGCTTTCTCGATCGCGCAGACTTACTCGTCGAGATCCTGGTCTCGTTCTTCTGTGCAACAGACGAG
CAGCTTGGCATCGATCCCAATGTCAAGCTAGTCGGAAAGGACAAATACGTCTACAGGTTCCCCGCCGATTCCACC
AACCCCGAACCTGCCTACTATTACACTGTTGACTCCATCGAGGAGTATCGACCACTGAAACTGCGGTGTCGCGCA
ACTCGCCTTTGGAGGGTTACGCAAGTCGAATCTTTTGACAATTACAATCGCATTACCGACAAAGACTTTGTCCTC
AAGGAAGTCTTCCTCAATTCCGACGCTCCATCCGAGATGGATATCCAGCAGAAGCTTTTCGAGGACGTAAAGAAG
TTTAGGGACGACAAGGGGTGGCGTCAGCGGGAGATTCTATCGGCCTTCAGTCCAGAGAGCAAGAGAACGCTTGGT
GCTGCACTCAAAGACTTCAAGAAATATTTCTCCTGCGCCATCCGCCAACACAGTGGCAATCCTGGTCTCGAAGTA
TCACCCAAAGCACGGGCCGTCTCTAACATATTCCCAGTCTACGTACCACCTCCAGAGCAGCCCCTCGGGAGCACG
GTCAGGCGTATGAGCGGAACTCAACCACCTGTCAAGAAAGGTGGTGCGAGGAAGGCGACCCAAAAGAAGCACACC
GGAGCGATGGGGTCCCCGCCCGACCCCAACGCACTCACTCCAAGACGCCCATGCCGAGTTCTCTTCGAGAATGTC
TGCACCCCCCTTCACGATATACCAACCCTCGGAGAAGCCATCGACGTTTTGAAGCAATGTGTCATTGCTCTTCAA
ATAATGTTCTGTGCCGGATGGGTGCACCGGGACATTAGCGCAGGAAACGTTCTCGCCCTCCGCCGTAAGCGAGGC
GGGAAGTGGCAAGTCAAGTTATCTGACCTCGAGTATGCAAAGAGATTCCCTTCGGATGCACCAGCCAGCTCTCAG
CCCAAGACAGGGACACCTTACTTTATGCCATGCGAAATCCTAATGCAACGTCTCTTCCGAAAGGTTGCCTACAAC
AGAGTAACAGACATCAGCGACGAGCCTTCGACGAGCGTGGTACCTAGGCCAAGTGTTATACATGGCTATCAGCAC
GACCTGGAGTCCGTCTGGTGGATCATCCTCTGGTTGATTACCATGCGAGTGGCGATGAAATTGCCCAGAACGTGG
GGGAAAAAGATCTTCTGTAACGAACCGGACGCAAACAATCGTAAGGTCGTTCTTGACCCCAGTGACCCATTGCCA
GAACAGCCGGACCTCGTTGAGGGCCTTCCGGAAATTTTGAAAGGCTCGTCGTTCTTAACCGCCGTCGACAATCTT
CGCAGAAACATCCTTGTTGAATACATGAATCGCAATGCAGACAACAAGCACAGCGACCTGACATCGTATTCGTGG
ATTGCTGGAGAAGCGTTCAAGCTATTCTTCAGTCACGTATCGCTCAGCAGAAAGGAATGGGAAGGGCTCGAAATG
AAGCAGAAAATGGATGATCTTGAAGATGACATTTTGGAGGATGAGTCGGATTCGGACTCGGATGATTCTGCACCG
CCATCGCCCACGGCTATGGCAATCAATCGCGGGAGTGGACCAAGACCGTCCAAGAAGGCTCGAGTGGATAAATTG
AGATAA
Length 2481

Transcript

Sequence id CopciAB_482713.T0
Sequence >CopciAB_482713.T0
TTTTTTAATCCATAGAGCTTTTATAGTTCCTCATACATCTCTCAACACACCTACGGGGCCCAACTGTAGCTACGA
TGGCTCCACGAAGTCTTCCACCGCGGACGCCCAAGAAATACAAGAAGAAACTGGCCCATGCCAGAACCGTACCGA
ACCCGAAGGATACACCACGGTCGCTCCCATCGTTGGCCCCGCTTATCGAAGCGCGCAGGCTTCGCGCCGAAATTG
GCGACTTGATGAATTCGGAAACTCTCGTCTGCACGCCCGACGAGTTCATGGACTGCTACATGCCACCCCGAGACC
AAGAGAAGATACAGATAGTGTTGGACCTCTTACTCGACGCAGGAATTCTTGTCCCTCGCAATCCTAATCTGCCGA
CCGCTACCGAGTCGACAAAGGGTGCATACCGCTATGTGTTTAAGGTCTTCCAGCAAAAGCCCTCTGAAGTGAAGA
AGGGAGCGAAGAAGCGTCCCCAAGGAGATGACGGCGAGAGCAGTGAGAGAACCGTGAATGAGATCCGGATGTTCG
ACAATCTAGGCGAGGTCGGCCAGGCGATTCTCCATGCCTTGAAGAATGTCGATGGGGTGAAAACCAACGGCTACC
AGATTCGCATGTGCCCGCACAAGCCAGTCACATCGACAATCGAGGGAGATGGTCACCAGATAGATGCTGCACTCA
CGAGGAATCTCAACAAGAAGATACCTCTGCTCGTGACTGACATTATAATCCCGTTTGAATTCAAACTGGAACTTG
TTAACAAAGAAGGGAACCGCCAGCAATTGGTTTGCCATGTGAACCACACCATGAACGACGATCCCCGTCGTCTAT
GGGTCTATGGAATGACTATTGAGGATGACCAGGTCACTATCTGGTACTTCTCCCGTTCGCACTCGATGATGTCGA
CGTCCTTCAGCTTTCTCGATCGCGCAGACTTACTCGTCGAGATCCTGGTCTCGTTCTTCTGTGCAACAGACGAGC
AGCTTGGCATCGATCCCAATGTCAAGCTAGTCGGAAAGGACAAATACGTCTACAGGTTCCCCGCCGATTCCACCA
ACCCCGAACCTGCCTACTATTACACTGTTGACTCCATCGAGGAGTATCGACCACTGAAACTGCGGTGTCGCGCAA
CTCGCCTTTGGAGGGTTACGCAAGTCGAATCTTTTGACAATTACAATCGCATTACCGACAAAGACTTTGTCCTCA
AGGAAGTCTTCCTCAATTCCGACGCTCCATCCGAGATGGATATCCAGCAGAAGCTTTTCGAGGACGTAAAGAAGT
TTAGGGACGACAAGGGGTGGCGTCAGCGGGAGATTCTATCGGCCTTCAGTCCAGAGAGCAAGAGAACGCTTGGTG
CTGCACTCAAAGACTTCAAGAAATATTTCTCCTGCGCCATCCGCCAACACAGTGGCAATCCTGGTCTCGAAGTAT
CACCCAAAGCACGGGCCGTCTCTAACATATTCCCAGTCTACGTACCACCTCCAGAGCAGCCCCTCGGGAGCACGG
TCAGGCGTATGAGCGGAACTCAACCACCTGTCAAGAAAGGTGGTGCGAGGAAGGCGACCCAAAAGAAGCACACCG
GAGCGATGGGGTCCCCGCCCGACCCCAACGCACTCACTCCAAGACGCCCATGCCGAGTTCTCTTCGAGAATGTCT
GCACCCCCCTTCACGATATACCAACCCTCGGAGAAGCCATCGACGTTTTGAAGCAATGTGTCATTGCTCTTCAAA
TAATGTTCTGTGCCGGATGGGTGCACCGGGACATTAGCGCAGGAAACGTTCTCGCCCTCCGCCGTAAGCGAGGCG
GGAAGTGGCAAGTCAAGTTATCTGACCTCGAGTATGCAAAGAGATTCCCTTCGGATGCACCAGCCAGCTCTCAGC
CCAAGACAGGGACACCTTACTTTATGCCATGCGAAATCCTAATGCAACGTCTCTTCCGAAAGGTTGCCTACAACA
GAGTAACAGACATCAGCGACGAGCCTTCGACGAGCGTGGTACCTAGGCCAAGTGTTATACATGGCTATCAGCACG
ACCTGGAGTCCGTCTGGTGGATCATCCTCTGGTTGATTACCATGCGAGTGGCGATGAAATTGCCCAGAACGTGGG
GGAAAAAGATCTTCTGTAACGAACCGGACGCAAACAATCGTAAGGTCGTTCTTGACCCCAGTGACCCATTGCCAG
AACAGCCGGACCTCGTTGAGGGCCTTCCGGAAATTTTGAAAGGCTCGTCGTTCTTAACCGCCGTCGACAATCTTC
GCAGAAACATCCTTGTTGAATACATGAATCGCAATGCAGACAACAAGCACAGCGACCTGACATCGTATTCGTGGA
TTGCTGGAGAAGCGTTCAAGCTATTCTTCAGTCACGTATCGCTCAGCAGAAAGGAATGGGAAGGGCTCGAAATGA
AGCAGAAAATGGATGATCTTGAAGATGACATTTTGGAGGATGAGTCGGATTCGGACTCGGATGATTCTGCACCGC
CATCGCCCACGGCTATGGCAATCAATCGCGGGAGTGGACCAAGACCGTCCAAGAAGGCTCGAGTGGATAAATTGA
GATAA
Length 2555

Gene

Sequence id CopciAB_482713.T0
Sequence >CopciAB_482713.T0
TTTTTTAATCCATAGAGCTTTTATAGTTCCTCATACATCTCTCAACACACCTACGGGGCCCAACTGTAGCTACGA
TGGCTCCACGAAGTCTTCCACCGCGGTACGTTAGACTCAATCTTCGCACAGACGGTGTGGCTTTACTCATTTCGA
CCAACCCTTCAGGACGCCCAAGAAATACAAGAAGAAACTGGCCCATGCCAGAACCGTACCGAACCCGAAGGATAC
ACCACGGTCGCTCCCATCGTTGGCCCCGCTTATCGAAGCGCGCAGGCTTCGCGCCGAAATTGGCGACTTGATGAA
TTCGGAAACTCTCGTCTGCACGCCCGACGAGTTCATGGACTGCTACATGCCACCCCGAGACCAAGAGAAGATACA
GATAGTGTTGGACCTCTTACTCGACGCAGGAATTCTTGTCCCTCGCAATCCTAATCTGCCGACCGCTACCGAGTC
GACAAAGGGTGCATACCGCTATGTGTTTAAGGTCTTCCAGCAAAAGCCCTCTGAAGTGAAGAAGGGAGCGAAGAA
GCGTCCCCAAGGAGATGACGGCGAGAGCAGTGAGAGAACCGTGAATGAGATCCGGATGTTCGACAATCTAGGCGA
GGTCGGCCAGGCGATTCTCCATGCCTTGAAGAATGTCGATGGGGTGAAAACCAACGGCTACCAGATTCGCATGTG
CCCGCACAAGCCAGTCACATCGACAATCGAGGGAGATGGTCACCAGATAGATGCTGCACTCACGAGGAATCTCAA
CAAGAAGATACCTCTGCTCGTGACTGACATTATAATCCCGTTTGAATTCAAACTGGAACTTGTTAACAAAGAAGG
GGTACGTCGTGATTCACTCTTTACATCTTTGGTCTAGTCTGACGTGTTATCTTCTGTCTGCAGAACCGCCAGCAA
TTGGTTTGCCATGTGAACCACACCATGAACGACGATCCCCGTCGTCTATGGGTCTATGGAGTGAGTACTATTTCT
CTCTTCACATATCCGATGCTAACCGAGGTGGGTAGATGACTATTGAGGATGACCAGGTCACTATCTGGTACTTCT
CCCGTTCGCACTCGATGATGTCGACGTCCTTCAGCTTTCTCGATGTAAGTCGAATGGTGACCCATGGTTCTTCCT
CTCTCTGACAGTCACACAGCGCGCAGACTTACTCGTCGAGATCCTGGTCTCGTTCTTCTGTGCAACAGACGAGCA
GCTTGGCATCGATCCCAATGTCAAGCTAGTCGGAAAGGACAAATACGTCTACAGGTTCCCCGCCGATTCCACCAA
CCCCGAACCTGCCTACTATTACACTGTTGACTCCATCGAGGAGTATCGACCACTGAAACTGCGGTGTCGCGCAAC
TCGCCTTTGGAGGGTTACGCAAGTCGAATCTTTTGACAATTACAATCGCATTACCGACAAAGACTTTGTCCTCAA
GGAAGTCTTCCTCAATTCCGACGCTCCATCCGAGATGGATATCCAGCAGAAGCTTTTCGAGGACGTAAAGAAGTT
TAGGGACGACAAGGGGTGGCGTCAGCGGGAGATTCTATCGGCCTTCAGTCCAGAGAGCAAGAGAACGCTTGGTGC
TGCACTCAAAGACTTCAAGAAATATTTCTCCTGCGCCATCCGCCAACACAGTGGCAATCCTGGTCTCGAAGTATC
ACCCAAAGCACGGGCCGTCTCTAACATATTCCCAGTCTACGTACCACCTCCAGAGCAGCCCCTCGGGAGCACGGT
CAGGCGTATGAGCGGAACTCAACCACCTGTCAAGAAAGGTGGTGCGAGGAAGGCGACCCAAAAGAAGCACACCGG
AGCGATGGGGTCCCCGCCCGACCCCAACGCACTCACTCCAAGACGCCCATGCCGAGTTCTCTTCGAGAATGTCTG
CACCCCCCTTCACGATATACCAACCCTCGGAGAAGCCATCGACGTTTTGAAGCAATGTGTCATTGGTAAGTGGAT
TCACCCATCGTCGACTCACATGGAATCTAACGCAGGATTATATAGCTCTTCAAATAATGTTCTGTGCCGGATGGG
TGCACCGGGACATTAGCGCAGGAAACGTTCTCGCCCTCCGCCGTAAGCGAGGCGGGAAGTGGCAAGTCAAGTTAT
CTGACCTCGAGTATGCAAAGAGATTCCCTTCGGATGCACCAGCCAGCTCTCAGCCCAAGACAGTGAGTAGCGCCT
CTTATAATCAGGACTGGACACTAGACTTATCTCAATTCGGCTGCCTTAAAGGGGACACCTTACTTTATGCCATGC
GAAATCCTAATGCAACGTCTCTTCCGAAAGGTTGCCTACAACAGAGTAACAGACATCAGCGACGAGCCTTCGACG
AGCGTGGTACCTAGGCCAAGTGTTATACATGGCTATCAGCACGACCTGGAGTCCGTCTGGTGGATCATCCTCTGG
TTGATTACCATGCGAGTGGCGATGAAATTGCCCAGAACGTGGGGGAAAAAGATCTTCTGTAACGAACCGGACGCA
AACAATCGTAAGGTCGTTCTTGACCCCAGTGACCCATTGCCAGAACAGCCGGACCTCGTTGAGGGCCTTCCGGAA
ATTTTGAAAGGCTCGTCGTTCTTAACCGCCGTCGACAATCTTCGCAGAAACATCCTTGTTGAATACATGAATCGC
AATGCAGACAACAAGCACAGCGACCTGACATCGTATTCGTGGATTGCTGGAGAAGCGTTCAAGCTATTCTTCAGT
CACGTATCGCTCAGCAGAAAGGAATGGGAAGGGCTCGAAATGAAGCAGAAAATGGATGATCTTGAAGATGACATT
TTGGAGGATGAGTCGGATTCGGACTCGGATGATTCTGCACCGCCATCGCCCACGGCTATGGCAATCAATCGCGGG
AGTGGACCAAGACCGTCCAAGAAGGCTCGAGTGGATAAATTGAGATAA
Length 2898