CopciAB_443961
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_443961 Strain Coprinopsis cinerea Okayama 7
Standard name - Synonyms 443961
Uniprot id Functional description Phosphotransferase enzyme family
Location scaffold_10:288487..292398 Strand +
Gene length (nt) 3912 Transcript length (nt) 3793
CDS length (nt) 3174 Protein length (aa) 1057

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. burnettii JB137-S8 Agabi_varbur_1_108657 39.9 1.691E-103 363
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_180565 39.9 7.319E-103 361
Agrocybe aegerita Agrae_CAA7261973 45.1 2.097E-101 357
Hypsizygus marmoreus strain 51987-8 Hypma_RDB23967 46.5 1.067E-88 318
Auricularia subglabra Aurde3_1_1212483 28.8 8.189E-30 129
Lentinula edodes NBRC 111202 Lenedo1_1101173 26.5 3.543E-18 90
Schizophyllum commune H4-8 Schco3_2627529 30 1.891E-11 68
Lentinula edodes B17 Lened_B_1_1_3642 27 1.746E-9 61

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 307.8875 10.4279 6.0206
oidia 128.2555 14.87 8.5852
vegetative_mycelium 132.9749 21.909 12.6492
primordia 46.8255 4.6577 2.6891
hyphal_knot 208.6015 44.4834 25.6825
young_fruiting_body 160.9419 13.544 7.8196
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 129.305 35.9008 20.7273
Wheat bran 110.3148 66.4939 38.3903
Horse manure 151.4961 83.5252 48.2233
Oak leaves 773.5634 497.6536 287.3205
Hay 229.314 157.4167 90.8846
Corn stalk 447.8109 304.6231 175.8742
Pectine 135.5508 29.539 17.0544
Microcrystalline cellulose 111.2049 8.7773 5.0676
Xylose 144.0071 21.4412 12.3791
Cellobiose 149.6972 21.1106 12.1882
Lignin 332.4206 170.1063 98.2109
Apple peels 127.7481 22.6809 13.0948
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 82.8236 6.8754 3.9695
Bsubtilis 110.9409 5.087 2.937
Ecoli 107.3342 2.9279 1.6904
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 73.9689 9.8897 5.7098
BS 4h 26.4857 11.6326 6.7161
BS 8h 25.7068 5.5177 3.1856
BS 12h 29.9651 8.034 4.6384
Oidia 0 h 51.2472 11.8768 6.8571
Oidia 18 h 40.9378 8.2939 4.7885
Sclerotia 27.9001 4.9422 2.8534
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 26.6305 4.105 2.37
DM 36h 36.6486 8.9005 5.1387
DM 60h 30.0368 5.1243 2.9585
DM 84h 28.1046 2.5491 1.4717
DM 108h 32.1207 1.8945 1.0938
DM 132h 33.2129 3.2329 1.8665
DM 156hAE 69.1715 6.6531 3.8412
ELI1hAE 42.6992 7.5287 4.3467
ELI2hAE 40.8853 3.5837 2.0691
LI2hAE 41.3245 9.3442 5.3949
LI6hAE 52.7221 5.7547 3.3225
LI12hAE 31.4591 5.1811 2.9913
LI18hAE 23.5841 13.8876 8.018
LI 24hAE 48.0334 15.1712 8.7591
DM 156hAM 28.4219 2.884 1.6651
ELI1hAM 17.4959 4.0747 2.3525
ELI2hAM 23.8306 1.689 0.9751
LI2hAM 24.9584 6.8818 3.9732
LI6hAM 33.064 8.0556 4.6509
LI12hAM 18.2587 4.5641 2.6351
LI18hAM 21.2266 11.1273 6.4243
LI 24hAM 36.452 11.4199 6.5933
LI 24hHK 20.1712 10.1456 5.8576
L/D 6h 21.9681 2.2224 1.2831
L/D 12h 28.3064 2.7384 1.581
L/D 18h 43.8798 10.6891 6.1714
L/D 24h 30.0064 7.8215 4.5158
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 61.8181 1.972 1.1385
Hyphal knots 123.1955 65.7002 37.932
Primordium 1 67.7069 4.0732 2.3516
Primordium 2 62.1554 14.1881 8.1915
Young Fruiting body cap 116.5943 54.7544 31.6125
Younf fruiting body gill 32.1324 21.6576 12.504
Young fruiting body stipe 156.6682 26.7218 15.4278
Mature fruiting body cap_gill 554.034 65.7279 37.948
Mature fruiting body stipe 306.583 28.8604 16.6626
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 132.8604 12.7867 7.3824
NH4NO3 109.5507 7.6991 4.4451
Proline 128.0665 35.1024 20.2664
Tryptophan 105.0677 31.5602 18.2213
Isoleucin 117.5199 41.2044 23.7894
Arginine 175.179 18.3614 10.601
Metionine 156.4085 21.6725 12.5126
NaNO3 139.097 24.7777 14.3054
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 132.8604 12.7867 7.3824
Citrus peel 86.3671 7.9194 4.5723
Poplar leaves 131.0364 18.6306 10.7564
Typha leaves 124.7872 15.9621 9.2157
Overwintered Salix leaves 118.0591 8.7212 5.0352
Reed flowering 103.2928 26.7877 15.4659
Tigernut 84.9934 14.5673 8.4104
Energy cane 117.7941 12.3901 7.1535
Guar gum 115.7877 31.3461 18.0977
Apple peels 99.0597 19.419 11.2116
Cellobiose 102.9088 11.0512 6.3804
Corn stalk 109.7723 13.7221 7.9225
Horse manure 123.1237 19.4188 11.2115
Lignin 87.5703 9.0945 5.2507
Microcrystalline cellulose 144.4664 25.982 15.0007
Oak leaves 98 18.1232 10.4634
Pectin esterified 71.1522 6.2545 3.611
Poplar sawdust 105.8335 20.637 11.9148
Wheat bran 55.4515 9.0409 5.2198
Chlamydomonas reinhardtii 139.3707 16.94 9.7803
Vertatryl alcohol 112.5659 12.375 7.1447
Furfural 152.1871 28.1922 16.2768
Autoclaved mycelium 132.1081 6.2551 3.6114
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 80.3892 9.0531 5.2268
Ribose 139.191 22.7754 13.1494
Mannose 112.4127 2.9083 2.0565
Fructose 111.6828 2.9618 1.71
Arabinose 139.5582 12.1035 6.988
Xylose 124.1324 11.2401 6.4895
Galacturonic acid 133.4394 28.8128 16.6351
Rhamnogalacturonan 109.5476 14.8278 8.5608
Pectin esterified 120.0385 6.45 3.7239
Polygalacturonic acid 113.7956 7.4081 4.277
Sodium acetate 151.7603 12.2846 7.0925
No nitrogen 111.4494 14.5155 8.3805
BSA 130.752 3.349 1.9335
Glutamine 121.4576 16.2024 9.3545
No phosphate 87.4611 8.4706 4.8905
No carbon 143.2943 9.3871 6.6377
No sulphur 124.5769 7.7496 4.4742
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 132.8604 12.7867 7.3824
Amylose 114.3664 3.9496 2.2803
Fucose 116.7111 2.2695 1.3103
Galactose 132.3409 5.0109 2.893
Lactose 107.4491 16.9545 9.7887
Maltose 126.321 14.886 8.5945
Mannitol 111.8187 18.1447 10.4758
Rhamnose 127.2817 9.6725 5.5844
Sorbitol 97.1788 8.4543 4.8811
Trehalose 111.1533 19.9932 11.5431
Glycerol 131.0476 9.607 5.5466
Glucuronic acid 117.6091 5.7665 3.3293
Arabinan 103.2427 10.4644 6.0417
Galactan 121.2435 10.4224 6.0174
Galactomannan 95.5763 16.4249 9.4829
Glucan 104.2878 10.1038 5.8334
Xylan 104.3407 7.2068 4.1608
Xyloglucan 138.4586 20.6649 11.9309
Arabinogalactan 130.7545 2.4803 1.432
Pectin 88.7014 48.0054 27.716
Rhamnogalacturonan 128.5849 29.9976 17.3191
Polygalacturonic acid 108.9573 12.7732 7.3746
Mannan 104.7708 8.3403 4.8153
Amylopectin 103.314 13.8182 7.978
Inulin 186.694 35.8014 20.67
BSA 95.9104 12.1491 7.0143
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 30.0368 5.1243 2.9585
2h WAT 17.0838 3.0694 1.7721
4h WAT 23.5704 7.5807 4.3767
8h WAT 18.3837 2.7038 1.5611
16h WAT 25.0798 5.259 3.0363
24h WAT 25.0886 6.8167 3.9356
WAT hyphal knot -30h 27.8889 4.8499 2.8001
WAT hyphal knot -22h 32.2934 2.2537 1.3012
WAT hyphal knot -15h 31.0477 5.4999 3.1754
WAT hyphal knot -7.5h 25.2369 2.8687 1.6562
WAT hyphal knot 26.396 3.9343 2.2714
WAT hyphal knot +7.5h 27.9867 7.3432 4.2396
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 104.276 22.1952 12.8144
Straw 3h 112.0491 24.095 13.9113
Straw 6h 97.5274 13.0851 7.5547
Straw 12h 121.8572 8.6298 4.9824
Straw 24h 107.7978 11.6429 6.722
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 30.173 2.8104 1.6226
Frost (-20C, 30min) 14.4822 2.1551 1.2443
Heat shock (47C, 2h) 55.0313 4.524 2.6119
High CO2 23.0369 3.4969 2.0189
Drought (4% agar, 12h) 10.6872 1.8325 1.058
Oxidative (1mM H2O2, 3h) 40.1205 11.2527 6.4967
Acidic (pH4, 3h) 29.3098 7.8907 4.5557
Alkaline (pH9, 3h) 17.4257 2.5894 1.495
Osmotic (sorbitol 2h) 44.7044 3.2612 1.8828
CongoRed (3h) 29.3398 3.1064 1.7935
Cobalt chloride control 20.207 1.3063 0.7542
Cobalt chloride 2mM 26.5822 4.0568 2.3422
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 20.3888 6.9213 3.996
Cold stimulation 38.7907 15.6028 9.0083
Scratched surface 18.6324 1.6557 0.9559
Ca2+, 200mM, 24h 29.4182 6.4713 3.7362
Cu2+, 2mM, 6h 21.0736 3.52 2.0322
Voriconazole 17.5034 9.6277 5.5586
Trichoderma interaction, early 21.8433 3.5717 2.0621
Trichoderma interaction 60h 25.0708 10.6239 6.1337
Cobalt chloride 2mM repeat 44.6726 5.8897 3.4004
Hypoxia 28.0448 2.8564 1.6491
Hypoxia control 17.3752 5.4331 3.1368
Protoplastation control 41.4756 0.2042 0.1444
Protoplastation 3.5h 161.6227 45.704 32.3176
Protoplastation 1.5h 198.3323 18.093 12.7937

General data

Systematic name -
Protein id CopciAB_443961.T0
Description Phosphotransferase enzyme family

Annotation summary

0 300 600 900 1057

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
Pfam PF01636 Phosphotransferase enzyme family IPR002575 63 374

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
IPR002575 Aminoglycoside phosphotransferase

GO

Go id Term Ontology
No records

KEGG

KEGG Orthology
No records

EggNOG

COG category Description
S Phosphotransferase enzyme family

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_443961 across fungi.

Arrow shows the origin of gene family containing CopciAB_443961.

Protein

Sequence id CopciAB_443961.T0
Sequence >CopciAB_443961.T0
MPISDSWPDLEASLEQLDEPTAKRITSLHDHLLPHSTEISAYATSLHPQNLPSRLITSTYTWGQSFLVYEIVFER
PDDESTVDESWVARFGLPPYEGDEFFNTPEQLERKILNEVGALKVVKERTTVPVPTIYGYCARHGDGFQRKFGGG
VTVDSATRKPHPLGEAFPAFILMSALRGKTIEECGIPIHELGGHWDVEPASPDECPHFTSPILKNYLTSLANIHM
QLSQITFPQIGSFTMDDVTGEVRIGPMAEFGLGPFDTAEEYYGTLAEAFKRIAEASEEEEDEEEGDVALTMEEDE
SKTVTLSSAQVKSLRRMFTAAIFPLALGPHVSSSNDRGPFPLRHGDLHSENILVDEETGNIVGVIDWEGAGTVPW
EVAGGLNWEVQGDGNAELTKCASNAPSIRRPEIHAAFNRTLKQLEQGLDSDEKLQATTTTTTTFDQGQKKLESPV
SRPKHLSLDRAIEDPPTRISVPGSPANVLSPYASAISLSSSSSSSSSSSDHDFDSMKSHSRSSSSSKSNLTAFTS
PPTSPSSSIFDLSARKEQEMHKEADTPLVAPAPRLPSISILNTPPSPQSCKTANGLSTADNASEQISLTTKFSRA
ASEPGNTAGPCGTTQGPTDPPHSQHTRSMVNKSELSLSMAAMSIRSHSPTLNVTGNPKRNSLTLTPTWGQSSVIR
SPPTPSSFPRHRNSLHRRKQSSIVLSSLPPLTPVSPSPGQHSPAIPFNLYGPPLHAPPPLLAGSLSLPPLPIRRH
GSPSPSPSPTPGKSRSPSPLATPQGTPSITSHHSHHFREHSFGGFPRTPPANFHHGFGHGHVRSVSTSHGTTQHG
SYFLPPSLSRSVSASHSSRGTITPSTSVPSTPSTAVGPSAPPPVLSPPTLSSSPQPMDEAPPAPPSSTEKASKQA
EPPSPVVQATKLKPVTSPAGSTLSDLHGSVGAYVASYLAHWMFVFGCDYQTVGKALWDVVLYANLKDDEEGAVDV
EDAFWVWVKQTLGNNADEDDAIQEEEEEVTKEVSPAKEAQTPAKETTFVLEAMTQAAQDSDPPGNRVLTDGIVGK
KEIDALD
Length 1057

Coding

Sequence id CopciAB_443961.T0
Sequence >CopciAB_443961.T0
ATGCCAATCAGCGACTCCTGGCCAGACCTCGAAGCTTCCCTCGAGCAGCTGGACGAACCCACCGCTAAACGCATC
ACCTCTCTCCACGACCACCTGCTACCCCACTCCACCGAGATCTCAGCCTACGCAACCTCTCTCCACCCCCAAAAC
CTACCCTCTCGTCTCATTACGTCAACTTACACCTGGGGACAAAGTTTCCTCGTCTACGAAATCGTATTCGAGCGT
CCAGATGACGAGTCCACAGTCGACGAGAGCTGGGTGGCTCGATTCGGCCTGCCACCGTACGAGGGGGACGAGTTC
TTCAACACCCCTGAACAGCTCGAGCGCAAGATCCTGAATGAAGTGGGGGCCCTAAAAGTGGTGAAGGAACGAACG
ACTGTCCCTGTACCAACCATCTACGGTTACTGCGCACGCCACGGGGACGGATTCCAGCGCAAGTTTGGCGGTGGC
GTCACAGTAGACTCAGCAACACGCAAGCCACATCCTCTCGGAGAGGCCTTCCCAGCCTTCATTCTAATGTCAGCC
CTGCGCGGCAAGACGATCGAAGAGTGTGGGATCCCTATCCATGAGTTGGGTGGACACTGGGACGTGGAGCCAGCC
TCGCCGGACGAATGCCCCCATTTCACGTCTCCTATCCTCAAGAACTATTTGACATCCCTGGCCAACATCCACATG
CAGCTCTCACAAATCACCTTTCCACAAATCGGATCGTTTACCATGGACGATGTCACGGGGGAGGTCCGGATTGGA
CCGATGGCCGAATTTGGGTTGGGTCCATTTGATACGGCGGAGGAGTATTATGGGACCCTTGCCGAAGCGTTCAAG
AGGATTGCCGAAGCTAGTGAGGAGGAGGAAGACGAGGAAGAGGGTGATGTCGCTCTCACGATGGAGGAGGATGAA
TCCAAGACGGTCACGCTCTCGAGCGCCCAAGTCAAGTCCCTCCGTCGTATGTTCACGGCTGCCATCTTCCCTCTC
GCGCTCGGTCCGCACGTTTCGTCTTCCAACGATCGCGGTCCTTTCCCTTTGCGTCACGGAGATTTGCACAGCGAG
AATATTTTAGTCGATGAAGAGACGGGAAACATTGTTGGCGTTATCGACTGGGAAGGTGCAGGGACCGTCCCCTGG
GAGGTTGCCGGCGGCTTGAATTGGGAGGTTCAGGGGGATGGGAATGCCGAACTCACGAAATGCGCATCGAACGCT
CCTTCCATCCGGCGTCCAGAAATACATGCCGCCTTCAATCGTACCCTGAAGCAACTCGAACAGGGTTTGGACTCG
GACGAGAAACTGCAGGCCACCACCACCACCACCACCACTTTCGACCAAGGCCAGAAGAAACTCGAGTCTCCCGTT
TCGAGGCCTAAGCATCTTAGCCTGGACAGAGCAATCGAAGACCCTCCTACCAGAATCTCTGTTCCTGGGTCACCC
GCGAACGTACTTTCCCCCTACGCATCTGCAATCTCATTGTCGTCCTCTTCGTCATCATCCTCATCTTCGTCGGAT
CACGACTTCGACTCGATGAAATCCCATTCTCGCTCCAGCTCGAGCTCAAAGTCCAACCTGACGGCATTCACTTCG
CCCCCGACGTCGCCATCGTCCTCCATATTCGATCTATCTGCTCGGAAGGAACAGGAGATGCACAAGGAGGCTGAC
ACGCCTTTAGTCGCACCCGCTCCTCGTCTTCCTTCCATCTCGATCCTCAATACGCCGCCTTCACCTCAGTCTTGT
AAAACTGCCAACGGCTTGTCGACTGCGGACAATGCCAGCGAGCAAATATCTCTCACCACGAAGTTCTCGCGCGCT
GCATCAGAGCCCGGCAACACTGCTGGACCCTGTGGTACTACCCAGGGACCCACAGACCCGCCCCATTCGCAGCAC
ACCCGATCGATGGTCAACAAGTCCGAGTTGTCTTTGTCGATGGCTGCCATGAGCATCCGGTCTCATTCCCCCACT
CTCAACGTGACTGGGAATCCGAAAAGAAACTCGTTGACTCTTACACCAACATGGGGCCAGTCAAGCGTAATTCGT
TCGCCCCCTACGCCTTCATCGTTCCCTCGGCATCGAAATTCGCTTCATCGACGAAAGCAGTCCTCCATCGTGCTG
AGCTCGCTGCCGCCTTTGACACCAGTTTCGCCGTCGCCTGGACAGCATTCGCCCGCGATTCCGTTTAACCTTTAT
GGGCCACCATTGCATGCTCCTCCCCCGCTTTTGGCCGGTAGCCTGTCCCTGCCTCCTCTCCCCATTCGAAGACAT
GGTTCCCCGTCGCCCTCCCCCTCACCCACACCGGGGAAGTCGAGATCTCCGTCACCATTGGCCACCCCGCAGGGA
ACACCCTCGATTACATCCCACCACTCGCACCACTTCCGGGAGCACTCGTTTGGCGGGTTCCCTAGGACACCTCCA
GCCAATTTCCACCATGGATTTGGTCACGGCCATGTCAGATCGGTTTCGACCTCGCATGGGACCACGCAGCACGGT
TCGTACTTCCTACCGCCTTCCCTCTCGAGAAGTGTTTCTGCGAGCCACAGTAGTCGGGGGACGATCACCCCTAGC
ACGTCGGTACCTTCGACGCCTTCGACTGCTGTTGGCCCGAGCGCTCCTCCGCCTGTGCTTTCACCGCCAACACTG
TCCTCTTCGCCGCAGCCAATGGATGAAGCTCCCCCAGCCCCGCCTTCGTCCACCGAAAAGGCATCCAAACAAGCG
GAACCCCCTTCGCCAGTCGTCCAAGCGACCAAGCTCAAACCCGTCACCTCTCCAGCCGGGTCTACCCTCTCCGAC
CTACACGGCAGCGTCGGTGCCTATGTCGCCTCCTACCTTGCCCACTGGATGTTCGTATTCGGATGTGACTACCAA
ACTGTGGGAAAGGCGTTGTGGGACGTTGTTCTGTACGCCAATCTCAAGGATGATGAGGAAGGAGCAGTCGACGTC
GAGGATGCGTTCTGGGTCTGGGTTAAACAGACACTTGGCAATAATGCTGATGAAGACGATGCTATCCAAGAGGAG
GAAGAGGAAGTTACGAAGGAGGTGTCCCCGGCCAAGGAGGCCCAGACCCCAGCGAAGGAGACAACGTTCGTTCTC
GAGGCCATGACTCAGGCAGCTCAAGACTCCGACCCGCCTGGTAATCGAGTGCTGACTGACGGAATCGTTGGCAAG
AAAGAAATAGATGCTTTGGATTAA
Length 3174

Transcript

Sequence id CopciAB_443961.T0
Sequence >CopciAB_443961.T0
ACCACAACCATCGCAGTTTCCTATGCGAACTCTGGTCATCTCATTCTCCCTCTAGATGCTTTTTGTTGTCTTGAA
TTTGTGAAGTACCCACATATCAACAACCTGTGTCTTCTTTTTTATAAACCGCGAGGAAACGGGGATTATAATAAC
AACAGCATTGAGAAGGCCAAACCACTAGAAGCACCCCAACCGACACCATTCATCCCTACATTCATCACCGCGGTT
GAACTTGGTCGGCCTCCTATACCACAATGCCAATCAGCGACTCCTGGCCAGACCTCGAAGCTTCCCTCGAGCAGC
TGGACGAACCCACCGCTAAACGCATCACCTCTCTCCACGACCACCTGCTACCCCACTCCACCGAGATCTCAGCCT
ACGCAACCTCTCTCCACCCCCAAAACCTACCCTCTCGTCTCATTACGTCAACTTACACCTGGGGACAAAGTTTCC
TCGTCTACGAAATCGTATTCGAGCGTCCAGATGACGAGTCCACAGTCGACGAGAGCTGGGTGGCTCGATTCGGCC
TGCCACCGTACGAGGGGGACGAGTTCTTCAACACCCCTGAACAGCTCGAGCGCAAGATCCTGAATGAAGTGGGGG
CCCTAAAAGTGGTGAAGGAACGAACGACTGTCCCTGTACCAACCATCTACGGTTACTGCGCACGCCACGGGGACG
GATTCCAGCGCAAGTTTGGCGGTGGCGTCACAGTAGACTCAGCAACACGCAAGCCACATCCTCTCGGAGAGGCCT
TCCCAGCCTTCATTCTAATGTCAGCCCTGCGCGGCAAGACGATCGAAGAGTGTGGGATCCCTATCCATGAGTTGG
GTGGACACTGGGACGTGGAGCCAGCCTCGCCGGACGAATGCCCCCATTTCACGTCTCCTATCCTCAAGAACTATT
TGACATCCCTGGCCAACATCCACATGCAGCTCTCACAAATCACCTTTCCACAAATCGGATCGTTTACCATGGACG
ATGTCACGGGGGAGGTCCGGATTGGACCGATGGCCGAATTTGGGTTGGGTCCATTTGATACGGCGGAGGAGTATT
ATGGGACCCTTGCCGAAGCGTTCAAGAGGATTGCCGAAGCTAGTGAGGAGGAGGAAGACGAGGAAGAGGGTGATG
TCGCTCTCACGATGGAGGAGGATGAATCCAAGACGGTCACGCTCTCGAGCGCCCAAGTCAAGTCCCTCCGTCGTA
TGTTCACGGCTGCCATCTTCCCTCTCGCGCTCGGTCCGCACGTTTCGTCTTCCAACGATCGCGGTCCTTTCCCTT
TGCGTCACGGAGATTTGCACAGCGAGAATATTTTAGTCGATGAAGAGACGGGAAACATTGTTGGCGTTATCGACT
GGGAAGGTGCAGGGACCGTCCCCTGGGAGGTTGCCGGCGGCTTGAATTGGGAGGTTCAGGGGGATGGGAATGCCG
AACTCACGAAATGCGCATCGAACGCTCCTTCCATCCGGCGTCCAGAAATACATGCCGCCTTCAATCGTACCCTGA
AGCAACTCGAACAGGGTTTGGACTCGGACGAGAAACTGCAGGCCACCACCACCACCACCACCACTTTCGACCAAG
GCCAGAAGAAACTCGAGTCTCCCGTTTCGAGGCCTAAGCATCTTAGCCTGGACAGAGCAATCGAAGACCCTCCTA
CCAGAATCTCTGTTCCTGGGTCACCCGCGAACGTACTTTCCCCCTACGCATCTGCAATCTCATTGTCGTCCTCTT
CGTCATCATCCTCATCTTCGTCGGATCACGACTTCGACTCGATGAAATCCCATTCTCGCTCCAGCTCGAGCTCAA
AGTCCAACCTGACGGCATTCACTTCGCCCCCGACGTCGCCATCGTCCTCCATATTCGATCTATCTGCTCGGAAGG
AACAGGAGATGCACAAGGAGGCTGACACGCCTTTAGTCGCACCCGCTCCTCGTCTTCCTTCCATCTCGATCCTCA
ATACGCCGCCTTCACCTCAGTCTTGTAAAACTGCCAACGGCTTGTCGACTGCGGACAATGCCAGCGAGCAAATAT
CTCTCACCACGAAGTTCTCGCGCGCTGCATCAGAGCCCGGCAACACTGCTGGACCCTGTGGTACTACCCAGGGAC
CCACAGACCCGCCCCATTCGCAGCACACCCGATCGATGGTCAACAAGTCCGAGTTGTCTTTGTCGATGGCTGCCA
TGAGCATCCGGTCTCATTCCCCCACTCTCAACGTGACTGGGAATCCGAAAAGAAACTCGTTGACTCTTACACCAA
CATGGGGCCAGTCAAGCGTAATTCGTTCGCCCCCTACGCCTTCATCGTTCCCTCGGCATCGAAATTCGCTTCATC
GACGAAAGCAGTCCTCCATCGTGCTGAGCTCGCTGCCGCCTTTGACACCAGTTTCGCCGTCGCCTGGACAGCATT
CGCCCGCGATTCCGTTTAACCTTTATGGGCCACCATTGCATGCTCCTCCCCCGCTTTTGGCCGGTAGCCTGTCCC
TGCCTCCTCTCCCCATTCGAAGACATGGTTCCCCGTCGCCCTCCCCCTCACCCACACCGGGGAAGTCGAGATCTC
CGTCACCATTGGCCACCCCGCAGGGAACACCCTCGATTACATCCCACCACTCGCACCACTTCCGGGAGCACTCGT
TTGGCGGGTTCCCTAGGACACCTCCAGCCAATTTCCACCATGGATTTGGTCACGGCCATGTCAGATCGGTTTCGA
CCTCGCATGGGACCACGCAGCACGGTTCGTACTTCCTACCGCCTTCCCTCTCGAGAAGTGTTTCTGCGAGCCACA
GTAGTCGGGGGACGATCACCCCTAGCACGTCGGTACCTTCGACGCCTTCGACTGCTGTTGGCCCGAGCGCTCCTC
CGCCTGTGCTTTCACCGCCAACACTGTCCTCTTCGCCGCAGCCAATGGATGAAGCTCCCCCAGCCCCGCCTTCGT
CCACCGAAAAGGCATCCAAACAAGCGGAACCCCCTTCGCCAGTCGTCCAAGCGACCAAGCTCAAACCCGTCACCT
CTCCAGCCGGGTCTACCCTCTCCGACCTACACGGCAGCGTCGGTGCCTATGTCGCCTCCTACCTTGCCCACTGGA
TGTTCGTATTCGGATGTGACTACCAAACTGTGGGAAAGGCGTTGTGGGACGTTGTTCTGTACGCCAATCTCAAGG
ATGATGAGGAAGGAGCAGTCGACGTCGAGGATGCGTTCTGGGTCTGGGTTAAACAGACACTTGGCAATAATGCTG
ATGAAGACGATGCTATCCAAGAGGAGGAAGAGGAAGTTACGAAGGAGGTGTCCCCGGCCAAGGAGGCCCAGACCC
CAGCGAAGGAGACAACGTTCGTTCTCGAGGCCATGACTCAGGCAGCTCAAGACTCCGACCCGCCTGGTAATCGAG
TGCTGACTGACGGAATCGTTGGCAAGAAAGAAATAGATGCTTTGGATTAAATCTCACCCTTATCTGTATTTTTAT
CTCACTTTCTATGCTTATTTCTTTAGATACGATTTTCTTCATTACTGACCTTTCCCCGTTCTCGACCATGGACAT
TTGGCACTGCGTGCCTTCTCGATCATCTACTCGCTCACTCCCTTCGCTCTAGATTGATTCTAAGGTTCTTTGCTT
AACGACCTAGTTATCGTGTCTTTTGTATCAGCTAGTAGCATTTCCCTTCTTCCTCATACTGATTGCCAGTTGTAT
CATACTCGATTCGGACTTTCCATATCGCTTTTGCAAGATAGAGTAGAACTCGTCTTGGATACAAAAATTAACTGT
ATTTATATACGCTTTCATCCAATGCAAGCCCTTTGTTTGCGCC
Length 3793

Gene

Sequence id CopciAB_443961.T0
Sequence >CopciAB_443961.T0
ACCACAACCATCGCAGTTTCCTATGCGAACTCTGGTCATCTCAGTGAGTCCGCCCCTGTGTCCTGGTCTAATATC
GTGTTTCTGATCAAGATGCAGTTCTCCCTCTAGATGCTTTTTGTTGTCTTGAATTTGTGAAGTACCCACATATCA
ACAACCTGTGTCTTCTTTTTTATAAACCGCGAGGAAACGGGGATTATAATAACAACAGCATTGAGAAGGCCAAAC
CACTAGAAGCACCCCAACCGACACCATTCATCCCTACATTCATCACCGCGGTTGAACTTGGTCGGCCTCCTATAC
CACAATGCCAATCAGCGACTCCTGGCCAGACCTCGAAGCTTCCCTCGAGCAGCTGGACGAACCCACCGCTAAACG
CATCACCTCTCTCCACGACCACCTGCTACCCCACTCCACCGAGATCTCAGCCTACGCAACCTCTCTCCACCCCCA
AAACCTACCCTCTCGTCTCATTACGTCAACTTACACCTGGGGACAAAGTTTCCTCGTCTACGAAATCGTATTCGA
GCGTCCAGATGACGAGTCCACAGTCGACGAGAGCTGGGTGGCTCGATTCGGCCTGCCACCGTACGAGGGGGACGA
GTTCTTCAACACCCCTGAACAGCTCGAGCGCAAGATCCTGAATGAAGTGGGGGCCCTAAAAGTGGTGAAGGAACG
AACGACTGTCCCTGTACCAACCATCTACGGTTACTGCGCACGCCACGGGGACGGATTCCAGCGCAAGTTTGGCGG
TGGCGTCACAGTAGACTCAGCAACACGCAAGCCACATCCTCTCGGAGAGGCCTTCCCAGCCTTCATTCTAATGTC
AGCCCTGCGCGGCAAGACGATCGAAGAGTGTGGGATCCCTATCCATGAGTTGGGTGGACACTGGGACGTGGAGCC
AGCCTCGCCGGACGAATGCCCCCATTTCACGTCTCCTATCCTCAAGAACTATTTGACATCCCTGGCCAACATCCA
CATGCAGCTCTCACAAATCACCTTTCCACAAATCGGATCGTTTACCATGGACGATGTCACGGGGGAGGTCCGGAT
TGGACCGATGGCCGAATTTGGGTTGGGTCCATTTGATACGGCGGAGGAGTATTATGGGACCCTTGCCGAAGCGTT
CAAGAGGATTGCCGAAGCTAGTGAGGAGGAGGAAGACGAGGAAGAGGGTGATGTCGCTCTCACGATGGAGGAGGA
TGAATCCAAGACGGTCACGCTCTCGAGCGCCCAAGTCAAGTCCCTCCGTCGTATGTTCACGGCTGCCATCTTCCC
TCTCGCGCTCGGTCCGCACGTTTCGTCTTCCAACGATCGCGGTCCTTTCCCTTTGCGTCACGGAGATTTGCACAG
CGAGAATATTTTAGTCGATGAAGAGACGGGAAACATTGTTGGCGTTATCGACTGGGAAGGTGCAGGGACCGTCCC
CTGGGAGGTTGCCGGCGGCTTGAATTGGGAGGTTCAGGGGGATGGGAATGCCGAACTCACGAAATGCGCATCGAA
CGCTCCTTCCATCCGGCGTCCAGAAATACATGCCGCCTTCAATCGTACCCTGAAGCAACTCGAACAGGGTTTGGA
CTCGGACGAGAAACTGCAGGCCACCACCACCACCACCACCACTTTCGACCAAGGCCAGAAGAAACTCGAGTCTCC
CGTTTCGAGGCCTAAGCATCTTAGCCTGGACAGAGCAATCGAAGACCCTCCTACCAGAATCTCTGTTCCTGGGTC
ACCCGCGAACGTACTTTCCCCCTACGCATCTGCAATCTCATTGTCGTCCTCTTCGTCATCATCCTCATCTTCGTC
GGATCACGACTTCGACTCGATGAAATCCCATTCTCGCTCCAGCTCGAGCTCAAAGTCCAACCTGACGGCATTCAC
TTCGCCCCCGACGTCGCCATCGTCCTCCATATTCGATCTATCTGCTCGGAAGGAACAGGAGATGCACAAGGAGGC
TGACACGCCTTTAGTCGCACCCGCTCCTCGTCTTCCTTCCATCTCGATCCTCAATACGCCGCCTTCACCTCAGTC
TTGTAAAACTGCCAACGGCTTGTCGACTGCGGACAATGCCAGCGAGCAAATATCTCTCACCACGAAGTTCTCGCG
CGCTGCATCAGAGCCCGGCAACACTGCTGGACCCTGTGGTACTACCCAGGGACCCACAGACCCGCCCCATTCGCA
GCACACCCGATCGGTTAGTCTGAGCCCTGTCATCGTTGAAGCAATCCGTGAACCACTGCCGGCTGATTATCAAAA
GCAGATGGTCAACAAGTCCGAGTTGTCTTTGTCGATGGCTGCCATGAGCATCCGGTCTCATTCCCCCACTCTCAA
CGTGACTGGGAATCCGAAAAGAAACTCGTTGACTCTTACACCAACATGGGGCCAGTCAAGCGTAATTCGTTCGCC
CCCTACGCCTTCATCGTTCCCTCGGCATCGAAATTCGCTTCATCGACGAAAGCAGTCCTCCATCGTGCTGAGCTC
GCTGCCGCCTTTGACACCAGTTTCGCCGTCGCCTGGACAGCATTCGCCCGCGATTCCGTTTAACCTTTATGGGCC
ACCATTGCATGCTCCTCCCCCGCTTTTGGCCGGTAGCCTGTCCCTGCCTCCTCTCCCCATTCGAAGACATGGTTC
CCCGTCGCCCTCCCCCTCACCCACACCGGGGAAGTCGAGATCTCCGTCACCATTGGCCACCCCGCAGGGAACACC
CTCGATTACATCCCACCACTCGCACCACTTCCGGGAGCACTCGTTTGGCGGGTTCCCTAGGACACCTCCAGCCAA
TTTCCACCATGGATTTGGTCACGGCCATGTCAGATCGGTTTCGACCTCGCATGGGACCACGCAGCACGGTTCGTA
CTTCCTACCGCCTTCCCTCTCGAGAAGTGTTTCTGCGAGCCACAGTAGTCGGGGGACGATCACCCCTAGCACGTC
GGTACCTTCGACGCCTTCGACTGCTGTTGGCCCGAGCGCTCCTCCGCCTGTGCTTTCACCGCCAACACTGTCCTC
TTCGCCGCAGCCAATGGATGAAGCTCCCCCAGCCCCGCCTTCGTCCACCGAAAAGGCATCCAAACAAGCGGAACC
CCCTTCGCCAGTCGTCCAAGCGACCAAGCTCAAACCCGTCACCTCTCCAGCCGGGTCTACCCTCTCCGACCTACA
CGGCAGCGTCGGTGCCTATGTCGCCTCCTACCTTGCCCACTGGATGTTCGTATTCGGATGTGACTACCAAACTGT
GGGAAAGGCGTTGTGGGACGTTGTTCTGTACGCCAATCTCAAGGATGATGAGGAAGGAGCAGTCGACGTCGAGGA
TGCGTTCTGGGTCTGGGTTAAACAGACACTTGGCAATAATGCTGATGAAGACGATGCTATCCAAGAGGAGGAAGA
GGAAGTTACGAAGGAGGTGTCCCCGGCCAAGGAGGCCCAGACCCCAGCGAAGGAGACAACGTTCGTTCTCGAGGC
CATGACTCAGGCAGCTCAAGACTCCGACCCGCCTGGTAATCGAGTGCTGACTGACGGAATCGTTGGCAAGAAAGA
AATAGATGCTTTGGATTAAATCTCACCCTTATCTGTATTTTTATCTCACTTTCTATGCTTATTTCTTTAGATACG
ATTTTCTTCATTACTGACCTTTCCCCGTTCTCGACCATGGACATTTGGCACTGCGTGCCTTCTCGATCATCTACT
CGCTCACTCCCTTCGCTCTAGATTGATTCTAAGGTTCTTTGCTTAACGACCTAGTTATCGTGTCTTTTGTATCAG
CTAGTAGCATTTCCCTTCTTCCTCATACTGATTGCCAGTTGTATCATACTCGATTCGGACTTTCCATATCGCTTT
TGCAAGATAGAGTAGAACTCGTCTTGGATACAAAAATTAACTGTATTTATATACGCTTTCATCCAATGCAAGCCC
TTTGTTTGCGCC
Length 3912