CopciAB_451261
Coprinopsis cinerea A43mutB43mut pab1-1 #326

General data

Systematic name CopciAB_451261 Strain Coprinopsis cinerea Okayama 7
Standard name PIK1 Synonyms 451261
Uniprot id Functional description Belongs to the PI3 PI4-kinase family
Location scaffold_2:1611767..1615660 Strand +
Gene length (nt) 3894 Transcript length (nt) 3276
CDS length (nt) 3120 Protein length (aa) 1039

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Schizosaccharomyces pombe pik1
Neurospora crassa NCU10397
Candida albicans PIKA
Saccharomyces cerevisiae YNL267W_PIK1

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Hypsizygus marmoreus strain 51987-8 Hypma_RDB21050 63.2 0 1307
Agrocybe aegerita Agrae_CAA7271686 63.5 0 1301
Lentinula edodes NBRC 111202 Lenedo1_1053876 61.1 0 1250
Lentinula edodes W1-26 v1.0 Lentinedodes1_8278 60.9 0 1246
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_118113 58.9 0 1237
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_199389 58.4 0 1234
Pleurotus ostreatus PC9 PleosPC9_1_92234 60.2 0 1227
Pleurotus eryngii ATCC 90797 Pleery1_1439715 59.5 0 1220
Pleurotus ostreatus PC15 PleosPC15_2_1031063 60.6 0 1211
Ganoderma sp. 10597 SS1 v1.0 Gansp1_129697 57.7 0 1197
Schizophyllum commune H4-8 Schco3_2485696 57.5 0 1184
Lentinula edodes B17 Lened_B_1_1_1329 60 0 1176
Flammulina velutipes Flave_chr10AA00298 56.2 0 1043
Auricularia subglabra Aurde3_1_1151909 50.5 3.036E-304 981
Grifola frondosa Grifr_OBZ75122 63.7 6.307E-180 591

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 60.773 4.9686 2.8686
oidia 67.3282 4.012 2.3163
vegetative_mycelium 62.4989 3.1315 1.808
primordia 109.052 3.0762 1.7761
hyphal_knot 41.8085 2.2242 1.2841
young_fruiting_body 123.5509 13.6407 7.8754
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 86.3331 11.63 6.7146
Wheat bran 59.8759 8.9599 5.173
Horse manure 69.3114 10.6767 6.1642
Oak leaves 72.9672 11.5995 6.6969
Hay 64.6344 8.8726 5.1226
Corn stalk 69.0713 7.9369 4.5824
Pectine 67.6396 2.2833 1.3183
Microcrystalline cellulose 65.3452 7.1743 4.1421
Xylose 76.0965 10.4525 6.0348
Cellobiose 99.5398 8.9179 5.1488
Lignin 72.8267 14.3975 8.3124
Apple peels 72.7045 2.1369 1.2337
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 79.7289 3.4355 1.9835
Bsubtilis 74.7671 2.2565 1.3028
Ecoli 92.0795 3.5441 2.0462
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 29.6416 4.5921 2.6512
BS 4h 20.0257 3.108 1.7944
BS 8h 19.9509 1.5466 0.8929
BS 12h 25.8076 2.5067 1.4473
Oidia 0 h 16.3678 2.0878 1.2054
Oidia 18 h 20.9283 2.5474 1.4707
Sclerotia 11.3673 1.7156 0.9905
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 20.0951 3.1109 1.7961
DM 36h 19.5832 1.4017 0.8093
DM 60h 21.4442 1.6015 0.9246
DM 84h 19.6456 1.0595 0.6117
DM 108h 19.2784 3.3152 1.9141
DM 132h 19.5983 1.8621 1.0751
DM 156hAE 20.4449 2.8985 1.6734
ELI1hAE 19.8258 4.2466 2.4518
ELI2hAE 15.8333 0.5482 0.3165
LI2hAE 14.939 3.6296 2.0955
LI6hAE 18.7421 2.5974 1.4996
LI12hAE 15.3136 1.8728 1.0813
LI18hAE 12.5067 1.3709 0.7915
LI 24hAE 20.9093 3.7018 2.1372
DM 156hAM 22.8768 1.6731 0.966
ELI1hAM 19.4669 4.5331 2.6172
ELI2hAM 19.128 4.1524 2.3974
LI2hAM 20.2104 3.1363 1.8107
LI6hAM 20.9734 4.8688 2.811
LI12hAM 13.4915 3.5248 2.0351
LI18hAM 10.5763 2.7655 1.5967
LI 24hAM 19.2759 0.5387 0.311
LI 24hHK 20.0496 3.1783 1.835
L/D 6h 14.7234 2.5356 1.4639
L/D 12h 17.2221 4.6702 2.6964
L/D 18h 22.1253 4.2629 2.4612
L/D 24h 21.8348 0.8507 0.4912
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 37.4649 4.419 2.5513
Hyphal knots 32.8419 5.661 3.2684
Primordium 1 62.2939 14.4842 8.3625
Primordium 2 58.6136 7.5062 4.3337
Young Fruiting body cap 210.1172 30.0686 17.3601
Younf fruiting body gill 137.4489 5.2004 3.0025
Young fruiting body stipe 178.223 16.0564 9.2702
Mature fruiting body cap_gill 114.7244 18.8079 10.8587
Mature fruiting body stipe 44.2335 10.0257 5.7883
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 46.2444 2.2814 1.3172
NH4NO3 58.504 1.9339 1.1165
Proline 52.6243 3.2071 1.8516
Tryptophan 53.1936 3.4701 2.0035
Isoleucin 55.7807 6.1919 3.5749
Arginine 51.6276 6.1317 3.5401
Metionine 50.844 2.4525 1.4159
NaNO3 54.5214 5.342 3.0842
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 46.2444 2.2814 1.3172
Citrus peel 41.7414 4.3423 2.507
Poplar leaves 52.2993 3.4025 1.9644
Typha leaves 53.9278 2.6587 1.535
Overwintered Salix leaves 53.5077 4.2697 2.4651
Reed flowering 47.3381 9.9915 5.7686
Tigernut 45.7015 1.9489 1.1252
Energy cane 48.9158 3.5472 2.048
Guar gum 47.0086 9.5644 5.522
Apple peels 61.8637 10.6467 6.1469
Cellobiose 58.5465 1.4112 0.8147
Corn stalk 64.8228 4.7449 2.7394
Horse manure 57.6799 8.0271 4.6344
Lignin 34.7471 10.1893 5.8828
Microcrystalline cellulose 43.6376 3.6512 2.108
Oak leaves 59.8143 2.9449 1.7002
Pectin esterified 47.2939 1.2764 0.7369
Poplar sawdust 55.4954 5.1911 2.9971
Wheat bran 44.9259 3.9952 2.3066
Chlamydomonas reinhardtii 45.0678 5.4309 3.1355
Vertatryl alcohol 52.2218 1.8671 1.078
Furfural 35.529 2.4601 1.4203
Autoclaved mycelium 44.9472 1.3618 0.7862
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 77.3932 6.7299 3.8855
Ribose 79.4557 7.151 4.1287
Mannose 89.2296 6.7171 4.7497
Fructose 78.0744 4.9082 2.8338
Arabinose 84.7457 8.9954 5.1935
Xylose 84.1562 5.2556 3.0343
Galacturonic acid 76.9587 1.2993 0.7502
Rhamnogalacturonan 80.3237 6.7585 3.902
Pectin esterified 74.2056 4.5384 2.6202
Polygalacturonic acid 75.1402 4.5789 2.6436
Sodium acetate 88.5107 4.889 2.8227
No nitrogen 80.0802 6.7307 3.886
BSA 74.9982 5.6963 3.2888
Glutamine 73.3639 1.2548 0.7245
No phosphate 79.4177 2.642 1.5254
No carbon 74.0063 1.3572 0.9597
No sulphur 83.993 9.3472 5.3966
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 46.2444 2.2814 1.3172
Amylose 48.2472 2.2238 1.2839
Fucose 45.6791 1.645 0.9497
Galactose 41.5424 3.6208 2.0905
Lactose 46.8989 1.1389 0.6576
Maltose 46.167 3.9809 2.2984
Mannitol 43.4492 2.8079 1.6211
Rhamnose 45.0302 3.1654 1.8275
Sorbitol 45.4636 1.2237 0.7065
Trehalose 50.4974 2.6044 1.5036
Glycerol 44.3057 2.6417 1.5252
Glucuronic acid 53.2791 3.5247 2.035
Arabinan 44.9697 1.6294 0.9407
Galactan 47.508 3.5436 2.0459
Galactomannan 52.3813 9.6691 5.5825
Glucan 47.6101 4.4672 2.5792
Xylan 49.9414 1.0615 0.6128
Xyloglucan 61.0041 2.6493 1.5296
Arabinogalactan 56.9765 1.6629 0.9601
Pectin 31.5687 6.0025 3.4655
Rhamnogalacturonan 32.7244 4.8574 2.8044
Polygalacturonic acid 43.974 3.9029 2.2533
Mannan 46.4494 0.9801 0.5659
Amylopectin 42.7202 1.4996 0.8658
Inulin 49.6813 5.8196 3.36
BSA 46.8859 6.937 4.0051
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 21.4442 1.6015 0.9246
2h WAT 18.384 1.4968 0.8642
4h WAT 16.2365 1.387 0.8008
8h WAT 17.5062 1.6091 0.929
16h WAT 16.1808 3.6018 2.0795
24h WAT 20.0939 2.2257 1.285
WAT hyphal knot -30h 21.539 1.7388 1.0039
WAT hyphal knot -22h 22.9224 1.8247 1.0535
WAT hyphal knot -15h 20.4718 0.7534 0.435
WAT hyphal knot -7.5h 16.1197 2.2571 1.3031
WAT hyphal knot 18.4397 2.2969 1.3261
WAT hyphal knot +7.5h 15.1269 2.0264 1.1699
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 45.9532 11.133 6.4276
Straw 3h 39.7406 3.4215 1.9754
Straw 6h 37.9153 5.802 3.3498
Straw 12h 51.8716 6.2854 3.6289
Straw 24h 53.492 6.953 4.0143
Stress conditions 1 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 17.2747 1.4394 0.831
Frost (-20C, 30min) 22.0245 3.5486 2.0488
Heat shock (47C, 2h) 7.7407 0.9921 0.5728
High CO2 19.2906 4.2854 2.4742
Drought (4% agar, 12h) 16.7387 5.0861 2.9365
Oxidative (1mM H2O2, 3h) 17.3347 0.9338 0.5391
Acidic (pH4, 3h) 16.7959 2.3605 1.3629
Alkaline (pH9, 3h) 17.3797 1.1219 0.6477
Osmotic (sorbitol 2h) 12.7056 2.5554 1.4753
CongoRed (3h) 14.9987 4.2615 2.4604
Cobalt chloride control 12.7759 0.8582 0.4955
Cobalt chloride 2mM 15.8308 3.6566 2.1112
Stress conditions 2 Expression profiling under various stress conditions Hegedus et al. QuantSeq
Sample Mean cpm SD cpm Se of mean
Flask control 20.6904 6.4208 3.707
Cold stimulation 13.928 1.5667 0.9045
Scratched surface 32.0063 3.9745 2.2947
Ca2+, 200mM, 24h 11.0783 2.7383 1.581
Cu2+, 2mM, 6h 14.1587 0.1212 0.07
Voriconazole 12.6279 2.4661 1.4238
Trichoderma interaction, early 22.1909 3.3325 1.924
Trichoderma interaction 60h 6.9998 3.0554 1.764
Cobalt chloride 2mM repeat 24.6875 5.5109 3.1817
Hypoxia 18.0397 4.6669 2.6945
Hypoxia control 17.9586 3.5421 2.045
Protoplastation control 15.1287 1.3495 0.9542
Protoplastation 3.5h 12.6702 2.2912 1.6201
Protoplastation 1.5h 13.0433 0.5943 0.4202

General data

Systematic name PIK1
Protein id CopciAB_451261.T0
Description Belongs to the PI3 PI4-kinase family

Annotation summary

0 300 600 900 1039

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd05168 PI4Kc_III_beta - 739 1039
Pfam PF00454 Phosphatidylinositol 3- and 4-kinase IPR000403 770 979

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR018936 Phosphatidylinositol 3/4-kinase, conserved site
IPR015433 Phosphatidylinositol kinase
IPR000403 Phosphatidylinositol 3-/4-kinase, catalytic domain
IPR011009 Protein kinase-like domain superfamily
IPR036940 Phosphatidylinositol 3-/4-kinase, catalytic domain superfamily

GO

Go id Term Ontology
GO:0016301 kinase activity MF
GO:0046854 phosphatidylinositol phosphorylation BP
GO:0048015 phosphatidylinositol-mediated signaling BP

KEGG

KEGG Orthology
K19801

EggNOG

COG category Description
G Belongs to the PI3 PI4-kinase family

CAZy

Class Family Subfamily
No records

Transcription factor

Group
No records

Conservation of CopciAB_451261 across fungi.

Arrow shows the origin of gene family containing CopciAB_451261.

Protein

Sequence id CopciAB_451261.T0
Sequence >CopciAB_451261.T0
MSSHALLLRLFLSPSFFSVHVALKYLLIYADNIGITYYLTHRLRELQVQELTDVWGFICHLLITRPTKSRAIECF
VVDTARRSTHIALITLWFMQAALNDLSVQRRNTQSFAVCQRVLHKCHEIIFSDLSPAPSGPYSISNLSPLLRRHK
IKHHAEPVIVGIGTMLAGAPGMPRLTAIMGDVAIEQGRAEEDFDDRTAVGPRSEDDLAPPAVSARTSLDEDDDDQ
EGSPSSEESLPAKPTLPSNSALLARRKTVTGAQTVPTLPLHLRSLRKPRLSDDPLGQLETDSFNTPSHSSPSLTS
ALMSGRPLRSAMMNPADILLERYDHEAQTQLLRNHFCMSEVQFLLSLENICNRLLVVPRPARVSALRAELTALNH
KLPAEVCLPLWCPGTDTAHTNPSHPHHRIVRIPPGESVVLNSAERAPYLLLVEILTDDLDFEPAKKSNKDVLRRI
VLKDQERTERRGFSVDSPSFVPSPSRLGRPSGDVELMYRSELSQEPQTAVSVIPATPTTAIPPDPDEEVDLVEQL
YGADQPLKFKLEELVSDSMNLPPTPKNKDLDLATWSRSSPMGSFSSSFGSPHSRQPSQTRVSMERTHSSPTPSTP
ASVDYSGNALSLDEYSERMRTAAIMLAQLNSGIMRSDAPVTASPRPDANDSNPSSRMKRSLSNGIDPAARMKVHH
AETAAIRDRIMKEMISLEEERMARMQEGDGAFVTVPQMSETSGSSKTLEDESIIRKELNKVDPSAVVFSESWAAK
KSRIRQSSPYGHLAQWDCMSVIVKTGGDLRQEQLAVQLIREFQSIWAEEKCACWVKHFRILITGSTSGLIETIKD
AVSIHSIKKAEYAKRIAEGRLGHVTLLDHFKANYGDPSSSRFLRAQRNFAQSLAGYSIVTYLLQVKDRHNGNILL
DRDGHLIHIDFGFILSNTPGNIGFEAAPFKFPLEYLEVLGGIDGAGYKEFKRLFREGFEAARKHCDRIITLVELM
QKDSSYPCFAVSADQTANQLRDRFMPTLTHSLVGEHVERLIASSLGSHWTRLYDSFQYYSQSIL
Length 1039

Coding

Sequence id CopciAB_451261.T0
Sequence >CopciAB_451261.T0
ATGTCGTCGCATGCCCTGTTGCTCCGCCTCTTCCTCTCCCCTTCTTTTTTCTCGGTTCATGTCGCACTCAAATAT
CTCCTCATTTATGCAGACAACATTGGCATCACATACTATTTGACCCATCGCCTCAGGGAACTACAGGTCCAGGAG
CTGACCGATGTCTGGGGTTTTATATGCCATCTCCTCATAACCAGGCCCACGAAATCCAGGGCAATAGAGTGCTTT
GTGGTTGATACAGCCCGACGCTCGACCCATATCGCGTTGATAACGCTATGGTTCATGCAAGCAGCCTTAAACGAC
CTGTCTGTCCAACGCCGCAACACTCAGTCCTTTGCCGTCTGTCAGCGTGTCCTCCACAAGTGCCATGAAATCATA
TTCAGCGACCTTTCCCCCGCTCCCTCGGGTCCTTATTCCATCTCCAACCTCTCCCCGCTGCTGCGTCGCCACAAG
ATTAAGCACCATGCTGAACCCGTCATCGTGGGCATTGGGACCATGCTTGCAGGCGCGCCGGGCATGCCTCGATTA
ACTGCCATAATGGGAGATGTCGCTATTGAACAGGGGAGAGCAGAGGAAGACTTTGACGATCGCACCGCCGTAGGT
CCTCGATCTGAAGACGACCTCGCACCTCCAGCCGTCTCTGCACGCACGTCCCTGGACGAGGACGACGATGACCAG
GAGGGTTCCCCAAGCTCGGAAGAGTCTTTGCCAGCAAAGCCTACTCTGCCATCCAACTCGGCTCTGCTGGCCAGG
AGAAAAACTGTCACCGGTGCTCAGACGGTCCCCACACTCCCCCTACACCTACGATCTTTACGAAAACCGAGGTTG
TCCGACGACCCCTTGGGCCAACTAGAGACGGACAGCTTCAATACTCCGTCCCACTCGTCTCCGTCCCTTACCTCG
GCCCTAATGTCCGGACGACCTTTACGATCCGCTATGATGAACCCCGCAGACATTCTCCTAGAACGCTACGATCAC
GAGGCACAAACGCAACTACTCCGGAACCATTTTTGTATGTCCGAGGTTCAATTCTTGCTTAGTCTTGAGAACATT
TGCAACCGACTATTGGTCGTGCCGAGACCGGCGCGAGTCAGTGCTCTAAGAGCAGAATTGACCGCACTCAACCAC
AAACTCCCCGCCGAGGTCTGTCTACCTCTATGGTGTCCGGGAACGGATACCGCACATACCAATCCATCTCACCCG
CACCACCGCATAGTCCGTATCCCACCAGGCGAGAGCGTCGTGTTAAACTCTGCGGAGAGGGCTCCGTACCTCCTG
CTCGTCGAAATTCTGACCGATGACCTCGATTTCGAGCCAGCAAAGAAATCGAACAAGGATGTGCTCAGGAGGATT
GTCCTCAAAGATCAGGAACGAACTGAACGGAGGGGATTCTCTGTCGATTCACCATCATTTGTCCCATCTCCGAGT
CGACTAGGGCGACCTTCTGGCGATGTAGAGTTGATGTATCGTTCCGAATTGTCACAAGAACCCCAGACTGCAGTA
TCAGTCATTCCAGCCACGCCAACGACGGCAATACCGCCAGATCCCGACGAGGAAGTCGATCTCGTCGAGCAACTA
TACGGAGCTGATCAACCGCTTAAATTCAAGCTAGAAGAACTCGTATCCGACTCTATGAACCTTCCACCAACGCCC
AAGAATAAGGACCTAGATCTGGCCACTTGGTCTCGCTCGTCCCCCATGGGATCCTTCTCTTCATCCTTCGGTTCC
CCCCACAGTAGACAACCATCCCAAACTCGAGTATCCATGGAGAGGACACATTCGTCGCCTACCCCCTCGACGCCT
GCAAGTGTAGATTACTCTGGCAATGCCCTATCCCTGGACGAGTATTCAGAGCGAATGCGGACTGCTGCTATCATG
TTGGCACAGCTGAATTCGGGAATCATGCGCAGCGATGCTCCTGTTACTGCCTCCCCCAGACCGGACGCCAACGAC
TCGAACCCCTCTTCCCGAATGAAACGCTCTCTTTCCAATGGAATAGACCCAGCTGCGCGCATGAAGGTACATCAC
GCAGAAACGGCTGCCATCCGGGATCGAATCATGAAAGAGATGATTTCGTTGGAAGAGGAGAGGATGGCGCGTATG
CAAGAGGGGGATGGGGCTTTTGTGACTGTCCCCCAGATGAGCGAGACGAGTGGAAGCTCCAAGACGCTGGAGGAT
GAGAGCATTATCAGGAAGGAACTGAACAAGGTGGACCCATCTGCTGTCGTGTTTAGTGAATCGTGGGCAGCGAAG
AAGAGTCGCATCCGCCAGTCGTCGCCGTATGGGCATTTAGCTCAGTGGGACTGCATGTCCGTTATCGTCAAAACT
GGTGGAGACCTAAGACAAGAGCAACTTGCTGTACAACTTATTCGCGAGTTCCAATCAATATGGGCAGAGGAGAAG
TGTGCTTGCTGGGTCAAACATTTCCGGATATTGATCACGGGTAGTACATCTGGTCTCATCGAGACGATCAAAGAC
GCTGTTTCTATCCACTCGATCAAGAAGGCCGAGTATGCGAAGAGGATTGCAGAGGGTAGACTCGGTCACGTTACG
CTTCTTGACCACTTCAAGGCCAACTATGGCGACCCTTCATCCTCTCGCTTCCTCCGCGCCCAACGCAATTTTGCC
CAATCCCTCGCCGGTTACTCTATCGTCACCTACCTCCTCCAAGTCAAAGACCGGCACAACGGCAACATCCTCCTA
GACCGTGACGGACACCTTATCCACATCGATTTCGGCTTCATCTTGAGCAACACACCAGGTAATATTGGTTTTGAA
GCTGCGCCGTTCAAGTTCCCGCTGGAGTATTTGGAGGTGCTGGGAGGGATTGACGGAGCTGGGTACAAGGAGTTT
AAGAGGCTGTTTAGGGAGGGTTTCGAGGCTGCACGCAAACATTGTGATCGAATTATCACTCTGGTCGAGTTGATG
CAGAAAGACTCTTCGTATCCTTGTTTCGCAGTTTCTGCAGACCAGACTGCAAACCAGCTGAGAGATCGCTTCATG
CCTACGCTGACGCACTCTTTGGTTGGCGAGCATGTCGAACGGTTGATTGCTTCGTCATTGGGTTCGCATTGGACC
AGACTGTATGACTCGTTCCAATACTACTCACAATCCATCCTATAA
Length 3120

Transcript

Sequence id CopciAB_451261.T0
Sequence >CopciAB_451261.T0
AGTGACTGGTGCCAGAGCCTCGATGTCGTCGCATGCCCTGTTGCTCCGCCTCTTCCTCTCCCCTTCTTTTTTCTC
GGTTCATGTCGCACTCAAATATCTCCTCATTTATGCAGACAACATTGGCATCACATACTATTTGACCCATCGCCT
CAGGGAACTACAGGTCCAGGAGCTGACCGATGTCTGGGGTTTTATATGCCATCTCCTCATAACCAGGCCCACGAA
ATCCAGGGCAATAGAGTGCTTTGTGGTTGATACAGCCCGACGCTCGACCCATATCGCGTTGATAACGCTATGGTT
CATGCAAGCAGCCTTAAACGACCTGTCTGTCCAACGCCGCAACACTCAGTCCTTTGCCGTCTGTCAGCGTGTCCT
CCACAAGTGCCATGAAATCATATTCAGCGACCTTTCCCCCGCTCCCTCGGGTCCTTATTCCATCTCCAACCTCTC
CCCGCTGCTGCGTCGCCACAAGATTAAGCACCATGCTGAACCCGTCATCGTGGGCATTGGGACCATGCTTGCAGG
CGCGCCGGGCATGCCTCGATTAACTGCCATAATGGGAGATGTCGCTATTGAACAGGGGAGAGCAGAGGAAGACTT
TGACGATCGCACCGCCGTAGGTCCTCGATCTGAAGACGACCTCGCACCTCCAGCCGTCTCTGCACGCACGTCCCT
GGACGAGGACGACGATGACCAGGAGGGTTCCCCAAGCTCGGAAGAGTCTTTGCCAGCAAAGCCTACTCTGCCATC
CAACTCGGCTCTGCTGGCCAGGAGAAAAACTGTCACCGGTGCTCAGACGGTCCCCACACTCCCCCTACACCTACG
ATCTTTACGAAAACCGAGGTTGTCCGACGACCCCTTGGGCCAACTAGAGACGGACAGCTTCAATACTCCGTCCCA
CTCGTCTCCGTCCCTTACCTCGGCCCTAATGTCCGGACGACCTTTACGATCCGCTATGATGAACCCCGCAGACAT
TCTCCTAGAACGCTACGATCACGAGGCACAAACGCAACTACTCCGGAACCATTTTTGTATGTCCGAGGTTCAATT
CTTGCTTAGTCTTGAGAACATTTGCAACCGACTATTGGTCGTGCCGAGACCGGCGCGAGTCAGTGCTCTAAGAGC
AGAATTGACCGCACTCAACCACAAACTCCCCGCCGAGGTCTGTCTACCTCTATGGTGTCCGGGAACGGATACCGC
ACATACCAATCCATCTCACCCGCACCACCGCATAGTCCGTATCCCACCAGGCGAGAGCGTCGTGTTAAACTCTGC
GGAGAGGGCTCCGTACCTCCTGCTCGTCGAAATTCTGACCGATGACCTCGATTTCGAGCCAGCAAAGAAATCGAA
CAAGGATGTGCTCAGGAGGATTGTCCTCAAAGATCAGGAACGAACTGAACGGAGGGGATTCTCTGTCGATTCACC
ATCATTTGTCCCATCTCCGAGTCGACTAGGGCGACCTTCTGGCGATGTAGAGTTGATGTATCGTTCCGAATTGTC
ACAAGAACCCCAGACTGCAGTATCAGTCATTCCAGCCACGCCAACGACGGCAATACCGCCAGATCCCGACGAGGA
AGTCGATCTCGTCGAGCAACTATACGGAGCTGATCAACCGCTTAAATTCAAGCTAGAAGAACTCGTATCCGACTC
TATGAACCTTCCACCAACGCCCAAGAATAAGGACCTAGATCTGGCCACTTGGTCTCGCTCGTCCCCCATGGGATC
CTTCTCTTCATCCTTCGGTTCCCCCCACAGTAGACAACCATCCCAAACTCGAGTATCCATGGAGAGGACACATTC
GTCGCCTACCCCCTCGACGCCTGCAAGTGTAGATTACTCTGGCAATGCCCTATCCCTGGACGAGTATTCAGAGCG
AATGCGGACTGCTGCTATCATGTTGGCACAGCTGAATTCGGGAATCATGCGCAGCGATGCTCCTGTTACTGCCTC
CCCCAGACCGGACGCCAACGACTCGAACCCCTCTTCCCGAATGAAACGCTCTCTTTCCAATGGAATAGACCCAGC
TGCGCGCATGAAGGTACATCACGCAGAAACGGCTGCCATCCGGGATCGAATCATGAAAGAGATGATTTCGTTGGA
AGAGGAGAGGATGGCGCGTATGCAAGAGGGGGATGGGGCTTTTGTGACTGTCCCCCAGATGAGCGAGACGAGTGG
AAGCTCCAAGACGCTGGAGGATGAGAGCATTATCAGGAAGGAACTGAACAAGGTGGACCCATCTGCTGTCGTGTT
TAGTGAATCGTGGGCAGCGAAGAAGAGTCGCATCCGCCAGTCGTCGCCGTATGGGCATTTAGCTCAGTGGGACTG
CATGTCCGTTATCGTCAAAACTGGTGGAGACCTAAGACAAGAGCAACTTGCTGTACAACTTATTCGCGAGTTCCA
ATCAATATGGGCAGAGGAGAAGTGTGCTTGCTGGGTCAAACATTTCCGGATATTGATCACGGGTAGTACATCTGG
TCTCATCGAGACGATCAAAGACGCTGTTTCTATCCACTCGATCAAGAAGGCCGAGTATGCGAAGAGGATTGCAGA
GGGTAGACTCGGTCACGTTACGCTTCTTGACCACTTCAAGGCCAACTATGGCGACCCTTCATCCTCTCGCTTCCT
CCGCGCCCAACGCAATTTTGCCCAATCCCTCGCCGGTTACTCTATCGTCACCTACCTCCTCCAAGTCAAAGACCG
GCACAACGGCAACATCCTCCTAGACCGTGACGGACACCTTATCCACATCGATTTCGGCTTCATCTTGAGCAACAC
ACCAGGTAATATTGGTTTTGAAGCTGCGCCGTTCAAGTTCCCGCTGGAGTATTTGGAGGTGCTGGGAGGGATTGA
CGGAGCTGGGTACAAGGAGTTTAAGAGGCTGTTTAGGGAGGGTTTCGAGGCTGCACGCAAACATTGTGATCGAAT
TATCACTCTGGTCGAGTTGATGCAGAAAGACTCTTCGTATCCTTGTTTCGCAGTTTCTGCAGACCAGACTGCAAA
CCAGCTGAGAGATCGCTTCATGCCTACGCTGACGCACTCTTTGGTTGGCGAGCATGTCGAACGGTTGATTGCTTC
GTCATTGGGTTCGCATTGGACCAGACTGTATGACTCGTTCCAATACTACTCACAATCCATCCTATAATGACTATT
CATATATCCCTCATGGACAAGCGTGAACGAACGAATGACTGAGATTCACCTGACCAAAGCAGGGCAGTAGGTTAT
GACGTAGGTACAGCTAAATGGTGGAGCATATTAAAGCAGAGGGTCTAGTTG
Length 3276

Gene

Sequence id CopciAB_451261.T0
Sequence >CopciAB_451261.T0
AGTGACTGGTGCCAGAGCCTCGATGTCGTCGCATGCCCTGTTGCTCCGCCTCTTCCTCTCCCCTTCTTTTTTCTC
GGTTCATGTCGCACTCAAATATCTCCTCATTTATGCAGACAACATTGGCATCACATACTATTTGACCCATCGCCT
CAGGGAACTACAGGTCCAGGAGCTGACCGATGTCTGGGGTTTTATATGGCAAGATTTTATTTTCCTAATTTCCGA
CTACGTATTCTGACAGTAAATCTATAGCCATCTCCTCATAACCAGGCCCACGAAATCCAGGGCAATAGAGTGCTT
TGTGGTTGATACAGCCCGACGCTCGACCCATATCGCGTTGATAGTGCGTCCTTCCTGCTTCTCGTTCAAAAGTGT
ATTGAATCGGGAATAGACGCTATGGTTCATGCAAGCAGCCTTAAACGACCTGTCTGTCCAACGCCGCAACACTCA
GTCCTTTGCCGTCTGTCAGCGTGTCCTCCACAAGTGCCATGAAATCATATTCAGCGACCTTTCCCCCGCTCCCTC
GGGTCCTTATTCCATCTCCAACCTCTCCCCGCTGCTGCGTCGCCACAAGATTAAGCACCATGCTGAACCCGTCAT
CGTGGGCATTGGGACCATGCTTGCAGGCGCGCCGGGCATGCCTCGATTAACTGCCATAATGGGAGATGTCGCTAT
TGAACAGGGGAGAGCAGAGGAAGACTTTGACGATCGCACCGCCGTAGGTCCTCGATCTGAAGACGACCTCGCACC
TCCAGCCGTCTCTGCACGCACGTCCCTGGACGAGGACGACGATGACCAGGAGGGTTCCCCAAGCTCGGAAGAGTC
TTTGCCAGCAAAGCCTACTCTGCCATCCAACTCGGCTCTGCTGGCCAGGAGAAAAACTGTCACCGGTGCTCAGAC
GGTCCCCACACTCCCCCTACACCTACGATCTTTACGAAAACCGAGGTTGTCCGACGACCCCTTGGGCCAACTAGA
GACGGACAGCTTCAATACTCCGTCCCACTCGTCTCCGTCCCTTACCTCGGCCCTAATGTCCGGACGACCTTTACG
ATCCGCTATGATGAACCCCGCAGACATTCTCCTAGAACGCTACGATCACGAGGCACAAACGCAACTACTCCGGAA
CCATTTTTGTATGTCCGAGGTCAGTTTAGCTTTTACGCTTCCGCTGCTCCGTCTAACCGACAACAAGGTTCAATT
CTTGCTTAGTCTTGAGAACATTTGCAACCGACTATTGGTCGTGCCGAGACCGGCGCGAGTCAGTGCTCTAAGAGC
AGAATTGACCGCACTCAACCACAAACTCCCCGCCGAGGTATGATTGTCCCCAAAAAACCGACCAACTCGGAGTTG
ACTCGCGTAACCCAGGTCTGTCTACCTCTATGGTGTCCGGGAACGGATACCGCACATACCAATCCATCTCACCCG
CACCACCGCATAGTCCGTATCCCACCAGGCGAGAGCGTCGTGTTAAACTCTGCGGAGAGGGCTCCGTACCTCCTG
CTCGTCGAAATTCTGACCGATGACCTCGATTTCGAGCCAGCAAAGAAATCGAACAAGGATGTGCTCAGGAGGATT
GTCCTCAAAGATCAGGAACGAACTGAACGGAGGGGATTCTCTGTCGATTCACCATCATTTGTCCCATCTCCGAGT
CGACTAGGGCGACCTTCTGGCGATGTAGAGTTGATGTATCGTTCCGAATTGTCACAAGAACCCCAGACTGCAGTA
TCAGTCATTCCAGCCACGCCAACGACGGCAATACCGCCAGATCCCGACGAGGAAGTCGATCTCGTCGAGCAACTA
TACGGAGCTGATCAACCGCTTAAATTCAAGCTAGAAGAACTCGTATCCGACTCTATGAACCTTCCACCAACGCCC
AAGAATAAGGACCTAGATCTGGCCACTTGGTCTCGCTCGTCCCCCATGGGATCCTTCTCTTCATCCTTCGGTTCC
CCCCACAGTAGACAACCATCCCAAACTCGAGTATCCATGGAGAGGACACATTCGTCGCCTACCCCCTCGACGCCT
GCAAGTGTAGATTACTCTGGCAATGCCCTATCCCTGGACGAGTATTCAGAGCGAATGCGGACTGCTGCTATCATG
TTGGCACAGCTGAATTCGGGAATCATGCGCAGCGATGCTCCTGTTACTGCCTCCCCCAGACCGGACGCCAACGAC
TCGAGTGCGTATCCTTCCCCGCCTTGGCCTCATATTTATTGACTCCATGCTAACAGACCCCTCTTCCCGAATGAA
ACGCTCTCTTTCCAATGGAATAGACCCAGCTGCGCGCATGAAGGTACATCACGCAGAAACGGCTGCCATCCGGGA
TCGAATCATGAAAGAGATGATTTCGTTGGAAGAGGAGAGGATGGCGCGTATGCAAGAGGGGGATGGGGCTTTTGT
GACTGTCCCCCAGATGAGCGAGACGAGTGGAAGCTCCAAGACGCTGGAGGATGAGAGCATTATCAGGAAGGAACT
GAACAAGGTGGACCCATCTGCTGTCGTGTTTAGTGAATCGTGGGCAGCGAAGAAGGTGCGTTACTTTAACTGATG
TAGGGGATGGAGGCTTGATGGTGCTGTTTAGAGTCGCATCCGCCAGTCGTCGCCGTATGGGCATTTAGGTAACTA
TCCCTGTGTGCTCCGCGGCGTCTCCCATGCTCAGCAAGTTTAGCTCAGTGGGACTGCATGTCCGTTATCGTCAAA
ACTGGTGGAGACCTAAGACAAGAGCAACTTGCTGTACAACTTATTCGCGAGTTCCAATCAATATGGGCAGAGGAG
AAGTGTGCTTGCTGGGTCAAACAGTAGGTTTGGAGATTGTGTTTATCCAGTCTGTGATGCTCATGGACCATTAGT
TTCCGGATATTGATCACGGGTAGTACATCTGGTCTCATCGAGACGATCAAAGACGCTGTTTCTATCCACTCGATC
AAGAAGGCCGAGTATGCGAAGAGGATTGCAGAGGGTAGACTCGGTCACGTTACGCTTCTTGACCACTTCAAGGCC
GTCAGTTCCCCCCGTATATAATTAGCTAATTCACGCTCACGCCTTTCTTTAGAACTATGGCGACCCTTCATCCTC
TCGCTTCCTCCGCGCCCAACGCAATTTTGCCCAATCCCTCGCCGGTTACTCTATCGTCACCTACCTCCTCCAAGT
CAAAGACCGGCACAACGGCAACATCCTCCTAGACCGTGACGGACACCTTATCCACATCGATTTCGGCTTCATCTT
GAGCAACACACCAGGTAATATTGGTTTTGAAGCTGCGCCGTTCAAGTTCCCGCTGGAGTATTTGGAGGTGCTGGG
AGGGATTGACGGAGCTGGGTACAAGGAGTTTAAGAGGCTGTTTAGGGAGGGTTTCGAGGCTGCACGCAAACATTG
TGATCGAATTATCAGTATGTTCTTGTCCATCTCTTAACGCGGGCGACGGCTTATCTTGCCCTGTAGCTCTGGTCG
AGTTGATGCAGAAAGGTTGGTGCAGGGATTCTTGACCGCGACGGCTTGCTCACTCTTGCTTTATAGACTCTTCGT
ATCCTTGTTTCGCAGTTTCTGCAGACCAGACTGCAAACCAGCTGAGAGATCGCTTCATGCCTACGCTGACGCACT
CTTTGGTTGGCGAGCATGTCGAACGGTTGATTGCTTCGTCATTGGGTTCGCATTGGACCAGACTGTATGACTCGG
TAAGGGTGTTGAAGATCACTTGGTGTCCGACCTCACTGACTGGAACGCTTGCTAGTTCCAATACTACTCACAATC
CATCCTATAATGACTATTCATATATCCCTCATGGACAAGCGTGAACGAACGAATGACTGAGATTCACCTGACCAA
AGCAGGGCAGTAGGTTATGACGTAGGTACAGCTAAATGGTGGAGCATATTAAAGCAGAGGGTCTAGTTG
Length 3894