CC1G_01530
Coprinopsis cinerea Okoyama 7

General data

Systematic name CC1G_01530 Strain Coprinopsis cinerea A43mutB43mut pab1-1 #326
Standard name - Synonyms
Uniprot id A8NHX8 Functional description Alpha-mannosidase (EC 3.2.1.24)
Location Chr_10:191729..196813 Strand +
Gene length (nt) 5085 Transcript length (nt) 3516
CDS length (nt) 3516 Protein length (aa) 1171

Reciprocal best hits in model fungi

Strain name Gene / Protein name
Schizosaccharomyces pombe ams1
Saccharomyces cerevisiae YGL156W_AMS1
Neurospora crassa gh38-1
Aspergillus nidulans AN2936

Orthologs in mushroom models

Strain name Gene / Protein name Pident E-value Bits
Agrocybe aegerita Agrae_CAA7262329 71.3 0 1819
Agaricus bisporus var bisporus (H97) Agabi_varbisH97_2_121861 68.1 0 1693
Hypsizygus marmoreus strain 51987-8 Hypma_RDB17533 67.8 0 1689
Ganoderma sp. 10597 SS1 v1.0 Gansp1_73062 66 0 1665
Lentinula edodes NBRC 111202 Lenedo1_1092642 65.9 0 1647
Lentinula edodes W1-26 v1.0 Lentinedodes1_2707 65.6 0 1634
Agaricus bisporus var. burnettii JB137-S8 Agabi_varbur_1_103312 65.4 0 1629
Pleurotus ostreatus PC9 PleosPC9_1_84710 66.6 0 1598
Pleurotus ostreatus PC15 PleosPC15_2_1076966 66.5 0 1578
Pleurotus eryngii ATCC 90797 Pleery1_1445060 65.4 0 1564
Flammulina velutipes Flave_chr09AA00284 61.2 0 1448
Grifola frondosa Grifr_OBZ74598 61 0 1420
Schizophyllum commune H4-8 Schco3_2639708 57 0 1404
Lentinula edodes B17 Lened_B_1_1_14846 64 0 1202
Auricularia subglabra Aurde3_1_1178449 59.9 0 1199

Expression

Name Summary Attribution Assay type
Coprinopsis cinerea mycelia exposed to different biotic and abiotic stress conditions Identification of a Novel Nematotoxic Protein in Coprinopsis cinerea Plaza et al. 2016 RNA-seq
Sample Mean cpm SD cpm Se of mean
O7 + PBS 306.3334 153.2577 88.4834
O7 + A. avenae 402.4262 107.9883 62.347
O7 + C. elegans 261.7271 114.6378 66.1862
O7 + mechanical damage 277.6752 105.4738 60.8953
O7 + E. coli 124.4043 3.1825 1.8374
O7 + B. subtilis 212.0207 14.2131 8.206

General data

Systematic name -
Protein id 1322
Description Alpha-mannosidase (EC 3.2.1.24)

Annotation summary

0 300 600 900 1171

Conserved domains

Analysis Signature accession Signature description InterPro Accession Start End
CDD cd10812 GH38N_AMII_ScAms1_like - 273 527
Pfam PF01074 Glycosyl hydrolases family 38 N-terminal domain IPR000602 273 536
Pfam PF09261 Alpha mannosidase middle domain IPR015341 545 606
Pfam PF07748 Glycosyl hydrolases family 38 C-terminal domain IPR011682 747 957

SignalP

Prediction Start End Score
No records

Transmembrane domains

Domain n Start End Length
No records

InterPro

Accession Description
IPR027291 Glycoside hydrolase 38, N-terminal domain superfamily
IPR000602 Glycoside hydrolase family 38, N-terminal domain
IPR011330 Glycoside hydrolase/deacetylase, beta/alpha-barrel
IPR028995 Glycoside hydrolase families 57/38, central domain superfamily
IPR015341 Glycoside hydrolase family 38, central domain
IPR011013 Galactose mutarotase-like domain superfamily
IPR037094 Glycoside hydrolase family 38, central domain superfamily
IPR011682 Glycosyl hydrolase family 38, C-terminal

GO

Go id Term Ontology
GO:0004559 alpha-mannosidase activity MF
GO:0006013 mannose metabolic process BP
GO:0005975 carbohydrate metabolic process BP
GO:0003824 catalytic activity MF
GO:0030246 carbohydrate binding MF

KEGG

KEGG Orthology
K01191

EggNOG

COG category Description
G Alpha mannosidase, middle domain

CAZy

Class Family Subfamily
GH GH38

Transcription factor

Group
No records

Conservation of CC1G_01530 across fungi.

Arrow shows the origin of gene family containing CC1G_01530.

Protein

Sequence id 1322
Sequence >1322
MSCHHRSGYSPAYPPPPSSATTTTSGDYPELNYSPGAKWIKHLTQSRLNNFQGGHFNDYNLSSVLFTQRKDSPEY
VKLKVWSAPGQTKPTFEEAMQQKFRTARKTVEFDPGCEAMIYSMDGTPLQGITGGFGGDRRVDYIIPPEARARGV
HEFVIESSCNGMFGVPWSGDIIAPPDMNRYFRLASADLVVPNQEAWRLLWDWEALKQIISNVPGNTILQNKALTA
ANEIMNVFDKGDLAAILRARKLADEVFGEGWEEKGADIYKEGPERPTIWGIGHCHIDSAWLWPYRVTQQKVARSW
STQIDLMERYPEHRFACSSAQQYKWLELLYPALFLNVKQKIAEGKFHPIGGSWVENDGNMPSGEALARQLVAGQR
YFETRFGIRCEVGWLPDSFGLTGAYPQIMRKAGMKYFFTQKLSWNNINKFPHSTFNWVGIDGTQVLCHMTPVETY
TAQATVHDIKKGLENHKNLESSDTALLVFGNGDGGGGPLSKMLENLRRIRAVTNKHRELPPVDMGHSVDDFFHDL
EKTSGEGKRLPNWHGELYLEFHRGTYTSHGSIKKGNRHSEILLRDVELVASLASLYKYHKNSYIYPKKDIDEAWE
KVLLNQYAEQLYAEVKRDGEAILEEALSVLFPNSMPLTSNTQSKALTGGAKVVALNTTFFPRLDVVQVPLGSSPG
GNGWGWSTPGGSTQSIRSQVHQVSEDGKVGWGIMQCARGGGAIGELVTGSNELRARLKPVSVYTNGSDHFVLRNS
TVQLTISEGRITSLLDVQLDRELIQEGQTGGLVIFEDRPNYWDAWDVEIHHLEVKKSLKFSNVSVVAQGPLYAAV
RAEVKYGQSTIVLTISLGATTATVRENSRSFFNFEAVVDWRQRHEFLKFELPLSIHSPNATYETQFGHVQRPTHK
NTTWDMAKFEVCGHKYADLSEFGYGVAYLSESKYGFSCLGNLLSISLLRAATAPDAEQDQGEHKFSWAVYPHEGH
FLESDVPVAGYLYNSPLRVRVVPPGTEDLLSTHRPLFAIDGARNVFLETVKRGEYDSYDAPFTLESADSDSEGDE
PAATRTTLVLRLYEAYGGHASGNLLISNRLPVVEAYETNLLEDDQDAVGLRLLSVQSANNNEDGVKSHSWGKSIP
LKFRGFEVKTIKLVLGAPPSPPPRSQKTGEKRSSWVNVDEDRFMDL
Length 1171

Coding

Sequence id CC1G_01530T0
Sequence >CC1G_01530T0
ATGTCCTGCCACCATCGTTCAGGATATTCACCAGCTTACCCGCCGCCGCCGTCGTCTGCGACGACGACGACGAGC
GGGGACTACCCAGAACTCAATTACAGCCCTGGTGCTAAATGGATCAAGCACCTTACCCAGTCGAGGTTGAACAAC
TTCCAGGGCGGGCATTTCAACGACTACAATCTCTCGTCTGTTCTCTTTACACAGAGGAAGGATAGTCCTGAATAT
GTCAAGCTCAAGGTTTGGAGCGCGCCTGGGCAGACCAAACCGACGTTCGAGGAGGCCATGCAACAGAAGTTCAGG
ACTGCTCGGAAGACAGTCGAATTTGACCCAGGATGCGAAGCGATGATTTACAGTATGGATGGAACACCTCTTCAA
GGCATCACAGGTGGATTCGGCGGTGACCGCCGTGTTGACTACATCATCCCACCTGAAGCCCGTGCCCGAGGTGTT
CACGAGTTCGTCATCGAATCAAGCTGCAATGGCATGTTCGGCGTCCCATGGAGCGGCGATATCATCGCTCCTCCT
GACATGAACCGGTACTTCCGCCTCGCTTCAGCTGACCTTGTCGTCCCGAATCAGGAAGCATGGCGGTTGCTGTGG
GACTGGGAGGCATTGAAGCAAATCATTAGCAACGTTCCAGGGAACACTATCCTTCAGAACAAAGCCTTGACGGCG
GCCAACGAGATTATGAACGTCTTCGACAAGGGCGATTTGGCGGCCATTCTCAGAGCACGCAAGTTGGCCGATGAA
GTCTTTGGTGAAGGATGGGAGGAGAAGGGCGCGGACATCTACAAGGAAGGGCCCGAAAGACCCACAATCTGGGGT
ATTGGACACTGCCATATCGACTCTGCTTGGCTGTGGCCTTACCGCGTCACCCAGCAAAAGGTCGCTCGTTCATGG
TCCACTCAGATAGATTTGATGGAGCGCTACCCCGAACATCGCTTTGCATGCTCGTCCGCCCAGCAGTACAAGTGG
CTCGAACTTCTCTACCCTGCACTCTTCCTCAACGTCAAGCAAAAGATCGCTGAAGGAAAGTTCCACCCCATTGGA
GGCTCGTGGGTCGAAAACGATGGAAATATGCCTAGCGGAGAAGCGCTGGCCAGGCAACTTGTAGCTGGACAGCGA
TACTTTGAGACTAGGTTTGGTATCCGATGTGAAGTCGGCTGGCTCCCTGACAGTTTTGGTTTGACTGGTGCATAT
CCTCAGATTATGAGGAAAGCGGGGATGAAGTACTTTTTCACGCAGAAGCTTTCGTGGAACAATATCAACAAGTTC
CCGCATAGTACTTTCAACTGGGTTGGTATCGATGGCACTCAGGTCCTGTGTCATATGACGCCGGTCGAGACGTAT
ACCGCGCAAGCCACGGTTCATGACATCAAGAAGGGGTTGGAGAACCACAAGAATCTTGAATCCTCGGATACTGCG
CTACTTGTTTTCGGAAACGGTGATGGAGGAGGCGGACCATTGTCGAAGATGTTGGAGAACCTTCGTCGAATTCGA
GCGGTCACTAACAAGCATCGTGAACTTCCTCCTGTTGATATGGGACATAGTGTTGATGATTTCTTCCATGATCTT
GAGAAGACGTCCGGGGAGGGGAAGAGGTTGCCGAATTGGCATGGGGAGTTGTACCTCGAGTTCCATCGTGGCACG
TATACGTCGCACGGATCTATCAAGAAGGGAAATAGGCACTCGGAGATTCTGTTGAGGGATGTTGAGCTGGTCGCG
TCTCTGGCTTCCCTCTACAAGTATCACAAGAACAGCTATATCTATCCCAAGAAAGACATTGACGAAGCATGGGAG
AAGGTTTTGTTGAATCAATACGCCGAGCAGTTGTACGCTGAAGTGAAGCGTGACGGAGAAGCGATCCTTGAAGAA
GCGCTCTCCGTCCTCTTCCCCAACTCTATGCCTCTGACATCCAACACGCAGTCCAAGGCCCTCACCGGTGGCGCC
AAGGTTGTCGCCCTGAACACGACTTTCTTCCCTCGCCTGGATGTCGTCCAGGTTCCTTTGGGCAGCTCTCCTGGA
GGCAATGGTTGGGGTTGGAGCACTCCTGGCGGCTCCACGCAATCTATTCGTTCTCAGGTTCATCAAGTGAGCGAG
GATGGCAAGGTTGGGTGGGGGATTATGCAGTGTGCGCGAGGTGGTGGAGCGATTGGCGAGTTGGTCACTGGTAGT
AATGAGTTGAGGGCTAGGTTGAAGCCTGTTTCTGTTTATACGAATGGAAGCGATCACTTTGTACTGCGCAATTCG
ACTGTGCAGTTGACGATTTCTGAGGGCAGGATTACCAGTTTGCTTGATGTTCAACTTGATCGTGAGTTGATCCAG
GAAGGCCAAACTGGTGGATTGGTCATCTTCGAGGATAGGCCTAACTACTGGGATGCCTGGGATGTTGAAATCCAC
CATCTTGAAGTGAAGAAATCGCTCAAGTTTTCGAATGTTTCTGTCGTTGCTCAGGGTCCTCTCTATGCTGCTGTT
CGTGCGGAGGTCAAGTATGGGCAGAGTACGATCGTGCTTACGATATCCTTGGGTGCTACAACTGCCACTGTTCGC
GAGAACTCCCGCTCGTTCTTCAACTTTGAAGCTGTGGTTGACTGGCGTCAGCGACACGAGTTCCTCAAATTTGAA
CTGCCCTTGAGCATTCACAGCCCCAATGCCACCTACGAAACCCAGTTTGGCCATGTTCAGCGTCCAACGCACAAG
AATACCACTTGGGACATGGCCAAGTTTGAGGTTTGCGGTCACAAGTATGCCGACCTCAGTGAGTTCGGATATGGT
GTTGCGTACCTTTCGGAATCCAAGTATGGATTCTCGTGCTTGGGTAATTTGTTGTCCATTAGTTTGTTGCGAGCT
GCTACTGCTCCGGATGCTGAACAGGATCAAGGCGAACACAAGTTCTCGTGGGCTGTTTATCCCCACGAAGGGCAT
TTCCTGGAGTCGGACGTTCCCGTTGCTGGATACCTCTACAACTCCCCTCTCCGCGTTCGAGTTGTTCCTCCAGGC
ACCGAAGACCTTCTCTCGACCCATCGTCCCCTGTTCGCCATCGACGGTGCGCGCAATGTCTTCCTCGAGACTGTC
AAGCGTGGCGAGTACGACTCGTACGATGCGCCTTTCACTCTCGAGTCTGCGGACTCGGACTCGGAGGGTGACGAG
CCGGCTGCGACTAGGACGACGCTCGTGTTGAGGTTGTACGAGGCGTATGGTGGGCATGCTTCCGGCAACCTGCTC
ATCTCGAACCGTCTCCCCGTCGTTGAGGCCTATGAGACCAATCTCCTCGAGGACGATCAGGATGCAGTTGGACTT
CGTCTTCTGTCCGTTCAGTCTGCCAACAACAACGAGGATGGTGTCAAGTCGCATTCGTGGGGCAAGAGTATTCCG
TTGAAGTTCAGAGGATTTGAGGTCAAGACGATTAAACTTGTTCTTGGTGCGCCTCCGAGTCCTCCTCCTCGGTCG
CAGAAAACTGGGGAGAAGAGGTCTAGTTGGGTGAATGTTGATGAGGATAGGTTTATGGATCTT
Length 3516

Transcript

Sequence id CC1G_01530T0
Sequence >CC1G_01530T0
ATGTCCTGCCACCATCGTTCAGGATATTCACCAGCTTACCCGCCGCCGCCGTCGTCTGCGACGACGACGACGAGC
GGGGACTACCCAGAACTCAATTACAGCCCTGGTGCTAAATGGATCAAGCACCTTACCCAGTCGAGGTTGAACAAC
TTCCAGGGCGGGCATTTCAACGACTACAATCTCTCGTCTGTTCTCTTTACACAGAGGAAGGATAGTCCTGAATAT
GTCAAGCTCAAGGTTTGGAGCGCGCCTGGGCAGACCAAACCGACGTTCGAGGAGGCCATGCAACAGAAGTTCAGG
ACTGCTCGGAAGACAGTCGAATTTGACCCAGGATGCGAAGCGATGATTTACAGTATGGATGGAACACCTCTTCAA
GGCATCACAGGTGGATTCGGCGGTGACCGCCGTGTTGACTACATCATCCCACCTGAAGCCCGTGCCCGAGGTGTT
CACGAGTTCGTCATCGAATCAAGCTGCAATGGCATGTTCGGCGTCCCATGGAGCGGCGATATCATCGCTCCTCCT
GACATGAACCGGTACTTCCGCCTCGCTTCAGCTGACCTTGTCGTCCCGAATCAGGAAGCATGGCGGTTGCTGTGG
GACTGGGAGGCATTGAAGCAAATCATTAGCAACGTTCCAGGGAACACTATCCTTCAGAACAAAGCCTTGACGGCG
GCCAACGAGATTATGAACGTCTTCGACAAGGGCGATTTGGCGGCCATTCTCAGAGCACGCAAGTTGGCCGATGAA
GTCTTTGGTGAAGGATGGGAGGAGAAGGGCGCGGACATCTACAAGGAAGGGCCCGAAAGACCCACAATCTGGGGT
ATTGGACACTGCCATATCGACTCTGCTTGGCTGTGGCCTTACCGCGTCACCCAGCAAAAGGTCGCTCGTTCATGG
TCCACTCAGATAGATTTGATGGAGCGCTACCCCGAACATCGCTTTGCATGCTCGTCCGCCCAGCAGTACAAGTGG
CTCGAACTTCTCTACCCTGCACTCTTCCTCAACGTCAAGCAAAAGATCGCTGAAGGAAAGTTCCACCCCATTGGA
GGCTCGTGGGTCGAAAACGATGGAAATATGCCTAGCGGAGAAGCGCTGGCCAGGCAACTTGTAGCTGGACAGCGA
TACTTTGAGACTAGGTTTGGTATCCGATGTGAAGTCGGCTGGCTCCCTGACAGTTTTGGTTTGACTGGTGCATAT
CCTCAGATTATGAGGAAAGCGGGGATGAAGTACTTTTTCACGCAGAAGCTTTCGTGGAACAATATCAACAAGTTC
CCGCATAGTACTTTCAACTGGGTTGGTATCGATGGCACTCAGGTCCTGTGTCATATGACGCCGGTCGAGACGTAT
ACCGCGCAAGCCACGGTTCATGACATCAAGAAGGGGTTGGAGAACCACAAGAATCTTGAATCCTCGGATACTGCG
CTACTTGTTTTCGGAAACGGTGATGGAGGAGGCGGACCATTGTCGAAGATGTTGGAGAACCTTCGTCGAATTCGA
GCGGTCACTAACAAGCATCGTGAACTTCCTCCTGTTGATATGGGACATAGTGTTGATGATTTCTTCCATGATCTT
GAGAAGACGTCCGGGGAGGGGAAGAGGTTGCCGAATTGGCATGGGGAGTTGTACCTCGAGTTCCATCGTGGCACG
TATACGTCGCACGGATCTATCAAGAAGGGAAATAGGCACTCGGAGATTCTGTTGAGGGATGTTGAGCTGGTCGCG
TCTCTGGCTTCCCTCTACAAGTATCACAAGAACAGCTATATCTATCCCAAGAAAGACATTGACGAAGCATGGGAG
AAGGTTTTGTTGAATCAATACGCCGAGCAGTTGTACGCTGAAGTGAAGCGTGACGGAGAAGCGATCCTTGAAGAA
GCGCTCTCCGTCCTCTTCCCCAACTCTATGCCTCTGACATCCAACACGCAGTCCAAGGCCCTCACCGGTGGCGCC
AAGGTTGTCGCCCTGAACACGACTTTCTTCCCTCGCCTGGATGTCGTCCAGGTTCCTTTGGGCAGCTCTCCTGGA
GGCAATGGTTGGGGTTGGAGCACTCCTGGCGGCTCCACGCAATCTATTCGTTCTCAGGTTCATCAAGTGAGCGAG
GATGGCAAGGTTGGGTGGGGGATTATGCAGTGTGCGCGAGGTGGTGGAGCGATTGGCGAGTTGGTCACTGGTAGT
AATGAGTTGAGGGCTAGGTTGAAGCCTGTTTCTGTTTATACGAATGGAAGCGATCACTTTGTACTGCGCAATTCG
ACTGTGCAGTTGACGATTTCTGAGGGCAGGATTACCAGTTTGCTTGATGTTCAACTTGATCGTGAGTTGATCCAG
GAAGGCCAAACTGGTGGATTGGTCATCTTCGAGGATAGGCCTAACTACTGGGATGCCTGGGATGTTGAAATCCAC
CATCTTGAAGTGAAGAAATCGCTCAAGTTTTCGAATGTTTCTGTCGTTGCTCAGGGTCCTCTCTATGCTGCTGTT
CGTGCGGAGGTCAAGTATGGGCAGAGTACGATCGTGCTTACGATATCCTTGGGTGCTACAACTGCCACTGTTCGC
GAGAACTCCCGCTCGTTCTTCAACTTTGAAGCTGTGGTTGACTGGCGTCAGCGACACGAGTTCCTCAAATTTGAA
CTGCCCTTGAGCATTCACAGCCCCAATGCCACCTACGAAACCCAGTTTGGCCATGTTCAGCGTCCAACGCACAAG
AATACCACTTGGGACATGGCCAAGTTTGAGGTTTGCGGTCACAAGTATGCCGACCTCAGTGAGTTCGGATATGGT
GTTGCGTACCTTTCGGAATCCAAGTATGGATTCTCGTGCTTGGGTAATTTGTTGTCCATTAGTTTGTTGCGAGCT
GCTACTGCTCCGGATGCTGAACAGGATCAAGGCGAACACAAGTTCTCGTGGGCTGTTTATCCCCACGAAGGGCAT
TTCCTGGAGTCGGACGTTCCCGTTGCTGGATACCTCTACAACTCCCCTCTCCGCGTTCGAGTTGTTCCTCCAGGC
ACCGAAGACCTTCTCTCGACCCATCGTCCCCTGTTCGCCATCGACGGTGCGCGCAATGTCTTCCTCGAGACTGTC
AAGCGTGGCGAGTACGACTCGTACGATGCGCCTTTCACTCTCGAGTCTGCGGACTCGGACTCGGAGGGTGACGAG
CCGGCTGCGACTAGGACGACGCTCGTGTTGAGGTTGTACGAGGCGTATGGTGGGCATGCTTCCGGCAACCTGCTC
ATCTCGAACCGTCTCCCCGTCGTTGAGGCCTATGAGACCAATCTCCTCGAGGACGATCAGGATGCAGTTGGACTT
CGTCTTCTGTCCGTTCAGTCTGCCAACAACAACGAGGATGGTGTCAAGTCGCATTCGTGGGGCAAGAGTATTCCG
TTGAAGTTCAGAGGATTTGAGGTCAAGACGATTAAACTTGTTCTTGGTGCGCCTCCGAGTCCTCCTCCTCGGTCG
CAGAAAACTGGGGAGAAGAGGTCTAGTTGGGTGAATGTTGATGAGGATAGGTTTATGGATCTTTGA
Length 3516

Gene

Sequence id CC1G_01530T0
Sequence >CC1G_01530T0
ATGTCCTGCCACCATCGTTCAGGATATTCACCAGCTTACCCGCCGCCGCCGTCGTCTGCGACGACGACGACGAGC
GGGGACTACCCAGAACTCAATTACAGCCCTGGTGCTAAATGGATCAAGCACCTTACCCAGTCGAGGTTGAACAAC
TTCCAGGGCGGGCATTTCAACGACTACAATCTCTCGTCTGTTCTCTTTACACAGAGGAAGGATAGTCCTGAATAT
GTCAAGCTCAAGGTGTAAGTCATATCTACAGCCTTCTCGAGAGAAATGGCTAAAGGCAGACTGCACAATCTAGTT
GGAGCGCGCCTGGGCAGACCAAACCGACGTTCGAGGAGGCCATGCAACAGAAGTTCAGGACTGCTCGGAAGGTAC
GCGACATGGCTTTAGTTTATCTATGTATCTGACCCCCCGACAGGGAGAATCGTTTGGACCGTCTTGTAAGGTTTC
TCGTTACTGATGCTCGCGTGCGGGTCGCTTATTGTTCAATTAGGGGTAAGCTATTCGAGTTCGACTTTCATTTTA
TGCAAAGGTCTCAGTCATGTGCCTAGACAAACCACTGGTGGCAAGTCACCGTCCATATTCCCCAAGACTGGGATC
AGTATGAACGTGTTCAGTGTGCGTTCTGTTCATCGTTCAGCGAGGGACCGTTTCCTAAACCCCAGACAGTCGAAT
TTGACCCAGGATGCGAAGCGATGATTTACAGTATGGATGGAACACCTCTTCAAGGTAAGCATGCCTTCTCGTTGC
GCGTCCTTCTCCATACTCATGGGAATCGTATAGGCATCACAGGTGGATTCGGCGGTGACCGCCGTGTTGACTACA
TCATCCCACCTGAAGCCCGTGCCCGAGGTGTTCACGAGTTCGTCATCGAATCAAGCTGCAATGGCATGTTCGGCG
TCCCATGGAGCGGCGATATCATCGCTCCTCCTGACATGAACCGGTACTTCCGCCTCGCTTCAGCTGACCTTGTCG
TCCCGAATCAGGAAGCATGGCGGTTGCTGTGGGACTGGGAGGCATTGAAGCAAATCATTAGCAACGTTCCAGGGA
ACACTATGTCCGTGCTCGGTTGAAGCTTGGCAGACTGTATGATGCTAATCGTGATTGACAGCCTTCAGAACAAAG
CCTTGACGGCGGCCAACGAGATTATGAACGTCTTCGACAAGGGCGATTTGGCGGCCATTCTCAGAGCACGCAAGT
TGGCCGATGAAGTCTTTGGTGAAGGATGGGAGGAGAAGGGCGCGGACATCTACAAGGAAGGGCCCGAAAGACCCA
CAATCTGGGGTATTGGACAGTGCGTGAATTTTACTACACTTGTAACCGTGTCGTTGACATGGTTTTCTTAGCTGC
CATATCGACTCTGCTTGGCTGTGGCCTTACCGCGTCACCCAGCAAAAGGTCGCTCGTTCATGGTCCACTCAGATA
GATTTGATGGAGCGCTACCCCGAACATCGCTTTGCATGCTCGTCCGCCCAGCAGTACAAGTGGCTCGAACTTCTC
TACCCTGCACTCTTCCTCAACGTCAAGCAAAAGATCGCTGAAGGAAAGTTCCACCCCATTGGAGGCTCGTGGGTC
GAAAACGATGGAAATATGCCTAGCGGAGAAGCGCTGGCCAGGCAACTTGTAGCTGGACAGCGATACTTTGAGACT
AGGTTTGGTATCCGATGTGAAGTCGGCTGGCTCCCTGACAGTTTTGGTTTGACTGGTGCATATCCTCAGATTATG
AGGAAAGCGGGTGAGTTTAGCCTCCGATGCTCCGTGGAATGTTTGACATGCTAATCGACTTGTAGGGATGAAGTA
CTTTTTCACGCAGAAGCTTTCGTGGAACAATATGTGCGTCGTTCTCTCGCGTCCATCCGGCTTTCCTGCTAATTA
ATGGTCGACTTGCTTCTGCCGCCTGTTTTAATTTTTGGTATACAGCAACAAGTTCCCGCATAGTACTTTCAACTG
GGTTGGTATCGATGGCACTCAGGTCCTGTGTCATATGACGCCGGTCGAGACGTATACCGCGCAAGCCACGGTTCA
TGACATCAAGAAGGGGTTGGAGAACCACAAGGTTGGTCGATCTACTCACTCATGGTGCTCATTTTAACCTGTTGG
ATAGAATCTTGAATCCTCGGATACTGCGCTACTTGTTTTCGGAAACGGTGATGGAGGAGGCGGACCATTGTCGAA
GATGTTGGAGAACGTAAGTCCCACCCATCTTTTGCCGCAACGACATCCATAGTATACTCATCGATTGTGTACTTA
GCTTCGTCGAATTCGAGCGGTCACTAACAAGCATCGTGAACTTCCTCCTGTTGATATGGGACATAGTGTTGATGA
TTTCTTCCATGATCTTGAGAAGACGTCCGGGGAGGGGAAGAGGTTGCCGAATTGGCATGGGGAGTTGTACCTCGA
GGTGAGTGGGTTGTTTTTGGTTTGTGTCCGTGGGCGGGTGTCGTCCTGTTTAGTATTTATGGGCGGGTGTTGTCC
TGTTTAGTGTCCAGGGAAAAGTGCCGTCCAGGATCAATGGGCTGACTTCTTTCATTCTAGTTCCATCGTGGCACG
TATACGTCGCACGGATCTATCAAGAAGGGAAATAGGCACTCGGAGATTCTGTTGAGGGATGTTGAGGTGCGTTAT
TTGCATTGTCGCATAGATCATGTATTTGACTAGTCATTATAGCTGGTCGCGTCTCTGGCTTCCCTCTACAAGTAT
CACAAGAACAGCTATATCTATCCCAAGAAAGACATTGACGAAGCATGGGAGAAGGTTTTGTTGAATCAATGTAAG
TGGCTTTCCGTGATCTCCTGGCGTTCTGGCTGACGTCGCGGTTCTCTTAGTCCATGATGGTAAGAAAAGTCCAAA
TGTCATAGCGCTAACGTGCTCATCTCAACCCGCCTGCAGTCCTTCCTGGATCATCGATGCGAGTATCCATCATCC
GTGCTTGGATTTTGAGCCCTGCTGACTTTGGTATTTCAGTGGCATGGTTTACGAAGACGCCGAGCAGTTGTACGC
TGAAGTGAAGCGTGACGGAGAAGCGATCCTTGAAGAAGCGCTCTCCGTCCTCTTCCCCAACTCTATGCCTCTGAC
ATCCAACACGCAGTCCAAGGCCCTCACCGGTGGCGCCAAGGTTGTCGCCCTGAACACGACTTTCTTCCCTCGCCT
GGATGTCGTCCAGGTTCCTTTGGGCAGCTCTCCTGGAGGCAATGGTTGGGGTTGGAGCACTCCTGGCGGCTCCAC
GCAATCTATTCGTTCTCAGGTTCATCAAGTGAGCGAGGATGGCAAGGTTGGGTGGGGGATTATGCAGTGTGCGCG
AGGTGGTGGAGCGATTGGCGAGTTGGTCACTGGTAGTAATGAGTTGAGGGCTAGGTTGAAGCCTGTTTCTGGTTG
GTCTTTTTTTTCTGGTCGTATAGGAGGATGGCGCTGATATAGCTTTGGTTTGACAGTTTATACGAATGGAAGCGA
TCACTTTGTACTGCGCAATTCGACTGTGCAGTTGACGATTTCTGAGGGCAGGATTACCAGTTTGCTTGATGTTCA
ACTTGAGTACGTGTTTCTTGACCTGCGTGAATTTGACTTAACGTTGATCGCCTTGGCAGTCGTGAGTTGATCCAG
GAAGGCCAAACTGGTGGATTGGTCATCTTCGAGGATAGGCCTAACTACTGGGATGCCTGGGGTATGTCTTCTCGT
ACCTCCGACTCTTCTAACGCTAAGCCTGACGTGTGTTTGCAATGCAGATGTTGAAATCCACCATCTTGAAGTGAA
GAAATCGCTCAAGTTTTCGAATGTTTCTGTCGTTGCTCAGGGTCCTCTCTATGCTGCTGTTCGTGCGGAGGTCAA
GTATGGGCAGAGTACGATCGTGCTTACGGTACGTATGGTTTCTCCACCTGATCTGTCTATTCTCATTAGGTGGGC
ATTTCGCAGATATCCTTGGGTGCTACAACTGCCACTGTTCGCGAGAACTCCCGCTCGTTCTTCAACTTTGAAGCT
GTGGTTGACTGGCGTCAGCGACACGAGTTCCTCAAATGTAAGTGTCCACCTTTTGCTTTCCGTACCAGAGCCTGA
TATACGTTCTTCCAGTTGAACTGCCCTTGAGCATTCACAGCCCCAATGCCACCTACGAAACCCAGTTTGGCCATG
TTCAGCGTCCAACGCACAAGAATACCACTTGGGACATGGCCAAGTTTGAGGTTTGCGGTCACAAGTATGCCGACC
TCAGTGAGTTCGGATATGGTGTTGCGTACCTTTCGGAATCCAAGTATGGATTCTCGTGCTTGGGTAATTTGTTGT
CCATTAGTTTGTTGCGAGCTGCTACTGCTCCGGATGCTGAACAGGATCAAGGTGAGTCGCCGTGTTCTATCGATG
ATGTGCTTGTGCTAACCTGGGTACAGGCGAACACAAGTTCTCGTGGGCTGTTTATCCCCACGAAGGGCATTTCCT
GGAGTCGGACGTTCCCGTTGCTGGATACCTCTACAACTCCCCTCTCCGCGTTCGAGTTGTTCCTCCAGGCACCGA
AGACCTTCTCTCGACCCATCGTCCCCTGTTCGCCATCGACGGTGCGCGCAATGTCTTCCTCGAGACTGTCAAGCG
TGGCGAGTACGACTCGTACGATGCGCCTTTCACTCTCGAGTCTGCGGACTCGGACTCGGAGGGTGACGAGCCGGC
TGCGACTAGGACGACGCTCGTGTTGAGGTTGTACGAGGCGTATGGTGGGCATGCTTCCGGCAACCTGCTCATCTC
GAACCGTCTCCCCGTCGTTGAGGCCTATGAGACCAATCTCCTCGAGGACGATCAGGATGCAGTTGGACTTCGTCT
TCTGTCCGTTCAGTCTGCCAACAACAACGAGGATGGTGTCAAGTCGCATTCGTGGGGCAAGAGTATTCCGTTGAA
GTTCAGAGGATTTGAGGTCAAGACGATTAAACTTGTTCTTGGTGCGCCTCCGAGTCCTCCTCCTCGGTCGCAGAA
AACTGGGTATGTGTTTGTTGGTTGATGGTTTTTTTTGGGTTGTGGGTGGTTAGCTCATGGGTGATTTTTTGTTTT
TGTAGGGAGAAGAGGTCTAGTTGGGTGAATGTTGATGAGGATAGGTTTATGGATCTTTGA
Length 5085