29 Roe A D, Rice A V, Bromilow S E, et al. Multilocus species identification and fungal DNA barcoding: insights from blue stain fungalsymbionts of the mountain pine beetle. Mol Ecol Resour, 2010, 10: 946-959??
[2]
30 Zhao P, Luo J, Zhuang W Y. Practice towards DNA barcoding of the nectriaceous fungi. Fung Diver, 2011, 46: 183-191??
[3]
31 Geiser D M, Jiménez-Gasco M, Kang S, et al. FUSARIUM-ID v.1.0: a DNA sequence database for identifying Fusarium. Eur J Plant Pathol,2004, 110: 473-479
[4]
32 O’Donnell K, Cigelnik E. Two divergent intragenomic rDNA ITS2 types within a monophyletic lineage of the fungus Fusarium arenonorthologous. Mol Phylogenet Evol, 1997, 7: 103-116??
[5]
33 Goffeau A, Barrell B G, Bussey H, et al. Life with 6000 genes. Science, 1996, 274: 563-567
[6]
34 Ma L J, Fedorovab N D. A practical guide to fungal genome projects: strategy, technology, cost and completion. Mycology, 2010, 1: 9-24
[7]
35 Cornell M J, Alam I, Soanes D M, et al. Comparative genome analysis across a kingdom of eukaryotic organisms: specialization anddiversification in the fungi. Genome Res, 2007, 17: 1809-1822??
[8]
36 Fitzpatrick D A, Logue M E, Stajich J E, et al. A fungal phylogeny based on 42 complete genomes derived from supertree and combinedgene analysis. BMC Evol Biol, 2006, 6: 99??
[9]
37 Moran G P, Coleman D C, Sullivan D J. Comparative genomics and the evolution of pathogenicity in human pathogenic fungi. EukaryotCell, 2011, 10: 34-42
[10]
38 Soanes D M, Alam I, Cornell M, et al. Comparative genome analysis of filamentous fungi reveals gene family expansions associated withfungal pathogenesis. PLoS ONE, 2008, 3: e2300??
[11]
39 Firon A, d’Enfert C. Identifying essential genes in fungal pathogens of humans. Trends Microbiol, 2002, 10: 456-462??
[12]
40 Jiang B, Bussey H, Roemer T. Novel strategies in antifungal lead discovery. Curr Opin Microbiol, 2002, 5: 466-471??
[13]
41 Parkinson T. The impact of genomics on anti-infectives drug discovery and development. Trends Microbiol, 2002, 10: S22-S26??
[14]
42 Hsiang T, Baillie D L. Comparison of the yeast proteome to other fungal genomes to find core fungal genes. J Mol Evol, 2005, 60: 475-483??
[15]
43 Liti G, Louis E J. Yeast genome evolution and comparative genomics. Ann Rev Microbiol, 2005, 59: 135-153??
[16]
44 Robert V, Sz?ke S, Eberhardt U, et al. The quest for a general and reliable fungal DNA barcode. Open Appl Inform J, 2011, 5: 45-61??
[17]
45 Lewis C T, Bilkhu S, Robert V, et al. Identification of fungal DNA barcode targets and PCR primers based on Pfam protein families andtaxonomic hierarchy. Open Appl Inform J, 2011, 5: 30-44??
[18]
46 Hardison R C. Comparative Genomics. PLoS Biol, 2003, 1: e58
[19]
47 Rossman A Y, Samuels G J, Rogerson C T, et al. Genera of Bionectriaceae, Hypocreaceae and Nectriaceae (Hypocreales, Ascomycetes).Stud Mycol, 1999, 42: 1-248
[20]
48 Zhuang W Y. Taxonomy and related studies on the nectrioid fungi from China. Chin Bull Life Sci, 2010, 22: 1083-1085
[21]
49 Altschul S F, Gish W, Miller W, et al. Basic local alignment search tool. J Mol Biol, 1990, 215: 403-410
[22]
50 Hsiang T, Goodwin P H, Distinguishing plant and fungal sequences in ESTs from infected plant tissues. J Microbiol Methods, 2003, 54:339-351
[23]
51 Thompson J D, Higgins D G, Gibson T J. CLUSTAL W: improving the sensitivity of progressive multiple sequence alignments throughsequence weighting, position specific gap penalties and weight matrix choice. Nucleic Acids Res, 1994, 22: 4673-4680??
[24]
52 Lalitha S. Primer Premier 5. Biotech Software & Internet Report, 2000, 1: 270-272??
[25]
53 Compton T. Degenerate primers for DNA amplification. In: Innis M A, Gelfand D H, Sninsky J J, et al., eds. PCR Protocols: A Guide toMethods and Applications. New York: Academic Press, 1990. 39-45??
[26]
54 Dieffenbach C W, Dveksler G S. PCR Primer: a Laboratory Manual. New York: Cold Spring Harbor Press, 1995. 15-41
[27]
55 Goller S P, Gorfer M, Mach R L, et al. Gene cloning using PCR. In: Bridge P D, Arora D K, Reddy C A, et al., eds. Applications of PCR inMycology. Wallingford: CAB International, 1998. 21-45??
[28]
56 Innis M A, Gelfand D H. Optimization of PCRs. In: Innis M A, Gelfand D H, Sninsky J J, et al., eds. PCR Protocols: A Guide to Methodsand Applications. New York: Academic Press, 1990. 3-12
[29]
57 Saiki R K. Amplification of genomic DNA. In: Innis M A, Gelfand D H, Sninsky J J, et al., eds. PCR rotocols: A Guide to Methods andApplications. New York: Academic Press, 1990. 13-20??
[30]
58 Sambrook J, Russell D W. Molecular Cloning: A Laboratory manual (3rd ed). New York: Cold Spring Harbor Press, 2001. 1.31-1.38
[31]
59 Wang L, Zhuang W Y. Designing primer sets for amplification of partial calmodulin genes from penicillia. Mycosystema, 2004, 23:466-473
[32]
60 Hall T A. BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. Nucleic Acids SympSer, 1999, 41: 95-98
[33]
61 Slabbinck B, Dawyndt P, Martens M, et al. TaxonGap: a visualisation tool for intra- and inter-species variation among individualbiomarkers. Bioinformatics, 2008, 24: 866-867??
[34]
62 Tamura K, Dudley J, Nei M, et al. MEGA4: Molecular Evolutionary Genetics Analysis (MEGA) software version 4.0. Mol Biol Evol, 2007,24: 1596-1599
[35]
63 Meyer C P, Paulay G. DNA barcoding: error rates based on comprehensive sampling. PLoS Biol, 2005, 3: e422??
[36]
64 Hsiang T, Baillie D L. Recent progress, developments, and issues in comparative fungal genomics. Can J Plant Pathol, 2004, 26: 19-30??
[37]
65 Pertsemlidis A, Fondon J W. Having a BLAST with bioinformatics (and avoiding BLASTphemy). Genome Biol, 2002, 2: 1-10
67 Pearson W R. Empirical statistical estimates for sequence similarity searches. J Mol Evol, 1998, 276: 71-84
[40]
68 Keon J, Bailey A, Hargreaves J. A group of expressed cDNA sequences from the wheat fungal leaf blotch pathogen, Mycosphaerellagraminicola (Septoria tritici). Fungal Genet Biol, 2000, 29: 118-133??
[41]
69 Kruger W M, Pritsch C, Chao S, et al. Functional and comparative bioinformatic analysis of expressed genes from wheat spikes infectedwith Fusarium graminearum. Mol Plant Microbe Interact, 2002, 15: 445-455??
[42]
70 Thomas S W, Glaring M A, Rasmussen S W, et al. Transcript profiling in the barley mildew pathogen Blumeria graminis by serial analysisof gene expression (SAGE). Mol Plant Microbe Interact, 2002, 15: 847-856??
[43]
71 Thomas S W, Rasmussen S W, Glaring M A, et al. Gene identification in the obligate fungal pathogen Blumeria graminis by expressedsequence tag analysis. Fungal Genet Biol, 2001, 33: 195-211??
[44]
72 Schubert K, Groenewald J Z, Braun U, et al. Biodiversity in the Cladosporium herbarum complex (Davidiellaceae, Capnodiales), withstandardisation of methods for Cladosporium taxonomy and diagnostics. Stud Mycol, 2007, 58: 105-156??
[45]
73 Skouboe P, Frisvad J C, Taylor J W, et al. Phylogenetic analysis of nucleotide sequences from the ITS region of terverticillate Penicilliumspecies. Mycol Res, 1999, 103, 873-881??
[46]
74 Liu Y J, Whelen S, Hall B D. Phylogenetic relationships among Ascomycetes: evidence from an RNA polymerse II subunit. Mol Biol Evol,1999, 16: 1799-1808
[47]
75 Taberlet P, Coissac E, Pompanon F, et al. Power and limitations of the chloroplast trnL (UAA) intron for plant DNA barcoding. NucleicAcids Res, 2007, 35: e14??
[48]
76 Myers K K, Fonzi W A, Sypherd P S. Isolation and sequence analysis of the gene for translation elongation factor 3 from Candida albicans.Nucleic Acids Res, 1992, 20: 1705-1710??
[49]
77 Qin S L, Moldave K, McLaughlin C S. Isolation of the yeast gene encoding elongation factor 3 for protein synthesis. J Biol Chem, 1987,262: 7802-7807
[50]
1 Stockinger H, Krüger M, Schüβler A. DNA barcoding of arbuscular mycorrhizal fungi. New Phytol, 2010, 187: 461-474??
[51]
2 Armstrong K F, Ball S L. DNA barcodes for biosecurity: invasive species identification. Phil Trans R Soc B, 2005, 360: 1813-1823??
[52]
3 Ball S L, Armstrong K F. DNA barcodes for insect pest identification: a test case with tussock moths (Lepidoptera: Lymantriidae). Can JFor Res, 2006, 36: 337-350??
[53]
4 Besansky N J, Severson D W, Ferdig M T. DNA barcoding of parasites and invertebrate disease vectors: what you don’t know can hurt you.Trends Parasitol, 2003, 19: 545-546??
[54]
5 Bucklin A, Steinke D, Blanco-Bercial L. DNA barcoding of marine metazoa. Annu Rev Mar Sci, 2011, 3: 471-508??
[55]
6 Eaton M J, Meyers G L, Kolokotronis S O, et al. Barcoding bushmeat: molecular identification of Central African and South Americanharvested vertebrates. Conserv Genet, 2010, 11: 1389-1404??
[56]
7 Hebert P D, Cywinska A, Ball S L, et al. Biological identifications through DNA barcodes. Proc R Soc Lond, 2003, 270: 313-321??
[57]
8 Lowenstein J H, Amato G, Kolokotronis S O. The real maccoyii: identifying tuna sushi with DNA barcodes - contrasting characteristicattributes and genetic distances. PLoS ONE, 2009, 4: e7866??
[58]
9 Steinke D, Zemlak T S, Boutillier J A, et al. DNA barcoding of Pacific Canada’s fishes. Mar Biol, 2009, 156: 2641-2647??
[59]
10 Steinke D, Zemlak T S, Hebert P D. Barcoding nemo: DNA-based identifications for the ornamental fish trade. PLoS ONE, 2009, 4: e6300??
[60]
11 Stoeckle M Y, Hebert P D. Barcode of life. Sci Am, 2008, 299: 88??
[61]
12 Valentini A, Pompanon F, Taberlet P. DNA barcoding for ecologists. Trends Ecol Evol, 2009, 24: 110-117??
[62]
13 Boehme P, Amendt J, Disney R H, et al. Molecular identification of carrion-breeding scuttle flies (Diptera: Phoridae) using COI barcodes.Int J Legal Med, 2010, 124: 577-581??
[63]
14 Feng Y W, Li Q, Kong L F, et al. DNA barcoding and phylogenetic analysis of Pectinidae (Mollusca: Bivalvia) based on mitochondrial COI and 16S rRNA genes. Mol Biol Rep, 2011, 38: 291-299??
[64]
15 Francis C M, Borisenko A V, Ivanova N V, et al. The role of DNA barcodes in understanding and conservation of mammal diversity inSoutheast Asia. PLoS ONE, 2010, 5: e12575??
[65]
16 Hebert P D, Ratnasingham S, de Waard J R. Barcoding animal life: cytochrome c oxidase subunit 1 divergences among closely relatedspecies. Proc R Soc Lond B (Suppl), 2003, 270: S96-S99??
[66]
17 Hebert P D, deWaard J R, Landry J F. DNA barcodes for 1/1000 of the animal kingdom. Biol Lett, 2009, 6: 359-362
[67]
18 Hebert P D, Stoeckle M Y, Zemlak T S, et al. Identification of birds through DNA barcodes. PLoS Biol, 2004, 2: e312??
[68]
19 Hollingsworth P M, Forrest L L, Spouge J L, et al. A DNA barcode for land plants. Proc Natl Acad Sci USA, 2009, 106: 12794-12797??
[69]
20 Zuo Y, Chen Z, Kondo K, et al. DNA barcoding of panax species. Planta Med, 2011, 77: 182-187??
[70]
21 Chen S, Yao H, Han J, et al. Validation of the ITS2 Region as a novel DNA barcode for identifying medicinal plant species. PLoS ONE,2010, 5: e8613??
[71]
22 Luo K, Chen S, Chen K, et al. Assessment of candidate plant DNA barcodes using the Rutaceae family. Sci China Life Sci, 2010, 53:701-708??
[72]
23 Cr?utlein M, Korpelainen H, Pietil?inen M, et al. DNA barcoding: a tool for improved taxon identification and detection of species diversity.Biodivers Conserv, 2011, 20: 373-389??
[73]
24 Seifert K A. Progress towards DNA barcoding of fungi. Mol Ecol Resour, 2009, 9: 83-89
[74]
25 Schwarz P, Bretagne S, Gantier J C. et al. Molecular identification of zygomycetes from culture and experimentally infected tissues. J ClinMicrobiol, 2006, 44: 340-349
[75]
26 Druzhinina I S, Kopchinskiy A G, Komoń M, et al. An oligonucleotide barcode for species identification in Trichoderma and Hypocrea.Fungal Genet Biol, 2005, 42: 813-828??
[76]
27 Fr?slev T G, Jeppesen T S, L?ss?e T, et al. Molecular phylogenetics and delimitation of species in Cortinarius section Calochroi(Basidiomycota, Agaricales) in Europe. Mol Phylogenet Evol, 2007, 44: 217-227??
[77]
28 Feau N, Vialle A, Allaire M, et al. Fungal pathogen (mis-) identifications: A case study with DNA barcodes on Melampsora rusts of aspenand white poplar. Mycol Res, 2009, 113: 713-724??
[78]
78 Ypma-Wong M F, Fonzi W A, Sypherd P S. Fungus-specific translation elongation factor 3 gene present in Pneumocystis carinii. InfectImmun, 1992, 60: 4140-4145
[79]
79 Fr?hlich K U, Fries H W, Rüdiger M, et al. Yeast cell cycle protein CDC48p shows full-length homology to the mammalian protein VCPand is a member of a protein family involved in secretion, peroxisome formation, and gene expression. J Cell Biol, 1991, 114: 443-453??
[80]
80 Imamura S, Ojima N, Yamashita M. Cold-inducible expression of the cell division cycle gene CDC48 and its promotion of cell proliferationduring cold acclimation in zebrafish cells. FEBS Lett, 2003, 549: 14-20??
[81]
81 Latterich M, Fr?hlich K U, Schekman R. Membrane fusion and the cell cycle: Cdc48p participates in the fusion of ER membranes. Cell,1995, 82: 885-893??
[82]
82 Chen B, Piel W H, Gui L, et al. The HSP90 family of genes in the human genome: insights into their divergence and evolution. Genomics,2005, 86: 627-637??
[83]
83 Farrelly F W, Finkelstein D B. Complete sequence of the heat shock-inducible HSP90 gene of Saccharomyces cerevisiae. J Biol Chem,1984, 259: 5745-5751
[84]
84 Nageshan R K, Roy N, Hehl A B, et al. Post-transcriptional repair of a split heat shock protein 90 gene by mRNA trans-splicing. J BiolChem, 2011, 286: 7116-7122
[85]
85 Gupta R S. Phylogenetic analysis of the 90 kD heat shock family of protein sequences and an examination of the relationship amonganimals, plants, and fungi species. Mol Biol Evol, 1995, 12: 1063-1073
[86]
86 Gupta R S. Protein phylogenies and signature sequences: A reappraisal of evolutionary relationships among archaebacteria, eubacteria, andeukaryotes. Mol Biol Rev, 1998, 62: 1435-1491
[87]
87 Stechmann A, Cavalier-Smith T. Evolutionary origins of Hsp90 chaperones and a deep paralogy in their bacterial ancestors. J EukaryotMicrobiol, 2004, 51: 364-373
[88]
88 Arends H, Sebald W. Nucleotide sequence of the cloned mRNA and gene of the ADP/ATP carrier from Neurospora crassa. EMBO J, 1984,3: 377-382
[89]
89 Zimmerman R, Paluch U, Sprinzl M, et al. Cell-free synthesis of the mitochondrial ADP/ATP carrier protein of Neurospora crassa. Eur JBiochem, 1979, 99: 247-252??
