Efficient four fragment cloning for the construction of vectors for targeted gene replacement in filamentous fungi
about
Genome sequence of the necrotrophic fungus Penicillium digitatum, the main postharvest pathogen of citrusTomato immune receptor Ve1 recognizes effector of multiple fungal pathogens uncovered by genome and RNA sequencingLeucine metabolism regulates TRI6 expression and affects deoxynivalenol production and virulence in Fusarium graminearumTri6 is a global transcription regulator in the phytopathogen Fusarium graminearum.An efficient procedure for marker-free mutagenesis of S. coelicolor by site-specific recombination for secondary metabolite overproduction.Cloning and characterization of the gene cluster required for beauvericin biosynthesis in Fusarium proliferatum.Genetic transformation of Fusarium avenaceum by Agrobacterium tumefaciens mediated transformation and the development of a USER-Brick vector construction systemIdentification and functional analysis of Penicillium digitatum genes putatively involved in virulence towards citrus fruit.Linoleic acid isomerase gene FgLAI12 affects sensitivity to salicylic acid, mycelial growth and virulence of Fusarium graminearumGenetic basis of destruxin production in the entomopathogen Metarhizium robertsii.Verticillium dahliae LysM effectors differentially contribute to virulence on plant hosts.Evolving Catalytic Properties of the MLL Family SET Domain.Structural Analysis of an Avr4 Effector Ortholog Offers Insight into Chitin Binding and Recognition by the Cf-4 Receptor.Reliable transformation system for Microbotryum lychnidis-dioicae informed by genome and transcriptome project.A highly conserved metalloprotease effector enhances virulence in the maize anthracnose fungus Colletotrichum graminicola.Gene expression patterns and dynamics of the colonization of common bean (Phaseolus vulgaris L.) by highly virulent and weakly virulent strains of Fusarium oxysporum.UCE: A uracil excision (USER)-based toolbox for transformation of cereals.Identification of the Scopularide Biosynthetic Gene Cluster in Scopulariopsis brevicaulis.Black perithecial pigmentation in Fusarium species is due to the accumulation of 5-deoxybostrycoidin-based melanin.Versatile enzyme expression and characterization system for Aspergillus nidulans, with the Penicillium brevicompactum polyketide synthase gene from the mycophenolic acid gene cluster as a test case.New microbial resource: microbial diversity, function and dynamics in Chinese liquor starter.Extensive chromosomal reshuffling drives evolution of virulence in an asexual pathogen.Investigation of the Fusarium virguliforme fvtox1 mutants revealed that the FvTox1 toxin is involved in foliar sudden death syndrome development in soybean.Functional Analysis of the Fusarielin Biosynthetic Gene Cluster.The global regulator LaeA controls production of citric acid and endoglucanases in Aspergillus carbonarius.Rhamnose synthase activity is required for pathogenicity of the vascular wilt fungus Verticillium dahliae.Identification of the non-ribosomal peptide synthetase responsible for biosynthesis of the potential anti-cancer drug sansalvamide in Fusarium solani.One-step plasmid construction for generation of knock-out mutants in cyanobacteria: studies of glycogen metabolism in Synechococcus sp. PCC 7002.Identification and characterization of LysM effectors in Penicillium expansum.Molecular characterization and functional analyses of ZtWor1, a transcriptional regulator of the fungal wheat pathogen Zymoseptoria tritici.The FTF gene family regulates virulence and expression of SIX effectors in Fusarium oxysporum.Production of novel fusarielins by ectopic activation of the polyketide synthase 9 cluster in Fusarium graminearum.Autophagy provides nutrients for nonassimilating fungal structures and is necessary for plant colonization but not for infection in the necrotrophic plant pathogen Fusarium graminearum.Functional Characterization of the alb1 Orthologue Gene in the Ochratoxigenic Fungus Aspergillus carbonarius (AC49 strain).Activation of an unconventional meroterpenoid gene cluster in Neosartorya glabra leads to the production of new berkeleyacetals.Comprehensive analysis of Verticillium nonalfalfae in silico secretome uncovers putative effector proteins expressed during hop invasion.Genetic engineering and production of modified fatty acids by the non-conventional oleaginous yeast Trichosporon oleaginosus ATCC 20509Who Needs Neighbors? Is a Stand-Alone Gene in Responsible for Production of Gibepyrones and Prolipyrone BATP-Binding Cassette Transporter Gene Is Required for Its Transportation of Salicylic Acid, Fungicide Resistance, Mycelial Growth and Pathogenicity towards Wheat
P2860
Q22065321-41198E8B-3A12-439C-AD74-3F6980F3A90DQ24598609-8FB9206B-FF33-4149-A947-356D531A4203Q28265954-6ECB1A75-1BC9-46BE-88AC-3798838B22BDQ34042673-5F3D212C-09F7-47DD-8017-70BD9083BB2CQ34586433-F78B5339-03D3-4B1B-8D5B-C75C2172DF6DQ34801546-0B5D6D41-14A2-4979-89D5-346366C69980Q35210679-C8D18FA6-8302-49A6-918F-6398B518BD11Q35220425-0A20F503-55D1-4F9F-94E1-D407F33972FEQ37741348-48BECD99-A045-4AA9-8274-8A176612F19EQ38465049-1405FC85-F19D-4CA0-89A7-E496BFAA09D1Q40426497-F7389798-17D0-4A03-88F4-B304D0AEC653Q40593198-320A9C54-5002-4190-A861-A94FBAE9FA64Q40617981-3B8A7482-222B-426D-92AF-4B6C54F924E9Q40663261-C6484863-63E2-493C-A4FE-FBEDFDC8A84CQ40889958-A49A1B21-EA9D-45A4-BC82-034754BDF4B7Q41324397-40948DB5-23F4-4CAC-9327-B526AC2FED4CQ41468760-16CE1892-9037-41BA-9B83-56374934B52BQ42391696-D786A58D-2C43-49B4-8146-D703BF0A6C9BQ42565830-CA04B449-7936-4F0E-999D-2EEF66E83274Q42779991-CC01931F-8E1F-490E-9A94-D099B470F24EQ43033498-C7D26311-DF2B-4C87-A709-20E9C54F09A9Q43065670-AE6C5E69-B037-4C04-B574-A61A4D2566BAQ45740926-9C1F6B0D-5B05-4FEE-BBEB-A773993DFCE7Q46445091-116673BF-3356-4B34-8BD9-F1662C2FE56EQ46549827-1A7209EC-C270-4767-AC1A-DB4F5306B935Q46576645-A3777668-C595-4732-B555-BAFFC85E4171Q46586375-B2021A99-27DF-4713-9F94-D5CD5297DECAQ46979608-7968FCD2-AB73-494F-88B6-723EC98C5D87Q47156943-17AF14F9-3CCF-4661-A8B0-4C79280FB5A7Q48032213-E459B073-01BC-4A36-9E01-EA358230E2AFQ50232819-C0514DD0-FE0C-4451-83D3-9134BDF65B54Q50518783-787F2A72-6897-46BB-BA7F-10C8AEEAA588Q51574347-E7CB966E-08DA-420F-8C28-8979F281B171Q51740700-0CD982D2-2E89-4E4A-A9AC-389B3E41B479Q54943671-BA7029B7-9BF2-4725-AD65-F29669BA270AQ55378644-AC78E49E-7D14-4EF7-96D0-9D57A725FA9CQ58683388-616DA0FA-8FA5-4297-BDCF-ED96284B30FFQ58691612-00298317-5DC8-4A6B-849E-657DCC6627E1Q58789354-D652D8AB-5F37-4B22-964F-C1C538B0C5AB
P2860
Efficient four fragment cloning for the construction of vectors for targeted gene replacement in filamentous fungi
description
2008 nî lūn-bûn
@nan
2008 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Efficient four fragment clonin ...... placement in filamentous fungi
@ast
Efficient four fragment clonin ...... placement in filamentous fungi
@en
type
label
Efficient four fragment clonin ...... placement in filamentous fungi
@ast
Efficient four fragment clonin ...... placement in filamentous fungi
@en
prefLabel
Efficient four fragment clonin ...... placement in filamentous fungi
@ast
Efficient four fragment clonin ...... placement in filamentous fungi
@en
P2860
P356
P1476
Efficient four fragment clonin ...... placement in filamentous fungi
@en
P2093
Jens A Andersson
Matilde B Kristensen
P2860
P2888
P356
10.1186/1471-2199-9-70
P577
2008-08-01T00:00:00Z