M
Matthew D. Templeton
Researcher at Plant & Food Research
Publications - 81
Citations - 5772
Matthew D. Templeton is an academic researcher from Plant & Food Research. The author has contributed to research in topics: Pseudomonas syringae & Gene. The author has an hindex of 31, co-authored 73 publications receiving 4848 citations. Previous affiliations of Matthew D. Templeton include HortResearch & Landcare Research.
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Journal ArticleDOI
Transient expression vectors for functional genomics, quantification of promoter activity and RNA silencing in plants
Roger P. Hellens,Andrew C. Allan,Ellen N. Friel,Karen Bolitho,Karryn Grafton,Matthew D. Templeton,Sakuntala Karunairetnam,Andrew P. Gleave,William A. Laing +8 more
TL;DR: In this article, a series of plasmid vectors for transient gene expression using Agrobacterium, infiltrated into Nicotiana benthamiana leaves, are described and compared to conventional binary vectors for stable transformation such as transformation selection genes.
Journal ArticleDOI
Genomic Analysis of the Necrotrophic Fungal Pathogens Sclerotinia sclerotiorum and Botrytis cinerea
Joelle Amselem,Christina A. Cuomo,Jan A. L. van Kan,Muriel Viaud,Ernesto P. Benito,Arnaud Couloux,Pedro M. Coutinho,Ronald P. de Vries,Paul S. Dyer,Sabine Fillinger,Elisabeth Fournier,Elisabeth Fournier,Lilian Gout,Matthias Hahn,Linda M. Kohn,Nicolas Lapalu,Kim M. Plummer,Jean-Marc Pradier,Emmanuel Quévillon,Emmanuel Quévillon,Amir Sharon,Adeline Simon,Arjen ten Have,Bettina Tudzynski,Paul Tudzynski,Patrick Wincker,Marion Andrew,Véronique Anthouard,Ross E. Beever,Rolland Beffa,Isabelle Benoit,Ourdia Bouzid,Baptiste Brault,Zehua Chen,Mathias Choquer,Mathias Choquer,Jérôme Collemare,Jérôme Collemare,Pascale Cotton,Etienne Danchin,Corinne Da Silva,Angélique Gautier,Corinne Giraud,Tatiana Giraud,Celedonio González,Sandrine Grossetete,Ulrich Güldener,Bernard Henrissat,Barbara J. Howlett,Chinnappa D. Kodira,Matthias Kretschmer,Anne Lappartient,Michaela Leroch,Caroline Levis,Evan Mauceli,Cécile Neuvéglise,Birgitt Oeser,Matthew D. Pearson,Julie Poulain,Nathalie Poussereau,Hadi Quesneville,Christine Rascle,Julia Schumacher,Béatrice Segurens,Adrienne Sexton,Evelyn Silva,Catherine Sirven,Darren M. Soanes,Nicholas J. Talbot,Matthew D. Templeton,Chandri Yandava,Oded Yarden,Qiandong Zeng,Jeffrey A. Rollins,Marc-Henri Lebrun,Marc-Henri Lebrun,Marty Dickman +76 more
TL;DR: Comparative genome analysis revealed the basis of differing sexual mating compatibility systems between S. sclerotiorum and B. cinerea, and shed light on the evolutionary and mechanistic bases of the genetically complex traits of necrotrophic pathogenicity and sexual mating.
Journal ArticleDOI
Structural basis for rodlet assembly in fungal hydrophobins
Ahy Kwan,Robert D. Winefield,Margaret Sunde,Jacqueline M. Matthews,Richard G. Haverkamp,Matthew D. Templeton,Joel P. Mackay +6 more
TL;DR: The three-dimensional structure of the monomeric form of the class I hydrophobin EAS, which forms a beta-barrel structure punctuated by several disordered regions and displays a complete segregation of charged and hydrophobic residues on its surface, is described.
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Cloning and molecular characterization of the glyceraldehyde-3-phosphate dehydrogenase-encoding gene and cDNA from the plant pathogenic fungus Glomerella cingulata.
TL;DR: The glyceraldehyde-3-phosphate dehydrogenase gene (gpdA) has been identified from a genomic DNA library prepared from the plant pathogenic fungus Glomerella cingulata and the general structure of the 5' flanking region shows similarities to gpdA from Aspergillus nidulans.
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Genomic Analysis of the Kiwifruit Pathogen Pseudomonas syringae pv. actinidiae Provides Insight into the Origins of an Emergent Plant Disease
Honour C. McCann,Honour C. McCann,Erik H. A. Rikkerink,Frederic Bertels,Frederic Bertels,Mark Fiers,Ashley Lu,Jonathan Rees-George,Mark T. Andersen,Andrew P. Gleave,Bernhard Haubold,Mark Wohlers,David S. Guttman,Pauline W. Wang,Christina Straub,Joel L. Vanneste,Paul B. Rainey,Paul B. Rainey,Matthew D. Templeton,Matthew D. Templeton +19 more
TL;DR: The authors' analyses capture a pathogen in the early stages of emergence from a predicted source population associated with wild Actinidia species, highlighting the importance of the source population as a reservoir of new disease.