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Adam J. Bogdanove
Researcher at Cornell University
Publications - 116
Citations - 16667
Adam J. Bogdanove is an academic researcher from Cornell University. The author has contributed to research in topics: TAL effector & Effector. The author has an hindex of 43, co-authored 111 publications receiving 15043 citations. Previous affiliations of Adam J. Bogdanove include University of Minnesota & BASF SE.
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Journal ArticleDOI
Convergent Evolution of Effector Protease Recognition by Arabidopsis and Barley.
Morgan E Carter,Matthew Helm,Antony V E Chapman,Emily Wan,Ana Maria Restrepo Sierra,Ana Maria Restrepo Sierra,Roger W. Innes,Adam J. Bogdanove,Roger P. Wise,Roger P. Wise +9 more
TL;DR: The results indicate that the ability to recognize AvrPphB evolved convergently and imply that selection to guard PBS1-like proteins occurs across species, and suggest that PBS 1-based decoys may be used to engineer protease effector recognition-based resistance in barley and wheat.
Book ChapterDOI
Inoculation and virulence assay for bacterial blight and bacterial leaf streak of rice.
Bing Yang,Adam J. Bogdanove +1 more
TL;DR: In this paper, protocols for Xoo and Xoc inoculation and disease scoring methods that are appropriate to their different modes of infection are described, which are routinely used to evaluate pathogen virulence or host responses under controlled environmental conditions.
Journal ArticleDOI
Broadly Conserved Fungal Effector BEC1019 Suppresses Host Cell Death and Enhances Pathogen Virulence in Powdery Mildew of Barley (Hordeum vulgare L.).
Ehren Lee Whigham,Shan Qi,Divya Mistry,Priyanka Surana,Ruo Xu,Gregory Fuerst,Gregory Fuerst,Clara Pliego,Laurence V. Bindschedler,Pietro Spanu,Julie A. Dickerson,Roger W. Innes,Dan Nettleton,Adam J. Bogdanove,Roger P. Wise,Roger P. Wise +15 more
TL;DR: It is postulate that BEC1019 represents an ancient, broadly important fungal protein family, members of which have evolved to function as effectors in plant and animal hosts and compromises the HR-suppressing activity of BEC 1019.
Journal ArticleDOI
The effect of increasing numbers of repeats on TAL effector DNA binding specificity.
TL;DR: Modeling across different hypothetical saturation levels and rates of gain decay, reflecting different repeat compositions, yielded a similar range of specificity optima, suggesting that these proteins as a group have evolved for maximum specificity.
Journal ArticleDOI
Engineering altered protein–DNA recognition specificity
TL;DR: The creation of novel DNA specificities for zinc finger proteins, meganucleases, TAL effectors, recombinases and restriction endonucleases are summarized.