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Brad M. Binder
Researcher at University of Tennessee
Publications - 84
Citations - 5643
Brad M. Binder is an academic researcher from University of Tennessee. The author has contributed to research in topics: Ethylene & Arabidopsis. The author has an hindex of 38, co-authored 81 publications receiving 4831 citations. Previous affiliations of Brad M. Binder include Laboratory of Molecular Biology & University of Wisconsin-Madison.
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Journal ArticleDOI
A Copper Cofactor for the Ethylene Receptor ETR1 from Arabidopsis
Fernando I. Rodríguez,Jeffrey J. Esch,Anne E. Hall,Brad M. Binder,G. Eric Schaller,Anthony B. Bleecker +5 more
TL;DR: A structural model for this copper-based ethylene sensor domain is presented on the basis of sequence conservation between the Arabidopsis and the cyanobacterial ethylene-binding domains and on in vitro mutagenesis of ETR1.
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Auxin and ethylene: collaborators or competitors?
TL;DR: The growth and developmental processes that are regulated by crosstalk between these two hormones are examined and the mechanistic basis for the regulation of these processes is explored.
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The Arabidopsis EIN3 Binding F-Box Proteins EBF1 and EBF2 Have Distinct but Overlapping Roles in Ethylene Signaling
Brad M. Binder,Joseph M. Walker,Jennifer M. Gagne,Thomas J. Emborg,Georg Hemmann,Anthony B. Bleecker,Richard D. Vierstra +6 more
TL;DR: Through their coordinated control of EIN3/EIL1 levels, EBF1 and EBF2 fine-tune ethylene responses by repressing signaling in the absence of the hormone, dampening signaling at high hormone concentrations, and promoting a more rapid recovery after ethylene levels dissipate.
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Gene-Specific Translation Regulation Mediated by the Hormone-Signaling Molecule EIN2
Catharina Merchante,Javier Brumos,Jeonga Yun,Qiwen Hu,Kristina R. Spencer,Paul Enríquez,Brad M. Binder,Steffen Heber,Anna Stepanova,Jose M. Alonso +9 more
TL;DR: Characterization of one of the targets of this translation regulatory machinery, the ethylene signaling component EBF2, indicates that the signaling molecule EIN2 and the nonsense-mediated decay proteins UPFs play a central role in this ethylene-induced translational response.
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Ethylene signaling in plants
TL;DR: Although this canonical pathway is the predominant signaling cascade, alternative pathways also affect ethylene responses, and this review summarizes the current understanding of ethylene signaling, including these alternative pathways, and discusses how Ethylene signaling has been manipulated for agricultural and horticultural applications.