L
Laura Aguilar-Henonin
Researcher at Salk Institute for Biological Studies
Publications - 9
Citations - 5531
Laura Aguilar-Henonin is an academic researcher from Salk Institute for Biological Studies. The author has contributed to research in topics: Arabidopsis & Gene. The author has an hindex of 6, co-authored 9 publications receiving 5282 citations.
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Journal ArticleDOI
Genome-Wide Insertional Mutagenesis of Arabidopsis thaliana
Jose M. Alonso,Anna Stepanova,Thomas J. Leisse,Christopher J. Kim,Huaming Chen,Paul Shinn,Denise K. Stevenson,Justin Zimmerman,Pascual Barajas,Rosa Cheuk,Carmelita Gadrinab,Collen Heller,Albert Jeske,Eric Koesema,Cristina C. Meyers,Holly Parker,Lance Prednis,Yasser Ansari,Nathan Choy,Hashim Deen,Michael Geralt,Nisha Hazari,Emily Hom,Meagan Karnes,Celene Mulholland,Ral Ndubaku,Ian Thomas Schmidt,Plinio Guzmán,Laura Aguilar-Henonin,Markus Schmid,Detlef Weigel,David E. Carter,Trudy Marchand,Eddy Risseeuw,Debra Brogden,Albana Zeko,William L. Crosby,Charles C. Berry,Joseph R. Ecker +38 more
TL;DR: Genome-wide analysis of the distribution of integration events revealed the existence of a large integration site bias at both the chromosome and gene levels, and insertion mutations were identified in genes that are regulated in response to the plant hormone ethylene.
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ETHYLENE-INSENSITIVE5 encodes a 5′→3′ exoribonuclease required for regulation of the EIN3-targeting F-box proteins EBF1/2
Gabriela Olmedo,Hongwei Guo,Brian D. Gregory,Saeid Nourizadeh,Laura Aguilar-Henonin,Hongjiang Li,Fengying An,Plinio Guzmán,Joseph R. Ecker +8 more
TL;DR: The results suggest that the role of EIN5 in ethylene perception is to antagonize the negative feedback regulation on EIN3 by promoting EBF1 and EBF2 mRNA decay, which consequently allows the accumulation of Ein3 protein to trigger the ethylene response.
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Four distinct classes of proteins as interaction partners of the PABC domain of Arabidopsis thaliana Poly(A)-binding proteins
TL;DR: It is suggested that the large number of PABPs and PAM2-containing proteins in Arabidopsis may have evolved to provide plants with greater flexibility in modulating the metabolism of specific transcripts.
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Diversity in the Architecture of ATLs, a Family of Plant Ubiquitin-Ligases, Leads to Recognition and Targeting of Substrates in Different Cellular Environments
TL;DR: A phylogenetic analysis of ATLs in twenty-four plant genomes provides significant observations on the evolution and expansion of the ATL family in addition to information on the domain structure of this class of ubiquitin-ligases that may be involved in plant adaptation to environmental stress.
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Genetic interactions of a putative Arabidopsis thaliana ubiquitin-ligase with components of the Saccharomyces cerevisiae ubiquitination machinery
TL;DR: The feasibility of using the Saccharomyces cerevisiae genetic tools to get insights into the function of a plant-specific ubiquitin-ligase was examined and toxicity was suppressed by knock-out mutations on different components of the ubiquitination pathway.