Mathew S Box
Overview
Explore the profile of Mathew S Box including associated specialties, affiliations and a list of published articles.
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14
Citations
931
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Recent Articles
1.
Brachi B, Filiault D, Whitehurst H, Darme P, Le Gars P, Le Mentec M, et al.
Proc Natl Acad Sci U S A
. 2022 Jul;
119(30):e2201285119.
PMID: 35867817
Although complex interactions between hosts and microbial associates are increasingly well documented, we still know little about how and why hosts shape microbial communities in nature. In addition, host genetic...
2.
Zhu C, Box M, Thiruppathi D, Hu H, Yu Y, Martin C, et al.
Plant Physiol
. 2022 Mar;
189(2):715-734.
PMID: 35285930
Directional transport of auxin is critical for inflorescence and floral development in flowering plants, but the role of auxin influx carriers (AUX1 proteins) has been largely overlooked. Taking advantage of...
3.
Tong M, Lee K, Ezer D, Cortijo S, Jung J, Charoensawan V, et al.
Plant Physiol
. 2019 Nov;
182(1):612-625.
PMID: 31712305
The Evening Complex (EC) is a core component of the Arabidopsis () circadian clock, which represses target gene expression at the end of the day and integrates temperature information to...
4.
Zhu C, Yang J, Box M, Kellogg E, Eveland A
Front Plant Sci
. 2018 Sep;
9:1309.
PMID: 30258452
The morphological and functional diversity of plant form is governed by dynamic gene regulatory networks. In cereal crops, grain and/or pollen-bearing inflorescences exhibit vast architectural diversity and developmental complexity, yet...
5.
Ezer D, Shepherd S, Brestovitsky A, Dickinson P, Cortijo S, Charoensawan V, et al.
Plant Physiol
. 2017 Sep;
175(2):628-640.
PMID: 28864470
Plants have significantly more transcription factor (TF) families than animals and fungi, and plant TF families tend to contain more genes; these expansions are linked to adaptation to environmental stressors....
6.
Ezer D, Jung J, Lan H, Biswas S, Gregoire L, Box M, et al.
Nat Plants
. 2017 Jun;
3:17087.
PMID: 28650433
Plants maximize their fitness by adjusting their growth and development in response to signals such as light and temperature. The circadian clock provides a mechanism for plants to anticipate events...
7.
Huang P, Jiang H, Zhu C, Barry K, Jenkins J, Sandor L, et al.
Nat Plants
. 2017 Apr;
3:17054.
PMID: 28418381
Setaria viridis is a rapid-life-cycle model panicoid grass. To identify genes that may contribute to inflorescence architecture and thus have the potential to influence grain yield in related crops such...
8.
Jung J, Domijan M, Klose C, Biswas S, Ezer D, Gao M, et al.
Science
. 2016 Oct;
354(6314):886-889.
PMID: 27789797
Plants are responsive to temperature, and some species can distinguish differences of 1°C. In Arabidopsis, warmer temperature accelerates flowering and increases elongation growth (thermomorphogenesis). However, the mechanisms of temperature perception...
9.
Box M, Huang B, Domijan M, Jaeger K, Khattak A, Yoo S, et al.
Curr Biol
. 2015 Jan;
25(2):194-199.
PMID: 25557663
Plant development is highly responsive to ambient temperature, and this trait has been linked to the ability of plants to adapt to climate change. The mechanisms by which natural populations...
10.
Li P, Filiault D, Box M, Kerdaffrec E, Van Oosterhout C, Wilczek A, et al.
Genes Dev
. 2014 Jul;
28(15):1635-40.
PMID: 25035417
Relating molecular variation to phenotypic diversity is a central goal in evolutionary biology. In Arabidopsis thaliana, FLOWERING LOCUS C (FLC) is a major determinant of variation in vernalization--the acceleration of...