Michael Ogden scite author profile

Nutrients are critical for plants to grow and develop, and nutrient depletion severely affects crop yield. In order to optimize nutrient acquisition, plants adapt their growth and root architecture. Changes in growth are determined by modifications in the cell walls surrounding every plant cell. The plant cell wall, which is largely composed of complex polysaccharides, is essential for plants to attain their shape and to protect cells against the environment. Within the cell wall, cellulose strands form microfibrils that act as a framework for other wall components, including hemicelluloses, pectins, proteins, and, in some cases, callose, lignin, and suberin. Cell wall composition varies, depending on cell and tissue type. It is governed by synthesis, deposition and remodeling of wall components, and determines the physical and structural properties of the cell wall. How nutrient status affects cell wall synthesis and organization, and thus plant growth and morphology, remains poorly understood. In this review, we aim to summarize and synthesize research on the adaptation of root cell walls in response to nutrient availability and the potential role of cell walls in nutrient sensing.

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Plant science’s next top models

Cesarino

Ioio

Kirschner

et al. 2020

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Background Model organisms are at the core of life science research. Notable examples include the mouse as a model for humans, baker’s yeast for eukaryotic unicellular life and simple genetics, or the enterobacteria phage λ in virology. Plant research was an exception to this rule, with researchers relying on a variety of non-model plants until the eventual adoption of Arabidopsis thaliana as primary plant model in the 1980s. This proved to be an unprecedented success, and several secondary plant models have since been established. Currently, we are experiencing another wave of expansion in the set of plant models. Scope Since the 2000s, new model plants have been established to study numerous aspects of plant biology, such as the evolution of land plants, grasses, invasive and parasitic plant life, adaptation to environmental challenges, and the development of morphological diversity. Concurrent with the establishment of new plant models, the advent of the ‘omics’ era in biology has led to a resurgence of the more complex non-model plants. With this review, we introduce some of the new and fascinating plant models, outline why they are interesting subjects to study, the questions they will help to answer, and the molecular tools that have been established and are available to researchers. Conclusions Understanding the molecular mechanisms underlying all aspects of plant biology can only be achieved with the adoption of a comprehensive set of models, each of which allows the assessment of at least one aspect of plant life. The model plants described here represent a step forward towards our goal to explore and comprehend the diversity of plant form and function. Still, several questions remain unanswered, but the constant development of novel technologies in molecular biology and bioinformatics is already paving the way for the next generation of plant models.

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The Central Role of Physician Leadership for Driving Change in Value-Based Care Environments

Lustig¹,

Ogden²,

Brenner³

et al. 2016

JMCP

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No outside funding supported this project. The authors declare no conflicts of interest. The authors are members of the Working Group on Optimizing Medication Therapy in Value-Based Healthcare. Odgen is employed by Cornerstone Health Care; Brenner is employed by Summit Medical Group; and Penso is employed by American Medical Group Association. Lustig, Westrich, and Dubois are employed by the National Pharmaceutical Council, an industry-funded health policy research organization that is not involved in lobbying or advocacy. Study concept and design were contributed by Lustig, Penso, Westrich, and Dubois. Lustig, Ogden, Brenner, and Penso collected the data, and data interpretation was performed by all authors. The manuscript was written primarily by Lustig, along with the other authors, and revised by Lustig, Penso, Westrich, and Dubois, assisted by Ogden and Brenner.

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Michael Ogden

Feeding the Walls: How Does Nutrient Availability Regulate Cell Wall Composition?

Plant science’s next top models

The Central Role of Physician Leadership for Driving Change in Value-Based Care Environments

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