Toward a Systems Approach to Understanding Plant Cell Walls | Zendy

Chris Somerville | Zendy; Štefan Bauer | Zendy; Ginger Brininstool | Zendy; Michelle Facette | Zendy; Thorsten Hamann | Zendy; Jennifer L. Milne | Zendy; Erin Osborne Nishimura | Zendy; Alexander R. Paredez | Zendy; Staffan Persson | Zendy; Theodore K. Raab | Zendy; Sonja Vorwerk | Zendy; Heather Youngs | Zendy

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Toward a Systems Approach to Understanding Plant Cell Walls

Author(s) -

Chris Somerville,

Štefan Bauer,

Ginger Brininstool,

Michelle Facette,

Thorsten Hamann,

Jennifer L. Milne,

Erin Osborne Nishimura,

Alexander R. Paredez,

Staffan Persson,

Theodore K. Raab,

Sonja Vorwerk,

Heather Youngs

Publication year - 2004

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.1102765

Subject(s) - computer science , function (biology) , body plan , biological system , biochemical engineering , computational biology , biology , evolutionary biology , engineering , genetics , gene

One of the defining features of plants is a body plan based on the physical properties of cell walls. Structural analyses of the polysaccharide components, combined with high-resolution imaging, have provided the basis for much of the current understanding of cell walls. The application of genetic methods has begun to provide new insights into how walls are made, how they are controlled, and how they function. However, progress in integrating biophysical, developmental, and genetic information into a useful model will require a system-based approach.

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