Preface

[1]  L. Voesenek,et al.  Flooding stress: acclimations and genetic diversity. , 2008, Annual review of plant biology.

[2]  D. Galbraith,et al.  Profiling translatomes of discrete cell populations resolves altered cellular priorities during hypoxia in Arabidopsis , 2009, Proceedings of the National Academy of Sciences.

[3]  Simon C. Williams Texas Tech University Health Sciences Center School of Medicine. , 2010, Academic medicine : journal of the Association of American Medical Colleges.

[4]  W. Peacock,et al.  Evidence for a role for AtMYB2 in the induction of the Arabidopsis alcohol dehydrogenase gene (ADH1) by low oxygen. , 1998, Genetics.

[5]  A. Mustroph,et al.  Cross-Kingdom Comparison of Transcriptomic Adjustments to Low-Oxygen Stress Highlights Conserved and Plant-Specific Responses1[W][OA] , 2010, Plant Physiology.

[6]  C. Howe,et al.  Introduction. Photosynthetic and atmospheric evolution , 2008, Philosophical Transactions of the Royal Society B: Biological Sciences.

[7]  G. Bassel,et al.  Homeostatic response to hypoxia is regulated by the N-end rule pathway in plants , 2011, Nature.

[8]  L. Voesenek,et al.  Oxygen sensing in plants is mediated by an N-end rule pathway for protein destabilization , 2011, Nature.

[9]  Xian-Jun Song,et al.  The ethylene response factors SNORKEL1 and SNORKEL2 allow rice to adapt to deep water , 2009, Nature.

[10]  M. Jackson,et al.  Response and adaptation by plants to flooding stress. , 2005, Annals of botany.

[11]  D. Davies Anaerobic metabolism and the production of organic acids , 1980 .

[12]  Joost T. van Dongen,et al.  Making sense of low oxygen sensing. , 2012, Trends in plant science.

[13]  J. Bailey-Serres,et al.  Sub1A is an ethylene-response-factor-like gene that confers submergence tolerance to rice , 2006, Nature.