Rice germination and seedling growth in the absence of oxygen

doi:10.1093/aob/mcn121

AOBPreview originally published online on July 25, 2008
Annals of Botany 2009 103(2):181-196; doi:10.1093/aob/mcn121

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Rice germination and seedling growth in the absence of oxygen

Leonardo Magneschi and Pierdomenico Perata^*

Plant & Crop Physiology Lab, Scuola Superiore Sant'Anna, Piazza Martiri della Libertà 33, 56127 Pisa, Italy

^* For correspondence. E-mail p.perata{at}sssup.it

Received: 18 February 2008 Returned for revision: 8 April 2008 Accepted: 3 June 2008 Published electronically: 25 July 2008

Background: Higher plants are aerobic organisms which suffer from the oxygendeficiency imposed by partial or total submergence. However,some plant species have developed strategies to avoid or withstandsevere oxygen shortage and, in some cases, the complete absenceof oxygen (tissue anoxia) for considerable periods of time.

Scope: Rice (Oryza sativa) is one of the few plant species that cantolerate prolonged soil flooding or complete submergence thanksto an array of adaptive mechanisms. These include an abilityto elongate submerged shoot organs at faster than normal ratesand to develop aerenchyma, allowing the efficient internal transportof oxygen from the re-emerged elongated shoot to submerged parts.However, rice seeds are able to germinate anaerobically by meansof coleoptile elongation. This cannot be explained in termsof oxygen transport through an emerged shoot. This review providesan overview of anoxic rice germination that is mediated throughcoleoptile rather than root emergence.

Conclusions: Although there is still much to learn about the biochemicaland molecular basis of anaerobic rice germination, the abilityof rice to maintain an active fermentative metabolism (i.e.by fuelling the glycolytic pathway with readily fermentablecarbohydrates) is certainly crucial. The results obtained throughmicroarray-based transcript profiling confirm most of the previousevidence based on single-gene studies and biochemical analysis,and highlight new aspects of the molecular response of the ricecoleoptile to anoxia.

Key words: Anoxia, coleoptile, fermentative metabolism, germination, hypoxia, Oryza sativa, rice

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