Coordinated regulation of photosynthesis in rice increases yield and tolerance to environmental stress View Full Text


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Article Info

DATE

2014-10-31

AUTHORS

Madana M. R. Ambavaram, Supratim Basu, Arjun Krishnan, Venkategowda Ramegowda, Utlwang Batlang, Lutfor Rahman, Niranjan Baisakh, Andy Pereira

ABSTRACT

Plants capture solar energy and atmospheric carbon dioxide (CO2) through photosynthesis, which is the primary component of crop yield, and needs to be increased considerably to meet the growing global demand for food. Environmental stresses, which are increasing with climate change, adversely affect photosynthetic carbon metabolism (PCM) and limit yield of cereals such as rice (Oryza sativa) that feeds half the world. To study the regulation of photosynthesis, we developed a rice gene regulatory network and identified a transcription factor HYR (HIGHER YIELD RICE) associated with PCM, which on expression in rice enhances photosynthesis under multiple environmental conditions, determining a morpho-physiological programme leading to higher grain yield under normal, drought and high-temperature stress conditions. We show HYR is a master regulator, directly activating photosynthesis genes, cascades of transcription factors and other downstream genes involved in PCM and yield stability under drought and high-temperature environmental stress conditions. More... »

PAGES

5302

References to SciGraph publications

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  • 2007-09-01. Changes in leaf photosynthesis of transgenic rice with silenced OsBP-73 gene in PHOTOSYNTHETICA
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  • 2010-09-07. Setting Up Reverse Transcription Quantitative-PCR Experiments in PLANT REVERSE GENETICS
  • 2014-11-25. Identification of genes directly regulated by a transcription factor in rice in PROTOCOL EXCHANGE
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  • 1999-10. Water stress inhibits plant photosynthesis by decreasing coupling factor and ATP in NATURE
  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1038/ncomms6302

    DOI

    http://dx.doi.org/10.1038/ncomms6302

    DIMENSIONS

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    PUBMED

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    37 schema:description Plants capture solar energy and atmospheric carbon dioxide (CO2) through photosynthesis, which is the primary component of crop yield, and needs to be increased considerably to meet the growing global demand for food. Environmental stresses, which are increasing with climate change, adversely affect photosynthetic carbon metabolism (PCM) and limit yield of cereals such as rice (Oryza sativa) that feeds half the world. To study the regulation of photosynthesis, we developed a rice gene regulatory network and identified a transcription factor HYR (HIGHER YIELD RICE) associated with PCM, which on expression in rice enhances photosynthesis under multiple environmental conditions, determining a morpho-physiological programme leading to higher grain yield under normal, drought and high-temperature stress conditions. We show HYR is a master regulator, directly activating photosynthesis genes, cascades of transcription factors and other downstream genes involved in PCM and yield stability under drought and high-temperature environmental stress conditions.
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    93 rice increases yield
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