Genomics approaches to unlock the high yield potential of cassava, a tropical model plant

Cassava, a tropical food, feed and biofuel crop, has great capacity for biomass accumulation and an extraordinary efficiency in water use and mineral nutrition, which makes it highly suitable as a model plant for tropical crops. However, the understanding of the metabolism and genomics of this impor...

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Published inFrontiers of Agricultural Science and Engineering Vol. 1; no. 4; pp. 259 - 266
Main Authors ZHANG, Shengkui, MA, Ping’an, WANG, Haiyan, LU, Cheng, CHEN, Xin, XIA, Zhiqiang, ZOU, Meiling, ZHOU, Xinchen, WANG, Wenquan
Format Journal Article
LanguageEnglish
Published Higher Education Press 01.12.2014
Subjects
adaptability
cassava
cassava|genomics|yield potential|adaptability|tropical model
genomics
tropical model
yield potential
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Summary:Cassava, a tropical food, feed and biofuel crop, has great capacity for biomass accumulation and an extraordinary efficiency in water use and mineral nutrition, which makes it highly suitable as a model plant for tropical crops. However, the understanding of the metabolism and genomics of this important crop is limited. The recent breakthroughs in the genomics of cassava, including whole-genome sequencing and transcriptome analysis, as well as advances in the biology of photosynthesis, starch biosynthesis, adaptation to drought and high temperature, and resistance to virus and bacterial diseases, are reviewed here. Many of the new developments have come from comparative analyses between a wild ancestor and existing cultivars. Finally, the current challenges and future potential of cassava as a model plant are discussed.
Bibliography:cassava
tropical model
genomics
Document received on :2014-11-25
adaptability
yield potential
Document accepted on :2014-12-29
ISSN:2095-7505
2095-977X
DOI:10.15302/J-FASE-2014043