Your search keyword '"Indrasari, S.D."' showing total 2 results

1. Multi-platform metabolomics analyses of a broad collection of fragrant and non-fragrant rice varieties reveals the high complexity of grain quality characteristics

Author

Mumm, R., Hageman, J.A., Calingacion, M.N., de Vos, C.H., Jonker, H.H., Erban, A., Kopka, J., Hansen, T.H., Laursen, K.H., Schjoerring, J.K., Ward, J.L., Beale, M.H., Jongee, S., Rauf, A., Habibi, F., Indrasari, S.D., Sakhan, S., Ramli, A., Romero, M., Reinke, R., Ohtsubo, K., Boualaphanh, C., Fitzgerald, M.A., Hall, R.D., Mumm, R., Hageman, J.A., Calingacion, M.N., de Vos, C.H., Jonker, H.H., Erban, A., Kopka, J., Hansen, T.H., Laursen, K.H., Schjoerring, J.K., Ward, J.L., Beale, M.H., Jongee, S., Rauf, A., Habibi, F., Indrasari, S.D., Sakhan, S., Ramli, A., Romero, M., Reinke, R., Ohtsubo, K., Boualaphanh, C., Fitzgerald, M.A., and Hall, R.D.

Abstract

The quality of rice in terms not only of its nutritional value but also in terms of its aroma and flavour is becoming increasingly important in modern rice breedingwhere global targets are focused on both yield stability and grain quality. In the present paper we have exploited advanced, multi-platform metabolomics approaches to determine the biochemical differences in 31 rice varieties from a diverse range of genetic backgrounds and origin. All were grown under the specific local conditions for which they have been bred and all aspects of varietal identification and sample purity have been guaranteed by local experts from each country. Metabolomics analyses using 6 platforms have revealed the extent of biochemical differences (and similarities) between the chosen rice genotypes.Comparison of fragrant rice varieties showed a difference in the metabolic profiles of jasmine and basmati varieties. However with no consistent separation of the germplasm class. Storage of grains had a significant effect on themetabolome of both basmati and jasmine rice varieties but changes were different for the two rice types. This shows how metabolic changes may help prove a causal relationship with developing good quality in basmati rice orincurring quality loss in jasmine rice in aged grains. Such metabolomics approaches are leading to hypotheses on the potential links between grain quality attributes, biochemical composition and genotype in the context of breeding for improvement. With this knowledge we shall establish astronger, evidence-based foundation upon which to build targeted strategies to support breeders in their quest for improved rice varieties.

Published

2016

2. The potential of rice to offer solutions for malnutrition and chronic diseases

Author

Dipti, S.S., Bergman, C., Indrasari, S.D., Herath, T., Hall, R.D., Lee, H., Habibi, F., Zaczuk Bassinello, P., Graterol, E., Ferraz, J., Fitzgerald, M., Dipti, S.S., Bergman, C., Indrasari, S.D., Herath, T., Hall, R.D., Lee, H., Habibi, F., Zaczuk Bassinello, P., Graterol, E., Ferraz, J., and Fitzgerald, M.

Abstract

It is internationally accepted that malnutrition and chronic diseases in developing countries are key limitations to achieving the Millennium Development Goals. In many developing countries, rice is the primary source of nutrition. In those countries, the major forms of malnutrition are Fe-induced anaemia, Zn deficiency and Vitamin A deficiency, whereas the major chronic disease challenges are Type II diabetes, cardiovascular disease and some cancers. There is a growing corpus of evidence regarding both limitations and opportunities as to how rice could be an effective vehicle by which to tackle key nutrition and health related problems in countries with limited resources. Rice breeding programs are able to focus on developing new varieties carrying enhanced amounts of either Fe, Zn or beta-carotene because of large public investment, and the intuitive link between providing a mineral/vitamin to cure a deficiency in that mineral/vitamin. By contrast, there has been little investment in progressing the development of particular varieties for potential impact on chronic diseases. In this review article we focus on the broad battery of evidence linking rice-related nutritional limitations to their impact on a variety of human health issues. We discuss how rice might offer sometimes even simple solutions to rectifying key problems through targeted biofortification strategies and finally, we draw attention to how recent technological (-omics) developments may facilitate untold new opportunities for more rapidly generating improved rice varieties specifically designed to meet the current and future nutritional needs of a rapidly expanding global population.

Published

2012