The Origin of Plant Chemodiversity - Conceptual and Empirical Insights

260.2K

views

103

authors

24

articles

The Origin of Plant Chemodiversity - Conceptual and Empirical Insights

260.2K

views

103

authors

24

articles

Editorial

30 June 2020

Editorial: The Origin of Plant Chemodiversity – Conceptual and Empirical Insights

Kazuki Saito

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3 citations

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RIKEN Center for Sustainable Resource Science (CSRS)

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The number of all metabolites in the plant kingdom is estimated over 1,000,000. Such huge chemodiversity is the result of evolution of plants as sessile organisms in the biosphere. As a benefit gained from such struggle for life, unintendedly, plants become excellent sources of chemical compounds in our daily lives, used as drugs, flavors, cosmetics, health-promoting food and industrial raw materials. When one sees the huge variety of plant chemicals, everyone is fascinated with their beauty and then asks the question on the origin of plant chemodiversity - how such a huge chemodiversity is generated? – why plants generate such chemodiversity? These are the questions being addressed for a long term since the study on plant natural products emerged; however, they are not completely answered yet.

Recent advancements in technology of genomics and related research areas, such as metabolomics, bioinformatics, comparative genomics, genome editing and molecular evolution, remarkably accelerate our understanding on the origin of plant chemodiversity. Furthermore, not only addressing curiosity-driven questions, through application of fundamental knowledges obtained, this research area could largely contribute to realize our sustainable society, which is recently aimed by United Nations as 2030 Agenda for Sustainable Development and its 17 Sustainable Development Goals.

This Research Topic will collect only invited articles by outstanding experts of this field. The contributed articles will cover conceptual discernment or empirical insights on the topic by selected expert authors. Therefore, though any types articles could be considered, we would encourage to contribute imaginative and insightful articles in the particular categories: Review, Mini Review, Hypothesis and Theory, and Original Research. Spontaneous submissions will not be considered.

The number of all metabolites in the plant kingdom is estimated over 1,000,000. Such huge chemodiversity is the result of evolution of plants as sessile organisms in the biosphere. As a benefit gained from such struggle for life, unintendedly, plants become excellent sources of chemical compounds in our daily lives, used as drugs, flavors, cosmetics, health-promoting food and industrial raw materials. When one sees the huge variety of plant chemicals, everyone is fascinated with their beauty and then asks the question on the origin of plant chemodiversity - how such a huge chemodiversity is generated? – why plants generate such chemodiversity? These are the questions being addressed for a long term since the study on plant natural products emerged; however, they are not completely answered yet.

Recent advancements in technology of genomics and related research areas, such as metabolomics, bioinformatics, comparative genomics, genome editing and molecular evolution, remarkably accelerate our understanding on the origin of plant chemodiversity. Furthermore, not only addressing curiosity-driven questions, through application of fundamental knowledges obtained, this research area could largely contribute to realize our sustainable society, which is recently aimed by United Nations as 2030 Agenda for Sustainable Development and its 17 Sustainable Development Goals.

This Research Topic will collect only invited articles by outstanding experts of this field. The contributed articles will cover conceptual discernment or empirical insights on the topic by selected expert authors. Therefore, though any types articles could be considered, we would encourage to contribute imaginative and insightful articles in the particular categories: Review, Mini Review, Hypothesis and Theory, and Original Research. Spontaneous submissions will not be considered.

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Editors

RIKEN Center for Sustainable Resource Science (CSRS)

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Frontiers in Plant Science

Plant Metabolism and Chemodiversity

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Frontiers in Chemistry

Plant Metabolism and Chemodiversity

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