The Duckweed Genomes
The Duckweed Genomes
This book tells the story behind the first Spirodela genome sequencing project. Further, it describes the current genomics applications of these findings, and efforts to sequence new genomes within the family. The closing chapters address the sequencing of the over 1 Gigabase Wolffia genomes, which could have major impacts on genome evolution and agricultural research.
The duckweed or Lemnaceae family is a collection of 5 genera and 37 species of the smallest, fastest-growing flowering plants. Many of these aquatic monocotyledonous plants can grow all over the world, in a variety of climates. Given their simplified and neotenous morphology, duckweeds have been researched for several decades as a model species for plant physiology and ecotoxicological research, contributing to our understanding e.g. of flowering response, plant circadian systems, sulfur assimilation pathways and auxin biosynthesis. In addition, duckweed-based treatment has been a favorite and feasible means, especially in developing countries, of removing phosphorus and pharmaceutical chemicals from sewage and wastewater.
With a dry annual mass yield per hectare of up to 80 tonnes (equivalent to 10 tonnes of protein), duckweed is also a promising aquatic crop in new modern and sustainable agriculture. Besides being an excellent primary or supplemental feedstock for the production of livestock and fish, duckweed biomass can be utilized as a potential resource for human nutrition, biofuel, or bioplastics, depending on water quality as well as protein or starch accumulating procedures. These academic and commercial interests have led to international efforts to sequence the Spirodela polyrhiza genome, the smallest and most ancient genome in the family.
Cytogenetics and karyotype evolution of duckweeds
Duckweed organelle genomes
Repetitive sequences: Impacts and uses in the Spirodela genome
Genotyping by sequencing of duckweeds
Genome and transcriptome of Landoltia punctata
Transcriptome responses of Spirodela polyrhiza
Strategies & tools for sequencing duckweeds
Transformation development in duckweeds.
The duckweed or Lemnaceae family is a collection of 5 genera and 37 species of the smallest, fastest-growing flowering plants. Many of these aquatic monocotyledonous plants can grow all over the world, in a variety of climates. Given their simplified and neotenous morphology, duckweeds have been researched for several decades as a model species for plant physiology and ecotoxicological research, contributing to our understanding e.g. of flowering response, plant circadian systems, sulfur assimilation pathways and auxin biosynthesis. In addition, duckweed-based treatment has been a favorite and feasible means, especially in developing countries, of removing phosphorus and pharmaceutical chemicals from sewage and wastewater.
With a dry annual mass yield per hectare of up to 80 tonnes (equivalent to 10 tonnes of protein), duckweed is also a promising aquatic crop in new modern and sustainable agriculture. Besides being an excellent primary or supplemental feedstock for the production of livestock and fish, duckweed biomass can be utilized as a potential resource for human nutrition, biofuel, or bioplastics, depending on water quality as well as protein or starch accumulating procedures. These academic and commercial interests have led to international efforts to sequence the Spirodela polyrhiza genome, the smallest and most ancient genome in the family.
Importance of duckweeds in basic research and its industrial applications
Background history of the international Spirodela genome sequencing initiativesCytogenetics and karyotype evolution of duckweeds
Duckweed organelle genomes
Repetitive sequences: Impacts and uses in the Spirodela genome
Genotyping by sequencing of duckweeds
Genome and transcriptome of Landoltia punctata
Transcriptome responses of Spirodela polyrhiza
Strategies & tools for sequencing duckweeds
Transformation development in duckweeds.
Cao, Xuan Hieu
Fourounjian, Paul
Wang, Wenqin
ISBN | 978-3-030-11044-4 |
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Artikelnummer | 9783030110444 |
Medientyp | Buch |
Auflage | 1st ed. 2020 |
Copyrightjahr | 2020 |
Verlag | Springer, Berlin |
Umfang | 185 Seiten |
Abbildungen | XVIII, 185 p. 30 illus., 21 illus. in color. |
Sprache | Englisch |