Your search keyword '"sink development"' showing total 11 results

1. The Importance of Organic Nitrogen Transport Processes for Plant Productivity and Nitrogen Use Efficiency

Author

Tegeder, Mechthild, Perchlik, Molly, Shrawat, Ashok, editor, Zayed, Adel, editor, and Lightfoot, David A., editor

Published

2018

2. Temperature-related cline in the root mass fraction in East Asian wild radish along the Japanese archipelago.

Author

Wataru Ishizuka, Kouki Hikosaka, Motomi Ito, and Shin-Ichi Morinaga

Subjects

*RADISHES, *WILD plants, *ARCHIPELAGOES, *PHYTOGEOGRAPHY

Abstract

Wild plants with a wide distribution, including those exposed to a wide variety of environmental conditions, may have variations in key functional traits relevant for agricultural applications. The East Asian wild radish (Raphanus sativus var. raphanistroides) is an appropriate model plant because it is widely distributed and has outstanding sink capacity as well as two cultivars within the species. Multiple common garden trials with 14 populations and three testing sites were conducted across the Japanese archipelago to quantify variations in yield and allocation. Significant inter-population variations and interaction effects with testing sites were detected for the root and shoot mass and the root mass fraction (RMF). While the rank order of the population changed drastically among sites and the variance components of genetic effects were small in yield traits (2.4%-4.7%), RMF displayed a large genetic variance (23.2%) and was consistently higher in the northern populations at all sites. Analyses revealed that the mean temperature of growing season of the seed origin was the most prominent factor explaining variation in RMF, irrespective of the sites. We concluded that the trait of resource allocation had a temperature-related cline and plants in cooler climates could invest more resources into their roots. [ABSTRACT FROM AUTHOR]

Published

2020

3. Temperature-related cline in the root mass fraction in East Asian wild radish along the Japanese archipelago

Author

Kouki Hikosaka, Motomi Ito, Shin-Ichi Morinaga, and Wataru Ishizuka

Subjects

0106 biological sciences, 0301 basic medicine, Population, Raphanus, Growing season, Plant Science, Interaction, 01 natural sciences, sink development, 03 medical and health sciences, allocation, Genetic variation, Genetics, inter-population variation, Cultivar, common garden trial, education, education.field_of_study, biology, food and beverages, Cline (biology), biology.organism_classification, 030104 developmental biology, Agronomy, Shoot, wild species, radish, Agronomy and Crop Science, 010606 plant biology & botany, Research Paper

Abstract

Wild plants with a wide distribution, including those exposed to a wide variety of environmental conditions, may have variations in key functional traits relevant for agricultural applications. The East Asian wild radish (Raphanus sativus var. raphanistroides) is an appropriate model plant because it is widely distributed and has outstanding sink capacity as well as two cultivars within the species. Multiple common garden trials with 14 populations and three testing sites were conducted across the Japanese archipelago to quantify variations in yield and allocation. Significant inter-population variations and interaction effects with testing sites were detected for the root and shoot mass and the root mass fraction (RMF). While the rank order of the population changed drastically among sites and the variance components of genetic effects were small in yield traits (2.4%-4.7%), RMF displayed a large genetic variance (23.2%) and was consistently higher in the northern populations at all sites. Analyses revealed that the mean temperature of growing season of the seed origin was the most prominent factor explaining variation in RMF, irrespective of the sites. We concluded that the trait of resource allocation had a temperature-related cline and plants in cooler climates could invest more resources into their roots.

Published

2020

4. Improvement of pea biomass and seed productivity by simultaneous increase of phloem and embryo loading with amino acids.

Author

Zhang, Lizhi, Garneau, Matthew G., Majumdar, Rajtilak, Grant, Jan, and Tegeder, Mechthild

Subjects

*PEA seeds, *PLANT biomass, *PEA yields, *PHLOEM, *AMINO acid metabolism

Abstract

The development of sink organs such as fruits and seeds strongly depends on the amount of nitrogen that is moved within the phloem from photosynthetic-active source leaves to the reproductive sinks. In many plant species nitrogen is transported as amino acids. In pea ( Pisum sativum L.), source to sink partitioning of amino acids requires at least two active transport events mediated by plasma membrane-localized proteins, and these are: (i) amino acid phloem loading; and (ii) import of amino acids into the seed cotyledons via epidermal transfer cells. As each of these transport steps might potentially be limiting to efficient nitrogen delivery to the pea embryo, we manipulated both simultaneously. Additional copies of the pea amino acid permease Ps AAP1 were introduced into the pea genome and expression of the transporter was targeted to the sieve element-companion cell complexes of the leaf phloem and to the epidermis of the seed cotyledons. The transgenic pea plants showed increased phloem loading and embryo loading of amino acids resulting in improved long distance transport of nitrogen, sink development and seed protein accumulation. Analyses of root and leaf tissues further revealed that genetic manipulation positively affected root nitrogen uptake, as well as primary source and sink metabolism. Overall, the results suggest that amino acid phloem loading exerts regulatory control over pea biomass production and seed yield, and that import of amino acids into the cotyledons limits seed protein levels. [ABSTRACT FROM AUTHOR]

Published

2015

5. The monosaccharide transporter(-like) gene family in Arabidopsis

Author

Büttner, Michael

Subjects

*PLANT genomes, *ARABIDOPSIS, *MONOSACCHARIDES, *PENTOSES

Abstract

Abstract: The availability of complete plant genomes has greatly influenced the identification and analysis of phylogenetically related gene clusters. In Arabidopsis, this has revealed the existence of a monosaccharide transporter(-like) gene family with 53 members, which play a role in long-distance sugar partitioning or sub-cellular sugar distribution and catalyze the transport of hexoses, but also polyols and in one case also pentoses and tetroses. An update on the currently available information on these Arabidopsis monosaccharide transporters, on their sub-cellular localization and physiological function will be given. [Copyright &y& Elsevier]

Published

2007

6. Carbohydrate metabolism during tuber initiation in potato: A transient surge in invertase activity marks the stolon to tuber transition.

Author

Minhas, J., Rai, V., and Saini, H.

Abstract

The relationship between carbohydrate metabolism and tuber initiation in potato was determined by monitoring changes in the amount of starch and sugars along with the activities of sugar metabolizing enzymes upon transfer of plants to tuber-inducing conditions (TI; short days, cold nights) from non-inducing conditions (NTI: long days, warm nights). Switch to TI conditions caused an immediate slow-down in plant growth and triggered swelling of stolon tips, which went on to develop into tubers. Leaves of plants moved to TI conditions accumulated less starch and sugar while their stolon tips showed a sudden upsurge in starch content and a sharp decline in sugars even before any tip swelling was detectable. These changes were paralleled by a transient surge in the activity of cell wall invertase (74%) and soluble invertase (30%) in stolon tips of plants transferred to TI conditions in two unrelated cultivars under different experimental conditions. As the surge in invertase activity faded, it was replaced by a substantial increase in sucrose synthase activity as the tuber enlargement proceeded. The transient increase in invertase activity just prior to tuber initiation appears to mark a turning point in the transition of stolon tip to tuber. [ABSTRACT FROM AUTHOR]

Published

2004

7. Changes in water content, sugars and invertase activity in developing seeds of Hibiscus esculentum.

Author

Thaker, Vrinda

Abstract

Seeds of Hibiscus esculentum were analyzed for growth, in terms of fresh and dry weights, cell size, water content, reducing and non-reducing sugars and acid invertase activity. On the basis of growth analysis seed development is divided into four distinct phases of a) cell division, d) cell elongation, c) dry matter accumulation and, d) maturation. A close parallel with water content and cell size was observed. A peak level of reducing sugars was observed during the rapid elongation growth. The role of invertase in hydrolyzing sugars and its regulation of sink development is discussed. [ABSTRACT FROM AUTHOR]

Published

1999

8. Temperature-related cline in the root mass fraction in East Asian wild radish along the Japanese archipelago.

Author

Ishizuka W, Hikosaka K, Ito M, and Morinaga SI

Abstract

Wild plants with a wide distribution, including those exposed to a wide variety of environmental conditions, may have variations in key functional traits relevant for agricultural applications. The East Asian wild radish ( Raphanus sativus var. raphanistroides ) is an appropriate model plant because it is widely distributed and has outstanding sink capacity as well as two cultivars within the species. Multiple common garden trials with 14 populations and three testing sites were conducted across the Japanese archipelago to quantify variations in yield and allocation. Significant inter-population variations and interaction effects with testing sites were detected for the root and shoot mass and the root mass fraction (RMF). While the rank order of the population changed drastically among sites and the variance components of genetic effects were small in yield traits (2.4%-4.7%), RMF displayed a large genetic variance (23.2%) and was consistently higher in the northern populations at all sites. Analyses revealed that the mean temperature of growing season of the seed origin was the most prominent factor explaining variation in RMF, irrespective of the sites. We concluded that the trait of resource allocation had a temperature-related cline and plants in cooler climates could invest more resources into their roots., (Copyright © 2020 by JAPANESE SOCIETY OF BREEDING.)

Published

2020

9. The monosaccharide transporter(-like) gene family inArabidopsis

Author

Michael Büttner

Subjects

Monosaccharide Transport Proteins, Arabidopsis, Biophysics, Genes, Plant, Models, Biological, Biochemistry, Monosaccharide transport, Structural Biology, Phylogenetics, Genetics, Gene family, Monosaccharide, Sugar, Molecular Biology, Gene, Phylogeny, Hexoses, chemistry.chemical_classification, biology, Arabidopsis Proteins, Monosaccharides, Sink development, Transporter, Cell Biology, Plants, biology.organism_classification, Sugar compartmentation, chemistry, Multigene Family, Polyols

Abstract

The availability of complete plant genomes has greatly influenced the identification and analysis of phylogenetically related gene clusters. In Arabidopsis, this has revealed the existence of a monosaccharide transporter(-like) gene family with 53 members, which play a role in long-distance sugar partitioning or sub-cellular sugar distribution and catalyze the transport of hexoses, but also polyols and in one case also pentoses and tetroses. An update on the currently available information on these Arabidopsis monosaccharide transporters, on their sub-cellular localization and physiological function will be given.

Published

2007

10. Monosaccharide transporters in plants: structure, function and physiology

Author

Norbert Sauer and Michael Büttner

Subjects

Models, Molecular, DNA, Complementary, Monosaccharide Transport Proteins, Protein domain, Molecular Sequence Data, Biophysics, Saccharomyces cerevisiae, Biology, Genes, Plant, Biochemistry, Substrate Specificity, Structure-Activity Relationship, Monosaccharide transport, Sugar sensing, Gene Expression Regulation, Plant, Escherichia coli, Monosaccharide, Animals, Cloning, Molecular, Integral membrane protein, Phylogeny, Plant Proteins, chemistry.chemical_classification, Reporter gene, Cell Membrane, Transporter, Sink development, Cell Biology, Transport protein, Transmembrane domain, Kinetics, chemistry, Plasma membrane

Abstract

Monosaccharide transport across the plant plasma membrane plays an important role both in lower and higher plants. Algae can switch between phototrophic and heterotrophic growth and utilize organic compounds, such as monosaccharides as additional or sole carbon sources. Higher plants represent complex mosaics of phototrophic and heterotrophic cells and tissues and depend on the activity of numerous transporters for the correct partitioning of assimilated carbon between their different organs. The cloning of monosaccharide transporter genes and cDNAs identified closely related integral membrane proteins with 12 transmembrane helices exhibiting significant homology to monosaccharide transporters from yeast, bacteria and mammals. Structural analyses performed with several members of this transporter superfamily identified protein domains or even specific amino acid residues putatively involved in substrate binding and specificity. Expression of plant monosaccharide transporter cDNAs in yeast cells and frog oocytes allowed the characterization of substrate specificities and kinetic parameters. Immunohistochemical studies, in situ hybridization analyses and studies performed with transgenic plants expressing reporter genes under the control of promoters from specific monosaccharide transporter genes allowed the localization of the transport proteins or revealed the sites of gene expression. Higher plants possess large families of monosaccharide transporter genes and each of the encoded proteins seems to have a specific function often confined to a limited number of cells and regulated both developmentally and by environmental stimuli.

Published

2000

11. Are plant growth substances involved in the partitioning of assimilate to developing reproductive sinks?

Author

Lenton, John R.

Published

1984