2 edition of Biochemical, molecular, and physiological aspects of plant peroxidases found in the catalog.
Biochemical, molecular, and physiological aspects of plant peroxidases
|Statement||editors: J. Lobarzewski ... [et al.].|
|Contributions||Lobarzewski, J., International Symposium on Plant Peroxidases. (2nd : 1990 : Lublin, Poland).|
|LC Classifications||QK898.P47 B56 1991|
|The Physical Object|
|Pagination||550 p. :|
|Number of Pages||550|
SINGLE SOURCE GUIDE TO PEROXIDASES AND CATALASES Reflecting the important historical discoveries and exciting research in the field in recent years, Peroxidases and Catalases: Biochemistry, Biophysics, Biotechnology and Physiology provides a much-needed systematic, up-to-date treatment of peroxidases and catalases. From the structure . The physiological, biochemical, and molecular aspects of plants under As stress are also delineated. Arsenic tolerance and detoxification mechanisms in various plant species are addressed in detail. Moreover, the protective role of the exogenous supplies of proline, SA, NO, and Pi for plants under As stress are by:
Plants have antioxidant systems to protect them against oxidative damage. These detoxification processes are complex and highly compartmentalized in plant cells. The level of ROS in the plant is controlled by an antioxidative system that consists of antioxidative enzymes like SOD, CAT, APX, POX, and nonenzymatic low molecular mass by: Plant glutathione peroxidases. Yuval Eshdat. Dept of Fruit Tree Breeding and Molecular Genetics, Agricultural Research Organization, The Volcani Center, Bet‐Dagan, Israel. Journal of Biochemical and Molecular Toxicology, 29, 10, Physiological and Molecular Plant Pathology, 72, , (), (). by:
Peroxidases have been implicated in numerous physiological processes including lignification (Grisebach, ), wound-healing (Espelie et al., ), phenol oxidation (Lagrimini, ), pathogen defense (Ye et al., ), and the regulation of cell elongation through the formation of interchain covalent bonds between various cell wall polymers (Fry, ; Goldberg et al., . Drought stress adversely effects physiological and biochemical processes of plants, leading to a reduction in plant productivity. Plants try to protect themselves via activation of their internal defense system, but severe drought causes dysfunction of this defense system. The imbalance between generation and scavenging of reactive oxygen species (ROS) leads to oxidative by: 7.
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Biochemical, molecular, and physiological aspects of plant peroxidases un!ver3!tatsb',bl!othek technssche wformatiu^sbisliothek 1 editors: j.
lobarzewski, h. greppin, c. penel, th. gaspar university m. curie-sklodowska ub/tib hannover lublin, poland and university of geneva, switzerland The present chapter provides an overview of the physiological, biochemical, and molecular changes modulated by seed priming, which enhance seed germination and plant growth.
Moreover, it discusses the possible mechanisms associated with seed priming-induced abiotic stress tolerance in : Sadam Hussain, Saddam Hussain, Abdul Khaliq, Shafaqat Ali, Imran Khan. COVID Resources.
Biochemical information about the coronavirus (COVID) is available from the World Health Organization (current situation, international travel).Numerous and frequently-updated resource results are available from this ’s WebJunction has pulled together information and resources to assist library staff as they consider how to handle.
Molecular, biochemical and physiological aspects of plant respiration. The Hague: SPB Academic, (OCoLC) Material Type: Conference publication, Internet resource: Document Type: Book, Internet Resource: All Authors.
DOI link for Nitrogen Assimilation by Plants. Nitrogen Assimilation by Plants book. Physiological, Biochemical, and Molecular Aspects.
Biochemical, Molecular and Genetic Aspects. View abstract. chapter 10 | 16 pages Nitrogen Assimilation by Cited by: J. Lobarzewski, H. Greppin, C. Penel, T. Gaspar (Eds.), Biochemical, Molecular and Physiological Aspects of Plant Peroxidases, University of Geneva, Geneva (), pp.
Google Scholar Proximal site sequence, and comparison of the properties of chloroplast and cytosol ascorbate peroxidases and classical plant by: Lagrimini LM () Plant peroxidases: under- and over-expression in transgenic plants and physiological consequences.
In Molecular Penel, T Gaspar, H Greppin, eds, Plant Peroxidases –, Topics and Detailed Literature on Molecular, Biochemical, and Physiological Aspects. Université de Genève, Geneva, Switzerland, pp 59– Physiological, ultrastructural, biochemical and molecular responses of young cocoa plants to the toxicity of Cr (III) in soil Author links open overlay panel Junea Leandro do Nascimento a Alex-Alan Furtado de Almeida a Joedson P.
Barroso a Pedro A.O. Mangabeira a Dário Ahnert a Artur G.R. Sousa a José Vitor S. Silva a Virupax C. Baligar bCited by: Biochemical and Molecular Genetic Aspects of Floral Scents Natalia Dudareva, Eran Pichersky Plant Physiology Mar(3) ; DOI: /ppCited by: Physiological and Molecular Plant Pathology provides an International forum for original research papers, reviews, and commentaries on all aspects of the molecular biology, biochemistry, physiology, histology and cytology, genetics and evolution of plant-microbe interactions.
Nitrogen Assimilation by Plants: Physiological, Biochemical, and Molecular Aspects 1st Edition. by J F Morot-Gaudry (Author) ISBN ISBN Why is ISBN important. ISBN. This bar-code number lets you verify that you're getting exactly the right version or edition of a book.
Cited by: Plants, however, have a variety of physiological and biochemical responses at cellular and organism levels, making it a more complex phenomenon.
Researchers have been trying to understand and dissect the mechanisms of plant tolerance to drought stress using various approaches. 1 Molecular and Biochemical Toxicology: Definition and Scope 3 Ernest Hodgson and Robert C.
Smart. Introduction 3. Sources of Information 5. Toxicology 5. Molecular and Cellular Toxicology 6. Proteomics and Metabolomics 8. Role of Molecular, Cellular, and Biochemical Toxicology: Implications for Risk Assessment 8. Written by experts in the field, Combined Stresses in Plants: Physiological, Molecular, and Biochemical Aspects is a valuable resource for scientists, graduate students, and post-doctoral fellows alike working in plant stresses.
Molecular, Biochemical & Physiological Aspects of Plant Respiration by H. Lambers,available at Book Depository with free delivery worldwide.
Silicon amendments to soil have resulted in a decrease of diseases caused by several soilborne pathogens affecting a wide number of crops. This study evaluated the physiological and biochemical mechanisms that may have increased resistance of banana to Fusarium wilt, caused by Fusarium oxysporum f.
cubense, after treatment with silicon (Si) amendment. Because the term stress is used, most often subjectively, with variousmeanings, this paper first attempts to clarify the physiological definition,andthe appropriate terms as responses in different situations.
The flexibility ofnormal metabolism allows the development of responses to environmental changeswhich fluctuate regularly and predictably over daily and Cited by: Nitrogen Assimilation by Plants: Physiological, Biochemical, and Molecular Aspects - CRC Press Book This publication contains the most important information acquired over the last twenty years in the area of nitrogen metabolism and envisages new strategies to improve plant species of agronomic value by devising new techniques for growing them.
SINGLE SOURCE GUIDE TO PEROXIDASES AND CATALASES Reflecting the important historical discoveries and exciting research in the field in recent years, Peroxidases and Catalases: Biochemistry, Biophysics, Biotechnology and Physiology provides a much-needed systematic, up-to-date treatment of peroxidases and catalases.
Reflecting the important historical discoveries and exciting research in the field in recent years, Peroxidases and Catalases: Biochemistry, Biophysics, Biotechnology and Physiology provides a much-needed systematic, up-to-date treatment of peroxidases and catalases.
From the structure and Cited by: Plants, unlike animals, are sessile. This demands that adverse changes in their environment are quickly recognized, distinguished and responded to with suitable reactions. Drought, heat, cold and salinity are among the major abiotic stresses that adversely affect plant growth and productivity.
In general, abiotic stress often causes a series of morphological, physiological, biochemical Cited by: