Photosynthesis and Plant Light Requirements
Carlos Tello Lacal
9781773610498
524 pages
Arcler Education Inc
Overview
Photosynthesis plays a central role in sustaining life on Earth, being its major outcomes the fixation of atmospheric CO2 into carbohydrates and the production of O2 as a result of the lysis of water. Numerous pigments, photoreceptors, light harvest complexes, electron transport chains and enzymes are involved in this process. Understanding the functioning of photosynthesis is the first step towards increasing its performance, which can ultimately increase crop yield. By compiling open access research papers, the present books reviews the state-of-the-art knowledge on the different aspects concerning photosynthesis, including the potential application of recent findings.In Chapter number 1, the editor describes the photoreceptors employed by plants to convert the different wavelengths into signals, as well as the effects of light quality on plant growth and metabolism. Chapters 2 and 3 deal with chlorophylls and other plant tetrapyrroles by reviewing their synthesis and signaling, respectively. In turn, Chapter 4 describes the synthesis of the other major pigment type, carotenoids, in chili peppers. The next block of two chapters exposes the current knowledge on chloroplasts. Chapter 5 explores the phylogenetic diversity of chloroplast genomes and the potential of this knowledge in genetic engineering, while Chapter 6 reviews their inter-organellar and inter-cellular signaling. In Chapters 7 and 8, the respective functioning of photosystems I and II in light harvesting is detailed. Chapter 9 reviews the different reactions taking place at the thylakoid lumen, as well as the proteins involved. A detailed overview of the photosynthetic electron transporters plastoquinone and ubiquinone is presented in Chapter 10.PREFACE
Author Bio
Carlos Tello (Valencia, Spain, 1981) studied Agricultural Engineering with specialization in Biotechnology at the Universidad Politécnica de Valencia, where he graduated with a BSc thesis on the characterization of an Arabidopsis mutant with increased tolerance to seed ageing and salt stress. He moved afterwards to Sevilla to complete his MSc and PhD at the Instituto de Recursos Naturales y Agrobiología, where he studied the mechanisms employed by plants in their adaptation to abiotic stress and more specifically the role of the Arabidopsis Na+/H+ antiporter SOS1 in the regulation of Na+ and K+ homeostasis. Since 2014, he is based in Zürich and develops several freelance science-related jobs. He has recently retrained himself in the field of cell culture in bioreactors by attending an advanced training course at the Zürcher Hochschule für Angewandte Wissenschaften.
