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Ascorbate acid (AsA) is an important antioxidant in plants, playing important roles in various physiological processes. Humans have lost the ability to synthesize AsA because of the lack of L-gulono-1,4-lactone oxidoreductase, and thus have to absorb ascorbate from diet including fresh fruits and vegetables, as they are the major sources of ascorbate. Several pathways for AsA biosynthesis and metabolism have been identified in plants since 1998. More attention has been paid to improving ascorbate content in plants especially in fruits and vegetables. Significant progresses have been made on key enzymes and genes involved in the AsA biosynthesis and metabolism. Recently, more interests have arised in the regulation of AsA biosynthesis, as it is constantly regulated by the plant development and the environmental factors, e.g. light. Ascorbic acid is also frequently reported to affect plant growth and development e.g. flowering time and fruit ripening. The scope of the book is to cover the biological role, biosynthesis and metabolism, regulation, and metabolic modification of ascorbate in plants.
Vitamin C. --- Botanical chemistry. --- Phytochemistry --- Plant biochemistry --- Plant chemistry --- Ascorbic acid --- Plants -- Effect of vitamin C on. --- Vitamin C --- Sugar Acids --- Acids, Acyclic --- Carboxylic Acids --- Ascorbic Acid --- Effect of vitamin C on --- Life sciences. --- Plant biochemistry. --- Plant science. --- Botany. --- Plant anatomy. --- Plant development. --- Life Sciences. --- Plant Sciences. --- Plant Anatomy/Development. --- Plant Biochemistry. --- Biochemistry --- Botany --- Phytochemicals --- Plant biochemical genetics --- Hydroxy acids --- Vitamins, Water-soluble --- Biochemistry. --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- Plant structure --- Plants --- Structural botany --- Vegetable anatomy --- Anatomy --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Natural history --- Composition --- Structure --- Development of plants --- Plant development --- Developmental biology --- Growth (Plants) --- Ontogeny --- Floristic botany
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Vegetable crops provide valuable minerals and vitamins that are indispensible for human health. Scientists have been working on the genetics of vegetable crops, deciphering the molecular bases of agronomically important traits. These genetic bases and variations in vegetable traits will greatly facilitate vegetable genetic improvement. Therefore, the genes of and genetic research on vegetable crops are of great importance. This Special Issue is a collection of 13 important research papers addressing the genes, genetics, and breeding of major vegetable crops. In the present book, the authors described the genes and QTLs responsible for stress tolerance, disease resistance, vegetable yield, and quality. The 13 research papers cover germplasm enhancement and evaluation, QTL mapping, gene isolation, marker development, and gene expression as well as gene editing in a wide range of vegetable species, including broccoli, pepper, eggplant, onion, and Cucurbita species. Readers from all over the globe are expected to greatly benefit from this Special Issue collection regarding their own work and the goal of improving breeding efficiency with molecular breeding to generate environment-adaptive, high-yield, and high-quality vegetable crops with which to feed the global population of 9.7 billion in an extreme climate by 2050.
Research & information: general --- Biology, life sciences --- Technology, engineering, agriculture --- pepper --- Capsicum annuum --- Phytophthora capsici --- high-density genetic map --- QTL --- Capcicum annuum L. --- RNA-Seq --- nitrogen-use efficiency --- low-nitrogen tolerance --- CaHSP18.1a --- gene silencing --- transgenic Arabidopsis --- heat stress --- gene expression --- pumpkin --- simple sequence repeat (SSR) --- syntenic relationship --- cross-species markers --- population structure --- eggplant --- heat shock factor (Hsf) --- heat shock protein (Hsp) --- thermotolerance --- C. frutescens --- SSR --- germplasm --- genetic diversity --- CRISPR/Cas --- gene knockout --- genome editing --- germplasm resource --- precision editing --- regulatory framework --- trait improvement --- Brassica oleracea --- broccoli --- candidate gene --- anthocyanin --- allelochemicals --- VOCs properties --- VOCs action --- VOCs detection --- green agriculture --- progress --- genetic researches --- molecular breeding --- transcriptomics --- transcription factor --- heritability --- genetic advance --- multi-trait selection --- principal component analysis --- HRM --- molecular marker --- phylogenetic analysis --- RNA sequencing --- SCAR --- SNP --- n/a
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