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Plants; Stress & Proteins

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Book Series: Frontiers Research Topics ISSN: 16648714 ISBN: 9782889452675 Year: Pages: 323 DOI: 10.3389/978-2-88945-267-5 Language: English
Publisher: Frontiers Media SA
Subject: Science (General) --- Botany
Added to DOAB on : 2018-02-27 16:16:44
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Biotic and abiotic stress factors deliver a huge impact on plant life. Biotic stress factors such as damage through pathogens or herbivore attack, as well as abiotic stress factors like variation in temperature, rainfall and salinity, have placed the plant kingdom under constant challenges for survival. As a consequence, global agricultural and horticultural productivity has been disturbed to a large extent. Being sessile in nature, plants cannot escape from the stress, and instead adapt changes within their system to overcome the adverse conditions. These changes include physiological, developmental and biochemical alterations within the plant body which influences the genome, proteome and metabolome profiles of the plant. Since proteins are the ultimate players of cellular behavior, proteome level alterations during and recovery period of stress provide direct implications of plant responses towards stress factors. With current advancement of modern high-throughput technologies, much research has been carried out in this field. This e-book highlights the research and review articles that cover proteome level changes during the course or recovery period of various stress factors in plant life. Overall, the chapters in this e-book has provided a wealth of information on how plants deal with stress from a proteomics perspective.

Mass Spectrometric Proteomics

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ISBN: 9783038978268 9783038978275 Year: Pages: 192 DOI: 10.3390/books978-3-03897-827-5 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Medicine (General) --- Therapeutics
Added to DOAB on : 2019-04-25 16:37:17
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As suggested by the title of this Special Issue, liquid chromatography-mass spectrometry plays a pivotal role in the field of proteomics. Indeed, the research and review articles  published in the Issue clearly evidence how the data produced by this sophisticated methodology may promote impressive advancements in this area. From among the topics discussed in the Issue, a few point to the development of  new procedures for the  optimization of the experimental conditions that should be applied  for the identification of proteins present in complex mixtures.  Other applications  described in these articles show  the huge potential of  these strategies in the protein profiling of organs and  range from  to the study of post-translational tissue modifications to the investigation of the molecular mechanisms behind human disorders and the identification of potential biomarkers of these diseases.

Marine Natural Products and Obesity

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ISBN: 9783039211913 9783039211920 Year: Pages: 194 DOI: 10.3390/books978-3-03921-192-0 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Medicine (General) --- Internal medicine
Added to DOAB on : 2019-08-28 11:21:27
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Obesity and related co-morbidities are increasing worldwide and pose a serious health problem. Changes in lifestyle and diet would be the best remedies to fight obesity; however, many people will still rely on medical aid. Marine organisms have been prolific in the production of bioactive compounds for many diseases, e.g., cancer, and promise to be an excellent source for natural-derived molecules and novel nutraceuticals. Bioactive compounds with beneficial activities towards obesity have been described from diverse marine organism including marine algae, bacteria, sponges, fungi, crustaceans or fish. This Special Issue will highlight the progress in the following topics: Bioactive compounds for the treatment of obesity and obesity-related co-morbidities (diabetes, fatty liver, hyperlipidemia) from marine organisms; the isolation of novel compounds, the bioactivity screening of marine organisms and the elucidation of molecular mode of action of marine bioactive compounds.

Plant Protein and Proteome Altlas--Integrated Omics Analyses of Plants under Abiotic Stresses

Authors: --- --- --- --- et al.
ISBN: 9783039219605 / 9783039219612 Year: Pages: 558 DOI: 10.3390/books978-3-03921-961-2 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Botany
Added to DOAB on : 2020-06-09 16:38:57
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Integrative omics of plants in response to stress conditions play more crucial roles in the post-genomic era. High-quality genomic data provide more deeper understanding of how plants to survive under environmental stresses. This book is focused on concluding the recent progress in the Protein and Proteome Atlas in plants under different stresses. It covers various aspects of plant protein ranging from agricultural proteomics, structure and function of proteins, and approaches for protein identification and quantification.

Keywords

proteomic --- postharvest freshness --- ATP synthase --- ATP synthase CF1 alpha subunit (chloroplast) --- chlorophyll fluorescence parameters --- photosynthetic parameters --- drought stress --- Triticum aestivum L. --- comparative proteomic analysis --- iTRAQ --- VIGS --- Jatropha curcas --- phosphoproteomics --- seedling --- chilling stress --- regulated mechanism --- Alternanthera philoxeroides --- proteomic --- stem --- potassium --- stress --- Salinity stress --- Dunaliella salina --- isobaric tags for relative and absolute quantitation --- differentially abundant proteins --- proteomics --- arbuscular mycorrhizal fungi --- salt stress --- E. angustifolia --- proteomics --- wheat --- root --- wood vinegar --- drought stress --- ROS --- ABA --- proteome --- maize --- AGPase --- phosphorylation --- brittle-2 --- phos-tagTM --- MIPS --- exon-intron structure diversity --- Gossypium hirsutum --- loss-of-function mutant --- root cell elongation --- CHA-SQ-1 --- cytomorphology --- pollen abortion --- proteomics --- wheat --- cotton --- somatic embryogenesis --- transdifferentiation --- quantitative proteomics --- regulation and metabolism --- molecular basis --- concerted network --- maize --- phosphoproteomics --- salt tolerance --- label-free quantification --- root and shoot --- sugar beet --- salt stress --- S-adenosylmethionine decarboxylase --- ROS --- antioxidant enzyme --- cotton --- somatic embryogenesis --- transdifferentiation --- widely targeted metabolomics --- purine metabolism --- flavonoid biosynthesis --- molecular and biochemical basis --- transcript-metabolite network --- leaf sheath --- maturation --- transcriptional dynamics --- transcriptome --- abiotic stress --- silicate limitation --- diatom --- iTRAQ --- proteomics --- photosynthesis --- carbon fixation --- natural rubber biosynthesis --- mass spectrometry --- rubber grass --- rubber latex --- shotgun proteomics --- Taraxacum kok-saghyz --- two-dimensional gel electrophoresis --- visual proteome map --- proteomics --- wheat --- drought --- leaf --- iTRAQ --- micro-exons --- constitutive splicing --- alternative splicing --- ancient genes --- domain --- radish --- heat stress --- transcriptome sequencing --- lncRNA --- miRNA --- physiological response --- Millettia pinnata --- woody oilseed plants --- seed development --- miRNA --- nitrogen fertilizer --- rice --- proteome --- cultivars --- nitrogen use efficiency (NUE) --- Nelumbo nucifera --- phylogeny --- genomics --- molecular mechanisms --- model plant --- proteomes --- iTRAQ --- filling kernel --- drought stress --- heat shock proteins --- Zea mays L. --- wucai --- low-temperature stress --- high-temperature stress --- proteomics --- redox homeostasis --- GLU1 --- glutathione --- heat response --- heat-sensitive spinach variety --- proteomics --- ROS scavenging --- inositol --- phosphatidylinositol --- phosphatase --- stress --- signaling pathway --- integrated omics --- plants under stress --- post-genomics era --- proteome atlas --- quantitative proteomics

Plant Proteomic Research 2.0

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ISBN: 9783039210626 9783039210633 Year: Pages: 594 DOI: 10.3390/books978-3-03921-063-3 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Plant Sciences
Added to DOAB on : 2019-06-26 08:44:07
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Abstract

Advancements in high-throughput “Omics” techniques have revolutionized plant molecular biology research. Proteomics offers one of the best options for the functional analysis of translated regions of the genome, generating a wealth of detailed information regarding the intrinsic mechanisms of plant stress responses. Various proteomic approaches are being exploited extensively for elucidating master regulator proteins which play key roles in stress perception and signaling, and these approaches largely involve gel-based and gel-free techniques, including both label-based and label-free protein quantification. Furthermore, post-translational modifications, subcellular localization, and protein–protein interactions provide deeper insight into protein molecular function. Their diverse applications contribute to the revelation of new insights into plant molecular responses to various biotic and abiotic stressors.

Keywords

Phalaenopsis --- petal --- pollination --- senescence --- 2-DE --- ROS --- Medicago sativa --- leaf cell wall proteome --- cadmium --- quantitative proteomics --- 2D DIGE --- chloroplast --- elevated CO2 --- heat stress --- nucleotide pyrophosphatase/phosphodiesterase --- (phospho)-proteomics --- photosynthesis --- protein phosphorylation --- 14-3-3 proteins --- Oryza sativa L. --- starch --- sucrose --- N utilization efficiency --- proteomics --- 2D --- protein phosphatase --- rice isogenic line --- SnRK1 --- 14-3-3 --- lettuce --- bolting --- proteome --- high temperature --- iTRAQ --- proteome profiling --- iTRAQ --- differentially abundant proteins (DAPs) --- drought stress --- physiological responses --- Zea mays L. --- GS3 --- ? subunit --- heterotrimeric G protein --- mass spectrometric analysis --- RGG3 --- rice --- western blotting --- Dn1-1 --- ?-subunit --- heterotrimeric G protein --- mass spectrometry analysis --- RGG4 --- rice --- western blotting --- Clematis terniflora DC. --- polyphenol oxidase --- virus induced gene silencing --- photosynthesis --- glycolysis --- Camellia sinensis --- chlorotic mutation --- chlorophyll deficiency --- weakening of carbon metabolism --- iTRAQ --- proteomics --- degradome --- wheat --- cultivar --- protease --- papain-like cysteine protease (PLCP) --- subtilase --- metacaspase --- caspase-like --- wheat leaf rust --- Puccinia recondita --- Stagonospora nodorum --- iTRAQ --- proteomics --- somatic embryogenesis --- pyruvate biosynthesis --- Zea mays --- chlorophylls --- LC-MS-based proteomics --- pea (Pisum sativum L.) --- proteome functional annotation --- proteome map --- seeds --- seed proteomics --- late blight disease --- potato proteomics --- Phytophthora infestans --- Sarpo Mira --- early and late disease stages --- Simmondsia chinensis --- cold stress --- proteomics --- leaf --- iTRAQ --- Ricinus communis L. --- cold stress --- seed imbibition --- iTRAQ --- proteomics --- Morus --- organ --- gel-free/label-free proteomics --- flavonoid --- antioxidant activity --- phosphoproteome --- barley --- seed dormancy --- germination --- imbibition --- after-ripening --- sugarcane --- Sporisorium scitamineum --- smut --- proteomics --- RT-qPCR --- ISR --- holm oak --- Quercus ilex --- 2-DE proteomics --- shotgun proteomics --- non-orthodox seed --- population variability --- stresses responses --- ammonium --- Arabidopsis thaliana --- carbon metabolism --- nitrogen metabolism --- nitrate --- proteomics --- root --- secondary metabolism --- proteomics --- wheat --- silver nanoparticles --- plant pathogenesis responses --- data-independent acquisition --- quantitative proteomics --- Pseudomonas syringae --- sweet potato plants infected by SPFMV --- SPV2 and SPVG --- sweet potato plants non-infected by SPFMV --- SPV2 and SPVG --- co-infection --- transcriptome profiling --- gene ontology --- pathway analysis --- lesion mimic mutant --- leaf spot --- phenylpropanoid biosynthesis --- proteomics --- isobaric tags for relative and absolute quantitation (iTRAQ) --- rice --- affinity chromatography --- ergosterol --- fungal perception --- innate immunity --- pattern recognition receptors --- plasma membrane --- proteomics --- proteomics --- maize --- plant-derived smoke --- shoot --- Solanum tuberosum --- patatin --- seed storage proteins --- vegetative storage proteins --- tuber phosphoproteome --- targeted two-dimensional electrophoresis --- B. acuminata petals --- MALDI-TOF/TOF --- GC-TOF-MS --- qRT-PCR --- differential proteins --- n/a

Jasmonic Acid Pathway in Plants

Author:
ISBN: 9783039284887 / 9783039284894 Year: Pages: 346 DOI: 10.3390/books978-3-03928-489-4 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Plant Sciences
Added to DOAB on : 2020-06-09 16:38:57
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Abstract

The plant hormone jasmonic acid (JA) and its derivative, an amino acid conjugate of JA (jasmonoyl isoleucine, JA-Ile), are signaling compounds involved in the regulation of defense and development in plants. The number of articles studying on JA has dramatically increased since the 1990s. JA is recognized as a stress hormone that regulates the plant response to biotic stresses such as herbivore and pathogen attacks, as well as abiotic stresses such as wounding and ultraviolet radiation. Recent studies have remarkably progressed the understanding of the importance of JA in the life cycle of plants. JA is directly involved in many physiological processes, including stamen growth, senescence, and root growth. JA regulates production of various metabolites such as phytoalexins and terpenoids. Many regulatory proteins involved in JA signaling have been identified by screening for Arabidopsis mutants. However, much more remains to be learned about JA signaling in other plant species. This Special Issue, “Jasmonic Acid Pathway in Plants”, contains 5 review and 15 research articles published by field experts. These articles will help with understanding the crucial roles of JA in its response to the several environmental stresses and development in plants.

Keywords

albino --- aroma --- Camellia sinensis --- chloroplast --- jasmonic acid --- light-sensitive --- stress --- tea --- volatile --- Panax ginseng --- gene expression --- ginsenoside --- methyl jasmonate --- MYB transcription factor --- dammarenediol synthase --- jasmonic acid --- signaling pathway --- environmental response --- biological function --- MeJA --- priming --- rice --- proteomics --- ROS --- chlorophyll fluorescence imaging --- MAP kinase --- jasmonate --- rice bacterial blight --- salicylic acid --- grain development --- Prunus avium --- Tuscan varieties --- jasmonic acid --- lipoxygenase --- bioinformatics --- gene expression --- heterotrimeric G proteins --- AtRGS1 --- jasmonates --- endocytosis --- diffusion dynamics --- Chinese flowering cabbage --- leaf senescence --- JA --- transcriptional activation --- adventitious rooting --- auxin --- ectopic metaxylem --- ectopic protoxylem --- ethylene --- hypocotyl --- jasmonates --- nitric oxide --- xylogenesis --- transcriptional regulators --- plant development --- jasmonic acid signaling --- gene expression --- Jasmonate-ZIM domain --- JAZ repressors --- Jas domain --- TIFY --- degron --- phylogenetic analysis --- ancestral sequences --- circadian clock --- jasmonic acid --- crosstalk --- jasmonic acid --- fatty acid desaturase --- multiseeded --- msd --- grain number --- MutMap --- sorghum --- Ralstonia solanacearum --- type III effector --- jasmonic acid --- salicylic acid --- Nicotiana plants --- PatJAZ6 --- jasmonic acid (JA) signaling pathway --- Pogostemon cablin --- patchouli alcohol --- biosynthesis --- jasmonate --- salt response --- Zea mays --- ROS --- proline --- ABA biosynthesis --- jasmonic acid --- crosstalk --- gibberellic acid --- cytokinin --- auxin --- jasmonic acid --- opr3 --- stress defense --- quantitative proteomics --- abiotic stresses --- jasmonates --- JA-Ile --- JAZ repressors --- transcription factor --- signaling --- antioxidant enzyme activity --- elicitor --- methyl jasmonate --- secondary metabolite --- signal molecules --- n/a

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