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      To die or not to die? Lessons from lesion mimic mutants

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          Abstract

          Programmed cell death (PCD) is a ubiquitous genetically regulated process consisting in an activation of finely controlled signaling pathways that lead to cellular suicide. Although some aspects of PCD control appear evolutionary conserved between plants, animals and fungi, the extent of conservation remains controversial. Over the last decades, identification and characterization of several lesion mimic mutants (LMM) has been a powerful tool in the quest to unravel PCD pathways in plants. Thanks to progress in molecular genetics, mutations causing the phenotype of a large number of LMM and their related suppressors were mapped, and the identification of the mutated genes shed light on major pathways in the onset of plant PCD such as (i) the involvements of chloroplasts and light energy, (ii) the roles of sphingolipids and fatty acids, (iii) a signal perception at the plasma membrane that requires efficient membrane trafficking, (iv) secondary messengers such as ion fluxes and ROS and (v) the control of gene expression as the last integrator of the signaling pathways.

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          Programmed cell death in the plant immune system.

          N S Coll, P Epple, J L Dangl (2011)
          Cell death has a central role in innate immune responses in both plants and animals. Besides sharing striking convergences and similarities in the overall evolutionary organization of their innate immune systems, both plants and animals can respond to infection and pathogen recognition with programmed cell death. The fact that plant and animal pathogens have evolved strategies to subvert specific cell death modalities emphasizes the essential role of cell death during immune responses. The hypersensitive response (HR) cell death in plants displays morphological features, molecular architectures and mechanisms reminiscent of different inflammatory cell death types in animals (pyroptosis and necroptosis). In this review, we describe the molecular pathways leading to cell death during innate immune responses. Additionally, we present recently discovered caspase and caspase-like networks regulating cell death that have revealed fascinating analogies between cell death control across both kingdoms.
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            BIOSYNTHESIS AND ACTION OF JASMONATES IN PLANTS.

            Robert A. Creelman, John E. Mullet (1997)
            Jasmonic acid and its derivatives can modulate aspects of fruit ripening, production of viable pollen, root growth, tendril coiling, and plant resistance to insects and pathogens. Jasmonate activates genes involved in pathogen and insect resistance, and genes encoding vegetative storage proteins, but represses genes encoding proteins involved in photosynthesis. Jasmonic acid is derived from linolenic acid, and most of the enzymes in the biosynthetic pathway have been extensively characterized. Modulation of lipoxygenase and allene oxide synthase gene expression in transgenic plants raises new questions about the compartmentation of the biosynthetic pathway and its regulation. The activation of jasmonic acid biosynthesis by cell wall elicitors, the peptide systemin, and other compounds will be related to the function of jasmonates in plants. Jasmonate modulates gene expression at the level of translation, RNA processing, and transcription. Promoter elements that mediate responses to jasmonate have been isolated. This review covers recent advances in our understanding of how jasmonate biosynthesis is regulated and relates this information to knowledge of jasmonate modulated gene expression.
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              Molecular machinery for non-vesicular trafficking of ceramide.

              Kentaro Hanada, Keigo Kumagai, Satoshi Yasuda (2003)
              Synthesis and sorting of lipids are essential for membrane biogenesis; however, the mechanisms underlying the transport of membrane lipids remain little understood. Ceramide is synthesized at the endoplasmic reticulum and translocated to the Golgi compartment for conversion to sphingomyelin. The main pathway of ceramide transport to the Golgi is genetically impaired in a mammalian mutant cell line, LY-A. Here we identify CERT as the factor defective in LY-A cells. CERT, which is identical to a splicing variant of Goodpasture antigen-binding protein, is a cytoplasmic protein with a phosphatidylinositol-4-monophosphate-binding (PtdIns4P) domain and a putative domain for catalysing lipid transfer. In vitro assays show that this lipid-transfer-catalysing domain specifically extracts ceramide from phospholipid bilayers. CERT expressed in LY-A cells has an amino acid substitution that destroys its PtdIns4P-binding activity, thereby impairing its Golgi-targeting function. We conclude that CERT mediates the intracellular trafficking of ceramide in a non-vesicular manner.
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                Author and article information

                Contributors
                Journal
                Journal ID (nlm-ta): Front Plant Sci
                Journal ID (iso-abbrev): Front Plant Sci
                Journal ID (publisher-id): Front. Plant Sci.
                Title: Frontiers in Plant Science
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 1664-462X
                Publication date (Electronic): 30 January 2015
                Publication date Collection: 2015
                Volume: 6
                Electronic Location Identifier: 24
                Affiliations
                [1] 1Institut de Biologie des Plantes, UMR CNRS 8618, Université Paris-Sud, Saclay Plant Sciences Orsay, France
                [2] 2Division of Biological and Environmental Sciences and Engineering, Center for Desert Agriculture, King Abdullah University of Science and Technology Thuwal, Saudi Arabia
                Author notes

                Edited by: Antoine Danon, Institut de Biologie Physico Chimique, France

                Reviewed by: John Mundy, University of Copenhagen, Denmark; Nuria Sanchez Coll, Centre for Research in Agricultural Genomics, Spain; Michela Landoni, Università degli Studi di Milano, Italy

                *Correspondence: Marianne Delarue, Institut de Biologie des Plantes, UMR CNRS 8618, Université Paris-Sud, Saclay Plant Sciences, Bâtiment 630, Route de Noetzlin, 91405 Orsay Cedex, France e-mail: marianne.delarue@ 123456u-psud.fr

                This article was submitted to Plant Physiology, a section of the journal Frontiers in Plant Science.

                Article
                DOI: 10.3389/fpls.2015.00024
                PMC ID: 4311611
                PubMed ID: 25688254
                SO-VID: 9b0e0d2a-b7fe-477a-b388-6621c71e5085
                Copyright © Copyright © 2015 Bruggeman, Raynaud, Benhamed and Delarue.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 17 September 2014
                Date accepted : 12 January 2015
                Page count
                Figures: 2, Tables: 2, Equations: 0, References: 223, Pages: 22, Words: 18214
                Categories
                Subject: Plant Science
                Subject: Review Article

                ScienceOpen disciplines: Plant science & Botany
                Keywords: plant,programmed cell death,lesion mimic mutants,genetics approaches,immunity responses
                Data availability:
                ScienceOpen disciplines: Plant science & Botany
                Keywords: plant, programmed cell death, lesion mimic mutants, genetics approaches, immunity responses

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