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Heat Shock Proteins and Plants PDF

341 Pages·2016·8.86 MB·English
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Heat Shock Proteins 10 Series Editors: Alexzander A.A. Asea · Stuart K. Calderwood Alexzander A.A. Asea Stuart K. Calderwood Punit Kaur Editors Heat Shock Proteins and Plants H eat Shock Proteins Volume 10 Series editors Alexzander A.A. Asea, Ph.D. Professor and VD for Research Innovations Deanship for Scientifi c Research, University of Dammam Dammam, Saudi Arabia Stuart K. Calderwood, Ph.D. Professor and Director Division of Molecular and Cellular Radiation Oncology Department of Radiation Oncology, Harvard Medical School of Beth Israel Deaconess Medical Center Boston, MA, USA Heat Shock Proteins: key mediators of Health and Disease. Heat shock proteins (HSP) are essential molecules conserved through cellular evolution required for cells to survive the stresses encountered in the environment and in the tissues of the developing and aging organism. These proteins play the essential roles in stress of preventing the initiation of programmed cell death and repairing damage to the proteome permitting resumption of normal metabolism. Loss of the HSP is lethal either in the short-term in cases of acute stress or in the long-term when exposure to stress is chronic. Cells appear to walk a fi ne line in terms of HSP expression. If expression falls below a certain level, cells become sensitive to oxidative damage that infl uences aging and protein aggregation disease. If HSP levels rise above the normal range, infl ammatory and oncogenic changes occur. It is becoming clear that HSP are emerging as remarkably versatile mediators of health and disease. The aim of this series of volumes is to examine how HSP regulation and expression become altered in pathological states and how this may be remedied by pharmacological and other interventions. More information about this series at h ttp://www.springer.com/series/7515 A lexzander A .A . A sea • S tuart K . C alderwood P unit K aur E ditors H eat Shock Proteins and Plants E ditors A lexzander A .A . A sea S tuart K . C alderwood D epartment of Neuroscience D ivision of Molecular and Cellular Biology U niversity of Dammam Department of Radiation Oncology D amman, S audi Arabia B eth Israel Deaconess Medical Center and Harvard Medical School P unit K aur B oston, M A, U SA D epartment of Radiation Oncology U niversity of Texas MD Anderson Cancer Center H ouston, T X, U SA D epartment of Microbiology, Biochemistry & Immunology M orehouse School of Medicine A tlanta, G A, U SA I SSN 1877-1246 ISSN 1877-1254 (electronic) H eat Shock Proteins I SBN 978-3-319-46339-1 ISBN 978-3-319-46340-7 (eBook) D OI 10.1007/978-3-319-46340-7 L ibrary of Congress Control Number: 2016959191 © Springer International Publishing Switzerland 2 016 T his work is subject to copyright. All rights are reserved by the Publisher, whether the whole or part of the material is concerned, specifi cally the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting, reproduction on microfi lms or in any other physical way, and transmission or information storage and retrieval, electronic adaptation, computer software, or by similar or dissimilar methodology now known or hereafter developed. T he use of general descriptive names, registered names, trademarks, service marks, etc. in this publication does not imply, even in the absence of a specifi c statement, that such names are exempt from the relevant protective laws and regulations and therefore free for general use. T he publisher, the authors and the editors are safe to assume that the advice and information in this book are believed to be true and accurate at the date of publication. Neither the publisher nor the authors or the editors give a warranty, express or implied, with respect to the material contained herein or for any errors or omissions that may have been made. P rinted on acid-free paper T his Springer imprint is published by Springer Nature T he registered company is Springer International Publishing AG The registered company address is: Gewerbestrasse 11, 6330 Cham, Switzerland P refa ce T he sedentary nature of plants constantly exposes them to extreme climatic changes in various geographic regions. Their ability to overcome these adverse conditions, grow, and thrive is a result of evolutionary changes in various morphological and physiological mechanisms that enable plants to survive extremely stressful conditions. T he importance of plants in human survival cannot be overstated, not only in terms of an important source of food, but also for its critical therapeutic value. Since the dawn of time, the use of plants for therapeutic purpose has been recorded in all major cultures. Heat-shock proteins (HSP) are stress proteins known to provide cytoprotection and play important roles in protein folding/unfolding and modulate cellular immune responses. HSP are found in all plant species and are associated to plant biotic stresses and are often referred to as stress defense proteins. In addition, HSP serve a critical role in the plant’s response against key crop phytopathogens around the world. H eat-Shock Proteins and Plants provides the most up-to-date and concise reviews and progress on the role of heat-shock proteins in plant biology, structure, and function and is subdivided into chapters focused on Small Plant HSP (Part I), Larger Plant HSP (Part II), and HSP for Therapeutic Gain (Part III). This book is written by eminent leaders and experts from around the world and is an important reference book and a must-read for undergraduate, postgraduate students, and researchers in the fi elds of agriculture, botany, crop research, plant genetics and biochemistry, biotechnology, drug development and pharmaceutical sciences. D ammam, Saudi Arabia Alexzander A.A. Asea Boston, MA, USA Stuart K. Calderwood Houston, TX, USA Punit Kaur Atlanta, GA, USA v C ontents P art I Small Plant Heat Shock Proteins (HSP) 1 S mall Heat Shock Proteins: Roles in Development, Desiccation Tolerance and Seed Longevity ........................................... 3 H armeet K aur, B hanu P rakash P etla, and M anoj M ajee 2 P lant Small Heat Shock Proteins and Its Interactions with Biotic Stress ............................................................... 1 9 V aleria S tefania L opes-Caitar, S uellen M ika H ishinuma S ilva, and F rancismar C orrea M arcelino-Guimaraes 3 S mall Heat Shock Proteins, a Key Player in Grass Plant Thermotolerance ............................................................ 4 1 K ehua W ang, X unzhong Z hang, and E rik H . E rvin 4 I nduction of Heat Shock Proteins During the Bud Dormancy Stage in Woody Fruit Plants ................................. 6 5 Y oshihiro T akemura and F umio T amura 5 H eat Shock Proteins in Wild Barley at “Evolution Canyon”, Mount Carmel, Israel .................................... 7 9 Z ujun Y ang and E viatar N evo 6 I nsights into the Mechanism of Heat Shock Mitigation Through Protein Repair, Recycling and Degradation ......................... 1 03 R ashid M ehmood R ana, M uhammad A mmar K han, M uhammad K ausar N awaz Shah, Z ulfi qar A li, and H ongsheng Z hang P art II Large Plant Heat Shock Proteins (HSP) 7 P lant Stress Response: Hsp70 in the Spotlight ..................................... 1 23 D oel R ay, A nupama G hosh, S oumyajit B anerjee M ustafi , and S anghamitra R aha vii viii Contents 8 T he Role of Plant 90-kDa Heat Shock Proteins in Plant Immunity .................................................................... 1 49 M ariana G . C origliano and M arina C lemente 9 C hloroplasts Heat Shock Protein 70B as Marker of Oxidative Stress ................................................................ 1 69 S tephanie C hankova and N adezhda Y urina 1 0 T he Involvement of HSP70 and HSP90 in T omato Yellow Leaf Curl Virus Infection in Tomato Plants and Insect Vectors...................................................... 1 89 R ena G orovits, Y ule L iu, and H enryk C zosnek P art III Heat Shock Proteins and Plant Therapeutics 1 1 H eat Shock Proteins and Phytochemicals: Role in Human Health and Disease ....................................................... 2 11 X inyu W ang, S rujana R ayalam, and V ishakha B have 1 2 T he Induction of D rosophila Heat Shock Proteins by Plants That Can Extend Fly Lifespan .............................................. 2 33 S amuel E . S chriner 1 3 M olecular Chaperones and HSPs in Sugarcane and Eucalyptus ................................................................. 2 45 C onrado C . G onçalves and C arlos H .I . R amos 1 4 R ole of Heat Shock Proteins in Improving Heat Stress Tolerance in Crop Plants .................................................... 2 83 P alakolanu S udhakar R eddy, T hammineni C hakradhar, R amesha A . R eddy, R ahul B . N itnavare, S rikrishna M ahanty, and M alireddy K . R eddy 1 5 N GS-Based Expression Profiling of HSP Genes During Cold and Freeze Stress in Seabuckthorn (H ippophae rhamnoides L.) ....................................... 3 09 P .C . S harma and S aurabh C haudhary 1 6 E pigenetic Regulation of Plant Heat Shock Protein (HSP) Gene Expression ................................................. 3 29 Y uanyuan R en and Y an Z hu I ndex ................................................................................................................. 3 43 P art I S mall Plant Heat Shock Proteins (HSP) C hapter 1 S mall Heat Shock Proteins: Roles in Development, Desiccation Tolerance and Seed Longevity H armeet K aur, B hanu P rakash P etla, and M anoj M ajee A bstract S mall heat shock proteins are one of the fi ve classes of heat shock pro- teins, a family named after their expression in response to heat shock. Despite their name some members of this family have been shown to express during a gamut of non-stress conditions in a variety of plant species. Small HSPs have been known to accumulate during plant developmental stages like pollen development, seed matu- ration stages, early seed germination and also in storage organs. Interestingly, aging induced accumulation of small HSPs has also been observed in a few species. The spatial and temporal accumulation pattern of small HSPs also correlates well with other seed abundant proteins like late embryogenesis abundant (LEA) proteins. Regulation of these developmental stages responsive and non-stress induced small HSPs is also distinct from the heat stress regulated transcript induction in terms of involvement of some novel and exclusive transcription activators like ABI3 and HsfA9. Small HSPs are known to function as molecular chaperone and thus their role in plant development especially during seed development has been discussed in the light of their functional implication during these stages. K eywords P ollen • S eed development • C haperone • L EA protein • G lassy matrix A bbreviations A CD a lpha crystalline domain A TP a denosine triphosphate C DT c ontrolled deterioration treatment D AP d ays after pollination D PI d ays post imbibition H . K aur • B .P . P etla • M . M ajee (*) N ational Institute of Plant Genome Research, A runa Asaf Ali Marg, JNU Campus, N ew Delhi 1 10067, I ndia e -mail:

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