基因组学与应用生物学

参考文献

Akashi K.,Yoshida K.,Kuwano M.,Kajikawa M.,Yoshimura K.,Hoshiyasu S.,Inagaki N.,and Yokota A.,2011,Dynamic changes in the leaf proteome of a C3 xerophyte,Citrullus lanatus(wild watermelon),in response to water deficit,Planta,233(5):947-960

Ashoub A.,Beckhaus T.,Berberich T.,Karas M.,and Brüggemann W.,2013,Comparative analysis of barley leaf proteome as affected by drought stress,Planta,237(3):771-781

Badowiec A.,Swigonska S.,and Weidner S.,2013,Changes in the protein patterns in pea(Pisum sativum L.)roots under the influence of long-and short-term chilling stress and poststress recovery,Plant Physiology and Biochemistry,71(2):315-324

Bandehagh A.,Salekdeh G.H.,Toorchi M.,Mohammadi A.,and Komatsu S.,2011,Comparative proteomic analysis of canola leaves under salinity stress,Proteomics,11(10):1965-1975

Barnabás B.,Jager K.,and Fehér A.,2008,The effect of drought and heat stress on reproductive processes in cereals,Plant Cell and Environment,31(1):11-38

Bazargani M.M.,Sarhadi E.,Bushehri A.A.S.,Matros A.,Mock H.P.,Naghavi M.R.,Hajihoseini V.,Mardi M.,Hajirezaei M.R.,Moradi F.,Ehdaie B.,and Salekdeh G.H.,2011,Aproteomics view on the role of drought-induced senescence and oxidative stress defense in enhanced stem reserves remobilization in wheat,Journal of Proteomics,74(10):1959-1973

Bedon F.,Majada J.,Feito I.,Chaumeil P.,Dupuy J.W.,Lomenech A.M.,Barre A.,Gion J.M.,and Plomion C.,2011,Interaction between environmental factors affects the accumulation of root proteins in hydroponically grown Eucalyptus globulus(Labill.),Plant Physiology and Biochemistry,49(1):69-76

BenesováM.,HoláD.,Fischer L.,JedelskyP.L.,Hnili ka F.,WilhelmováN.,RothováO.,Ko ováM.,ProcházkováD.,HonnerováJ.,FridrichováL.,and Hnili kováH.,2012,The physiology and proteomics of drought tolerance in maize:early stomatal closure as a cause of lower tolerance to shortterm dehydration?PLo S One,e:38017

Bocian A.,Kosmala A.,Rapacz M.,Jurczyk B.,MarczakL.,and Zwierzykowski Z.,2011,Differences in leaf proteome response to cold acclimation between Lolium perenne plants with distinct levels of frost tolerance,Journal of Plant Physiology,168(11):1271-1279

Bray E.A.,1997,Plant responses to water deficit,Trends in Plant Science,2(97):48-54

Budak H.,Akpinar B.A.,Unver T.,and Turktas M.,2013,Proteome changes in wild and modern wheat leaves upon drought stress by two-dimensional electrophoresis and nano LC-ESI-MS/MS,Plant Molecular Biology,83(1-2):89-103

CernyM.,JedelskyP.L.,Novák J.,Schlosser A.,and BrzobohatyB.,2014,Cytokinin modulates proteomic,transcriptomic and growth responses to temperature shocks in Arabidopsis,Plant Cell and Environment,37(7):1641-1655

Chattopadhyay A.,Subba P.,Pandey A.,Bhushan D.,Kumar R.,Datta A.,Chakraborty S.,and Chakraborty N.,2011,Analysis of the grasspea proteome and identification of stress-responsive proteins upon exposure to high salinity,low temperature,and abscisic acid treatment,Phytochemistry,72(10):1293-1307

Chen J.,Han G.Q.,Shang C.,Li J.K.,Zhang H.L.,Liu F.Q.,Wang J.L.,Liu H.Y.,and Zhang Y.X.,2015,Proteomic analyses reveal differences in cold acclimation mechanisms in freezing-tolerant and freezing-sensitive cultivars of alfalfa,Frontiers in Plant Science,6:105

Chen J.H.,Cheng T.L.,Wang P.K.,Liu W.D.,Xiao J.,Yang Y.Q.,Hu X.Y.,Jiang Z.P.,Zhang S.G.,and Shi J.S.,2012,Salinity-induced changes in protein expression in the halophytic plant Nitraria sphaerocarpa,Journal of Proteomics,75(17):5226-5243

Chen T.T.,Zhang L.,Shang H.H.,Liu S.D.,Peng J.,Gong W.K.,Shi Y.Z.,Zhang S.P.,Li J.W.,Gong J.W.,Ge Q.,Liu A.Y.,Ma H.J.,Zhao X.H.,and Yuan Y.L.,2016,i TRAQ-Based quantitative proteomic analysis of cotton roots and leaves reveals pathways associated with salt stress,Plo S One,11(2):e0148487

Ciais P.,Reichstein M.,Viovy N.,Granier A.,Ogée J.,Allard V.,Aubinet M.,Buchmann N.,Bernhofer C.,Carrara A.,Chevallier F.,De Noblet N.,Friend A.D.,Friedlingstein P.,Grünwald T.,Heinesch B.,Keronen P.,Knohl A.,Krinner G.,Loustau D.,Manca G.,Matteucci G.,Miglietta F.,Ourcival J.M.,Papale D.,Pilegaard K.,Rambal S.,Seufert G.,Soussana J.F.,Sanz M.J.,Schulze E.D.,Vesala T.,and Valentini R.,2005,Europe-wide reduction in primary productivity caused by the heat and drought in 2003,Nature,437(7058):529-533

Cosentino C.,Silvestre D.D.,Fischer-Schliebs E.,Homann U.,De Palma A.,Comunian C.,Mauri P.L.,and Thiel G.,2013,Proteomic analysis of Mesembryanthemum crystallinum leaf microsomal fractions reports imbalance in V-ATPase stoichiometry during the salt-induced transition from C3 to CAM,Biochemical Journal,450(2):407-415

Cui D.Z.,Wu D.D.,Liu J.,Li D.T.,Xu C.Y.,Li S.,Li P.,Zhang H.,Liu X.,Jiang C.,Wang L.W.,Chen T.T.,Chen H.B.,and Zhao L.,2015,Proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress Response,PLo S One,10(2):e0116697

de Abreu C.E.B.,dos Santos Araújo S.,de Oliveira MonteiroMoreira A.C.,Costa J.H.,de Brito Leite H.,Moreno F.B.M.B.,Prisco J.T.,and Gomes-Filho E.,2014,Proteomic analysis of salt stress and recovery in leaves of Vigna unguiculata cultivars differing in salt tolerance,Plant Cell Reports,33(8):1289-1306

Deeba F.,Pandey A.K.,Ranjan S.,Mishra A.,Singh R.,Sharma Y.K.,Shirke P.A.,and Pandey V.,2012,Physiological and proteomic responses of cotton(Gossypium herbaceum L.)to drought stress,Plant Physiology and Biochemistry,53:6-18

Du C.X.,Fan H.F.,Guo S.R.,Tezuka T.,and Li J.,2010,Proteomic analysis of cucumber seedling roots subjected to salt stress,Phytochemistry,71(13):1450-1459

Dumont E.,Bahrman N.,Goulas E.,Valot B.,Sellier H.,Hilbert J.L.,Vuylsteker C.,Lejeune-Hénaut I.,and Delbreil B.,2011,A proteomic approach to decipher chilling response from cold acclimation in pea(Pisum sativum L.),Plant Science,180(1):86-98

Durand T.C.,Sergeant K.,Renaut J.,Planchon S.,Hoffmann L.,Carpin S.,Label P.,Morabito D.,and Hausman J.F.,2011,Poplar under drought:comparison of leaf and cambial proteomic responses,Journal of Proteomics,74(8):1396-1410

Faghani E.,Gharechahi J.,Komatsu S.,Mirzaei M.,Khavarinejad R.A.,Najafi F.,Farsad L.K.,and Salekdeh G.H.,2015,Comparative physiology and proteomic analysis of two wheat genotypes contrasting in drought tolerance,Journal of Proteomics,114:1-15

Fan P.X.,Feng J.J.,Jiang P.,Chen X.Y.,Bao H.,Nie L.L.,Jiang D.,Lv S.L.,Kuang T.Y.,and Li Y.X.,2011,Coordination of carbon fixation and nitrogen metabolism in Salicornia europaea under salinity:comparative proteomic analysis on chloroplast proteins,Proteomics,11(22):4346-4367

Fanucchi F.,Alpi E.,Olivieri S.,Cannistraci C.V.,Bachi A.,Alpi A.,and Alessio M.,2012,Acclimation increases freezing stress response of Arabidopsis thaliana at proteome level,Biochimica et Biophysica Acta,1824(6):813-825

Fatehi F.,Hosseinzadeh A.,Alizadeh H.,Brimavandi T.,and Struik P.C.,2012,The proteome response of salt-resistant and salt-sensitive barley genotypes to long-term salinity stress,Molecular Biology Reports,39(5):6387-6397

Fercha A.,Capriotti A.L.,Caruso G.,Cavaliere C.,Samperi R.,Stampachiacchiere S.,and LaganàA.,2013,Gel-free proteomics reveal potential biomarkers of priming-induced salt tolerance in durum wheat,Journal of Proteomics,91:486-499

Fercha A.,Capriotti A.L.,Caruso G.,Cavaliere C.,Samperi R.,Stampachiacchiere S.,and LaganàA.,2014,Comparative analysis of metabolic proteome variation in ascorbateprimed and unprimed wheat seeds during germination under salt stress,Journal of Proteomics,108:238-257

Fernandez-Garcia N.,Hernandez M.,Casado-Vela J.,Bru R.,Elortza F.,Hedden P.,and Olmos E.,2011,Changes to the proteome and targeted metabolites of xylem sap in Brassica oleracea in response to salt stress,Plant Cell and Environment,34(5):821-836

Folgado R.,Sergeant K.,Renaut J.,Swennen R.,Hausman J.F.,and Panis B.,2014,Changes in sugar content and proteome of potato in response to cold and dehydration stress and their implications for cryopreservation,Journal of Proteomics,98:99-111

Fraire-Velázquez S.,Rodríguez-Guerra R.,and Sánchez-Calderón L.,2011,Abiotic and biotic stress response crosstalk in plants,Abiotic Stress Response in Plants,Physiological,Biochemical and Genetic Perspectives,3-26

Fulda S.,Mikkat S.,Stegmann H.,and Horn R.,2011,Physiology and proteomics of drought stress acclimation in sunflower(Helianthus annuus L.),Plant Biology,13(4):632-642

Gammulla C.G.,Pascovici D.,Atwell B.J.,and Haynes P.A.,2010,Differential metabolic response of cultured rice(Oryza sativa)cells exposed to high-and low-temperature stress,Proteomics,10(16):3001-3019

Gammulla C.G.,Pascovici D.,Atwell B.J.,and Haynes P.A.,2011,Differential proteomic response of rice(Oryza sativa)leaves exposed to high-and low-temperature stress,Proteomics,11(14):2839-2850

Gao L.,Yan X.,Li X.,Guo G.,Hu Y.,Ma W.,and Yan Y.,2011,Proteome analysis of wheat leaf under salt stress by two-dimensional difference gel electrophoresis(2D-DIGE),Phytochemistry,72(10):1180-1191

Ge P.,Ma C.,Wang S.,Gao L.,Li X.,Guo G.,Ma W.,and Yan Y.,2012,Comparative proteomic analysis of grain development in two spring wheat varieties under drought stress,Analytical and Bioanalytical Chemistry,402(3):1297-1313

Ghaffari A.,Gharechahi J.,Nakhoda B.,and Salekdeh G.H.,2014,Physiology and proteome responses of two contrasting rice mutants and their wild type parent under salt stress conditions at the vegetative stage,Journal of Plant Physiology,171(1):31-44

Gharechahi J.,Alizadeh H.,Naghavi M.R.,and Sharifi G.,2014,A proteomic analysis to identify cold acclimation associated proteins in wild wheat(Triticum urartu L.),Molecular Biology Reports,41(6):3897-3905

Ghosh D.,and Xu J.,2014,Abiotic stress responses in plant roots:a proteomics perspective,Frontiers in Plant Science,5(6):1-13

Gong B.,Zhang C.J.,Li X.,Wen D.,Wang S.S.,Shi Q.H.,and Wang X.F.,2014,Identification of Na Cl and Na HCO3stress responsive proteins in tomato roots using i TRAQ-based analysis,Biochemical and Biophysical Research Communications,446(1):417-422

Gu X.B.,Gao Z.H.,Zhuang W.B.,Qiao Y.S.,Wang X.Y.,Mi L.,Zhang Z.,and Lin Z.L.,2013,Comparative proteomic analysis of rd29A:Rdre B1BI transgenic and non-transgenic strawberries exposed to low temperature,Journal of Plant Physiology,170(7):696-706

Hakeem K.R.,Khan F.,Chandna R.,Siddiqui T.O.,and Iqbal M.,2012,Genotypic variability among soybean genotypes under Na Cl stress and proteome analysis of salt-tolerant genotype,Applied Biochemistry and Biotechnology,168(8):2309-2329

Heidarvand L.,and Maali-Amiri R.,2013,Physio-biochemical and proteome analysis of chickpea in early phases of cold stress,Journal of Plant Physiology,170(5):459-469

HlavákováI.,Vítámvás P.,Santru ek J.,KosováK.,ZelenkováS.,Prásil I.T.,OvesnáJ.,Hynek R.,and Kodíek M.,2013,Proteins involved in distinct phases of cold hardening process in frost resistant winter barley(Hordeum vulgare L.)cv Luxor,International Journal of Molecular Sciences,14(4):8000-8024

Hu Y.F.,Guo S.X.,Li X.X.,and Ren X.Q.,2013,Comparative analysis of salt-responsive phosphoproteins in maize leaves using Ti4+--IMAC enrichment and ESI-Q-TOF MS,Electrophoresis,34(4):485-492

Jia H.,Shao M.Q.,He Y.J.,Guan R.Z.,Chu P.,and Jiang H.D.,2015,Proteome dynamics and physiological responses to short-term salt stress in Brassica napus Leaves,PLo S One,10(12):e0144808

Kamal A.H.M.,Cho K.,Kim D.E.,Uozumi N.,Chung K.Y.,Lee S.Y.,Choi J.S.,Cho S.W.,Shin C.S.,and Woo S.H.,2012,Changes in physiology and protein abundance in saltstressed wheat chloroplasts,Molecular Biology Reports,39(9):9059-9074

Koh J.,Chen G.,Yoo M.J.,Zhu N.,Dufresne D.,Erickson J.E.,Shao H.B.,and Chen S.X.,2015,Comparative proteomic analysis of Brassica napus in response to drought stress,Journal of Proteome Research,14(8):3068-3081

Koh J.,Chen S.X.,Zhu N.,Yu F.H.,Soltis P.S.,and Soltis D.E.,2012,Comparative proteomics of the recently and recurrently formed natural allopolyploid Tragopogon mirus(Asteraceae)and its parents,New Phytologist,196(1):292-305

Kosmala A.,Perlikowski D.,Pawlowicz I.,and Rapacz M.,2012,Changes in the chloroplast proteome following water deficit and subsequent watering in a high-and a low-drought-tolerant genotype of Festuca arundinacea,Journal of Experimental Botany,63(17):6161-6172

Kottapalli K.R.,Zabet-Moghaddam M.,Rowland D.,Faircloth W.,Mirzaei M.,Haynes P.A.,and Payton P.,2013,Shotgun label-free quantitative proteomics of water-deficit-stressed midmature peanut(Arachis hypogaea L.)seed,Journal of Proteome Research,12(11):5048-5057

Leonardi G.D.A.,Carlos N.A.,Mazzafera P.,and Balbuena T.S.,2015,Eucalyptus urograndis stem proteome is responsive to short-term cold stress,Genetics and Molecular Biology,38(2):191-198

Li B.,Takahashi D.,Kawamura Y.,and Uemura M.,2012,Comparison of plasma membrane proteomic changes of Arabidopsis suspension-cultured cells(T87 Line)after cold and ABA treatment in association with freezing tolerance development,Plant and Cell Physiology,53(3):543-554

Li T.,Xu S.L.,Oses-Prieto J.A.,Putil S.,Xu P.,Wang R.J.,Li K.H.,Maltby D.A.,An L.H.,Burlingame A.L.,Deng Z.P.,and Wang Z.Y.,2011,Proteomics analysis reveals post-translational mechanisms for cold-induced metabolic changes in Arabidopsis,Mol.Plant,4(2):361-374

Li W.,Zhang C.Y.,Lu Q.T.,Wen X.G.,and Lu C.M.,2011,The combined effect of salt stress and heat shock on proteome profiling in Suaeda salsa,Journal of Plant Physiology,168(15):1743-1752

Li W.,Zhao F.,Fang W.P.,Xie D.Y.,Hou J.N.,Yang X.J.,Zhao Y.M.,Tang Z.J.,Nie L.H.,and Lv S.P.,2015,Identification of early salt stress responsive proteins in seedling roots of upland cotton(Gossypium hirsutum L.)employing i TRAQ-based proteomic technique,Frontiers in Plant Science,6:732

Li X.N.,Hao C.L.,Zhong J.W.,Liu F.L.,Cai J.,Wang X.,Zhou Q.,Dai T.B.,Cao W.X.,and Jiang D.,2015,Mechano-stimulated modifications in the chloroplast antioxidant system and proteome changes are associated with cold response in wheat,BMC Plant Biology,15:219

Liu C.W.,Chang T.S.,Hsu Y.K.,Wang A.Z.,Yen H.C.,Wu Y.P.,Wang C.S.,and Lai C.C.,2014,Comparative proteomic analysis of early salt stress responsive proteins in roots and leaves of rice,Proteomics,14(15):1759-1775

Liu H.,Sultan M.A.R.F.,Liu X.L.,Zhang J.,Yu F.,and Zhao H.X.,2015,Physiological and comparative proteomic analysis reveals different drought responses in roots and leaves of drought-tolerant wild wheat(Triticum boeoticum),PLo S One,10(4):e0121852

Liu J.X.,and Bennett J.,2011,Reversible and irreversible drought-induced changes in the anther proteome of rice(Oryza sativa L.)genotypes IR64 and Moroberekan,Molecular Plant,4(1):59-69

Lv D.W.,Subburaj S.,Cao M.,Yan X.,Li X.H.,Appels R.,Sun D.F.,Ma W.J.,and Yan Y.M.,2014,Proteome and phosphoproteome characterization reveals new response and defense mechanisms of Brachypodium distachyon leaves under salt stress,Molecular and Cellular Proteomics,13(2):632-652

Manaa A.,Ahmed H.B.,Valot B.,Bouchet J.P.,Aschi-Smiti S.,Causse M.,and Faurobert M.,2011,Salt and genotype impact on plant physiology and root proteome variations in tomato,Journal of Experimental Botany,62(8):2797-2813

Manaa A.,Faurobert M.,Valot B.,Bouchet J.P.,Grasselly D.,Causse M.,and Ahmed H.B.,2013,Effect of salinity and calcium on tomato fruit proteome,OMICS A Journal of Integrative Biology,17(6):338-352

Meng L.B.,Chen Y.B.,Lu T.C.,Wang Y.F.,Qian C.R.,Yu Y.,Ge X.L.,Li X.H.,and Wang B.C.,2014,A systematic proteomic analysis of Na Cl-stressed germinating maize seeds,Molecular Biology Reports,41(5):3431-3443

Mirzaei M.,Soltani N.,Sarhadi E.,George I.S.,Neilson K.A.,Pascovici D.,Shahbazian S.,Haynes P.A.,Atwell B.J.,and Salekdeh G.H.,2013,Manipulating root water supply elicits major shifts in the shoot proteome,Journal of Proteome Research,13(2):517-526

Mirzaei M.,Soltani N.,Sarhadi E.,Pascovici D.,Keighley T.,Salekdeh G.H.,Haynes P.A.,and Atwell B.J.,2011,Shotgun proteomic analysis of long-distance drought signaling in rice roots,Journal of Proteome Research,11(1):348-358

Mohammadi P.P.,Moieni A.,and Komatsu S.,2012,Comparative proteome analysis of drought-sensitive and drought-tolerant rapeseed roots and their hybrid F1 line under drought stress,Amino Acids,43(5):2137-2152

Munoz-Fambuena N.,Mesejo C.,Reig C.,AgustíM.,Tárraga S.,Lisón P.,Iglesias D.J.,Primo-Millo E.,and González-Mas M.C.,2013,Proteomic study of‘Moncada’mandarin buds from on-versus off-crop trees,Plant Physiology and Biochemistry,73:41-55

Nam M.H.,Huh S.M.,Kim K.M.,Park W.J.,Seo J.B.,Cho K.,Kim D.Y.,Kim B.G.,and Yoon I.S.,2012,Comparative proteomic analysis of early salt stress-responsive proteins in roots of Sn RK2 transgenic rice,Proteome Science,10:25

Neilson K.A.,Mariani M.,and Haynes P.A.,2011,Quantitative proteomic analysis of cold-responsive proteins in rice,Proteomics,11(9):1696-1706

Neilson K.A.,Scafaro A.P.,Chick J.M.,George I.S.,Van Sluyter S.C.,Gygi S.P.,Atwell B.J.,and Haynes P.A.,2013,The influence of signals from chilled roots on the proteome of shoot tissues in rice seedlings,Proteomics,27(10):1922-1933

Oliver M.J.,Jain R.,Balbuena T.S.,Agrawal G.,Gasulla F.,and Thelen J.J.,2011,Proteome analysis of leaves of the desiccation-tolerant grass,Sporobolus stapfianus,in response to dehydration,Phytochemistry,72(10):1273-1284

Podda A.,Checcucci G.,Mouhaya W.,Centeno D.,Rofidal V.,Del Carratore R.,Luro F.,Morillon R.,Ollitrault P.,and Maserti B.E.,2013,Salt-stress induced changes in the leaf proteome of diploid and tetraploid mandarins with contrasting Na+and Cl-accumulation behavior,Journal of Plant Physiology,170(12):1101-1112

Prasad T.K.,1996,Mechanisms of chilling-induced oxidative stress injury and tolerance in developing maize seedlings:changes in antioxidant system,oxidation of proteins and lipids,and protease activities,The Plant Journal,10(6):1017-1026

Rahman M.A.,Alam I.,Kim Y.G.,Ahn N.Y.,Heo S.H.,Lee D.G.,Liu G.S.,and Lee B.H.,2015,Screening for salt-responsive proteins in two contrasting alfalfa cultivars using a comparative proteome approach,Plant Physiology and Biochemistry,89:112-122

Rinalducci S.,Egidi M.G.,Karimzadeh G.,Jazii F.R.,and Zolla L.,2011,Proteomic analysis of a spring wheat cultivar in response to prolonged cold stress,Electrophoresis,32(14):1807-1818

Rinalducci S.,Egidi M.G.,Mahfoozi S.,Godehkahriz S.J.,and Zolla L.,2011,The influence of temperature on plant development in a vernalization-requiring winter wheat:a 2-DEbased proteomic investigation,Journal of Proteomics,74(5):643-659

Saeed M.,Dahab A.h.A.,Guo W.Z.,and Zhang T.Z.,2012,Acascade of recently discovered molecular mechanisms involved in abiotic stress tolerance of plants,OMICS:A Journal of Integrative Biology,16(4):188-199

Sergeant K.,SpieβN.,Renaut J.,Wilhelm E.,and Hausman J.F.,2011,One dry summer:a leaf proteome study on the response of oak to drought exposure,Journal of Proteomics,74(8):1385-1395

Shao H.B.,Chu L.Y.,Jaleel C.A.,and Zhao C.X.,2008,Waterdeficit stress-induced anatomical changes in higher plants,Comptes Rendus Biologies,331(3):215-225

Sharma P.,Sharma N.,and Deswal R.,2005,The molecular biology of the low-temperature response in plants,Bioessays,27(10):1048-1059

Sobhanian H.,Razavizadeh R.,Nanjo Y.,Ehsanpour A.A.,Jazii F.R.,Motamed N.,and Komatsu S.,2010,Proteome analysis of soybean leaves,hypocotyls and roots under salt stress,Proteome Science,8(1):19

Uemura M.,Joseph R.A.,and Steponkus P.L.,1995,Cold acclimation of Arabidopsis thaliana(effect on plasma membrane lipid composition and freeze-induced lesions),Plant Physiology,109(1):15-30

Valledor L.,Furuhashi T.,Hanak A.M.,and Weckwerth W.,2013,Systemic cold stress adaptation of Chlamydomonas reinhardtii,Molecular and Cellular Proteomics,12(8):2032-2047

Vera-Estrella R.,Barkla B.J.,and Pantoja O.,2014,Comparative2D-DIGE analysis of salinity responsive microsomal proteins from leaves of salt-sensitive Arabidopsis thaliana and salt-tolerant Thellungiella salsuginea,Journal of Proteomics,111:113-127

Vítámvás P.,Prásil I.T.,KosováK.,Planchon S.,and Renaut J.,2012,Analysis of proteome and frost tolerance in chromosome 5A and 5B reciprocal substitution lines between two winter wheats during long-term cold acclimation,Proteomics,12(1):68-85

Vítámvás P.,Urban M.O.,Skodáek Z.,KosováK.,PitelkováI.,Vítámvás J.,Renaut J.,and Prásil I.T.,2015,Quantitative analysis of proteome extracted from barley crowns grown under different drought conditions,Frontiers in Plant Science,6:479

Wakeel A.,Asif A.R.,Pitann B.,and Schubert S.,2011,Proteome analysis of sugar beet(Beta vulgaris L.)elucidates constitutive adaptation during the first phase of salt stress,Journal of Plant Physiology,168(6):519-526

Wang L.X.,Pan D.Z.,Li J.,Tan F.L.,Hoffmann-Benning S.,Liang W.Y.,and Chen W.,2015,Proteomic analysis of changes in the Kandelia candel chloroplast proteins reveals pathways associated with salt tolerance,Plant Science,231:159-172

Wang N.,Zhao J.,He X.Y.,Sun H.Y.,Zhang G.P.,and Wu F.B.,2015,Comparative proteomic analysis of drought tolerance in the two contrasting Tibetan wild genotypes and cultivated genotype,BMC Genomics,16:432

Wang W.X.,Vinocur B.,and Altman A.,2003,Plant responses to drought,salinity and extreme temperatures:towards genetic engineering for stress tolerance,Planta,218(1):1-14

Wang X.,Oh M.W.,Sakata K.,and Komatsu S.,2016,Gel-free/label-free proteomic analysis of root tip of soybean over time under flooding and drought stresses,Journal of Proteomics,130:42-55

Wang X.,Vignjevic M.,Jiang D.,Jacobsen S.,and Wollenweber B.,2014,Improved tolerance to drought stress after anthesis due to priming before anthesis in wheat(Triticum aestivum L.)var.Vinjett,Journal of Experimental Botany,65(22):6441-6456

Wang X.N.,Chen S.X.,Zhang H.,Shi L.,Cao F.L.,Guo L.H.,Xie Y.M.,Wang T.,Yan X.F.,and Dai S.J.,2010,Desiccation tolerance mechanism in resurrection fern-ally Selaginella tamariscina revealed by physiological and proteomic analysis,Journal of Proteome Research,9(12):6561-6577

Wang Z.,Wang M.,Liu L.,and Meng F.,2013,Physiological and proteomic responses of diploid and tetraploid black locust(Robinia pseudoacacia L.)subjected to salt stress,Inter national Journal of Molecular Sciences,14(10):20299-20325

Wasinger V.C.,Cordwell S.J.,Cerpa-Poljak A.,Yan J.X.,Gooley A.A.,Wilkins M.R.,Duncan M.W.,Harris R.,Williams K.L.,and Humphery-Smith I.,1995,Progress with gene-product mapping of the Mollicutes:Mycoplasma genitalium,Electrophoresis,16(1):1090-1094

Wendelboe-Nelson C.,and Morris P.C.,2012,Proteins linked to drought tolerance revealed by DIGE analysis of drought resistant and susceptible barley varieties,Proteomics,12(12):3374-3385

Witzel K.,Matros A.,Strickert M.,Kaspar S.,Peukert M.,Mühling K.H.,Borner A.,and Mock H.P.,2014,Salinity stress in roots of contrasting barley genotypes reveals timedistinct and genotype-specific patterns for defined proteins,Molecular Plant,7(2):336-355

Xie H.,Yang D.H.,Yao H.,Bai G.,Zhang Y.H.,and Xiao B.G.,2016,i TRAQ-based quantitative proteomic analysis reveals proteomic changes in leaves of cultivated tobacco(Nicotiana tabacum)in response to drought stress,Biochemical&Biophysical Research Communications,469(3):768-775

Xu C.P.,and Huang B.R.,2010,Differential proteomic responses to water stress induced by PEG in two creeping bentgrass cultivars differing in stress tolerance,Journal of Plant Physiology,167(17):1477-1485

Xu C.P.,Sibicky T.,and Huang B.R.,2010,Protein profile analysis of salt-responsive proteins in leaves and roots in two cultivars of creeping bentgrass differing in salinity tolerance,Plant Cell Reports,29(6):595-615

Xu J.W.,Lan H.X.,Fang H.M.,Huang X.,Zhang H.S.,and Huang J.,2015,Quantitative proteomic analysis of the rice(Oryza sativa L.)salt response,PLo S One,10(3):e0120978

Yang F.,Wang Y.,and Miao L.F.,2010,Comparative physiological and proteomic responses to drought stress in two poplar species originating from different altitudes,Physiologia Plantarum,139(4):388-400

Yang L.,Ma C.Q.,Wang L.L.,Chen S.X.,and Li H.Y.,2012,Salt stress induced proteome and transcriptome changes in sugar beet monosomic addition line M14,Journal of Plant Physiology,169(9):839-850

Yang Q.S.,Wu J.H.,Li C.Y.,Wei Y.R.,Sheng O.,Hu C.H.,Kuang R.B.,Huang Y.H.,Peng X.X.,Mc Cardle J.A.,Chen W.,Yang Y.,Rose J.K.C.,Zhang S.,and Yi G.J.,2012,Quantitative proteomic analysis reveals that antioxidation mechanisms contribute to cold tolerance in plantain(Musa paradisiaca L.;ABB Group)seedlings,Molecular and Cellular Proteomics,11(12):1853-1869

Yang Y.,Dong C.,Yang S.,Li X.,Sun X.,and Yang Y.,2015,Physiological and proteomic adaptation of the alpine grass Stipa purpurea to a drought gradient,PLo S One,10(2):e0-117475

Yang Y.J.,Wang L.P.,Tian J.,Li J.,Sun J.,He L.Z.,Guo S.R.,and Tezuka T.,2012,Proteomic study participating the enhancement of growth and salt tolerance of bottle gourd rootstock-grafted watermelon seedlings,Plant Physiology and Biochemistry,58(3):54-65

Yokthongwattana C.,Mahong B.,Roytrakul S.,Phaonaklop N.,Narangajavana J.,and Yokthongwattana K.,2012,Proteomic analysis of salinity-stressed Chlamydomonas reinhardtii revealed differential suppression and induction of a large number of important housekeeping proteins,Planta,235(3):649-659

Zadraznik T.,Hollung K.,Egge-Jacobsen W.,Megli V.,andSustar-Vozli J.,2013,Differential proteomic analysis of drought stress response in leaves of common bean(Phaseolus vulgaris L.),Journal of Proteomics,78(1):254-272

Zhang M.,Ma C.Y.,Lv D.W.,Zhen S.M.,Li X.H.,and Yan Y.M.,2014,Comparative phosphoproteome analysis of the developing grains in bread wheat(Triticum aestivum L.)under well-watered and water-deficit conditions,Journal of Proteome research,13(10):4281-4297

Zhu P.C.,Qin H.P.,Fu S.,Cen W.J.,Zou H.F.,He Y.Q.,and Jiang W.,2015,The research of Xamthomonas.oryzae pv.o ryzicola protein expression spectrum based on LC-MS-MStechnology,Jiyinzuxue Yu Yingyong Shengwuxue(Genomics and Applied Biology),34(6):1239-1244(朱平川,覃宏平,付珊,岑卫健,邹海凡,何勇强,姜伟,2015,基于LC-MS-MS技术建立水稻细菌性条斑病菌的蛋白质表达谱的研究,基因组学与应用生物学,34(6):1239-1244)

Zhu Z.,Chen J.,and Zheng H.L.,2012,Physiological and proteomic characterization of salt tolerance in a mangrove plant,Bruguiera gymnorrhiza(L.)Lam,Tree Physiology,32(11):1378-1388

Zorb C.,Schmitt S.,and Mühling K.H.,2010,Proteomic changes in maize roots after short-term adjustment to saline growth conditions,Proteomics,10(24):4441-4449