Abstract
The molecular cell biology of the heat stress response starts with the report by Ritossa (1962) on heat stress (hs)-induced changes of gene activity in Drosophila salivary glands. Twelve years later, this was followed by the detection of the corresponding heat stress proteins (HSP) (Tissieres et al. 1974). With the developing new techniques rapid progress was made toward cloning the Drosophila hs genes (for summaries see Ashburner and Bonner 1979; Schlesinger et al. 1982). The explosive development of molecular stress biology in the following decade extended the investigations to all types of organisms. In all cases the heat stress (hs) response was found to comprise a highly complex but transient reprogramming of cellular activities necessary to protect cells from extensive damage and to provide optimum conditions for recovery after the stress period (Nover et al. 1990, Nover 1991).
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References
Adamska I, Kloppstech K (1991) Evidence for the localization of the nuclear-coded 22-kDa heat-shock protein in a subfraction of thylakoid membranes. Europ J Biochem 198: 375–381
Ahmad S, Gupta RS (1990) Cloning of a Chinese hamster protein homologous to the mouse t-complex TCP-1: structural similarity to the ubiquitous ‘chaperonin’ family of heat shock proteins. Biochim Biophys Acta 1087: 253–255
Alfano C, McMacken R (1989) Heat shock protein-mediated disassembly of nucleoprotein structures is required for the initiation of bacteriophage lambda DNA replication. J Biol Chem 264: 10709–10718
Allen RL, O’Brien DA, Jones CC, Rockett DL, Eddy EM (1988) Expression of heat shock proteins by isolated mouse spermatogenic cells. Mol Cell Biol 8: 3260–3266
Almoguera C, Jordano J (1992) Developmental and environmental concurrent expression of sunflower dry-seed-stored low-molecular-weight heat-shock protein and Lea mRNAs. Plant Mol Biol 19: 781–792
Amir-Shapira D, Leustek T, Dalie B, Weissbach H, Brot N (1990) Hsp70 proteins, similar to Escherichia coli DnaK, in chloroplasts and mitochondria of Euglena gracilis. Proc Natl Acad Sci USA 87: 1749–1752
Anderson MP, Gronwald JP (1991) Atrazine resistance in a velvetleaf ( Abutilon theophrasti) biotype due to enhanced glutathione S-transferase activity. Plant Physiol 96: 104–109
Andresen I, Becker W, Schluter K, Burges J, Parthier B, Apel K (1992) The identification of leaf thionin as one of the main jasmonate-induced proteins of barley ( Hordeum vulgare ). Plant Mol Biol 19: 193–204
Asada Y, Matsumoto I (1987) Induction of desease resistance in plants by a lignificationinducing factor. In: Nishimura S, Vance CP, Dohe N (eds) Molecular Determinants of Plant Diseases. Springer Berlin, pp 223–233
Ashburner M, Bonner JJ (1979) The induction of gene activity in Drosophila by heat shock. Cell 17: 241–254
Atencio DP, Yaffe MP (1992) MAS5, a yeast homolog of DnaJ involved in mitochondrial protein import. Mol Cell Biol 12: 283–291
Ayres PG (1984) The interaction between environmental stress injury and biotic disease physiology. Annu Rev Phytopathol. 22: 53–75
Baker EA (1974) The influence of environment on leaf wax development in Brassica oleracea var. gemmifers. New Phytol 73: 955–966
Baler R, Welch WJ, Voellmy R (1992) Heat shock gene regulation by nascent polypeptides and denatured proteins - hsp70 as a potential autoregulatory factor. J Cell Biol 117: 1151–1159
Bardwell JCA, Craig EA (1984) Major heat shock gene of Drosophila and the Escherichia coli heat-inducible dnaK gene are homologous. Proc Natl Acad Sci USA 81: 848–852
Bardwell JCA, Craig EA (1987) Eukaryotic Mr 83.000 heat shock protein has a homologue in Escherichia coli. Proc Nad Acad Sci USA 84: 5177–5181
Barraclough R, Ellis RJ (1980) Protein synthesis in chloroplasts IX. Assembly of newlysynthesized large subunits into ribulose bisphosphate carboxylase in isolated intact pea chloroplasts. Biochim Biophys Acta 608: 19–31
Bartels D, Engelhardt K, Roncarati R, Schneider K, Rotter M, Salamini F (1991) An ABA and GA modulated gene expressed in the barley embryo encodes an aldose reductase related protein. EMBO J 10: 1037–1043
Basso LC, Smith TA (1974) Effect of mineral deficiency on amine formation in higher plants. Phytochemistry 13: 875–883
Beckmann RP, Lovett M, Welch WJ (1992) Examining the function and regulation of hsp70 in cells subjected to metabolic stress. J Cell Biol 117: 1137–1150
Behlke J, Lutsch G, Gaestel M, Bielka H (1991) Supramolecular structure of the recombinant murine small heat shock protein hsp25. FEBS L 288: 119–122
Bell E, Mullet JE (1991) Lipoxygenase gene expression is modulated in plants by water deficit, wounding and methyl jasmonate. Mol Gen Genetics 230: 456–462
Bertsch U, Soil J, Seetharam R, Viitanen PV (1992) Identification, characterization, and DNA sequence of a functional “double” groES-like chaperonin from chloroplasts of higher plants. Proc Nad Acad Sci USA 89: 8696–8700
Bienz M, Pelham HRB (1982) Expression of a Drosophila heat shock protein in Xenopus oocytes: conserved and divergent regulatory signals. EMBO J 1: 1583–1588
Bitar KN, Kaminski MS, Hailat N, Cease KB, Strahler JR (1991) HSP27 is a mediator of sustained smooth muscle contraction in response to bombesin. Biochem Biophys Res Commun 181: 1192–1200
Bloemendal H, DeJong WW (1991) Lens proteins and their genes. Progress Nucl Acid Res Mol Biol 41: 259–281
Blum A (1975) Effect of the Bm gene on epicuticular wax and the water relations of Sorghum bicolor L. (Moench). Israel J Bot 24: 50–51
Blumberg H, Silver PA (1991) A homoloue of the bacterial heat-shock gene DnaJ that alters protein sorting in yeast. Nature 349: 627–630
Bochkareva ES, Lissin NM, Girshovich AS (1988) Transient association of newly synthesized unfolded proteins with the heat-shock GroEL protein. Nature 336: 254–257
Bohlmann H, Apel K (1991) Thionins. Annu Rev Plant Physiol 42: 227–240
Boiler T (1985) Induction of hydrolases as a defense reaction against pathogens. In: Key JL, Kosuge T (eds), Cellular and Molecular Biology of Plant Stress, Alan R. Liss Inc, New York, pp 247–262
Boiler T (1989) Primary signals and second messenger in the reaction of plants to pathogenes. In: Boss WF, Morre IJ (eds) Second Messengers In Plant Growth and Development. Alan R. Liss Inc, New York, pp 227–255
Bonhoff A, Rieth B, Golecki J, Grisebach H (1987) Race cultivar-specific differences in callose deposition in soybean roots following infection with Phytophthora megasperma f. sp. glycinea. Planta 172: 101–105
Boorstein WR, Craig EA (1990) Transcriptional regulation of SSA3, an HSP70 gene from Saccharomyces cerevisiae. Mol Cell Biol 10: 3262–3267
Borkird C, Simoens C, Villarroel R, van Montagu M (1991) Gene expression associated with water-stress adaptation of rice cells and identification of two genes as hsp70 and ubiquitin. Physiol Plant 82: 449–457
Boston RS, Fontes EBP, Shank BB, Wrobel RL (1991) Increased expression of the maize immunoglobulin binding protein homolog b-70 in three zein regulatory mutants. Plant Cell 3: 497–505
Bouchard RA (1990) Characterization of expressed meiotic prophase repeat transcript clones of Lilium: meiosis-specific expression, relatedness, and affinities to small heat shock protein genes. Genome 33: 68–79
Braig K, Simon M, Furuya F, Hainfeld JF, Horwich AL (1993) A polypeptide bound by the chaperonin groEL is localized within a central cavity. Proc Natl Acad Sci USA 90: 3978–3982
Breiman A, Fawcett TW, Ghirardi ML, Mattoo AK (1992) Plant organelles contain distinct peptidylprolyl cis, trans-isomerases. J Biol Chem 267: 21293–21296
Brodsky JL, Hamamoto S, Feldheim D, Schekman R (1993) Reconstitution of protein translocation from solubilized yeast membranes reveals topologically distinct roles for BiP and cytosolic Hsc70. J Cell Biol 120: 95–102
Brugge JS, Erikson E, Erikson RL (1981) The specific interaction of the Rous sarcoma virus transforming protein, pp60src, with two cellular proteins. Cell 25: 363–372
Bukau B, Walker GC (1989) Cellular defects caused by deletion of the Escherichia coli dnaK gene indicate roles for heat shock protein in normal metabolism. J Bacterid 171: 2337–2346
Callebaut I, Renoir JM, Lebeau MC, Massol N, Burney A, Baulieu EE, Mornon JP (1992) An immunophilin that binds Mr 90,000 heat shock protein: Main structural features of a mammalian p59 protein. Proc Natl Acad Sci USA 89: 6270–6274
Caplan AJ, Cyr DM, Douglas MG (1992) YDJlp facilitates polypeptide translocation across different intracellular membranes by a conserved mechanism. Cell 71: 1143–1155
Cegielska A, Georgopoulos C (1989) Functional domains of the Escherichia coli DnaK heat shock protein as revealed by mutational analysis. J Biol Chem 264: 21122–21130
Chappell TG, Welch WJ, Schlossman DM, Palter KB, Schlesinger MJ, Rothman JE (1986) Uncoating ATPase is a member of the 70 Kilodalton family of stress proteins. Cell 45: 3–13
Chen Q, Vierling E (1991) Analysis of conserved domains identifies a unique structural feature of a chloroplast heat shock protein. Mol Gen Genet 226: 425–431
Chiang HL, Terlecky SR, Plant CP, Dice JF (1989) A role for a 70-Kilodalton heat shock protein in lysosomal degradation of intracellular proteins. Science 246: 382–385
Chiment JJ, Alscher R, Hughes PR (1986) Glutathione as an indicator of SCgt;2-induced stress0 in soybean. Environ Exp Bot 26: 147–152
Chirico WJ, Waters MG, Blobel G (1988) 70 K heat shock related proteins stimulate protein translocation into microsomes. Nature 332: 805–810
Chretien P, Landry J (1988) Enhanced constitutive expression of the 27-kDa heat shock proteins in heat resistant variants from Chinese hamster cells. J Cell Physiol 137: 157–166
Christensen AH, Sharrock RA, Quail PH (1992) Maize polyubiquitin genes — Structure, thermal perturbation of expression and transcript splicing, and promoter activity following transfer to protoplasts by electroporation. Plant Mol Biol 18: 675–689
Conner TW, Lafayette PR, Nagao RT, Key JL (1990) Sequence and expression of a HSP83 from Arabidopsis thaliana. Plant Physiol 94: 1689–1695
Craig EA, Jakobsen K (1985) Mutations in cognate genes of Saccharomyces cerevisiae hsp70 result in reduced growth rates at low temperatures. Mol Cell Biol 5: 3517–3524
Craig EA, Gross CA (1991) Is hsp70 the cellular thermometer? Trends Biochem Sci 16: 135–140
Creelman RA, Tierney ML, Mullet JE (1992) Jasmonic acid/methyl jasmonate accumulate in wounded soybean hypocotyls and modulate wound gene expression. Proc Natl Acad Sci USA 89: 4938–4941
Csermely P, Kahn CR (1991) The 90-kDa heat shock protein (hsp-90) possesses an ATP binding site and autophosphorylating activity. J Biol Chem 266: 4943–4950
Csermely P, Kajtar J, Hollosi M, Jalsovszky G, Holly S, Kahn CR, Gergely P, Soti C, Mihaly K, Somogyi J (1993) ATP induces a conformational change of the 90-kDa heat shock protein (hsp90). J Biol Chem 268: 1901–1907
Cyr DM, Lux X, Douglas MG (1992) Regulation of Hsp70 function by a eukaryotic DnaJ homolog. J Biol Chem 267: 20927–20931
Czarnecka E, Nagao RT, Key JL, Gurley WB (1988) Characterization of Gm hsp26-A, a stress gene encoding a divergent heat shock protein of soybean: Heavy-metal-induced inhibition of intron processing. Mol Cell Biol 8: 1113–1122
Daie J, Campbell WF (1981) Response of tomato plants to stressful temperatures. Increase in abscisic acid concentrations. Plant Physiol 67: 26–29
Dalie BL, Skaleris DA, Kohle K, Weissbach H, Brot N (1990) Interaction of DnaK with ATP: Binding, hydrolysis and Ca2+-stimulated autophosphorylation. Biochem Biophys Res Commun 166: 1284–1292
Dang JL (1992) Regulatory elements controlling developmental and stress-induced expression of phenylpropanoid genes. In: Boiler T, Meins F (eds) Genes Involved in Plant Defense. Springer Wien, pp 303–326
Darvill AG, Albersheim P (1984) Phytoalexins and their elicitors — A defense against microbial infection in plants. Annu Rev Plant Physiol 35: 243–275
Dashek WV, Erickson SS (1981) Isolation, assay, biosynthesis, metabolism, uptake and translocation, and function of proline in plant cells and tissues. Bot Rev 47: 349–385
Davies KM, Grierson D (1989) Identification of cDNA clones for tomato ( Lycopersicon esculentum Mill.) mRNAs that accumulate during fruit ripening and leaf senescence in response to ethylene. Planta 179: 73–80
Dean JV, Gronwald CV, Eberlein CV (1990) Induction of glutathione S-transferase isozymes in sorghum by herbicide antidotes. Plant Physiol 92: 467–473
DeBoer AD, Weisbeek PJ (1991) Chloroplast protein topogenesis — import, sorting and assembly. Biochim Biophys Acta 1071: 221–253
Degani N, Itai C (1978) The effect of radiation on growth and abscisic acid in wheat seedlings. Env Exp Bot 18: 113–115
Denecke J, Goldman MHS, Demolder J, Seurinck J, Botterman J (1991) The tobacco luminal binding protein is encoded by a multigene family. Plant Cell 3: 1025–1035
DeRocher AE, Helm KW, Lauzon LM, Vierling E (1991) Expression of a conserved family of cytoplasmic low molecular weight heat shock proteins during heat stress and recovery. Plant Physiol 96: 1038–1047
Deshaies RJ, Koch BD, Werner-Washburne M, Craig EA, Shekman R (1988) A subfamily of stress proteins facilitates translocation of secretory and mitochondrial precursor polypeptides. Nature 332: 800–805
DeVirgilio C, Piper P, Boiler T, Wiemken A (1991) Aquisition of thermotolerance in Saccharomyces cerevisiae without heat shock protein hspl04 and in the absence of protein synthesis. FEBS Letters 288: 86–90
Dhindsa RS (1990) Drought stress, enzymes of glutathione metabolism, oxidation injury, and protein synthesis in Tortula ruralis. Plant Physiol 95: 648–651
DiCosmo F, Towers GHN (1984) Stress and secondary metabolism in cultured plant cells. Rec Advanc Phytochem 18: 97–175
Dietrich PS, Bouchard RA, Casey ES, Sinibaldi RM (1991) Isolation and characterization of a small heat shock protein gene from maize. Plant Physiol 96: 1268–1276
Dingwall C, Laskey R (1992) The nuclear membrane. Science 258: 942–947
Dittrich H, Kutchan TM, Zenk MH (1992) The jasmonate precursor 12-oxo-phytodienoic acid induces phytoalexin synthesis in Petroselinum crispum cell cultures. FEBS L 309: 33–36
Dixon RA, Bailey JA, Bell JN, Bolwell GP, Cramer CL, Edwards K, Hamdan MAM, Lamb CJ, Robbins MP, Ryder TB, Schuch W (1986) Rapid changes in gene expression in response to microbial elicitation. Phil Trans R Soc Lnd B 314: 411–426
Dohmen GP, Koppers A, Langebartels C (1990) Biochemical response of Norway spruce (Picea abies (L) Karst) towards 14-month exposure to ozone and acid mist: Effects on amino acid, glutathione and polyamine titers. Environ Pollut 64: 375–383
Dougherty JJ, Puri RK, Toft DO (1984) Polypeptide components of two 8S forms of chicken oviduct progesteron receptor. J Biol Chem 259: 8004–8009
Dubois MF, Hovanessian AG, Bensaude O (1991) Heat-shock-induced denaturation of proteins. J Biol Chem 266: 9707–9711
Duck N, McCormick S, Winter J (1989) Heat shock protein hsp70 cognate gene expression in vegetative and reproductive organs of Lycopersicon esculentum. Proc Natl Acad Sci USA 86: 3674–3678
Ebel J (1986) Phytoalexin synthesis: The biochemical analysis of the induction process. Annu Rev Phytopathol 24: 235–264
Edwards R, Blount JW, Dixon RA (1991) Glutathione and elicitation of the phytoalexin response in legume cell cultures. Planta 184: 403–409
Edwards DP, Estes PA, Fadok VA, Bona BJ, Onate S, Nordeen SK, Welch WJ (1992) Heat shock alters the composition of heteromeric steroid receptor complexes and enhances receptor activity in vivo. Biochemistry 31: 2482–2491
Ellis RJ, Hemmingsen SM (1989) Molecular chaperones: proteins essential for the biogenesis of some macromolecular structures. Trends Biochem Sci 14: 339–342
Ellis RJ, van der Vies SM (1991) Molecular chaperones. Annu Rev Biochem 60: 321–347
Eilert U (1987) Elicitation: Methodology and aspects of application. In: Constabel F, Vasil IK, (eds), 1987, Cell Culture and Somatic Cell Genetics of Plants 4, Acad Press, San Diego, pp 153–196
Erickson SS, Dashek WV (1982) Accumulation of soluble proline in sulphur dioxide-stressed Glycine max cvs. “Proctor” and “Excelsior” seedlings. Environ Pollut Ser A 28: 89–108
Espelund M, Saeboe-Larssen S, Hughes DW, Galan GA, Larsen F, Jakobsen KS (1992) Late embryogenesis-abundant genes encoding proteins with different numbers of hydrophilic repeats are regulated differentially by abscisic acid and osmotic stress. Plant J 2: 241–252
Esquerre-Tugaye MT, Mazau D, Pelissier B, Roby D, Rumean D, Toppan A (1985) Induction by elicitors and ethylene of proteins associated to the defense of plants. In: KeyJL, Kosuge T (eds), Cellular and Molecular Biology of Plant Stress, Alan R. Liss Inc, New York, pp 459–466
Farago S, Brunold C (1990) Regulation of assimilatory sulfate reduction by herbicide safeners in Zea mays. Plant Physiol 94: 1808–1812
Farmer EE, Ryan CA (1990) Interplant communication: Airborne methyl jasmonate induces synthesis of proteinase inhibitors in plant leaves. Proc Natl Acad Sci USA 87: 7713–7716
Farmer EE, Ryan CA (1992) Octadecanoid precursors of jasmonic acid activate the synthesis of wound-inducible proteinase inhibitors. Plant Cell 4: 129–134
Farrelly FW, Finkelstein DB (1984) Complete sequence of the heat shock-inducible HSP90 gene of Saccharomyces cerevisiae. J Biol Chem 259: 5745–5751
Feder JH, Rossi JM, Solomon J, Solomon N, Lindquist S (1992) The consequences of expressing hsp70 in Drosophila cells at normal temperatures. Genes Devel 6: 1402–1413
Feldheim D, Rothblatt J, Shekman R (1992) Topology and functional domains of Sec63p, an endoplasmic reticulum membrane protein required for secretory protein translocation. Mol Cell Biol 12: 3288–3296
Felsheim RF, Das A (1992) Structure and expression of a heat-shock protein 83 gene of Pharbitis nil. Plant Physiol 100: 1764–1771
Flaherty KM, DeLuca-Flaherty C, McKay DB (1990) Three - dimensional structure of the ATPase fragment of a 70 K heat-shock cognate protein. Nature 346: 623–628
Flaherty KM, McKay DB, Kabsch W, Holmes KC (1991) Similarity of the three — dimensional structures of actin and the ATPase fragment of a 70 kDa heat shock cognate protein. Proc Natl Acad Sci USA 88: 5041–5045
Flores HE, Young ND, Galston AW (1985) Polyamine metabolism and plant stress. In: Key JL, Kosuge T (eds), Cellular and Molecular Biology of Plant Stress, Alan R. Liss Inc, New York, pp 93–114
Fontes EBP, Shank BB, Wrobel RL, Moose SP, O’Brian GR, Wurtzel ET, Boston RS (1991) Characterization of an immunoglobulin binding protein in the maize floury-2 endosperm mutant Plant Cell 3: 483–496
Fray RG, Lycett GW, Grierson D (1990) Nucleotide sequence of a heat-shock and ripeningrelated cDNA from tomato. Nucl Acids Res 18: 7148
Frydman J, Nimmesgern E, Erdgument-Bromage H, Wall JS, Tempst P, Hard FU (1992) Function in protein folding of TRiC, a cytosolic ring complex containing TCP1 and structurally related subunits. EMBO J 11: 4767–4778
Fuhrer J (1982) Ethylene biosynthesis and cadmium toxicity in leaf tissue of beans (Phaseolus vulgaris L). Plant Physiol 70: 162–167
Fuqua SAW, Blumsalingaros M, McGuire WL (1989) Induction of the estrogen-regulated 24K protein by heat shock. Cancer Res 49: 4126–4129
Gaestel M, Schroder W, Benndorf R, Lippmann C, Buchner K, Hucho F, Erdmann VA, Bielka H (1991) Identification of the phosphorylation sites of the murine small heat shock protein hsp25. J Biol Chem 266: 14721–14724
Gaitanaris GA, Papavassiliou AG, Rubock P, Silverstein SJ, Gottesman ME (1990) Renaturation of denatured X repressor requires heat shock proteins. Cell 61: 1013–1020
Gamer J, Bujard H, Bukau B (1992) Physical interaction between heat shock proteins DnaK, DnaJ, GrpE and the bacterial heat shock transcription factor a32. Cell 69: 833–842
Gao BC, Biosca J, Craig EA, Greene LE, Eisenberg E (1991) Uncoating of coated vesicles by yeast hsp70 proteins. J Biol Chem 266: 19565–19571
Gao Y, Thomas JO, Chow RL, Lee G-H, Cowan NJ (1992) A cytoplasmic chaperonin that catalyzes 6-actin folding. Cell 69: 1043–1050
Gatenby AA, (1992) Protein folding and chaperonins. Plant Mol Biol 19: 677–687
Georgopoulos C (1992) The emergence of the chaperone machines. Trends Biochem Sci 17: 295–299
Georgopoulos CP, Hendrix RW, Kaiser AD, Wood WB (1972) Role of the host cell in bacteriophage morphogenesis: Effects of a bacterial mutation on T4 head assembly. Nature NB 239: 38–42
Gething M-J, Sambrook J (1992) Protein folding in the cell. Nature 355: 33–45
Gershenzon J (1984) Changes in the levels of plant secondary metabolites under water and nutrient stress. Rec Advanc Phytochem 18: 273–320
Glick B, Schatz G (1991) Import of proteins into mitochondria. Annu Rev Gen 25: 21–44
Goldfarb DS (1992) Are the cytosolic components of the nuclear, ER, and mitochondrial import apparatus functionally related? Cell 70: 185–188
Goloubinoff P, Gatenby AA, Lorimer GH (1989) GroE heat shock proteins promote assembly of foreign prokaryotic ribulose bisphosphate carboxylase oligomers in Escherichia coli. Nature 337: 44–47
Gragerov A, Nudler E, Komissarova N, Gaitanaris GA, Gottesman ME, Nikiforov V (1992) Cooperation of GroEL/GroES and DnaK/DnaJ heat shock proteins in preventing protein misfolding in Escherichia coli. Proc Nad Acad Sci USA 89: 10341–10344
Granell A, Belles JM, Conejero V (1987) Induction of pathogenesis-related proteins in tomato by Citrus exocortis viroid, silver ion, and etephon. Physiol Mol Plant Pathol 31: 83–89
Green LAD, Liem RKH (1989) Beta-internexin is a microtubule-associated protein identical to the 70-kDa heat-shock cognate protein and the clathrin uncoating ATPase. J Biol Chem 264: 15210–15215
Grill D, Esterbauer H, Hellig K (1982) Further studies on the effect of S02-pollution on the sulfhydryl-system of plants. Phytopath Z 104: 264–271
Grill E, Ldffler S, Winnacker E-L, Zenk MH (1989) Phytochelatins, the heavy-metal-binding peptides of plants, are synthesized from glutathione by a specific y-glutamylcysteine dipeptidyl transpeptidase (phytochelatin synthase). Proc Nad Acad Sci USA 86: 6838–6842
Grimes HD, Koetje DS, Fransceshi VR (1992) Expression, activity, and cellular accumulation of methyl jasmonate - resposive lipoxygenase in soybean seedlings. Plant Physiol 100: 433–443
Gross D (1987) Chemische Abwehrstoffe der Pfianze. Biol Rundschau 25: 225–237
Grosset J, Meyer Y, Chartier Y, Kauffmann S, Legrand M, Fritig B (1990) Tobacco mesophyll protoplasts synthesize 1,3-6-glucanase, chitinases and ‘osmotins’ during in vitro culture. Plant Physiol 92: 520–527
Grossman AD, Straus DB, Walter NA, Gross CA (1987) Sigma 32 synthesis can regulate the synthesis of heat shock proteins in Escherichia coli. Genes Devel 1: 179–184
Gundlach H, Muller MJ, Kutchan TM, Zenk MH (1992) Jasmonic acid is a signal transducer in elicitor-induced plant cell cultures. Proc Natl Acad Sci USA 89: 2389–2393
Guy CL, Carter JV, Yelenosky G; Guy CT (1984) Changes in glutathione content during cold acclimation in Cornus sericea and Citrus sinensis. Cryobiol 21: 443–453
GyGrgyey J, Gartner A, Nemeth K, Magyar Z, Hirt H, Heberlebors E, Dudits D (1991) Alfalfa heat shock genes are differentially expressed during somatic embryogenesis. Plant Mol Biol 16: 999–1007
Haas IG, Wabl M (1983) Immunoglobulin heavy chain binding protein. Nature 306: 387–389
Hackett RW, Lis JT (1983) Localization of the hsp83 transcript within a 3292 nucleotidesequence from the 63B heat shock locus of Drosophila melanogaster. Nucl Acids Res 11: 7011–7030
Hagen G, Uhrhammer N, Guilfoyle TJ (1988) Regulation of expression of an auxin-induced soybean sequence by cadmium. J Biol Chem 263: 6442–6446
Hahlbrock K, Scheel D (1989) Physiology and molecular biology of phenylpropanoid metabolism. Annu Rev Plant Physiol 40: 347–369
Hainaut P, Milner J (1992) Interaction of heat shock protein-70 with p53 translated in vitro — Evidence for interaction with dimeric p53 and for a role in the regulation of p53 conformation. EMBO J 11: 3513–3520
Handschumacher R, Harding M, Rice J, Drugge R (1984) Cyclophilin: A specific cytosolic binding protein for cyclosporin A. Science 226: 544–547
Hargreaves JA (1981) Accumulation of phytoalexins in cotyledons of French bean (Phaseolus vulgaris L) following treatment with triton (T-octylphenol polyethoxyethanol) surfactants. New Phytol 87: 733–741
Hartl FU, Martin J, Neupert W (1992) Protein folding in the cell - the role of molecular chaperones Hsp70 and Hsp60. Annu Rev Biophys Biomol Structure 21: 293–322
Hartman DJ, Dougan D, Hoogenraad NJ, Hoj PB (1992a) Heat shock proteins of barley mitochondria and chloroplasts - Identification of organellar hsplO and hsp12 — Putative chaperonin 10 homologues. FEBS L 305: 147–150
Hartman DJ, Hoogenraad NJ, Condron R, Hoj PB (1992b) Identification of a mammalian heat shock protein, a mitochondrial chaperonin 10 homologue essential for assisted folding of trimeric ornithine transcarbamoylase in vitro. Proc Natl Acad Sci USA 89: 3394–3398
Hattori H, Liu YC, Tohnai I, Ueda M, Kaneda T, Kobayashi T, Tanaba K, Ohtsuka K (1992) Intracellular localization and partial amino acid sequence of a stress-inducible 40-kDa protein in HeLa cells. Cell Struct Function 17: 77–86
Heitman J, Mowa NR, Hall MN (1992) Proline isomerases at the crossroads of protein folding, signal transduction, and immunosuppression. New Biol 4: 448–460
Helm KW, Abernethy RH (1990) Heat shock protein and their mRNAs in dry and early inbibing embryos of wheat. Plant Physiol 93: 1626–1633
Hemmingsen SM, Woolford C, Van der Vies SM, Tilly K, Dennis DT, Georgopoulos CP, Hendrix RW, Ellis RJ (1988) Homologous plant and bacterial proteins chaperone oligomeric protein assembly. Nature 333: 330–335
Hendrix RW (1979) Purification and properties of GroE, a host protein involved in bacteriophage assembly. J Mol Biol 129: 375–392
Heuser J, Steer CJ (1989) Trimeric binding of the 70-kD uncoating ATPase to the vertices of clathrin triskelia: A candidate intermediate in the vesicle uncoating reaction. J Cell Biol 109: 1457–1466
Hightower L, Nover L (eds) (1991) Heat Shock and Development. Springer Berlin
Hildman T, Ebneth M, Pena-Cortes H, Samp;nchez-Sfcrrano JJ, Willmitzer L, Prat S (1992) General role of abscisic and jasmonic acids in gene activation as a result of mechanical wounding. Plant Cell 4: 1157–1170
Hogsett WE, Raba RM, Tingey D (1981) Biosynthesis of stress ethylene in soybean seedlings: similarities to endogenous ethylene biosynthesis. Physiol Plant 53: 307–314
Hong BM, Barg R, Ho THD (1992) Developmental and organ-specific expression of an ABA-induced and stress-induced protein in barley. Plant Mol Biol 18: 663–674
Horwitz J (1992) α-Crystallin can function as a molecular chaperone. Proc Natl Acad Sci USA 89: 10449–10453
Hottiger T, deVirgilio C, Bell W, Boiler T, Wiemken A (1992) The 70-Kilodalton heat shock protein of the SSA subfamily negatively modulate heat shock-induced accumulation of trehalose and promote recovery from heat stress in the yeast, Saccharomyces cerevisiae. Europ J Biochem 210: 125–132
Hutchison KA, Stancato LF, Jove R, Pratt WB (1992a) The protein-protein complex between pp60 (v-src) and hsp90 is stabilized by molybdate, vanadate, tungstate, and an endogenous cytosolic metal. J Biol Chem 267: 13952–13957
Hutchison KA, Czar MJ, Scherrer LC, Pratt WB (1992b) Monovalent cation selectivity for ATP-dependent association of the glucocorticoid receptor with hsp70 and hsp90. J Biol Chem 267: 14047–14053
Imamoto N, Matsuoka Y, Kurihara T, Kohno K, Miyagi M, Sakiyama F, Okada Y, Tsunasawa S, Yoneda Y (1992) Antibodies against 70-kD heat shock cognate protein inhibit mediated nuclear import of karyophilic proteins. J Cell Biol 119: 1047–1061
Inaguma Y, Shinohara H, Goto S, Kato K (1992) Translocation and induction of a,Bcrystallin by heat shock in rat glioma (GA-1) cells. Biochem Biophys Res Commun 182: 844–850
Ingolia TD, Craig EA (1982) Four small Drosophila heat shock proteins are related to each other and to mammalian a-crystallin. Proc Natl Acad Sci USA 79: 2360–2364
Jaenicke R (1991) Protein folding - local structures, domains, subunits, and assemblies. Biochemistry 30: 3147–3161
Jaffe MJ, Telewski FW (1984) Thigmomorphogenesis: Callose and ethylene in the hardening of mechanically stressed plants. Rec Advanc Phytochem 18: 79–96
Jakob U, Gaestel M, Engel K, Buchner J (1993) Small heat shock proteins are molecular chaperones. J Biol Chem 268: 1517–1520
Jentsch S (1992) The ubiquitin-conjugation system. Annu Rev Genet 26: 177–205
Jentsch S, Seufert W, Hauser H-P (1991) Genetic analysis of the ubiquitin system. Biochim Biophys Acta 1089: 127–139
Jin YJ, Burahoff SJ, Bierer BE (1992) Molecular cloning of a 25-kDa high affinity rapamycin binding protein, FKBP25. J Biol Chem 267: 10942–10945
Johnson R, Ryan CA (1990) Wound-inducible potato inhibitor II genes: Enhancement of expression by sucrose. Plant Mol Biol 14: 527–536
Johnston RN, Kucey BL (1988) Competitive inhibition of hsp70 gene expression causes thermosensitivity. Science 242: 1551–1554
Jones RGW (1984) Phytochemical aspects of osmotic adaptation. Rec Advanc Phytochem 18: 55–78
Jones RL, Bush DS (1991) Gibberellic acid regulates the level of a BiP cognate in the endoplasmic reticulum of barley aleurone cells Plant Physiol 97: 456–459
Joos J, Hahlbrock K (1992) Phenylalanine ammonia-lyase in potato (Solanum tuberosum L.). Genomic complexity, structural comparison of two selected genes and modes of expression. Europ J Biochem 204: 621–629
Kawasaki Y, Wada C, Yura T (1990) Roles of Escherichia coli heat shock proteins DnaK, DnaJ and GrpE in mini-F plasmid replication. Mol Gen Genetics 220: 277–282
Kende H (1993) Ethylene biosynthesis. Annu Rev Plant Physiol Plant Mol Biol 44: 283–307
Kieffer LJ, Thalhammer T, Handschumacher RE (1992) Isolation and characterization of a 40-kDa cyclophilin-related protein. J Biol Chem 267: 5503–5507
Klemenz R, Frfflili E, Steiger RH, Schafer R, Aoyama A (1991) α,B-Crystallin is a small heat shock protein. Proc Natl Acad. Sci USA 88: 3652–3656
Ko K, Bornemisca O, Kourtz L, Ko ZW, Plaxton WC, Cashmore AR (1992) Isolation and characterization of a cDNA clone encoding a cognate 70-kDa heat shock protein of the chloroplast envelope. J Biol Chem 267: 2986–2993
Kodama O, Suzuki T, Miyakawa J, Akatsuka T (1988) Ultraviolet-induced accumulation of phytoalexins in rice leaves. Agric Biol Chem 52: 2469–2473
KOhle H, Young DH, Kauss H (1984) Physiological changes in suspension-cultured soybean cells elicited by treatment with chitosan. Plant Sci Letters 33: 221–230
Kolattukudy PE, Soliday CL (1985) Effects of stress on the defense barriers of plants. In: Key JL, Kosuge T (eds), Cellular and Molecular Biology of Plants Stress, Alan R. Liss Inc, New York, pp 381–400
Koll H, Guiard B, Rassow J, Ostermann J, Horwich AL, Neupert W, Hard F-U (1992) Antifolding activity of hsp60 couples protein import into the mitochondrial matrix with export to the intermembrane space. Cell 68: 1163–1175
Kroh HE, Simon LD (1991) Increasing ATP-dependent proteolytic activity in Lon-deficient Escherichia coli strains lacking the DnaK protein. J Bacteriol 179: 2691–2695
Kruse E, Kloppstech K (1992) Heat shock proteins in plants: An approach to understanding the function of plastid heat shock proteins. In Barber J (ed) The Photosystems: Structure, Function and Molecular Biology. Elsevier Sci Publ Amsterdam, pp 409–442
Kulomaa MS, Weigel NL, Kleinsek OA, Beattie WG, Conneely OM, March C, Zarucki-Schulz T, Schrader WT, O’Malley W (1986) Amino acid sequence of a chicken heat shock protein derived from the complementary DNA nucleotide sequence. Biochemistry 25: 6244–6252
Kunkel DL, Steffens JC, Bellinder RR (1991) Effect of temperature and safeners on glutathione levels and glutathione S-transferase activity in maize. Z Naturforsch 46c: 856–860
Lalk J, Dorffling K (1985) Hardening, abscisic acid, proline and freezing resistance in two winter wheat varieties. Physiol Plant 63: 287–292
Lam KT, Calderwood SK (1992) HSP70 binds specifically to a peptide derived from the highly conserved domain (I) region of p53. Biochem Biophys Res Commun 184: 167–174
Landry SJ, Jordan R, McMacken R, Gierasch LM (1992a) Different conformations for the same polypeptide bound to chaperones DnaK and GroEL. Nature 355: 455–457
Landry J, Lambert H, Zhou M, Lavoie JN, Hickey E, Weber LA, Anderson CW (1992b) Human HSP27 is phosphorylated at serines-78 and serines-82 by heat shock and mitogen-activated kinases that recognize the same amino acid motif as S6 kinase-II. J Biol Chem 267: 794–803
Langer T, Pfeifer G, Martin J, Baumeister W, Hard F-U (1992a) Chaperonin-mediated protein folding: GroES bind to one end of the GroEL cylinder, which accomodates the protein substrate within its central cavity. EMBO J 11: 4757–4765
Langer T, Lu C, Echols H, Flanagan J, Hayer MK, Hard F-U (1992b) Successive action of DnaK, DnaJ and GroEL along the pathway of chaperone-mediated protein folding. Nature 356: 683–689
Laskey RA, Honda BM, Finch JT (1978) Nucleosomes are assembled by an acidic protein which binds histones and transfers them to DNA. Nature 275: 416–420
Lavoie JN, Gingrasbreton G, Tanguay RM, Landry J (1993) Induction of Chinese hamster HSP27 gene expression in mouse cells confers resistance to heat shock — HSP27 stabilization of the microfilament organization. J Biol Chem 268: 3420–3429
Lee YJ, Hou ZZ, Curetty L, Borrelli MJ (1992) Development of acute thermotolerance in L929 cells - Lack of HSP28 synthesis and phosphorylation. J Cell Physiol 152: 118–125
Lees-Miller SP, Anderson CW (1991) The DNA-activated protein kinase, DNA-PK: A potential coordinator of molecular events. Cancer Cells 3: 341–346
Legagneux V, Morange M, Bensaude O (1991) Heat shock increases turnover of 90 kDa heat shock protein phosphate groups in HeLa cells. FEBS L 291: 359–362
Leustek T, Dalie B, Amir-Shapira D, Brot N, Weissbach H (1989) A member of the Hsp70 family is localized in mitochondria and resembles Escherichia coli DnaK. Proc Nad Acad Sci USA 86: 7805–7808
Leustek T, Amir-Shapira D, Toledo H, Brot N, Weissbach H (1992) Autophosphorylation of 70 kDa heat shock proteins. Cell Mol Biol 38: 1–10
Levitt J (1980) Responses of Plants to Environmental Stresses. Academic Press, New York
Lewis MJ, Pelham HRB (1985) Involvement of ATP in the nuclear and nucleolar functions of the 70 kd heat shock protein. EMBO J 4: 3137–3143
Lewis VA, Hynes GM, Zheng D, Saibil H, Willison K (1992) T-complex polypeptide-1 is a subunit of a heteromeric particle in the eukaryotic cytosol. Nature 358: 249–252
Liberek K, Marszalek J, Ang D, Georgopoulos C, Zylicz M (1991) Escherichia coli DnaJ and GrpE heat shock proteins joindy stimulate ATPase activity of DnaK. Proc Nad Acad Sci USA 88: 2874–2878
Liberek K, Galitski TP, Zylicz M, Georgopoulos C (1992) The DnaK chaperone modulates the heat shock response of Escherichia coli by binding to the transcription factor. Proc Nad Acad Sci USA 89: 3516–3520
Lincoln JE, Cordes S, Read E, Fischer RL (1987) Regulation of gene expression by ethylene during Lycopersicon esculentum (tomato) fruit development. Proc Nad Acad Sci USA 84: 2793–2797
Lindquist S, Craig EA (1988) The heat - shock proteins. Annu Rev Genet 22: 631–677
Linthorst HJM (1991) Pathogenesis-related proteins in plants. Crit Rev Plant Sci 10: 123–150
Liu RY, Li XC, Li LG, Li GC (1992) Expression of human hsp70 in rat fibroblasts enhances cell survival and facilitates recovery from translational and transcriptional inhibition following heat shock. Cancer Res 52: 3667–3673
Loomis WF, Wheeler SA (1982) Chromatin-associated heat shock proteins in Dictyostelium. Devel Biol 90: 412–418
Maccarrone M, Veldink GA, Vliegenthart JFG (1992) Thermal injury and ozone stress affect soybean lipoxygenases expression. FEBS L 309: 225–230
Marivet J, Frendo P, Burkard G (1992) Effects of abiotic stresses on cyclophilin gene expression in maize and bean and sequence analysis of bean cyclophilin cDNA. Plant Sci 84: 171–178
Mason HS, Mullet JE (1990) Expression of two soybean vegetative storage protein genes during development and in response to water deficit, wounding, and jasmonic acid. Plant Cell 2: 569–579
Massol M, Lebeau MC, Renoir JM, Faber LE, Baulieu EE (1992) Rabbit FKBP59-heat shock protein binding iraraunophilin ( HBI) is a calmodulin binding protein. Biochem Biophys Res Commun 187: 1330–1335
Matsumoto M, Fujimoto H (1990) Cloning of a HSP70-related gene expressed in mouse spermatids. Biochem Biophys Res Commun 166: 43–49
McCarty JS, Walker GC (1991) DnaK as a thermometer: Threonine-199 is the site of autophosphorylation and is critical for ATPase activity. Proc Natl Acad Sci USA 88: 9513–9517
McMullin TW, Hallberg RL (1988) A highly evolutionarily conserved mitochondrial protein is structurally related to the protein encoded by the E. coli gene. Mol Cell Biol 8: 371–380
Melan MA, Dong X, Endara ME, Davis KR, Ausubel FM, Peterman TK (1993) An Arabidopsis thaliana lipoxygenase gene can be induced by pathogens, abscisic acid, and methyl jasmonate. Plant Physiol 101: 441–450
Merck KB, Groenen PJTA, Voorter CEM, DeHaard-Hoekman WA, Horwitz J, Bloemendal H, DeJong WW (1993) Structural and functional similarities of bovine a-crystallin and mouse small heat-shock protein - a family of chaperones. J Biol Chem 268: 1046–1052
Meyer A, Miiller P, Sembdner G (1987) Air pollution and plant hormones. Biochem Physiol Pflanzen 182: 1–21
Miernyk JA, Duck NB, Shatters RG, Folk WR (1992) The 70-Kilodalton heat shock cognate can act as a molecular chaperone during the membrane translocation of a plant secretory protein precursor. Plant Cell 4: 821–829
Miron T, Van Compernolle K, Van de Kerckhove J, Wilchek M, Geiger B (1991) A 25-kD inhibitor of actin polymerization is a low molecular mass heat shock protein. J Cell Biol 114: 255–261
Moore MS, Blobel G (1992) The two steps of nuclear import, targeting to the nuclear envelope and translocation through the nuclear pore, require different cytosolic factors. Cell 69: 939–950
Mori M, Murata K, Kubota H, Yamamoto A, Matsushiro A, Morita T (1992) Cloning of a cDNA encoding the Tcp-1 (t complex polypeptide-1) homologue of Arabidopsis thaliana. Gene 122: 381–382
Morimoto RI (1993) Cells in stress — transcriptional activation of heat shock genes. Science 259: 1409–1410
Mühlbach HP (1987) Viroide: Freie infektiose RNA-Molekule als Erreger von Pflanzenkrankheiten. Biol uns Zeit 27: 65–78
Mueller MJ, Brodschelm W, Spannagel E, Zenk MH (1993) Signaling in the elicitation process is mediated through the octadecanoid pathway leading to jasmonic acid. Proc Nad Acad Sci USA 90: 7490–7494
Mummert E, Grimm R, Speth V, Eckershorn C, Schiltz E, Gatenby AA, Schafer E (1993) A TCP 1-related molecular chaperone from plants refolds phytochrome to its photoreversible form. Nature 363: 644–648
Munro S, Pelham HRB (1984) Use of peptide tagging to detect proteins expressed from cloned genes: deletion mapping functional domains of Drosophila hsp 70. EMBO J 3: 3087–3093
Munro S, Pelham HRB (1986) An hsp70 - like protein in the ER: Identity with the 78 kd glucose-regulated protein and immunoglobulin heavy chain binding protein. Cell 46: 291–300
Munro S, Pelham HRB (1987) A C-terminal signal prevents secretion of luminal ER proteins. Cell 48: 899–907
Murphy TM, Matson GB, Morrison SL (1983) Ultraviolet-stimulated KHCO3 efflux from rose cells. Regulation of cytoplasmic pH. Plant Physiol 73: 20–24
Nakagawa N, Nakajima N, Imaseki H (1988) Immunochemical difference of wound-induced 1-aminocyclopropane-l-carboxylate synthase from the auxin-induced enzyme. Plant Cell Physiol 29: 1255–1259
Napolitano EW, Pachter JS, Chin SSM, Liem RKH (1985) β-Internexin, a ubiquitous intermediate filament - associated protein. J Cell Biol 101: 1323–1331
Napolitano EW, Pachter JS, Liem RKH (1987) Intracellular distribution of mammalian stress protein. Effects of cytoskeletal-specific agents. J Biol Chem 262: 1493–1504
Neale AD, Wahleithner JA, Lund M, Bonnett HT, Kelly A, Meeks-Wagner DR, Peacock WJ, Dennis ES (1990) Chitinase, 6-1,3-glucanase, osmotin, and extensin are expressed in tobacco explants during flower formation. Plant Cell 2: 673–684
Nelson DE, Raghothama KG, Singh NK, Hasegawa PM, Bressan RA (1992a) Analysis of structure and transcriptional activation of an osmotin gene. Plant Mol Biol 19: 577–588
Nelson RJ, Ziegelhoffer T, Nicolet C, Werner-Washburne M, Craig EA (1992b) The translation machinery and 70 kd heat shock protein cooperate in protein synthesis. Cell 71: 97–105
Neumann D, Emmermann M, Thierfelder J-M, zur Nieden U, Clericus M, Braun H-P, Nover L, Schmitz UK (1993) HSP68 - a DnaK-like heat-stress protein of plant mitochondria. Planta 190: 32–43
Neumann D, zur Nieden U, Manteuffel R, Walter G, Scharf K-D, Nover L (1987) Intracellular localization of heat shock proteins in tomato cell cultures. Europ J Cell Biol 43: 71–81
Neupert W, Hartl F-U, Craig EA, Pfanner N (1990) How do polypeptides cross the mitochondrial membranes? Cell 63: 447–450
Neven LG, Haskell DW, Guy CL, Denslow N, Klein PA, Green LG, Silverman A (1992) Association of 70-kilodalton heat-shock cognate proteins with acclimation to cold. Plant Physiol 99: 1362–1369
Nieto-Sotelo J, Ho THD (1986) Effect of heat shock on the metabolism of glutathione in maize roots. Plant Physiol 82: 1031–1035
Nigg EA, Baeuerle PA, Luhrmann R (1991) Nuclear import - export: In search of signals and mechanisms. Cell 66: 15–22
Nover L (1987) Expression of heat shock genes in homologous and heterologous systems. Enz Microb Technol 9: 130–144
Nover L (ed) (1991) Heat Shock Response. CRC Press, Boca Raton (Fd)
Nover L, Scharf K-D, Neumann D (1983) Formation of cytoplasmic heat shock granules in tomato cell cultures and leaves. Mol Cell Biol 3: 1648–1655
Nover L, Munsche D, Ohme K, Scharf K-D (1986) Ribosome biosynthesis in heat shocked tomato cell cultures I. Ribosomal RNA. Europ J Biochem 160: 297–304
Nover L, Scharf K-D, Neumann D (1989) Cytoplasmic heat shock granules are formed from precursor particles and are associated with a specific set of mRNAs. Mol Cell Biol 9: 1298–1308
Nover L, Neumann D, Scharf K-D (eds) (1990) Heat Shock and Other Stress Response Systems of Plants. Springer Berlin
Ohashi Y, Matsuoka M (1985) Synthesis of stress proteins in tobacco leaves. Plant Cell Physiol 26: 473–480
Ohtsuka K, Nakamura H, Sato C (1986) Intracellular distribution of 73000 and 72000 dalton heat shock proteins in HeLa cells. Int J Hyperthermia 2: 267–276
Ohtsuka K, Tanabe K, Nakamura H, Sato C (1986) Possible cytoskeletal association of 69.000 and 68.000 dalton heat shock proteins and structural relations among heat shock proteins in murine mastocytoma cells. Radiat Res 108: 34–42
Pallas DC, Morgan W, Roberts TM (1989) The cellular proteins which can associate specifically with polyomavirus middle T-antigen in human 293 cells include the major human 70-kilodalton heat shock proteins. J Virol 63: 4533–4539
Palleros DR, Welch WJ, Fink AL (1991) Interaction of hsp70 with unfolded proteins: Effects of temperature and nucleotides on the kinetics of binding. Proc Natl Acad Sci USA 88: 5719–5723
Parsell DA, Sanchez Y, Stitzel JD, Lindquist S (1991) Hsp104 is a highly conserved protein with 2 essential nucleotide-binding sites. Nature 353: 270–273
Partaledis JA, Berlin V (1993) The FKB2 gene of Saccharomyces cerevisiae, encoding the immuno-suppressant-binding protein FKBP-13, is regulated in response to accumulation of unfolded proteins in the endoplasmic reticulum. Proc Natl Acad Sci USA 90: 5450–5454
Parthier B (1991) Jasmonates, new regulators of plant growth and development: Many facts and few hypotheses on their action. Bot Acta 104: 446–454
Peattie DA, Harding MW, Fleming MA, DeCenzo MT, Lippke JA, Livingston DJ, Benasutti M (1992) Expression and characterization of human FKBP52, an immunophilin that associates with the 90-kDa heat shock protein and is a component of steroid receptor complexes. Proc Natl Acad Sci USA 89: 10974–10978
Pearce G, Ryan CA, Liljegren D (1988) Proteinase inhibitors I and II in fruit of wild tomato species: Transient components of a mechanism for defense and seed dispersal. Planta 175: 527–531
Pelham HRB (1982) A regulatory upstream promoter element in the Drosophila Hsp 70 heatshock gene. Cell 30: 517–528
Pelham HRB (1984) Hsp 70 accelerates the recovery of nucleolar morphology after heat shock. EMBO J 3: 3095–3100
Pelham HRB, Bienz M (1982) A synthetic heat shock promoter element confers heatinducibility on the herpes simplex virus thymidine kinase gene. EMBO J 1: 1473–1477
Pena-Cortes H, Sanchez-Serrano JJ, Mertens R, Willmitzer L, Prat S (1989) Abscisic acid is involved in the wound-induced expression of the proteinase inhibitor II gene in potato and tomato. Proc Nad Acad Sci USA 86: 9851–9855
Pena-Cortes H, Willmitzer L, Sanchez-Serrano JJ (1991) Abscisic acid mediates wound induction but not developmental-specific expression of the proteinase inhibitor II gene family. Plant Cell 3: 963–972
Pendharkar MB, Nair PM (1975) Induction of phenylalanine ammonia lyase ( PAL) in gamma irradiated potatoes. Radiat Bot 15: 191–197
Pfanner N, Sollner T, Neupert W (1991) Mitochondrial import receptors for precursor proteins. Trends Biochem Sci 16: 63–67
Picard D, Khursheed B, Garabedian MJ, Fortin MG, Lindquist S, Yamamoto KR (1990) Reduced levels of hsp90 compromise steroid receptor action in vivo. Nature 348: 166–168
Pinto M, Morange M, Bensaude O (1991) Denaturation of proteins during heat shock — in vivo recovery of solubility and activity of reporter enzymes. J Biol Chem 266: 13941–13946
Prasad TK, Stewart CR (1992) cDNA clones encoding Arabidopsis thaliana and Zea mays mitochondrial chaperonin-HSP60 and gene expression during seed germination and heat shock. Plant Mol Biol 18: 873–885
Pratt WB, Hutchison KA, Scherrer LC (1992a) Steroid receptor folding by heat-shock proteins and composition of the receptor heterocomplex. Trends Endocrinol Metabol 3: 326–333
Pratt WB, Scherrer LC, Hutchison KA, Dalman FC (1992b) A model of glucocorticoid receptor unfolding and stabilization by a heat shock protein complex. J Steroid Biochem Mol Biol 41: 223–229
Privalov PL (1990) Cold denaturation of proteins. Crit Rev Biochem Mol Biol 25: 281–305
Raabe T, Manley JL (1991) A human homologue of the Escherichia coli DnaJ heat shock protein. Nucl Acids Res 19: 6645
Rao PV, Horwitz J, Zigler JS (1993) a-Crystallin, a molecular chaperone, forms a stable complex with carbonic anhydrase upon heat denaturation. Biochem Biophys Res Commun 190: 786–793
Ratajczak T, Carrello A, Mark PJ, Warner BJ, Simpson RJ, Moritz RL, House AK (1993) The cyclophilin component of the unactivated estrogen receptor contains a tetratricopeptide repeat domain and shares identity with p59 (FKBP59). J Biol Chem 268: 13187–13192
Rhodes MJC, Wooltorton LSC (1977) Changes in the activity of enzymes of phenylpropanoid metabolism in tomatoes stored at low temperatures.Phytochem 16: 655–659
Rhodes D (1987) Metabolic responses to stress: In: Davies E (ed), The Biochemistry of Plants 12, Acad Press, San Diego, pp 201–241
Rigden J, Coutis R (1988) Pathogenesis-related proteins in plants. Trends Genet 4: 87–89
Ritossa F (1962) A new puffing pattern induced by heat shock and DNP in Drosophila. Experientia 18: 571–573
Roby D, Toppan A, Esquerrfc-Tugayfc MT (1985) Cell surfaces in plant-microorganism interactions. V. Elicitors of fungal and plant origin trigger the synthesis of ethylene and of cell wall hydroxyproline-rich glycoprotein in plants. Plant Physiol 77: 700–704
Rosario MO, Perkins SL, O’Brien DA, Allen RL, Eddy EM (1992) Identification of the gene for the developmentally expressed 70 kDa heat-shock protein (P70) of mouse spermatogenic cells. Devel Biol 150: 1–11
Riiegsegger A, Brunold C (1992) Effect of cadmium on y-glutamylcysteine synthesis in maize seedlings. Plant Physiol 99: 428–433
Riiegsegger A, Schmutz D, Brunold C (1990) Regulation of glutathione synthesis by cadmium in Pisum sativum. Plant Physiol 93: 1579–1584
Ryan CA (1987) Oligosaccharide signalling in plants. Annu Rev Cell Biol 3: 295–317
Ryan CA (1988) Oligosaccharines as recognition signals for the expression of defensive genes in plants. Biochemistry 27: 8879–8883
Ryan CA (1992) The search for the proteinase inhibitor-inducing factor, PIF. Plant Mol Biol 19: 123–133
Ryan CA, Farmer EE (1991) Oligosaccharide signals in plants: A current assessment. Annu Rev Plant Physiol Mol Biol 42: 651–674
Sadis S, Hightower LE (1992) Unfolded proteins stimulate molecular chaperone Hsc70 ATPase by accelerating ADP/ATP exchange. Biochemistry 31: 9406–9412
Sanchez ER (1990) Hsp56 - a novel heat shock protein associated with untransformed steroid receptor complexes. J Biol Chem 265: 22067–22070
Sanchez, ER, Toft DO, Schlesinger MJ, Pratt WB (1985) Evidence that the 90-kDa phosphoprotein associated with the untransformed L-cell glucocorticoid receptor is a murine heat shock protein. J Biol Chem 260: 12398–12401
Sanchez ER, Faber LE, Henzel WJ, Pratt WB (1990) The 56-59-kilodalton protein identified in untransformed steroid receptor complexes is a unique protein that exists in cytosol in a complex with both the 70- and 90-kilodalton heat shock proteins. Biochemistry 29: 5145–5152
Sanchez Y, Lindquist SL (1990) Hspl04 required for induced thermotolerance. Science 248: 1112–1115
Sanchez Y, Taulien J, Borkovich KA, Lindquist S (1992) Hsp 104 is required for tolerance to many forms of stress. EMBO J 11: 2357–2364
Sanders SL, Whitfield KM, Vogel JP, Rose MD, Schekman RW (1992) Sec61p and BiP directly facilitate polypeptide translocation into the ER. Cell 69: 353–365
Sawai ET, Butel JS (1989) Association of a cellular heat shock protein with simian virus 40 large T-antigen in transformed cells. J Virol 63: 3961–3973
Scharf K-D, Nover L (1987) Control of ribosome biosynthesis in plant cell cultures under heat shock conditions. II Ribosomal proteins. Biochim Biophys Acta 909: 44–57
Scharf K-D, Rose S, Zott W, Schöffl F, Nover L, (1990) Three tomato genes code for heat stress transcription factors with a region of remarkable homology to the DNA-binding domain of the yeast HSF. EMBO J 9: 4495–4501
Scharf K-D, Materna T, Treuter E, Nover L (1994) Heat stress promoters and transcription factors. In L Nover ed, Plant Promoters and Transcription Factors. Springer, Berlin, in press
Schlesinger MJ, Ashburner M, Tissieres A (1982) (eds) Heat Shock: From Bacteria to Man. Cold Spring Harbor Lab., Cold Spring Harbor, New York
Schlossman DM, Schmid SL, Braell WA, Rothman JE (1984) An enzyme that removes clathrin coats: Purification of an uncoating ATPase. J Cell Biol 99: 723–733
Schmid FX (1993) Prolyl isomerase — Enzymatic catalysis of slow protein-folding reactions. Annu Rev Biophys Biomol Structure 22: 123–143
Schroder H, Langer T, Hartl F-U, Bukau B (1993) DnaK, DnaJ, GrpE form a cellular chaperone machinery capable of repairing heat-induced protein damage. EMBO J. in press
Sell SM, Eisen C, Ang D, Zylicz M, Georgopoulos C (1990) Isolation and characterization of dnaJ null mutants of Escherichia coli. J Bacterid 172: 4827–4835
Sembdner G, Parthier B (1993) The biochemistry and the physiological and molecular actions of jasmonates. Annu Rev Plant Physiol Mol Biol 44: 569–589
Seufert W, Jentsch S (1992) In vivo function of the proteasome in the ubiquitin pathway. EMBO J 11: 3077–3080
Shaaltiel Y, Glazer A, Bocion PF, Gressel J (1988) Cross tolerance to herbicidal and environmental oxidants of plant biotypes tolerant to paraquat, sulfur dioxide, and ozone. Pestic Biochem Physiol 31: 13–23
Sherman MY, Goldberg AL (1992a) Heat shock in Escherichia coli alters the protein binding properties of the chaperonin groEL by inducing its phosphorylation. Nature 357: 167–169
Sherman MY, Goldberg AL (1992b) Involvement of the chaperonin DnaK in the rapid degradation of a mutant protein in Escherichia coli. EMBO J 11: 71–77
Shi Y, Thomas JO (1992) The transport of proteins into the nucleus requires the 70-kilodalton heat shock protein or its cytosolic cognate. Mol Cell Biol 12: 2186–2192
Shinshi H, Mohnen D, Meins F (1987) Regulation of a plant pathogenesis-related enzyme: Inhibition of chitinase and chitinase mRNA accumulation in cultured tobacco tissues by auxin and cytokinin. Proc Natl Acad Sci USA 84: 89–93
Showalter AM (1993) Structure and function of plant cell wall proteins. Plant Cell 5: 9–23
Showalter AM, Zhou J, Rumeau D, Worst SG, Varner JE (1991) Tomato extensin and extensin-like cDNAs: Structure and expression in response to wounding. Plant Mol Biol 16: 547–565
Silver PA, Way JC (1993) Eukaryotic DnaJ homologs and the specificity of Hsp70 activity. Cell 74: 5–6
Singh NK, Bracker CA, Hasegawa PM, Handa AK, Buckel S, Hermodson MA, Pfankoch E, Regnier FE, Bressan RA (1987) Characterization of osmotin: a thaumatin-like protein associated with osmotic adaptation in plant cells. Plant Physiol 85: 529–536
Singh NK, Nelson DE, Kuhn D, Hasegawa PM, Bressan RA (1989) Molecular cloning of osmotin and regulation of its expression by ABA and adaptation to low water potential. Plant Physiol 90: 1096–1101
Skelly S, Fu C-F, Dalie B, Redfield B, Coleman T, Brot N, Weissbach H (1988) Antibody to o32 cross-reacts with DnaK: Association of DnaK protein with Escherichia coli RNA polymerase. Proc Natl Acad Sci USA 85: 5497–5501
Skriver K, Mundy J (1990) Gene expression in response to abscisic acid and osmotic stress. Plant Cell 2: 503–512
Slocum RD, Kaur-Sawhney R, Galston AW (1984) The physiology and biochemistry of polyamines in plants. Arch Biochem Biophys 235: 283–303
Smith TA (1984) Putrescine and inorganic icons. Rec Advanc Phytochem 18: 7–54
Smith BJ, Yaffe MP (1991a) A mutation in the yeast heat-shock factor gene causes temperature-sensitive defects in both mitochondrial protein import and the cell cycle. Mol Cell Biol 11: 2647–2655
Smith BJ, Yaffe MP (1991b) Uncoupling thermotolerance from the induction of heat shock proteins. Proc Natl Acad Sci USA 88: 11091–11094
Smith IK, Polle A, Rennenberg H (1990) Glutathione. In: Alscher RG, Cumming JR (eds), Stress Responses in Plants: Adaptation and Acclimation Mechanisms. Wiley-Liss, New York, pp 201–215
Soli J, Waegemann K (1992) A functionally active protein import complex from chloroplasts. Plant J 2: 253–256
Sorger PK, Pelham HRB (1987) The glucose-regulated protein grp94 is related to heat shock protein hsp90. J Mol Biol 194: 341–344
Stamnes MA, Rutherford SL, Zuker CS (1992) Cyclophilins: a new family of proteins involved in intracellular folding. Trends Cell Biol 2: 272–276
Staswick PE (1992) Jasmonate, genes, and fragrant signals. Plant Physiol 99: 804–807
Staswick PE, Huang J-F, Rhee I (1991) Nitrogen and methyl jasmonate induction of soybean vegetative storage protein genes. Plant Physiol 96: 130–136
Stermer BA, Hammerschmidt R (1987) Association of heat shock induced resistance to disease with increased accumulation of insoluble extensin and ethylene synthesis. Physiol Mol Plant Pathol 31: 453–462
Stintzi A, Heitz T, Kauffmann S, Legrand M, Fritig B (1991) Identification of a basic pathogenesis-related, thaumatin-like protein of virus-infected tobacco as osmotin. Physiol Mol Plant Pathol 37: 137–146
Stone DE, Craig EA (1990) Self-regulation of 70-kilodalton heat shock proteins in Saccharomyces cerevisiae. Mol Cell Biol 10: 1622–1632
Straus DB, Walter WA, Gross CA (1988) Escherichia coli heat shock gene mutants are defective in proteolysis. Genes Devel 2: 1851–1858
Squires C, Squires CL (1992) The Clp proteins: Proteolysis regulators or molecular chaperones? J Bacterid 174: 1081–1085
Sykes K, Gething M-J, Sambrook J (1993) Proline isomerases function during heat shock. Proc Natl Acad Sci USA 90: 5853–5857
Tai P-K, Albers MW, Chang H, Faber LE, Schreiber SL (1992) Association of a 59-kilodalton immunophilin with the glucocorticoid receptor complex. Science 256: 1315–1318
Terlecky SR, Chiang HL, Olson TS, Dice JF (1992) Protein and peptide binding and stimulation of in vitro lysosomal proteolysis by the 73-kDa heat shock cognate protein. J Biol Chem 267: 9202–9209
Tetu B, Lacasse B, Bouchard HL, Lagace R, Huot J, Landry J (1992) Prognostic influence of HSP27 expression in malignant fibrous histiocytoma - A clinicopathological and immunohistochemical study. Cancer Res 52: 2325–2328
Thalhammer T, Kieffer LJ, Jiang T, Handschumacher RE (1992) Isolation and partial characterization of membrane — associated cyclophilin and a related 22-kDa glycoprotein. Europ J Biochem 206: 31–37
Thomas JC, McElwain EMF, Bohnert NJ (1992) Convergent induction of osmotic stressresponses. Abscisic acid, cytokinin and the effect of NaCl. Plant Physiol 100: 416–423
Tilly K, McKittrick N, Zylicz M, Georgopoulos C (1983) The dnaK protein modulates the heat-shock response of Escherichia coli. Cell 34: 641–646
Tissieres A, Mitchell HK, Tracy UM (1974) Protein synthesis in salivary glands of D. melanogaster. Relation to chromosome puffs. J Mol Biol 84: 389–398
Traylor EA, Shore SH, Ransom RF, Dunkle LD (1987) Pathotoxin effects in Sorghum are also produced by mercuric chloride treatment. Plant Physiol 84: 975–978
Tsang EWT, Bowler C, Heronart D, Van Camp W, Villarroel R, Genetello C, van Montageu M, Inze D (1991) Differential regulation of superoxide dismutases in plants exposed to environmental stress. Plant Cell 3: 783–792
Tsukaya H, Takahashi T, Naito S, Komeda Y (1993) Floral organ-specific and constitutive expression of an Arabidopsis thaliana heat shock HSP18.2 = Gus fusion gene is retained even after homeotic conversion of flowers by mutation. Mol Gen Genetics 237: 26–32
Tukendorf A, Rauser WE (1990) Changes in glutathione and phytochelatins in roots of maize seedlings exposed to cadmium. Plant Sci 70: 155–166
Uknes S, Mauch-Mani B, Moyer M, Potter S, Williams S, Dincher S, Chandler D, Slusarenko A, Ward E, Ryals J (1992) Acquired resistance in Arabidopsis. Plant Cell 4: 645–656
Van Loon LC (1983) Mechanisms of resistance in virus-infected plants. In: Bailey JA, Deverall BJ (eds), The Dynamic of Host Defence. Acad Press, Sydney, pp 123–190
Van Loon LC (1985) Pathogenesis-related proteins. Plant Mol Biol 4: 111–116
Vayda ME, Schaeffer HJ (1988) Hypoxic stress inhibits the appearance of wound-response proteins in potato tubers. Plant Physiol 88: 805–809
Vierling E (1991) The roles of heat shock proteins in plants. Annu Rev Plant Physiol Plant Mol Biol 42: 579–620
Vierling E, Sun A (1989) Developmental expression of heat shock proteins in higher plants. In: Cherry JH (ed), Environmental Stress in Plants, NATO ASI Series, Vol G19, Springer Berlin, pp 343–354
Vierstra RD, Burke TJ, Callis J, Hatfield PM, Jabben M, Shanklin J, Sullivan ML (1988) Characterization of the ubiquitin - dependent proteolytic pathway in higher plants. In: Schlesinger MJ, Hershko A (eds), The Ubiquitin System. Cold Spring Harbor Press, pp 119–125
Waegemann K, Soli J (1991) Characterization of the protein import apparatus in isolated outer envelopes of chloroplasts. Plant J 1: 149–158
Wagih EE, Coutts RHA (1981) Similarities in the soluble protein profiles of leaf tissue following either a hypersensitive reaction to virus infection or plasmolysis. Plant Sci Letters 21: 61–69
Waldinger D, Subramanian AR, Cleve H (1989) The polymorphic human chaperonin protein HuCha60 is a mitochondrial protein sensitive to heat shock and cell transformation. Europ J Cell Biol 50: 435–441
Walker-Simmons M, Ryan CA (1977) Wound -induced accumulation of trypsin inhibitor activities in plant leaves. Survey of several plant genera. Plant Physiol 59: 437–439
Walker-Simmons M, Ryan CA (1986) Proteinase inhibitor I accumulation in tomato suspension cultures. Induction by plant and fungal cell wall fragments and an extracellular polysaccharide secreted into the medium. Plant Physiol 80: 68–71
Walter G, Carbone A, Welch WJ (1987) Medium tumor antigen of polyomavirus transformation — defective mutant NG59 is associated with 73-kilodalton heat shock protein. J Virol 61: 405–410
Wang C, Asai DJ, Lazarides E (1980) The 68,000-dalton neurofilament-associated polypeptide is a component of nonneuronal cells and of skeletal myofibrils. Proc Natl Acad Sci USA 77: 1541–1545
Wang C, Lin BL (1993) The disappearance of an Hsc70 species in mung bean seed during germination — purification and characterization of the protein. Plant Mol Biol 21: 317–329
Ward ER, Uknes SJ, Williams SC, Dincher SS, Wiederhold DL, Alexander DC, Ahl-Goy P, Metraux JP, Ryals JA (1991) Coordinate gene activity in response to agents that induce systemic acquired resistance. Plant Cell 3: 1085–1094
Watts FZ, Walters AJ, Moore AL (1992) Characterization of PHSP1, a cDNA encoding a mitochondrial HSP70 from Pisum sativum. Plant Mol Biol 18: 23–32
Welch WJ, Feramisco JR (1985) Rapid purification of mammalian 70,000-dalton stress proteins: Affinity of the proteins for nucleotides. Mol Cell Biol 5: 1229–1237
Welch WJ, Mizzen LA (1988) Characterization of the thermotolerant cell: n Effects on the intracellular distribution of HSP70, intermediate filaments, and snRNP’s. J Cell Biol 106: 1117–1130
Welch WJ, Suhan JP (1985) Morphological study of the mammalian stress response: characterization of changes in cytoplasmic organelles, cytoskeleton, and nucleoli, and appearance of intranuclear actin filaments in rat fibroblasts after heat-shock treatment. J Cell Biol 101: 1198–1211
Weller NK (1988) A 70-kDa microtubule-associated protein in NIL8 cells comigrates with the 70 kDa heat shock protein. Biol Cell 63: 307–318
Werner-Washburne M, Stone DE, Craig EA (1987) Complex interactions among members of an essential subfamily of hsp70 genes in Saccharomyces cerevisiae. Mol Cell Biol 7: 2568–2577
Whatley SA, Leung T, Hall C, Lim L (1986) The brain 68-kilodalton microtubule-associated protein is cognate form of the 70-kilodalton mammalian heat-shock protein and is present as a specific isoform in synaptosomal membranes. J Neurochem 47: 1576–1583
Wickner SH (1990) Three Escherichia coli heat shock proteins are required for PI plasmid DNA replication: Formation of an active complex between E. coli DnaJ protein and the PI initiator protein. Proc Natl Acad Sci USA 87: 2690–2694
Wickner S, Hoskins J, McKenney K (1991a) Function of DnaJ and DnaK as chaperones in origin - specific DNA binding by Rep A. Nature 350: 165–167
Wickner S, Hoskins J, McKenney K (1991b) Monomerization of RepA dimers by heat shock proteins activates binding to DNA replication origin. Proc Natl Acad Sci USA 88: 7903–7907
Wickner S, Skowyra D, Hoskins J, McKenney K (1992) DnaJ, DnaK and GrpE heat shock proteins are required in ori PI DNA replication solely at the RepA monomerization step. Proc Natl Acad Sci USA 89: 10345–10349
Wiech H, Buchner J, Zimmermann R, Jakob U (1992) Hsp90 chaperones protein folding in vitro. Nature 358: 169–170
Wingate VPM, Lawton MA, Lamb CJ (1988) Glutathione causes a massive and selective induction of plant defense genes. Plant Physiol 87: 206–210
Winter J, Sinibaldi R (1991) The expression of heat shock protein and cognate genes during plant development. In: Hightower L, Nover L (eds), Heat Shock and Development. Springer Berlin, pp 85–105
Wolgemuth DJ, Gruppi CM (1991) Heat shock gene expression during mammalian gametogenesis and early embryogenesis. In: Hightower L, Nover L (eds), Heat Shock and Development. Springer Berlin, pp 138–152
Woo KM, Kim KI, Goldberg AL, Ha DB, Chung CH (1992) The heat shock protein ClpB in Escherichia coli is a protein-activated ATPase. J Biol Chem 267: 20429–20434
Xu D, McElroy D, Thornburg RW, Wu R (1993) Systemic induction of a potato pin2 promoter by wounding, methyljasmonate and abscisic acid in transgenic rice plants. Plant Mol Biol 22: 573–588
Yaffe MB, Farr GW, Miklos D, Horvich AL, Sternlicht ML, Sternlicht H (1992) TCP1 complex is a molecular chaperone in tubulin biogenesis. Nature 358: 245–248
Yalovsky S, Paulsen H, Michaeli D, Chitnis PR, Nechushtai R (1992) Involvement of a chloroplast HSP70 heat shock protein in the integration of a protein (light–harvesting complex protein precursor) into the thylakoid membrane. Proc Natl Acad Sci USA 89: 5616–5619
Yang SF, Hoffman NE (1984) Ethylene biosynthesis and its regulation in higher plants. Annu Rev Plant Physiol 35: 155–189
Yenne SP, Hatzios KK (1990) Influence of oxime ether safeners on glutathione content and glutathione-related enzyme activity in seeds and seedlings of grain sorghum. Z Naturforsch 45c: 96–106
Young ND, Galston AW (1983) Putrescine and acid stress. Induction of arginine decarboxylase activity and putrescine accumulation by low pH. Plant Physiol 71: 767–771
Yost HJ, Lindquist S (1991) Heat shock proteins affect RNA processing during the heat shock response of Saccharomyces cerevisiae. Mol Cell Biol 11: 1062–1068
Zeilstra-Ryalls J, Fayet O, Georgopoulos C (1991) The universally conserved GroE (HSP60) chaperonins. Annu Rev Microbiol 45: 301–325
Zhong T, Arndt KT (1993) The yeast SIS1 — protein, a DnaJ homolog, is required for the initiation of translation. Cell 73: 1175–1186
Zhu JK, Shi J, Bressan RA, Hasegawa PM (1993) Expression of an Atriplex nummularia gene encoding a protein homologous to the bacterial molecular chaperone DnaJ. Plant Cell 5: 341–349
Zylicz M, LeBowitz JH, McMacken R, Georgopoulos C (1983) The DnaK protein of Escherichia coli processes an ATPase and autophosphorylating activity and is essential in an in vitro DNA replication system. Proc Natl Acad Sci USA 80: 6431–6435
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Nover, L. (1994). The heat stress response as part of the plant stress network: An overview with six tables. In: Cherry, J.H. (eds) Biochemical and Cellular Mechanisms of Stress Tolerance in Plants. NATO ASI Series, vol 86. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-79133-8_1
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