Abnormal induction of heat shock proteins in an Escherichia coli mutant deficient in adenosylmethionine synthetase activity.

Most prototrophic strains of Escherichia coli become restricted for methionine at 44 degrees C. A mutant strain (RG62 metK) in which the level of S-adenosylmethionine synthetase activity is only 10 to 20% of normal shows constitutive expression of one of the heat shock proteins, the lysU gene product, lysyl-tRNA synthetase form II, at 37 degrees C. These findings suggested a possible linkage between methionine metabolism and heat shock. We examined the induction of heat shock polypeptides in strain RG62 (metK) and in its parent, RG (metK+), from which it was derived by spontaneous mutation. Exponential-phase cultures of the two strains were pulse-labeled with [3H]leucine shortly after a shift from 37 to 44 degrees C, and the total cellular polypeptides were examined by two-dimensional electrophoresis. The results confirmed the constitutive production of the lysU gene product previously reported for strain RG62, but also revealed that the induction of 2 of the 17 heat shock polypeptides, C14.7 and G13.5, was markedly depressed. Otherwise the heat shock induction pattern was similar in timing and magnitude in the two strains. Transformation of the mutant strain with a plasmid, pK8, containing the metK coding sequence and promoter region as a 1.8-kilobase insert into pBR322 restored normal induction of C14.7 and G13.5, but did not prevent constitutive expression of the lysU gene product in the medium required for growth of this strain. The three heat shock polypeptides abnormally controlled in strain RG62 are the three polypeptides which are not induced when rapid synthesis of the htpR gene product is induced by isopropyl-beta-D-thiogalactopyranoside at 28 degree C (R. A. VanBogelen, M. A. Acton, and F. C. Neidhardt, Genes Dev. 1:525-531, 1987). We postulate that induction of these three polypeptides involves metabolic signals in addition to the synthesis of the htpR gene product and that strain RG62 (metK) fails to produce the signals involved in induction of C14.7 and G13.5 on a shift-up in temperature and produces the signal related to lysU induction even at 37 degree C.     

Expression of mammalian liver glycolytic/ gluconeogenic enzymes in Escherichia coli: Recovery of active enzyme is strain and temperature dependent

A number of mammalian enzymes have been expressed in Escherichia coli using the T7 RNA polymerase system, but the production of large amounts of these proteins has been limited by the low percentage of active enzyme that is found in the soluble fraction. In this report the effect of induction temperature was tested on the recovery of four rat liver enzymes, 6-phosphofructo-2-kinase/fructose-2,6- bisphosphatase, fructose-2,6-bisphosphatase, glucokinase, and fructose-1,6-bisphosphatase. We also tested the effect using a host cell strain that contains a plasmid encoding T7 lysozyme, an inhibitor of T7 RNA polymerase. Large amounts of the first three enzymes accumulated in the cells after 4 h of induction at 37 degrees C, but only about 1-2% of the total expressed proteins were recovered in a soluble, active form. When the induction was carried out at 22 degrees C for 48 h with the pLysS strain, 20- to 30-fold higher amounts of the active expressed enzymes were recovered in the soluble fraction, even though the total accumulation and the rate of synthesis of these proteins were reduced. The optimal concentration of isopropyl-1-thio-beta-D-galactopyranoside required for induction was the same at both temperatures. On the other hand, the recovery of active fructose-1,6-bisphosphatase, a heat-stable enzyme, was 66% at 37 degrees C and was essentially unchanged at an induction temperature of 22 degrees C. Lowered induction temperature would appear to be of utility for enhanced recovery of active mammalian enzymes which are insoluble in E. coli cytosol at 37 degrees C.(ABSTRACT TRUNCATED AT 250 WORDS)     

诱导相温度对毕赤酵母表达重组人复合α干扰素聚合的影响

研究了Pichia pastoris表达重组人复合α干扰素(cIFN)时诱导期温度对cIFN形成聚合体的影响。在5L罐上考察毕赤酵母在不同温度(30、25、20℃)下诱导时菌体生长和cIFN表达的差异,发现毕赤酵母在20℃下菌体生长不受影响,总蛋白表达量有所降低,相当于30℃发酵时胞外总蛋白的67.8%。但是通过非还原性电泳、Native-PAGE及Western blotting分析发现较高温度(30℃)诱导表达时,分泌到胞外的cIFN容易形成聚合体,单体含量很少。诱导相控制温度为20℃时,明显降低了cIFN聚合体的形成,cIFN单体量为570mg/L,发酵上清液抗病毒活性为1.05×109IU/mL。与控制诱导相温度为30℃相比,cIFN单体量提高了7.2倍,发酵上清液中单位体积的cIFN抗病毒活性提高了38.7倍。     

人b防御素3和植物des-pGLu1-brazzein融合蛋白表达菌的诱导条件优化及其活性分析

对人b防御素3和植物甜蛋白des-pGlu1-Brazzein嵌合基因的工程菌株BL-pET-hBD3-Bra的IPTG诱导表达条件进行了研究, 同时对所表达的目的蛋白进行了纯化和活性分析。IPTG浓度、诱导时间和诱导温度对菌株生长和目的蛋白表达的试验结果显示: 所取的IPTG浓度(0.2~1.0 mmol/L)对菌株生长和目的蛋白的表达无显著影响(P>0.05); 菌株的生物量随着诱导时间的延长而增加, 6 h优于4 h(P<0.01), 但是蛋白的表达量无明显增加(P>0.05); 其中温度是重要的影响因素, 在30°C诱导时, 目的蛋白的表达量占总蛋白的35%左右。进一步的研究表明, 菌株在30°C~32°C生长, 在 30°C诱导最优。对目的蛋白的活性分析表明, 所得到的hBD3-Bra融合蛋白有甜味, 其甜度大约是蔗糖的200倍, 但是其杀菌活性很弱, 经凝血酶切割后, des-pGlu1-Brazzein的甜度大大提高, 大约为蔗糖甜度的600倍, 重组hBD3对大肠杆菌和金黄色葡萄球菌有明显的抑菌活性。     

Heat shock protein induction in the freshwater prawn Macrobrachium malcolmsonii: acclimation-influenced variations in the induction temperatures for Hsp70

The intracellular build-up of thermally damaged proteins following exposure to heat stress results in the synthesis of heat shock proteins (Hsps). In the present study, the upper thermal tolerance and expression of heat shock protein 70 (Hsp70) were examined in juveniles of the freshwater prawn Macrobrachium malcolmsonii that had been acclimated at two different temperatures, i.e. 20 degrees C (group A) and 30 degrees C (group B), in the laboratory for 30 days. Upper thermal tolerance was determined by a standard method. For heat-shock experiments, prawns in groups A and B were exposed to various elevated temperatures for 3 h each, followed by 1 h recovery at the acclimation temperature. Endogenous levels of Hsp70 were determined in the gill, heart, hepatopancreas and skeletal muscle tissues by Western blotting analysis of one dimensional sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE). The critical thermal maximum (CT max) for prawns in groups A and B was 37.7+/-0.27 degrees C and 41.41+/-0.16 degrees C, respectively. In general, Western blotting analysis for Hsp70 revealed one band at the 70 kDa region, containing both constitutive (Hsc70) and inducible (Hsp70) isoforms, in the gill and heart tissues; these were not detected in the hepatopancreas and skeletal muscle tissues. The onset temperature for Hsp70 induction in both gill and heart tissues was 30 degrees C for prawns in group A and 34 degrees C for those in group B. The optimum induction temperatures (at which Hsp70 induction was maximum) were found to be 34 degrees C and 32 degrees C, respectively, in the gill and heart tissues of group A prawns, and 38 degrees C and 36 degrees C, respectively, for group B prawns. These results suggest that the temperature at which acclimation occurs influences both upper thermal tolerance and Hsp70 induction in M. malcolmsonii.     

Response of Lactobacillus helveticus PR4 to heat stress during propagation in cheese whey with a gradient of decreasing temperatures

The heat stress response was studied in Lactobacillus helveticus PR4 during propagation in cheese whey with a gradient of naturally decreasing temperature (55 to 20 degrees C). Growth under a gradient of decreasing temperature was compared to growth at a constant temperature of 42 degrees C. Proteinase, peptidase, and acidification activities of L. helveticus PR4 were found to be higher in cells harvested when 40 degrees C was reached by a gradient of decreasing temperature than in cells grown at constant temperature of 42 degrees C. When cells grown under a temperature gradient were harvested after an initial exposure of 35 min to 55 degrees C followed by decreases in temperature to 40 (3 h), 30 (5 h 30 min), or 20 degrees C (13 h 30 min) and were then compared with cells grown for the same time at a constant temperature of 42 degrees C, a frequently transient induction of the levels of expression of 48 proteins was found by two-dimensional electrophoresis analysis. Expression of most of these proteins increased following cooling from 55 to 40 degrees C (3 h). Sixteen of these proteins were subjected to N-terminal and matrix-assisted laser desorption ionization-time of flight mass spectrometry analyses. They were identified as stress proteins (e.g., DnaK and GroEL), glycolysis-related machinery (e.g., enolase and glyceraldehyde-3-phosphate dehydrogenase), and other regulatory proteins or factors (e.g., DNA-binding protein II and ATP-dependent protease). Most of these proteins have been found to play a role in the mechanisms of heat stress adaptation in other bacteria.     

单链抗体2F3表达条件的优化及其提纯和性质研究

将构建好的单链抗体 2F3表达载体pTMF2F3ScFv转化到大肠杆菌BL21(DE3)。先挑选出表达量高的单克隆 ,然后让其在 37℃进行表达 ,并将表达时的培养条件进行优化。实验结果表明 :最佳诱导条件为开始诱导时的菌体密度OD_590nm =1.0～ 1.8,所加异丙基β-D 硫代半乳糖苷 (IPTG)的浓度为 0.3～0.5mmol/L ,诱导时间 7h ,优化后目的蛋白表达量占菌体总蛋白的20% ,并用发酵罐成功地进行了扩大培养 ,筛选了洗涤包涵体的最佳条件。采用两步法对包涵体复性进行了研究 ,用Westernblotting及ELISA法检测了所表达的单链抗体及其生物活性 ,并成功制备了含硒单链抗体酶.     

Control of protein synthesis by a temperature-sensitive mutant of reovirus 3. I. Temperature-sensitive function of ts261-b mutant.

The ability of a temperature-sensitive (ts) mutant of reovirus, ts261-b, to synthesize virus-specific RNAs and proteins during infection at the nonpermissive temperature (37 degrees C) was investigated. The relative amounts of the mutant virus-specific single-stranded (ss) RNA''s and double-stranded (ds) RNA''s synthesized in cells at 37 degrees C were 20 to 25% as much as those synthesized in the wild-type virus-infected cells. The 10 segments of the mutant ds RNAs and the three size classes of the ss RNAs were synthesized in the usual proportions. The methylation of the mutant viral mRNA''s (ss RNAs) was not blocked at 37 degrees C in infected cells. A striking temperature-sensitive restricted function of the ts261-b mutant was expressed in the synthesis of the viral proteins. This study, which uses an in vitro protein-synthesizing system reconstituted with an endogenous polysomal fraction and a postribosomal supernatant from reovirus-infected cells, has demonstrated that the endogenous polysomes obtained from ts261-b mutant-infected cells at 37 degrees C are not active in the synthesis of the viral polypeptides of known molecular weights, and the amounts of the mutant viral polypeptides synthesized in vitro by these polysomes are 5 to 9% of those synthesized by the corresponding fraction from wild-type-infected cells. The impaired protein-synthesizing capacity of the mutant virus-specific polysomes can be restored during maintenance of the infected cells at 30 degrees C after shift-down from 37 degrees C. The in vitro synthesis of viral polypeptides of known size by the active endogenous polysomes derived from cells infected at the permissive temperature is accelerated by the addition of the postribosomal supernatant obtained from cells infected at the permissive temperature. The postribosomal supernatant from mutant-infected cells at 37 degrees C did not have a stimulatory effect, but rather, it inhibited in vitro viral protein synthesis.     

Expression and purification of a recombinant enantioselective amidase

Microbacterium sp. AJ115 metabolises a wide range of nitriles using the two-step nitrile hydratase/amidase pathway. In this study, the amidase gene of Microbacterium sp. AJ115 has been inserted into the pCal-n-EK expression vector and expressed in Escherichia coli BL21(DE3)pLysS. The expressed protein is active in E. coli and expression of the amidase gene allows E. coli to grow on acetamide as sole carbon and/or nitrogen source. Expression of active amidase in E. coli was temperature dependent with high activity found when cultures were grown between 20 and 30 degrees C but no activity at 37 degrees C. On induction, the amidase represents 28% of the total soluble protein in E. coli. The expressed amidase has been purified in a single step from the crude lysate using the calmodulin-binding peptide (CBP) affinity tag. The V(max) and K(m) of the purified enzyme with acetamide (50 mM) were 4.4 micromol/min/mg protein and 4.5mM, respectively. The temperature optimum was found to be 50 degrees C. Purified enzyme demonstrated enantioselectivity with the ability to preferentially act on the S enantiomer of racemic (R,S)-2-phenylpropionamide. S-2-phenylpropionic acid is produced with an enantiomeric excess of >82% at 50% conversion of the parent amide.     

Down-regulation of cold-inducible RNA-binding protein does not improve hypothermic growth of Chinese hamster ovary cells producing erythropoietin

Discovery of the cold-inducible RNA-binding protein (CIRP) in mouse fibroblasts suggests that growth suppression at hypothermic conditions is due to an active response by the cell rather than due to passive thermal effects. To determine the effect of down-regulated CIRP expression on cell growth and erythropoietin (EPO) production in recombinant Chinese hamster ovary (rCHO) cells at low culture temperature, stable CHO cell clones with reduced CIRP expression level were established by transfecting (rCHO) cells with the CIRP siRNA vector with a target sequence of TCGTCCTTCCATGGCTGTA. For comparison of the degree of specific growth rate (micro) reduction at low culture temperature, three CIRP-reduced clones with different mu and three control clones transfected with null vector were cultivated at two different temperatures, 32 degrees C and 37 degrees C. Unlike mouse fibroblasts, alleviation of hypothermic growth arrest of rCHO cells by CIRP down-regulation was insignificant, as shown by statistical analysis using the t-test (P<0.18, n=3). The ratios of mu at 32 degrees C to micro at 37 degrees C of CIRP-reduced clones and control clones were 0.29+/-0.03 and 0.25+/-0.03 on an average, respectively. Furthermore, it was also found that overexpression of CIRP did not inhibit rCHO cell growth significantly at 37 degrees C. Taken together, the data obtained show that down-regulation of only CIRP in rCHO cells, unlike mouse fibroblasts, is not sufficient to recover growth arrest at low-temperature culture (32 degrees C).     

Differential expression of two HSP70 transcripts in response to cold shock,thermoperiod, and adult diapause in the Colorado potato beetle

Partial clones for two members of Leptinotarsa decemlineata inducible 70kDa heat shock protein family (LdHSP70A and B) were developed using RT-PCR. LdHSP70A, but not LdHSP70B, was upregulated during adult diapause. The ability of L. decemlineata to express these two genes in response to subzero temperatures depended on the thermal history of the beetles. Chilling diapausing beetles increased the rate at which both LdHSP70A and B were expressed following a cold shock at -10 degrees C. Following cold shock at -10 degrees C, LdHSP70B expression peaked after 3h at 15 degrees C for chilled diapausing individuals, decreasing to near background levels by the sixth hour. In contrast, nonchilled diapausing beetles expressed their highest level of LdHSP70B only after 6h at 15 degrees C. Diapausing beetles exposed to a thermoperiod with a mean temperature of either 0 or -2.5 degrees C expressed significantly higher levels of both LdHSP70A and B than beetles exposed to constant 0 or -2.5 degrees C. These results demonstrate that the expression of LdHSP70A and B is differentially regulated in response to diapause and environmental conditioning.     

Effect of temperature on structure and function of the methanogenic archaeal community in an anoxic rice field soil.

Soil temperatures in Italian rice fields typically range between about 15 and 30 degrees C. A change in the incubation temperature of anoxic methanogenic soil slurry from 30 degrees C to 15 degrees C typically resulted in a decrease in the CH4 production rate, a decrease in the steady-state H2 partial pressure, and a transient accumulation of acetate. Previous experiments have shown that these changes were due to an alteration of the carbon and electron flow in the methanogenic degradation pathway of organic matter caused by the temperature shift (K. J. Chin and R. Conrad, FEMS Microbiol. Ecol. 18:85-102, 1995). To investigate how temperature affects the structure of the methanogenic archaeal community, total DNA was extracted from soil slurries incubated at 30 and 15 degrees C. The archaeal small-subunit (SSU) rRNA-encoding genes (rDNA) of these environmental DNA samples were amplified by PCR with an archaeal-specific primer system and used for the generation of clone libraries. Representative rDNA clones (n = 90) were characterized by terminal restriction fragment length polymorphism (T-RFLP) and sequence analysis. T-RFLP analysis produced for the clones terminally labeled fragments with a characteristic length of mostly 185, 284, or 392 bp. Sequence analysis allowed determination of the phylogenetic affiliation of the individual clones with their characteristic T-RFLP fragment lengths and showed that the archaeal community of the anoxic rice soil slurry was dominated by members of the families Methanosarcinaceae (185 bp) and Methanosaetaceae (284 bp), the kingdom Crenarchaeota (185 or 284 bp), and a novel, deeply branching lineage of the (probably methanogenic) kingdom Euryarchaeota (392 bp) that has recently been detected on rice roots (R. Grosskopf, S. Stubner, and W. Liesack, Appl. Environ. Microbiol. 64:4983-4989, 1998). The structure of the archaeal community changed when the temperature was shifted from 30 degrees C to 15 degrees C. Before the temperature shift, the clones (n = 30) retrieved from the community were dominated by Crenarchaeota (70%), "novel Euryarchaeota" (23%), and Methanosarcinacaeae (7%). Further incubation at 30 degrees C (n = 30 clones) resulted in a relative increase in members of the Methanosarcinaceae (77%), whereas further incubation at 15 degrees C (n = 30 clones) resulted in a much more diverse community consisting of 33% Methanosarcinaceae, 23% Crenarchaeota, 20% Methanosaetaceae, and 17% novel Euryarchaeota. The appearance of Methanosaetaceae at 15 degrees C was conspicuous. These results demonstrate that the structure of the archaeal community in anoxic rice field soil changed with time and incubation temperature.     

Temperature-sensitive clones of herpes simplex virus type 1 from laboratory and clinical strains. I. Cloning and basic pathogenetic and immunogenic properties]

Two HSV-1 strains were used in the study: McIntyre laboratory strain and "eye" strain isolated from a patient. Temperature-sensitive clone of HSV-1 was isolated from McIntyre strain as a consequence of virus replication carried out at lowered temperature (28 degrees C). Temperature-resistant clones were obtained from both strains through passages at 39 degrees C and through heating for four times at 45 degrees C. Pathogenic properties of the temperature clones obtained were determined in inbred mice Balb/c and CFw/Pzh. A loss of pathogenicity for mice of temperature-sensitive clone and an increase of pathogenicity of temperature-resistant clones were noted as compared to parental strains. It was found that an introduction of temperature-sensitive clone, with lowered virulence immunizes against highly virulent temperature-resistant clone.     

Improving solubility of Shewanella oneidensis MR-1 and Clostridium thermocellum JW-20 proteins expressed into Esherichia coli

Low solubility of proteins overexpressed in E. coli is a frequent problem in high-throughput structural genomics. To improve solubility of proteins from mesophilic Shewanella oneidensis MR-1 and thermophilic Clostridium thermocellum JW20, an approach was attempted that included a fusion of the target protein to a maltose-binding protein (MBP) and a decrease of induction temperature. The MBP was selected as the most efficient solubilizing carrier when compared to a glutathione S-transferase and a Nus A protein. A tobacco etch virus (TEV) protease recognition site was introduced between fused proteins using a double polymerase-chain reaction and four primers. In this way, 79 S. oneidensis proteins have been expressed in one case with an N-terminal 30-residue tag and in another case as a fusion protein with MBP. A foreign tag might significantly affect the properties of the target polypeptide. At 37 degrees C and 18 degrees C induction temperatures, only 5 and 17 tagged proteins were soluble, respectively. In fusion with MBP 4, 34, and 38 proteins were soluble upon induction at 37 degrees, 28 degrees, and 18 degrees C, respectively. The MBP is assumed to increase stability and solubility of a target protein by changing both the mechanism and the cooperativity of folding/unfolding. The 66 C. thermocellum proteins were expressed as fusion proteins with MBP. Induction at 37 degrees, 28 degrees, and 18 degrees C produced 34, 57, and 60 soluble proteins, respectively. The higher solubility of C. thermocellum proteins in comparison with the S. oneidensis proteins under similar conditions of induction correlates with the thermophilicity of the host. The two-factor Wilkinson-Harrison statistical model was used to identify soluble and insoluble proteins. Theoretical and experimental data showed good agreement for S. oneidensis proteins; however, the model failed to identify soluble/insoluble Clostridium proteins. A suggestion has been made that the Wilkinson-Harrison model is not applicable to C. thermocellum proteins because it did not account for the peculiarities of protein sequences from thermophiles.     

Efficient 40°C fermentation of <Emphasis Type="SmallCaps">l</Emphasis>-lysine by a new<Emphasis Type="Italic"> Corynebacterium glutamicum</Emphasis> mutant developed by genome breeding

We have recently developed a new L-lysine-producing mutant of Corynebacterium glutamicum by "genome breeding" consisting of characterization and reconstitution of a mutation set essential for high-level production. The strain AHP-3 was examined for L-lysine fermentation on glucose at temperatures above 35 degrees C, at which no examples of efficient L-lysine production have been reported for this organism. We found that the strain had inherited the thermotolerance that the original coryneform bacteria was endowed with, and thereby grew and produced L-lysine efficiently up to 41 degrees C. A final titer of 85 g/l after only 28 h was achieved at temperatures around 40 degrees C, indicating the superior performance of the strain developed by genome breeding. When compared with the traditional 30 degrees C fermentation, the 40 degrees C fermentation allowed an increase in yield of about 20% with a concomitant decrease in final growth level, suggesting a significant transition of carbon flux distribution in glucose metabolism. DNA array analysis of metabolic changes between the 30 degrees C and 40 degrees C fermentations identified several differentially expressed genes in central carbon metabolism although we could not find stringent control-like global induction of amino-acid-biosynthetic genes in the 40 degrees C fermentation. Among these changes, two candidates were picked out as the potential causes of the increased production at 40 degrees C; decreased expression of the citrate synthase gene gltA and increased expression of malE, the product of which involves regeneration of pyruvate and NADPH.     

Cold-induced ependymin expression in zebrafish and carp brain: implications for cold acclimation.

Cold acclimation has been suggested to be mediated by alternations in the gene expression pattern in the cold-adapted fish. To investigate the mechanism of cold acclimation in fish brain at the molecular level, relevant subsets of differentially expressed genes of interest were identified and cloned by the PCR-based subtraction suppression hybridization. Characterization of the selected cold-induced cDNA clones revealed one encoding ependymin. This gene was shown to be brain-specific. The expression of ependymin was induced by a temperature shift from 25 degrees C to 6 degrees C in Cyprinus carpio or 12 degrees C in Danio rerio. Activation of ependymin was detected 2 h after cold exposure and peaked at more than 10-fold at 12 h. This peak level remains unchanged until the temperature returns to 25 degrees C. Although the amount of soluble ependymin protein in brain was not changed by cold treatment, its level in the fibrous insoluble polymers increased 2-fold after exposure to low temperature. These findings indicate that the increase in ependymin expression is an early event that may play an important role in the cold acclimation of fish.     

The regulatory VirA protein of Agrobacterium tumefaciens does not function at elevated temperatures.

Previous studies have shown that Agrobacterium tumefaciens causes tumors on plants only at temperatures below 32 degrees C, and virulence gene expression is specifically inhibited at temperatures above 32 degrees C. We show here that this effect persists even when the virA and virG loci are expressed under the control of a lac promoter whose activity is temperature independent. This finding suggests that one or more steps in the signal transduction process mediated by the VirA and VirG proteins are temperature sensitive. Both the autophosphorylation of VirA and the subsequent transfer of phosphate to VirG are shown to be sensitive to high temperatures (> 32 degrees C), and this correlates with the reduced vir gene expression observed at these temperatures. At temperatures of 32 degrees C and higher, the VirA molecule undergoes a reversible inactivation while the VirG molecule is not affected. vir gene induction is temperature sensitive in an acetosyringone-independent virA mutant background but not in a virG constitutive mutant which is virA and acetosyringone independent. These observations all support the notion that the VirA protein is responsible for the thermosensitivity of vir gene expression. However, an Agrobacterium strain containing a constitutive virG locus still cannot cause tumors on Kalanchoe plants at 32 degrees C. This strain induces normal-size tumors at temperatures up to 30 degrees C, whereas the wild-type Agrobacterium strain produces almost no tumors at 30 degrees C. These results suggest that at temperatures above 32 degrees C, the plant becomes more resistant to infection by A. tumefaciens and/or functions of some other vir gene products are lost in spite of their normal levels of expression.