Contributions of XylR,CcpA and cre to diauxic growth of Bacillus megaterium and to xylose isomerase expression in the presence of glucose and xylose

Bacillus megaterium shows diauxic growth in minimal medium containing glucose and xylose. We have examined the influence of three elements that regulate xyl operon expression on diauxic growth and expression of a xylA-lacZ fusion. xylA is 13-fold repressed during growth on glucose. Induction occurs at the onset of the lag phase after glucose is consumed. Inactivation of xylR yields a two-fold increase in expression of xylA on glucose. Deletion of the catabolite responsive element (cre) has a more pronounced effect, reducing glucose repression from 13-fold in the wild type to about 2.5-fold. When xylR and cre are inactivated together a residual two-fold repression of xylA is found. Inactivation of xylR affects diauxic growth by shortening the lag phase from 70 to 40?min. In-frame deletion of ccpA results in the loss of diauxic growth, an increase in doubling time and simultaneous use of both sugars. In contrast, a strain with an inactivated cre site in xylA exhibits diauxic growth without an apparent lag phase on glucose and xylose, whereas fructose and xylose are consumed simultaneously.     

Contributions of XyIR, CcpA andcre to diauxic growth ofBacillus megaterium and to xylose isomerase expression in the presence of glucose and xylose

Bacillus megaterium shows diauxic growth in minimal medium containing glucose and xylose. We have examined the influence of three elements that regulatexyl operon expression on diauxic growth and expression of axylA-lacZ fusion.xylA is 13-fold repressed during growth on glucose. Induction occurs at the onset of the lag phase after glucose is consumed. Inactivation ofxylR yields a two-fold increase in expression ofxylA on glucose. Deletion of the catabolite responsive element (cre) has a more pronounced effect, reducing glucose repression from 13-fold in the wild type to about 2.5-fold. WhenxylR andcre are inactivated together a residual two-fold repression ofxylA is found. Inactivation ofxylR affects diauxic growth by shortening the lag phase from 70 to 40 min. In-frame deletion ofccpA results in the loss of diauxic growth, an increase in doubling time and simultaneous use of both sugars. In contrast, a strain with an inactivatedcre site inxylA exhibits diauxic growth without an apparent lag phase on glucose and xylose, whereas fructose and xylose are consumed simultaneously.     

A gene correcting the defect in the CHO mutant Ade -H, deficient in a branch point enzyme (adenylosuccinate synthetase) of de novo purine biosynthesis, is located on the long arm of chromosome 1

Somatic hybrids between human cells and the Chinese hamster ovary (CHO) K1 mutant, Ade -H cells, were selected for purine prototrophy by growth in adenine-free medium. The Ade -H mutant is defective in the enzyme adenylosuccinate (AMPS) synthetase (ADSS; EC 6.3.4.4), which carries out the first of a two-step sequence in the biosynthesis of AMP from IMP, and therefore requires exogenous adenine for growth. The presence of the long arm of human chromosome 1 in the hybrids is 100% concordant for the ability to grow in adenine-free medium and restoration of the enzyme activity. Hybrid segregants that lose the ability to grow in adenine-free medium lose all or a portion of chromosome 1 and enzyme activity. Southern blot hybridization with a chromosome 1-specific probe, BCMI, confirms the existence of human chromosome 1 in these hybrids. Analysis of a human/CHO translocation chromosome that arose in one of the hybrids suggests that the gene correcting the defect lies in the region 1 cen-1q12. In summary, we have shown by cytogenetics, segregant analysis, biochemical assay, and Southern blot analysis that human chromosome 1, most likely in the region 1cen-1q12, corrects the defect in ADSS-deficient mutant Ade-H cells.     

Diauxic growth in Azotobacter vinelandii.

Azotobacter vinelandii exhibited diauxie when grown in a medium containing both acetate and glucose as carbon sources. Acetate was used as the primary carbon source during the acetate-glucose diauxie. Uptake of acetate was constitutively expressed during both diauxic phases of growth. Induction of the glucose uptake system was inhibited in the presence of acetate. Acetate was also the preferred growth substrate for A. vinelandii grown in a medium containing either fructose, maltose, xylitol, or mannitol. The tricarboxylic acid cycle intermediates citrate, isocitrate, and 2-oxoglutarate inhibited glucose utilization in cells grown in glucose medium containing these substrates, and diauxic growth was observed under these growth conditions. Temporal expression of isocitrate-lyase, ATPase, and nitrogenase was exhibited during acetate-glucose diauxie.     

Induction of growth phase-specific autolysis in <Emphasis Type="Italic">Bacillus subtilis</Emphasis> 168 by growth inhibitors

Growth phase-specific autolysis of Bacillus subtilis by inhibitors of membrane permeability, inhibitors of macromolecule biosynthesis, inhibitors of cell wall biosynthesis and detergents were tested and characterized in glucose limited liquid medium. The minimum autolysin induction concentration (MAIC) of test compounds, which was at least l/20th lower than the conventional autolysis induction concentration, induced autolysis only for cells at the glucose exhaustion point (diauxic point) of the growth phase, while it was not induced for cells at pre- and post-diauxic points. Inhibitors of macromolecule synthesis that are not known for inducing autolysis, such as chloramphenicol, rifampicin, nalidixic acid, and detergents, also induced specific autolysis. Two types of autolysis corresponding to the concentrations of compounds are distinguished: concentration-sensitive and concentration-insensitive types.     

Inhibition of Yeast Growth by Methionine

The accumulation of S-adenosylmethionine in adenine-requiring yeast cells grown in a culture medium containing dl-, l-, or d-methionine was much larger than that in cells grown in a methionine-free medium. The accumulation of S-adenosyl-d-methionine in the cells was significantly lower than that of S-adenosyl-l-methionine. When yeast cells containing a large amount of S-adenosyl-l-methionine were incubated in an adenine-free medium, adenosylmethionine was degraded, but poor and insignificant growth was observed indicating the meager nature of this compound as an adenine source. No degradation of accumulated S-adenosyl-d-methionine was detected. Isotopic experiment revealed that S-adenosyl-l-methionine in the yeast cells turned over at a considerable rate when the medium contained both adenine and l-methionine. Most of the l-methionine assimilated appears to be metabolized via S-adenosyl-l-methionine.     

Diauxic growth of Clostridium thermosaccharolyticum on glucose and xylose

Abstract Clostridium thermosaccharolyticum growing on medium containing glucose and xylose exhibits classical diauxic growth in which glucose is utilized during the first phase. The lag period between growth phases is associated with induction of synthesis of a xylose transport system together with the enzymes xylose isomerase and xylukokinase. Xylose metabolism by this organism is therefore shown to be inducible and subject to repression by glucose. Xylose utilization by cells adapted to this carbon source is also prevented immediately upon addition of glucose to the culture, suggesting a direct inhibitory effect of glucose on xylose uptake or metabolism.     

Role of inducer exclusion in preferential utilization of glucose over melibiose in diauxic growth of Escherichia coli

The role of inducer exclusion in diauxic growth of Escherichia coli on glucose and melibiose was investigated. The amounts of glucose and melibiose in the culture medium were determined during the diauxie. Glucose was consumed during the first growth cycle of the diauxie, and melibiose was consumed during the second cycle. The addition of adenosine 3',5'-cyclic monophosphate to the culture medium released both transient and catabolite repressions on the melibiose operon by glucose. Biphasic growth without a transient lag phase was observed in the presence of adenosine 3',5'-cyclic monophosphate. Preferential utilization of glucose over melibiose was observed even under such conditions. Thus, it is clear that inducer exclusion alone is sufficient to ensure the preferential utilization of glucose over melibiose. Similar results were obtained from a glucose-lactose diauxie. Inducer exclusion itself was not affected by adenosine 3',5'-cyclic monophosphate.     

Regulation of hydrolase formation and phosphate release in turimycin fermentations

During the turimycin fermentation hydrolytic enzymes are excreted responsible for orthophosphate release from phosphate-containing dissolved and undissolved complex medium constituents. Following a phosphate-limited growth period the phosphate release leads to a second growth period (diauxic growth). Depending on the rate of phosphate release the length of the lag phase of diauxic growth changes in different fermentations. The resulting second growth period is correlated with a transient delay in the formation of turimycin, of phosphatases and of nucleases. The amylolytic activities are formed already within the first hours after the beginning of fermentations. Phosphatases, nucleases and protease are excreted parallel to turimycin formation after extracellular phosphate limitation in presence of ammonia and glucose. A special role of phosphate limitation initiating enzyme synthesis is proposed.     

Regulation of beta-1, 4-Glucosidase Expression by Candida wickerhamii

Candida wickerhamii NRRL Y-2563 expressed beta-glucosidase activity (3 to 8 U/ml) constitutively when grown aerobically in complex medium containing either glycerol, succinate, xylose, galactose, or cellobiose as the carbon source. The addition of a high concentration of glucose (>75 g/liter) repressed beta-glucosidase expression (<0.3 U/ml); however, this yeast did produce beta-glucosidase when the initial glucose concentration was 相似文献   

Lovastatin biosynthesis by Aspergillus terreus in a chemically defined medium

Lovastatin is a secondary metabolite produced by Aspergillus terreus. A chemically defined medium was developed in order to investigate the influence of carbon and nitrogen sources on lovastatin biosynthesis. Among several organic and inorganic defined nitrogen sources metabolized by A. terreus, glutamate and histidine gave the highest lovastatin biosynthesis level. For cultures on glucose and glutamate, lovastatin synthesis initiated when glucose consumption levelled off. When A. terreus was grown on lactose, lovastatin production initiated in the presence of residual lactose. Experimental results showed that carbon source starvation is required in addition to relief of glucose repression, while glutamate did not repress biosynthesis. A threefold-higher specific productivity was found with the defined medium on glucose and glutamate, compared to growth on complex medium with glucose, peptonized milk, and yeast extract.     

Effect of temperature on diauxic growth with glucose and organic acids in Pseudomonas fluorescens

Growth of Pseudomonas fluorescens in batch culture with glucose and organic acids resulted in typical diauxic responses at 30° C but no detectable diauxic lag at 5° C.At 30° C, organic acids were preferentially utilized during the first growth phase. Glucose utilization was delayed unitl onset of the second growth phase. Systems involved in direct uptake and catabolism of glucose responded in a manner compatible with respression by malate and/or its metabolites and induction by glucose and/or its metabolites. The oxidative non-phosphorylated pathway, through gluconate and 2-ketogluconate (2-KG) as intermediates, was not induced during either growth phase.At 5° C, growth with glucose and organic acids was biphasic but without diauxic lag. Organic acids were preferentially utilized during the first growth phase. Although carbon from glucose was not fully catabolized until onset of the second growth phase, glucose was oxidized to and accumulated extracellularly as gluconate and 2-KG during the first growth phase. No significant repression of glucose-catabolizing enzymes was observed during growth with organic acids in the presence of glucose. However, uptake activities for gluconate and 2-KG did not increase significantly until onset of the second growth phase.Thus, at low temperatures, psychrotrophic P. fluorescens oxidized glucose to extracellular 2-KG, while growing on preferred carbon sources. The 2-KG was then catabolized after depletion of the organic acid.     

Impact of the growth phase on the activity of multidrug resistance pumps and membrane potential of S. cerevisiae: effect of pump overproduction and carbon source

The potentiometric fluorescence probe diS-C3(3) is expelled from S. cerevisiae by ABC pumps Pdr5 and Snq2 and can conveniently be used for studying their performance. The activity of these pumps in a strain with wild-type PDR1 allele was shown to drop sharply on glucose depletion from the medium and then again at the end of the diauxic shift when the cells are adapted to growth on respiratory substrates. The presence of the PDR1-3 allele causing pump overproduction prevented this second drop and the pump activity typical for diauxic cells was largely retained. Growth phase-dependent changes of membrane potential measured by the same probe in pump-free mutants included a Deltapsi drop in the late exponential and diauxic growth phase, indicating lowered activity of H+ -ATPase. Suppression of activity of both ABC pumps and H+ -ATPase obviously signifies cell transition to an energy-saving mode. Challenging respiration-adapted cells with glucose showed a novel feature of yeast ABC pumps--a strong dependence of pump activity on the type of the carbon source.     

Lovastatin Biosynthesis by Aspergillus terreus in a Chemically Defined Medium

Lovastatin is a secondary metabolite produced by Aspergillus terreus. A chemically defined medium was developed in order to investigate the influence of carbon and nitrogen sources on lovastatin biosynthesis. Among several organic and inorganic defined nitrogen sources metabolized by A. terreus, glutamate and histidine gave the highest lovastatin biosynthesis level. For cultures on glucose and glutamate, lovastatin synthesis initiated when glucose consumption levelled off. When A. terreus was grown on lactose, lovastatin production initiated in the presence of residual lactose. Experimental results showed that carbon source starvation is required in addition to relief of glucose repression, while glutamate did not repress biosynthesis. A threefold-higher specific productivity was found with the defined medium on glucose and glutamate, compared to growth on complex medium with glucose, peptonized milk, and yeast extract.     

基因工程人α心钠素发酵研究

本研究采用的基因工程菌为酵母Y33：：YFD71－3,其基因型为α,his,1eu,ade,suc．摇瓶培养时心钠素的表达水平为l～2rag／L。在含有葡萄糖、YNB以及不同量腺嘌呤、组氨酸和亮氨酸的YG培养基中作摇瓶培养．当细胞的生长由腺嘌呤限制时,蛋白的分泌有明显增加·在YG培养基中加入5g／L的CAA后腺嘌呤成为限制性基质,培养基中腺嘌呤、YNB和亮氪酸用量对心钠素的表达有很大影响。在5L反应器中进行补料分批培养,流加葡萄糖、YNB、cAA、腺嘌呤、组氨酸和亮氨酸,心钠素的最高浓度达到24．8mg／L。     

Determination of diauxic lag in continuous culture

A procedure was developed to characterize diauxic lag of bacteria switching between electron acceptors in continuous culture. In this procedure, a virtual batch growth curve is developed by integrating the time-dependent net specific growth rates of bacteria observed under continuous flow conditions. The length of diauxic lag and the highest net specific growth rate following lag are conveniently estimated from the virtual batch curve. The procedure was found to give reproducible diauxic lag lengths and highest net specific growth rates when applied to experimental data from replicate continuous culture trials.     

Alteration of glucose metabolism of Arthrobacter crystallopoietes by compounds which induce sphere to rod morphogenesis

Succinate and several other compounds which induce sphere to rod morphogenesis of A. crystallopoietes were found to suppress both catabolism and assimilation of glucose. Diauxic growth patterns resulted from growth on glucose plus any one of these compounds. Glutamate stimulated growth but was not an inducer of morphogenesis. With this compound, diauxic growth and suppression of glucose catabolism or assimilation did not occur. Glucose permease was studied with alpha-methylglucoside as substrate. The entry system for glucose was found to involve active transport and to have a K(m) of 8 x 10(-4)m. It was inducible, was repressed in succinate-grown cells, and was also inhibited by succinate. The exit system was constitutive and appeared to be less sensitive than the entry system to inhibition by azide. The properties of the glucose permease system may account for the slow growth of the organism on glucose and the preferred use of other substrates for growth. Studies of metabolic pathways for glucose metabolism indicated the operation of the Embden-Meyerhof-Parnas (EMP) and pentose phosphate pathways and of the tricarboxylic acid cycle. Cells grown on glucose plus limiting amounts of succinate or other inducers of morphogenesis metabolized the glucose only after exhaustion of the inducers. Under these circumstances, the organisms employed the EMP pathway to a greater extent than when growing on glucose as sole carbon source.