Isopropyl Thiogalactoside
Thiogalactosides
Lactose
Galactosidases
2-Propanol
Acetyltransferases
Escherichia coli
Metabolic engineering of a 1,2-propanediol pathway in Escherichia coli. (1/345)
1,2-Propanediol (1,2-PD) is a major commodity chemical that is currently derived from propylene, a nonrenewable resource. A goal of our research is to develop fermentation routes to 1,2-PD from renewable resources. Here we report the production of enantiomerically pure R-1,2-PD from glucose in Escherichia coli expressing NADH-linked glycerol dehydrogenase genes (E. coli gldA or Klebsiella pneumoniae dhaD). We also show that E. coli overexpressing the E. coli methylglyoxal synthase gene (mgs) produced 1,2-PD. The expression of either glycerol dehydrogenase or methylglyoxal synthase resulted in the anaerobic production of approximately 0.25 g of 1,2-PD per liter. R-1,2-PD production was further improved to 0.7 g of 1,2-PD per liter when methylglyoxal synthase and glycerol dehydrogenase (gldA) were coexpressed. In vitro studies indicated that the route to R-1,2-PD involved the reduction of methylglyoxal to R-lactaldehyde by the recombinant glycerol dehydrogenase and the reduction of R-lactaldehyde to R-1, 2-PD by a native E. coli activity. We expect that R-1,2-PD production can be significantly improved through further metabolic and bioprocess engineering. (+info)The pro-phenoloxidase of coleopteran insect, Tenebrio molitor, larvae was activated during cell clump/cell adhesion of insect cellular defense reactions. (2/345)
To characterize the proteins involved in cell clump/cell adhesion of insect cellular defense reactions, we induced the cell clump/cell adhesion reaction in vitro with the hemolymph of larvae of the coleopteran insect, Tenebrio molitor. The 72 kDa protein was specifically enriched in the residues of cell clump/cell adhesion and was purified to homogeneity. A cDNA clone for the 72 kDa protein was isolated. We found that the 72 kDa protein was an activated phenoloxidase from Tenebrio pro-phenoloxidase. We suggest that activated phenoloxidase is involved in the cell clump/cell adhesion reaction as well as in the synthesis of melanin. (+info)Effects of varying the expression level of recombinant human mGlu1alpha receptors on the pharmacological properties of agonists and antagonists. (3/345)
1. Different expression levels of the human type 1alpha metabotropic glutamate (mGlu1alpha) receptor were obtained in transfected Chinese hamster ovary cells using an isopropyl beta-D-thiogalactopyranoside (IPTG) inducible system. Expression of mGlu1alpha receptors could not be detected using immunoblotting or immunocytochemical approaches in non-induced cells, however, controlled expression could be induced following IPTG addition in a time- and concentration-dependent manner. 2. In induced cells (100 microM IPTG, 20 h) the agonists L-quisqualate or 1-aminocyclopentane-1S,3R-dicarboxylic acid stimulated large increases in [3H]-inositol (poly)phosphate (in the presence of Li+) and inositol, 1,4,5-trisphosphate levels. 3. Induction with 1-100 microM IPTG allowed the receptor density to be increased incrementally and this not only resulted in an increase in the maximum response to L-quisqualate, 1-aminocyclopentane-1S,3R-dicarboxylic acid and (S)-3,5-dihydroxy-phenylglycine, but also in an increase in the respective potencies of each agent to activate phosphoinositide hydrolysis. 4. The intrinsic activity of the partial agonist 1-aminocyclopentane-1S,3R-dicarboxylic acid dramatically increased with increasing receptor expression. 5. The activities of the competitive mGlu1alpha receptor antagonists (S)-alpha-methyl-4-carboxyphenylglycine and (S)-4-carboxy-3-hydroxyphenylglycine for inhibition of the effects of L-quisqualate or (S)-3,5-dihydroxyphenylglycine were found to be independent of the receptor expression level. 6. When the mGlu1alpha receptor was expressed at very high levels, no evidence for receptor constitutive activity could be detected, and none of the antagonists tested revealed either any intrinsic activity or negative efficacy. 7. These data demonstrate that both the potency and efficacy of mGlu1alpha receptor agonists are influenced by expression level, whilst mGlu1alpha receptor antagonist activities are independent of expression level. (+info)The induction of apoptosis in HeLa cells by the loss of LBP-p40. (4/345)
To analyze the function of the laminin-binding protein precursor p40 (LBP-p40) in higher eukaryotic cells, plasmid DNA expressing antisense or sense cDNA for p40 under the control of the LacSwitch system was introduced into HeLa cells. Stable transformants were isolated, and the expression of p40 was assayed by Western and Northern blotting. The expression level of p40 was not affected in HeLa cell transformants cultured in 10% serum-supplemented media with the induction of antisense (AS)-p40 with 5 mM IPTG. However, both the protein and message for endogenous p40 in serum-depleted media with 5 mM IPTG were reduced to about 30 - 10% of the expression level in serum-free media without 5 mM IPTG. Colony formation was inhibited with the suppression of p40. AS-p40 clones died in 7 days when cultured in serum-depleted media with 5 mM IPTG, while clones without 5 mM IPTG AS-p40 clones never died, even in serum-depleted media. Additionally, sense (S)-p40 clones and control CAT clones survived more than 2 weeks in serum-free media with 5 mM IPTG. DNA fragmentation assay revealed that cell death induced by the reduction of AS-p40 resulted from apoptosis. Both the inhibition of cell growth and apoptotic cell death were partially rescued by the transfer of the p40 cDNA expression vector to AS-p40 clones. Moreover, the introduction of a synthetic hammerhead ribozyme for LBP-p40 using a fusigenic viral liposome suppressed the message for LBP-p40 even in the presence of 10% serum, and it also induced apoptosis. (+info)Catabolite control of Escherichia coli regulatory protein BglG activity by antagonistically acting phosphorylations. (5/345)
In bacteria various sugars are taken up and concomitantly phosphorylated by sugar-specific enzymes II (EII) of the phosphoenolpyruvate:sugar phosphotransferase system (PTS). The phosphoryl groups are donated by the phosphocarrier protein HPr. BglG, the positively acting regulatory protein of the Escherichia coli bgl (beta-glucoside utilization) operon, is known to be negatively regulated by reversible phosphorylation catalyzed by the membrane spanning beta-glucoside-specific EIIBgl. Here we present evidence that in addition BglG must be phosphorylated by HPr at a distinct site to gain activity. Our data suggest that this second, shortcut route of phosphorylation is used to monitor the state of the various PTS sugar availabilities in order to hierarchically tune expression of the bgl operon in a physiologically meaningful way. Thus, the PTS may represent a highly integrated signal transduction network in carbon catabolite control. (+info)Escherichia coli gene ydeA encodes a major facilitator pump which exports L-arabinose and isopropyl-beta-D-thiogalactopyranoside. (6/345)
Inactivation of the Escherichia coli gene ydeA, which encodes a member of the major facilitator superfamily, decreased the efflux of L-arabinose, thereby affecting the expression of AraC-regulated genes. In addition, overexpression of ydeA decreased the expression of genes regulated by isopropyl-beta-D-thiogalactopyranoside. (+info)Coupling efficiencies of beta 1- and beta 2-adrenergic receptors expressed alone or together in transfected GH3 pituitary cells. (7/345)
The relationship between rat beta(1)- and beta(2)-adrenergic receptors (ARs) and cyclic AMP (cAMP) responses was examined by inducible expression of each subtype in transfected GH(3) pituitary cells. Increasing expression of beta(1)- or beta(2)-ARs in stably transfected subclones increased basal cAMP, increased the potency of isoproterenol in stimulating cAMP formation, but did not change the maximal response. A linear relationship was observed between log B(max) and -log EC(50) for isoproterenol, with no significant differences between beta(1)- and beta(2)-ARs. When both subtypes were coexpressed at different densities and ratios, pharmacological analysis showed that both selective and nonselective agonists exerted their effects at least partially through both subtypes. Either subtype alone activated a maximal response when the other subtype was blocked, indicating a complete redundancy in coupling. Agonists could activate responses through either subtype, with responses mediated primarily through the subtype where the agonist was most potent. The nonselective agonist isoproterenol had similar potencies for activating both subtypes; however, the density and ratio of subtypes affected the relative potencies of the selective agonists norepinephrine and zinterol. We conclude that beta(1)- and beta(2)-ARs have similar coupling efficiencies in GH(3) cells, these efficiencies are not altered by coexpression of another subtype, they couple redundantly to cAMP formation, and the relative densities of beta(1)- and beta(2)-ARs control the potencies of selective agonists. (+info)Genome-wide expression profiling in Escherichia coli K-12. (8/345)
We have established high resolution methods for global monitoring of gene expression in Escherichia coli. Hybridization of radiolabeled cDNA to spot blots on nylon membranes was compared to hybridization of fluorescently-labeled cDNA to glass microarrays for efficiency and reproducibility. A complete set of PCR primers was created for all 4290 annotated open reading frames (ORFs) from the complete genome sequence of E.coli K-12 (MG1655). Glass- and nylon-based arrays of PCR products were prepared and used to assess global changes in gene expression. Full-length coding sequences for array printing were generated by two-step PCR amplification. In this study we measured changes in RNA levels after exposure to heat shock and following treatment with isopropyl-beta-D-thiogalactopyranoside (IPTG). Both radioactive and fluorescence-based methods showed comparable results. Treatment with IPTG resulted in high level induction of the lacZYA and melAB operons. Following heat shock treatment 119 genes were shown to have significantly altered expression levels, including 35 previously uncharacterized ORFs and most genes of the heat shock stimulon. Analysis of spot intensities from hybridization to replicate arrays identified sets of genes with signals consistently above background suggesting that at least 25% of genes were expressed at detectable levels during growth in rich media. (+info)IsoPROPYL THIO-galacto-side (IPTG) is a chemical compound used in molecular biology as an inducer of gene transcription. It is a synthetic analog of allolactose, which is the natural inducer of the lac operon in E. coli bacteria. The lac operon contains genes that code for enzymes involved in the metabolism of lactose, and its expression is normally repressed when lactose is not present. However, when lactose or IPTG is added to the growth medium, it binds to the repressor protein (lac repressor) and prevents it from binding to the operator region of the lac operon, thereby allowing transcription of the structural genes.
IPTG is often used in laboratory experiments to induce the expression of cloned genes that have been placed under the control of the lac promoter. When IPTG is added to the bacterial culture, it binds to the lac repressor and allows for the transcription and translation of the gene of interest. This can be useful for producing large quantities of a particular protein or for studying the regulation of gene expression in bacteria.
It's important to note that IPTG is not metabolized by E.coli, so it remains active in the growth medium throughout the experiment and can be added at any point during the growth cycle.
Thiogalactosides are a group of synthetic chemical compounds that are used in biological research, particularly in the study of bacterial chemotaxis and gene expression. They are artificial analogs of natural galactosides (sugar molecules with a galactose unit) in which a sulfur atom replaces one or more oxygen atoms.
The most well-known thiogalactoside is isopropyl β-D-1-thiogalactopyranoside (IPTG), which is widely used as an inducer of gene expression in molecular biology experiments. IPTG binds to the lac repressor protein in E. coli bacteria, preventing it from binding to its target DNA sequence and allowing the transcription of genes under the control of the lac operon, including the β-galactosidase gene. This makes IPTG a valuable tool for inducing the production of recombinant proteins in bacterial expression systems.
Overall, thiogalactosides are important tools in molecular biology and microbiology research, enabling scientists to manipulate and study gene expression and other biological processes with precision and control.
Lactose is a disaccharide, a type of sugar, that is naturally found in milk and dairy products. It is made up of two simple sugars, glucose and galactose, linked together. In order for the body to absorb and use lactose, it must be broken down into these simpler sugars by an enzyme called lactase, which is produced in the lining of the small intestine.
People who have a deficiency of lactase are unable to fully digest lactose, leading to symptoms such as bloating, diarrhea, and abdominal cramps, a condition known as lactose intolerance.
Galactosidases are a group of enzymes that catalyze the hydrolysis of galactose-containing sugars, specifically at the beta-glycosidic bond. There are several types of galactosidases, including:
1. Beta-galactosidase: This is the most well-known type of galactosidase and it catalyzes the hydrolysis of lactose into glucose and galactose. It has important roles in various biological processes, such as lactose metabolism in animals and cell wall biosynthesis in plants.
2. Alpha-galactosidase: This enzyme catalyzes the hydrolysis of alpha-galactosides, which are found in certain plant-derived foods like legumes. A deficiency in this enzyme can lead to a genetic disorder called Fabry disease.
3. N-acetyl-beta-glucosaminidase: This enzyme is also known as hexosaminidase and it catalyzes the hydrolysis of N-acetyl-beta-D-glucosamine residues from glycoproteins, glycolipids, and other complex carbohydrates.
Galactosidases are widely used in various industrial applications, such as food processing, biotechnology, and biofuel production. They also have potential therapeutic uses, such as in the treatment of lysosomal storage disorders like Fabry disease.
2-Propanol is a type of alcohol, also known as isopropanol or isopropyl alcohol. It is a colorless, flammable liquid with a characteristic odor. 2-Propanol is miscible with water and most organic solvents.
It is commonly used as a solvent and as an antiseptic or disinfectant, due to its ability to denature proteins and disrupt microbial cell membranes. In medical settings, 2-Propanol is often used as a skin sanitizer or hand rub to reduce the number of microorganisms on the skin.
Ingestion or prolonged exposure to 2-Propanol can cause irritation to the eyes, skin, and respiratory tract, and may lead to central nervous system depression, nausea, vomiting, and other symptoms. It is important to handle 2-Propanol with care and follow appropriate safety precautions when using it.
Acetyltransferases are a type of enzyme that facilitates the transfer of an acetyl group (a chemical group consisting of an acetyl molecule, which is made up of carbon, hydrogen, and oxygen atoms) from a donor molecule to a recipient molecule. This transfer of an acetyl group can modify the function or activity of the recipient molecule.
In the context of biology and medicine, acetyltransferases are important for various cellular processes, including gene expression, DNA replication, and protein function. For example, histone acetyltransferases (HATs) are a type of acetyltransferase that add an acetyl group to the histone proteins around which DNA is wound. This modification can alter the structure of the chromatin, making certain genes more or less accessible for transcription, and thereby influencing gene expression.
Abnormal regulation of acetyltransferases has been implicated in various diseases, including cancer, neurodegenerative disorders, and infectious diseases. Therefore, understanding the function and regulation of these enzymes is an important area of research in biomedicine.
Myristates are fatty acid molecules that contain fourteen carbon atoms and are therefore referred to as myristic acid in its pure form. They are commonly found in various natural sources, including coconut oil, palm kernel oil, and butterfat. Myristates can be esterified with glycerol to form triglycerides, which are the main constituents of fat in animals and plants.
In a medical context, myristates may be relevant in the study of lipid metabolism, membrane biology, and drug delivery systems. For instance, myristoylation is a post-translational modification where myristic acid is covalently attached to proteins, which can affect their function, localization, and stability. However, it's important to note that direct medical applications or implications of myristates may require further research and context.
'Escherichia coli' (E. coli) is a type of gram-negative, facultatively anaerobic, rod-shaped bacterium that commonly inhabits the intestinal tract of humans and warm-blooded animals. It is a member of the family Enterobacteriaceae and one of the most well-studied prokaryotic model organisms in molecular biology.
While most E. coli strains are harmless and even beneficial to their hosts, some serotypes can cause various forms of gastrointestinal and extraintestinal illnesses in humans and animals. These pathogenic strains possess virulence factors that enable them to colonize and damage host tissues, leading to diseases such as diarrhea, urinary tract infections, pneumonia, and sepsis.
E. coli is a versatile organism with remarkable genetic diversity, which allows it to adapt to various environmental niches. It can be found in water, soil, food, and various man-made environments, making it an essential indicator of fecal contamination and a common cause of foodborne illnesses. The study of E. coli has contributed significantly to our understanding of fundamental biological processes, including DNA replication, gene regulation, and protein synthesis.
1-Propanol is a primary alcohol with the chemical formula CH3CH2CH2OH. It is also known as n-propanol or propan-1-ol. It is a colorless, flammable liquid that is used as a solvent and in the production of other chemicals. 1-Propanol has a wide range of applications including as a disinfectant, an intermediate in the synthesis of other chemicals, and as a component in various industrial and consumer products such as cosmetics, cleaning agents, and pharmaceuticals. It is also used as a fuel additive to increase the octane rating of gasoline.
IPTG Isopropyl Β-D-Thiogalactoside CAS 367-93-1 Dioxane Free 99%
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