Surbhi Gupta scite author profile

Ras proteins signal through direct interaction with a number of effector enzymes, including type I phosphoinositide (PI) 3-kinases. Although the ability of Ras to control PI 3-kinase has been well established in manipulated cell culture models, evidence for a role of the interaction of endogenous Ras with PI 3-kinase in normal and malignant cell growth in vivo has been lacking. Here we generate mice with mutations in the Pi3kca gene encoding the catalytic p110alpha isoform that block its interaction with Ras. Cells from these mice show proliferative defects and selective disruption of signaling from growth factors to PI 3-kinase. The mice display defective development of the lymphatic vasculature, resulting in perinatal appearance of chylous ascites. Most importantly, they are highly resistant to endogenous Ras oncogene-induced tumorigenesis. The interaction of Ras with p110alpha is thus required in vivo for certain normal growth factor signaling and for Ras-driven tumor formation.

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Bimodal Protection of DNA by Mycobacterium smegmatis DNA-binding Protein from Stationary Phase Cells

Gupta¹,

Chatterji

2003

Journal of Biological Chemistry

120

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Some members of the DNA-binding protein from stationary phase cells (Dps) family of proteins have been shown to play an important role in protecting microorganisms from oxidative or nutritional stress. Dps homologs have been identified in various bacteria such as Escherichia coli, Bacillus subtilis, and Listeria innocua. Recently we have reported the presence of a Dps homolog, Ms-Dps, in Mycobacterium smegmatis. Ms-Dps was found to have a nonspecific DNA binding ability. Here we have detected two stable oligomeric forms of Ms-Dps in vitro, a trimeric and a dodecameric form. Interestingly, the conversion of Dps from a trimeric to a dodecameric form takes place upon incubation at 37°C for 12 h. These two oligomeric forms differ in their DNA binding properties. The dodecameric form is capable of DNA binding and forming large crystalline arrays with DNA, whereas the trimeric form cannot do so. However, even in the absence of DNA binding, the trimeric form has the capacity to protect the DNA against Fenton'smediated damage. The protection is afforded by the ferroxidase activity of the trimer. However, the trimeric form cannot protect DNA from DNaseI attack, for which a direct physical shielding of DNA by the dodecamer is required. Thus we suggest that Ms-Dps provides a bimodal protection of DNA by its two different oligomeric forms.Microorganisms have developed efficient mechanisms to adapt rapidly and to survive a variety of chemical and physical stress conditions (1). Generation of reactive oxygen species (ROS) 1 is one such stressful condition. ROS are potent cellular oxidizing agents that damage proteins, membrane lipids, and DNA (2-3). During aerobic growth, generation of ROS and of hydrogen peroxide (H 2 O 2 ) is unavoidable. Reaction of H 2 O 2 with free transition metals like ferrous iron can result in the formation of highly reactive hydroxyl radicals (OH ⅐ ) (4). To minimize damages through such ROS, microorganisms have evolved a number of protective ways that help in maintaining the biomolecules in native state. ROS scavenging enzymes such as superoxide dismutases, catalases, and peroxidases, oxidative damage repair enzymes (2, 3), and a nonspecific DNA binding and protecting protein, Dps, (DNA binding protein from stationary phase cells) (5) are a few examples in this category. Almost all the bacteria when exposed to ROS exhibit an adaptive response by switching on the expression of genes coding for these proteins (6). Such strategies are all the more important for pathogenic bacteria because production of reactive oxygen species is a major killing mechanism adopted by many hosts. These schemes also become important during the growth of the organism in stationary phase or during nutrient limiting condition. Thus, the regulation of gene expression upon the induction of starvation and during the stationary phase has been an area of intense research.In the stationary phase cultures of Escherichia coli, the existence of a novel protein Dps was discovered around a decade ago (5). It is a nonspecific DNA bind...

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X-ray Analysis of Mycobacterium smegmatis Dps and a Comparative Study Involving Other Dps and Dps-like Molecules

Roy

Gupta

Das

et al. 2004

Journal of Molecular Biology

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Proteomics analysis of carbon-starved Mycobacterium smegmatis: induction of Dps-like protein

Gupta¹,

Pandit²,

Srinivasan³

et al. 2002

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Mycobacterium tuberculosis is a globally successful pathogen, infecting more than one third of total world's population. These bacteria have the remarkable ability to persist in the host for long periods of time unrecognized by the immune system and then to re-emerge later in life causing the disease. The physiology of such persistent or dormant bacilli is not very well characterized. Some evidence suggests that the dormant bacilli survive in a nutrient-deprived state that is similar to the stationary phase of the bacteria with respect to gene expression and physiology. Under this assumption we have studied the survival of Mycobacterium smegmatis in carbon starvation conditions as a model for mycobacterial persistence. M.smegmatis, being a fast-growing strain, serves as a good model to study starvation responses. Using the two-dimensional electrophoresis-based proteomics approach, we identified a protein which was found to be expressed preferentially under starvation conditions. This protein is homologous to a family of proteins called Dps (DNA binding Protein from Starved cells) that are known to protect DNA under various kinds of environmental stresses and its existence has, so far, not been reported in mycobacteria. Upon expression and purification of this protein, we observed that it has non-specific DNA-binding ability. Formation of a cage-like dodecamer structure is a characteristic feature of Dps. Using comparative modelling we were able to show that Dps from M.smegmatis could form a dodecamer structure similar to the crystal structure of Dps from Escherichia coli.

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Surbhi Gupta

Binding of Ras to Phosphoinositide 3-Kinase p110α Is Required for Ras- Driven Tumorigenesis in Mice

Bimodal Protection of DNA by Mycobacterium smegmatis DNA-binding Protein from Stationary Phase Cells

X-ray Analysis of Mycobacterium smegmatis Dps and a Comparative Study Involving Other Dps and Dps-like Molecules

Proteomics analysis of carbon-starved Mycobacterium smegmatis: induction of Dps-like protein

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