Vijayalakshmi Ramakrishnan scite author profile

Vijayalakshmi Ramakrishnan

5Publications

84Citation Statements Received

81Citation Statements Given

How they've been cited

How they cite others

107

Affiliations

The University of Texas Southwestern Medical Center, MSD (United States), University of Florida

Publications

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Functional analysis of sites within PCSK9 responsible for hypercholesterolemia

Pandit

Wisniewski

Santoro

et al. 2008

Journal of Lipid Research

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Mutations within proprotein convertase subtilisin/ kexin type 9 (PCSK9) are associated with dominant forms of familial hypercholesterolemia. PCSK9 binds the LDL receptor (LDLR), and addition of PCSK9 to cells promotes degradation of LDLR. PCSK9 mutant proteins associated with hypercholesterolemia (S127R and D374Y) are more potent in decreasing LDL uptake than is wildtype PCSK9. To better understand the mechanism by which mutations at the Ser127 and Asp374 residues of PCSK9 influence PCSK9 function, a limited vertical scanning mutagenesis was performed at both sites. S127R and S127K proteins were more potent in decreasing LDL uptake than was wild-type PCSK9, and each D374 mutant tested was more potent in reducing LDL uptake when the proteins were added exogenously to cells. The potencies of D374 mutants in lowering LDL uptake correlated with their ability to interact with LDLR in vitro. Combining S127R and D374Y was also found to have an additive effect in enhancing PCSK9's ability to reduce LDL uptake. Modeling of PCSK9 S127 and D374 mutations indicates that mutations that enhance PCSK9 function stabilize or destabilize the protein, respectively. In conclusion, these results suggest a model in which mutations at Ser127 and Asp374 residues modulate PCSK9's ability to regulate LDLR function through distinct mechanisms.-Pandit, S

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PBDEs in US and German clothes dryer lint: A potential source of indoor contamination and exposure

et al. 2009

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Impacts of Co-Solvent Flushing on Microbial Populations Capable of Degrading Trichloroethylene

Ramakrishnan

Ogram²,

Lindner

2005

Environ Health Perspect

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With increased application of co-solvent flushing technologies for removal of nonaqueous phase liquids from groundwater aquifers, concern over the effects of the solvent on native microorganisms and their ability to degrade residual contaminant has also arisen. This study assessed the impact of ethanol flushing on the numbers and activity potentials of trichloroethylene (TCE)-degrading microbial populations present in aquifer soils taken immediately after and 2 years after ethanol flushing of a former dry cleaners site. Polymerase chain reaction analysis revealed soluble methane monooxygenase genes in methanotrophic enrichments, and 16S rRNA analysis identified Methylocystis parvus with 98% similarity, further indicating the presence of a type II methanotroph. Dissimilatory sulfite reductase genes in sulfate-reducing enrichments prepared were also observed. Ethanol flushing was simulated in columns packed with uncontaminated soils from the dry cleaners site that were dosed with TCE at concentrations observed in the field; after flushing, the columns were subjected to a continuous flow of 500 pore volumes of groundwater per week. Total acridine orange direct cell counts of the flushed and nonflushed soils decreased over the 15-week testing period, but after 5 weeks, the flushed soils maintained higher cell counts than the nonflushed soils. Inhibition of methanogenesis by sulfate reduction was observed in all column soils, as was increasing removal of total methane by soils incubated under methanotrophic conditions. These results showed that impacts of ethanol were not as severe as anticipated and imply that ethanol may mitigate the toxicity of TCE to the microorganisms.

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Evaluation of Corrosion Resistance of Electrodeposited Chromium

Govindarajan¹,

Ramakrishnan²,

Subramanian³

et al. 1991

KEM

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Studies on Bimetallic Corrosion

Venusubramanian¹,

Rajagopal²,

Ramakrishnan³

et al. 1991

KEM

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