Sandhya Kulkarni scite author profile

Two peptide-oligothymidylic acids, prepared by joining an 11 residue synthetic peptide containing one internal carboxyl group (Asp side chain) to amino-linker-5'pdT6 and amino-linker-5'pdT10 oligonucleotides, were analyzed by matrix-assisted laser desorption/ionization (MALDI) on a linear time-of-flight mass spectrometer and by electrospray ionization (ESI) on a triple-quadrupole system. These synthetic compounds model peptide-nucleic acid heteroconjugates encountered in antisense research and in studies that use photochemical crosslinking to investigate molecular aspects of protein-nucleic acid interactions. MALDI and ESI sensitivities for the two hybrid compounds were found to be similar respectively to their sensitivities for the pure oligonucleotide parts. In general, MALDI proved to be less affected by sample impurities and more sensitive than ESI, while ESI on the quadrupole produced greater mass accuracy and resolution than MALDI on the time-of-flight instrument. A hybrid's behavior in a MALDI-matrix or an ESI-spray-solvent was found to be governed mainly by the oligonucleotide. A single positive ESI tandem mass spectrum of the peptide-dT6 accounted for the heteroconjugate's entire primary structure including the point of the oligonucleotide's covalent attachment to the peptide.

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Membrane array–based differential profiling of platelets during storage for 52 miRNAs associated with apoptosis

Kannan

Mohan

Kulkarni

et al. 2009

Transfusion

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Respiratory Syncytial Virus Strain A2 Is Resistant to the Antiviral Effects of Type I Interferons and Human MxA

Atreya

Kulkarni

1999

Virology

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Respiratory syncytial virus (RSV) belongs to Paramyxoviridae family of enveloped negative-strand RNA viruses and causes severe bronchiolitis and pneumonia in children younger than 2 years of age. As members of Paramyxoviridae family, RSV and parainfluenza type 3 (PIV3) have similar modes of infection and replication. A variety of negative-strand RNA virus infections, including that of PIV3, are inhibited by human MxA protein, a type I interferon (IFN)-inducible GTPase. We tested whether the MxA protein, induced either by type I human IFNs or by stable transfection of human MxA gene in human (U-87) or simian (Vero) cells, confers resistance to these cells against infection by RSV strain A2. RSV infection was resistant to antiviral effects induced by 0-10,000 U/ml type I IFNs (IFN-alpha or -beta) in both human lung epithelial, A549, and fibroblast, MRC-5 cells. RSV virus yield was reduced only by 10- to 20-fold, and viral protein synthesis was not significantly affected under conditions of IFN treatment where PIV3 yield was reduced by 1000- to 10,000-fold. Human or simian cell lines constitutively expressing MxA were protected against infection by PIV3 but not by RSV. Our results indicate that RSV A2 is resistant to the antiviral effects of MxA, even though RSV and PIV3 have similar replication strategies. In IFN-treated coinfected cultures, IFN-resistant RSV A2 did not prevent the IFN-mediated inhibition of PIV3 multiplication. Hence the resistance of RSV A2 to type I IFNs does not appear to be due to soluble factors released into the medium or a disruption in the cellular antiviral machinery brought about by RSV A2 infection.

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Rubella virus and birth defects: Molecular insights into the viral teratogenesis at the cellular level

Atreya

Mohan

Kulkarni

2004

Birth Defects Research

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Based on several similarities between known RV-associated fetal and cellular manifestations and CK deficiency-associated phenotypes, it is reasonable to postulate that P90-CK interaction in RV-infected cells interferes with CK function and induces cell-cycle arrest following S phase in a subpopulation, perhaps representative of tetraploid stage, which could lead to subsequent apoptosis in RV infection. Taking all these observations to the fetal organogenesis level, it is plausible that P90-CK interaction could perhaps be one of the initial steps in RV infection-induced apoptosis-associated fetal birth defects in utero.

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