Pankaj Gupta scite author profile

Peptide nucleic acids containing thymidine and 2-aminopyridine (M) nucleobases formed stable and sequence selective triple helices with double stranded RNA at physiologically relevant conditions. The M-modified PNA displayed unique RNA selectivity by having two orders of magnitude higher affinity for the double stranded RNAs than for the same DNA sequences. Preliminary results suggested that nucleobase-modified PNA could bind and recognize double helical precursors of microRNAs.

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Triple helical recognition of pyrimidine inversions in polypurine tracts of RNA by nucleobase-modified PNA

Gupta

2011

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Novel structural analogues of piperine as inhibitors of the NorA efflux pump of Staphylococcus aureus

Kumar

Khan

Koul

et al. 2008

Journal of Antimicrobial Chemotherapy

146

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Recognition of Double-Stranded RNA by Guanidine-Modified Peptide Nucleic Acids

2011

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Double helical RNA has become an attractive target for molecular recognition because many non-coding RNAs play important roles in control of gene expression. Recently, we discovered that short peptide nucleic acids (PNA) bind strongly and sequence selectively to a homopurine tract of double helical RNA via triple helix formation. Herein we tested if the molecular recognition of RNA can be enhanced by α-guanidine modification of PNA. Our study was motivated by the discovery of Ly and co-workers that the guanidine modification greatly enhances the cellular delivery of PNA. Isothermal titration calorimetry showed that the guanidine-modified PNA (GPNA) had reduced affinity and sequence selectivity for triple helical recognition of RNA. The data suggested that in contrast to unmodified PNA, which formed a 1:1 PNA-RNA triple helix, GPNA preferred a 2:1 GPNA-RNA triplex-invasion complex. Nevertheless, promising results were obtained for recognition of biologically relevant double helical RNA. Consistent with enhanced strand invasion ability, GPNA derived from D-arginine recognized the transactivation response element (TAR) of HIV-1 with high affinity and sequence selectivity, presumably via Watson-Crick duplex formation. On the other hand, strong and sequence selective triple helices were formed by unmodified and nucelobase-modified PNAs and the purine rich strand of bacterial A-site. These results suggest that appropriate chemical modifications of PNA may enhance molecular recognition of complex non-coding RNAs.

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Pankaj Gupta

VEGF Prevents Apoptosis of Human Microvascular Endothelial Cells via Opposing Effects on MAPK/ERK and SAPK/JNK Signaling

Triple‐Helical Recognition of RNA Using 2‐Aminopyridine‐Modified PNA at Physiologically Relevant Conditions

Triple helical recognition of pyrimidine inversions in polypurine tracts of RNA by nucleobase-modified PNA

Novel structural analogues of piperine as inhibitors of the NorA efflux pump of Staphylococcus aureus

Recognition of Double-Stranded RNA by Guanidine-Modified Peptide Nucleic Acids

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