Kannoth M. Muraleedharan

Highly chemoselective esterification reactions and Boc/THP/TBDMS discriminating deprotections under samarium(III) catalysis.

The usefulness of SmCl(3) as an excellent catalyst for chemoselective esterifications and selective removal of acid sensitive protecting groups such as Boc, THP, and TBDMS in the presence of one another is demonstrated through suitable examples.

Can Helical Peptides Unwind One Turn at a Time? ‐ Controlled Conformational Transitions in α,β2,3‐Hybrid Peptides

Unfolding of helical trans-β(2,3) -hybrid peptides with (α-β)n α composition, when executed by increasing solvent polarity or temperature, proceeded in a systematic manner with the turns unwinding sequentially; C-terminal region of these peptides were first to unwind and the process propagated towards N terminus with more and more β residues equilibrating from the gauche to the anti rotameric state across Cα-Cβ . This is evidenced by clear change in their Cβ H signal splitting, (3)JCαH-CβH values, and sequential disappearance of i,i+2 NOEs.

Benzisothiazolones arrest the cell cycle at the G2/M phase and induce apoptosis in HeLa cells

Anticancer activities of a series of benzisothiazolones having alkyl, aryl and aralkyl substituents on the nitrogen atom and the mechanistic basis of cytotoxicity are presented. Cellular responses like DNA laddering, disruption of mitochondrial membrane potential and caspase-3 activation on incubation of HeLa cells with representative compounds from this group suggested the induction of apoptosis through an intrinsic pathway. Their ability to arrest the cell cycle at the G2/M phase was confirmed by flow cytometric analysis.

Peptide turns through just ‘one atom’! A sulfamide group nucleates folding and stabilizes new supramolecular topologies in short peptides

Peptide segments with centrally placed sulfamide groups showed a remarkable tendency to adopt a turn conformation and exhibited supramolecular topologies like ‘helical stacks’ and ‘hairpin sheets’ through a highly coordinated array of strong and weak hydrogen bonds.

Sulfamide-Lattice Restructuring To Form Dimensionally Controlled Molecular Arrays and Gel-Forming Systems

A design approach that incorporates structural requirements for the formation of a 1D assembly, fibril stability, and fibril-fibril interactions for gelation was attempted by using amino acid-based sulfamides with the general structure Aa-NH-SO2 -NH-Aa (Aa=amino acid). A preference for 1D assembly alone was not a sufficient condition for gelation, which became evident from studies involving sulfamide esters 1-5. Reducing the crystallization tendency without hindering unidirectional growth was executed through diacids of the sulfamide precursors with various amines that form an envelope around the sulfamide core through salt bridges. This strategy was fruitful, and gels of a wide variety of solvents could be formed by varying the acid and amine components. The use of dodecylamine or benzylamine, which could stabilize the molecular layers through alkyl-chain segregation or π-π interactions improved the gelation tendency, whereas the nature of the amino acid side chain, especially the rotational freedom and hydrophobicity, had a direct role in dictating the solvent preference. Crystallographic studies of these two-component systems gave molecular-level insight into the assembly and showed the importance of anisotropy in the distribution of secondary interactions in gelation.

Chemical environment as control element in the evolution of shapes – ‘hexagons and rods’ from an 11-helical α,β2,3-hybrid peptide

Chemical environment-dependent supramolecular assembly of 11-helical α,β2,3-hybrid peptide which give hexagonal or rod-like microcrystalline structures is demonstrated. Apart from the modulatory role by P123, sequential use of organic co-solvents during the initiation and propagation phases is shown to contribute to the size and shape regulation during molecular organization. Comparison of powder XRD data and thermal analysis results suggested that the molecular arrangement in these aggregates is similar to that in their crystals.

N-Methylpyrrolidone Hydroperoxide/Cs2 CO3 as an Excellent Reagent System for the Hydroxy-Directed Diastereoselective Epoxidation of Electron-Deficient Olefins.

This report introduces N-methylpyrrolidone hydroperoxide (NMPOOH)/base as an excellent reagent system for hydroxy-directed syn selective epoxidation of electron-deficient olefins, characterized by high diastereoselectivity, short reaction times and remarkable chemoselectivity, especially in presence of oxidatively labile nitrogen or sulfur atoms. NMPOOH also proves efficient in the oxidation of electron-deficient aromatic aldehydes, in the removal of oxazolidinone chiral auxiliary, and in the functionalization of alkenes and alkynes, showing wide application potential.

N-substituted 1,2-dihydroquinolines as anticancer agents: electronic control of redox stability, assessment of antiproliferative effects, and mechanistic insights.

Redox chemotherapy: Antiproliferative activities of a series of N-substituted 1,2-dihydroquinolines capable of causing redox imbalance in cancer cells are presented. Detailed studies showed that these derivatives arrest the cell cycle in the G2/M phase and induce apoptosis through an intrinsic pathway characterized by loss of mitochondrial membrane potential, DNA fragmentation, cytochrome c release, and activation of caspases 9 and 3.