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Your search keyword '"Ganesh Kumar Mothukuri"' showing total 16 results
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16 results on '"Ganesh Kumar Mothukuri"'

1. Synthesis and direct assay of large macrocycle diversities by combinatorial late-stage modification at picomole scale

Author

Sevan Habeshian, Manuel Leonardo Merz, Gontran Sangouard, Ganesh Kumar Mothukuri, Mischa Schüttel, Zsolt Bognár, Cristina Díaz-Perlas, Jonathan Vesin, Julien Bortoli Chapalay, Gerardo Turcatti, Laura Cendron, Alessandro Angelini, and Christian Heinis

Subjects
Science
Abstract

Macrocycles have potential as therapeutics, but their libraries are currently not large enough for high-throughput screening. Here, the authors show a combinatorial approach to generate a library of almost 20’000 macrocycles by conjugating carboxylic-acid fragments to macrocyclic scaffolds, identifying nanomolar inhibitors against thrombin and binders of MDM2.

Published
2022
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2. In Vitro-Evolved Peptides Bind Monomeric Actin and Mimic Actin-Binding Protein Thymosin-β4

Author

Davide Bertoldo, Verena Hurst, Kai Harada, Kenji Shimada, Christian Heinis, Jonas Wilbs, Raphael J. Gübeli, Yuichiro Takahashi, Ganesh Kumar Mothukuri, Masahiko Harata, Susan M. Gasser, and Christian B. Gerhold

Subjects
0301 basic medicine, Phage display, biology, 010405 organic chemistry, Chemistry, Phalloidin, macromolecular substances, General Medicine, Plasma protein binding, 01 natural sciences, Biochemistry, 0104 chemical sciences, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, Protein structure, biology.protein, Molecular Medicine, Actin-binding protein, Binding site, Peptide library, Actin
Abstract

Actin is the most abundant protein in eukaryotic cells and is key to many cellular functions. The filamentous form of actin (F-actin) can be studied with help of natural products that specifically recognize it, as for example fluorophore-labeled probes of the bicyclic peptide phalloidin, but no synthetic probes exist for the monomeric form of actin (G-actin). Herein, we have panned a phage display library consisting of more than 10 billion bicyclic peptides against G-actin and isolated binders with low nanomolar affinity and greater than 1000-fold selectivity over F-actin. Sequence analysis revealed a strong similarity to a region of thymosin-β4, a protein that weakly binds G-actin, and competition binding experiments confirmed a common binding region at the cleft between actin subdomains 1 and 3. Together with F-actin-specific peptides that we also isolated, we evaluated the G-actin peptides as probes in pull-down, imaging, and competition binding experiments. While the F-actin peptides were applied successfully for capturing actin in cell lysates and for imaging, the G-actin peptides did not bind in the cellular context, most likely due to competition with thymosin-β4 or related endogenous proteins for the same binding site.

Published
2021
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3. Macrocycle synthesis strategy based on step-wise 'adding and reacting' three components enables screening of large combinatorial libraries†

Author

Gerardo Turcatti, Julien Bortoli Chapalay, Alessandro Angelini, Kaycie Deyle, Sangram S. Kale, Jonathan Vesin, Alessandro Zorzi, Carl Leonard Stenbratt, Christian Heinis, Laura Cendron, and Ganesh Kumar Mothukuri

Subjects
Chemistry, Drug development, 010405 organic chemistry, Human plasma, Settore BIO/10 - Biochimica, General Chemistry, Tripeptide, Alkylation, 010402 general chemistry, 01 natural sciences, Combinatorial chemistry, 0104 chemical sciences
Abstract

Macrocycles provide an attractive modality for drug development, but generating ligands for new targets is hampered by the limited availability of large macrocycle libraries. We have established a solution-phase macrocycle synthesis strategy in which three building blocks are coupled sequentially in efficient alkylation reactions that eliminate the need for product purification. We demonstrate the power of the approach by combinatorially reacting 15 bromoacetamide-activated tripeptides, 42 amines, and 6 bis-electrophile cyclization linkers to generate a 3780-compound library with minimal effort. Screening against thrombin yielded a potent and selective inhibitor (Ki = 4.2 ± 0.8 nM) that efficiently blocked blood coagulation in human plasma. Structure–activity relationship and X-ray crystallography analysis revealed that two of the three building blocks acted synergistically and underscored the importance of combinatorial screening in macrocycle development. The three-component library synthesis approach is general and offers a promising avenue to generate macrocycle ligands to other targets., Combination of three efficient chemical reactions allows for solution-phase synthesis of 3780 macrocycles and identification of potent thrombin inhibitor.

Published
2020

13. Design of Stable β-Hairpin Mimetics throughBackbone Disulfide Bonds.

Author

Ganesh Kumar, Mothukuri, Mali, Sachitanand M., Raja, K. Muruga Poopathi, and Gopi, Hosahudya N.

Subjects
*DISULFIDES, *STATINE, *STABILIZING agents, *CHEMICAL bonds, *CONFORMATIONAL analysis, *ENGINEERING design
Abstract

Thesynthesis and utilization of novel thiostatines (β-SH-substitutedγ-amino acids) in the design of backbone-disulfide-stabilizedβ-hairpin mimetics, solution conformations of hybrid β-hairpinsand Cys-disulfide-stabilized α-peptide analogue, their thiolexchange, and proteolytic stability are investigated. The resultssuggest that thiostatines can be used to design proteolytically stablewater-soluble β-hairpin mimetics without deviating from overallβ-hairpin conformation. [ABSTRACT FROM AUTHOR]

Published
2015
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14. Synthesis of Tetrasubstituted Symmetrical Pyrazines from β-Keto γ-Amino Esters: A Mild Strategy for Self-Dimerization of Peptides.

Author

Ganesh Kumar, Mothukuri, Thombare, Varsha J., Bhaisare, Rupal D., Adak, Anindita, and Gopi, Hosahudya N.

Subjects
*PYRAZINES, *AMINO acid synthesis, *DIMERIZATION, *PEPTIDES, *RING formation (Chemistry), *OXIDATION
Abstract

A facile synthesis of highly symmetrical tetrasubstituted pyrazines through simple aerial oxidation of β-keto γ-amino esters is reported. The scope of the reaction was examined by use of various amino acid side-chain functional groups and peptides. The mild and efficient transformation of β-keto γ-amino esters into pyrazines may serve as an attractive strategy for self-dimerization of peptides. [ABSTRACT FROM AUTHOR]

Published
2015
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15. HBTU mediated 1-hydroxybenzotriazole (HOBt) conjugate addition: synthesis and stereochemical analysis of β-benzotriazole N-oxide substituted γ-amino acids and hybrid peptides.

Author

Mali SM, Ganesh Kumar M, Katariya MM, and Gopi HN

Subjects
Amino Acids chemistry, Carbodiimides chemistry, Crystallography, X-Ray, Models, Molecular, Oxides chemistry, Peptides chemistry, Solid-Phase Synthesis Techniques, Stereoisomerism, Amino Acids chemical synthesis, Peptides chemical synthesis, Triazoles chemistry
Abstract

HBTU is a standard coupling agent commonly used for the activation of free carboxylic acids during the solution and solid phase peptide synthesis. 1-Hydroxybenzotriazole (HOBt) plays a significant role in reducing the racemization during peptide synthesis; hence it is regularly used as a coupling additive. Here, we are reporting the mild and facile conjugate addition of HOBt to E-vinylogous γ-amino acids mediated by the HBTU. The reaction is moderately diastereoselective and novel β-benzotriazole N-oxide (β-BtO) substituted γ-amino acids were isolated in moderate to good yields. The single crystal analysis of methyl esters of major (anti) and minor (syn) conjugate addition products infers the formation of exclusively N-alkylated benzotriazole N-oxides instead of O-alkylation of HOBt. In addition, we showed the utilization of β-BtO substituted γ-amino acids in peptide synthesis and studied their conformations in single crystals.

Published
2014
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16. Synthesis and stereochemical analysis of β-nitromethane substituted γ-amino acids and peptides.

Author

Ganesh Kumar M, Mali SM, and Gopi HN

Subjects
Amino Acids chemical synthesis, Crystallography, X-Ray, Esters chemical synthesis, Esters chemistry, Methane chemical synthesis, Methane chemistry, Models, Molecular, Nitroparaffins chemical synthesis, Peptides chemical synthesis, Stereoisomerism, Amino Acids chemistry, Methane analogs & derivatives, Nitroparaffins chemistry, Peptides chemistry
Abstract

The high diastereoselectivity in the Michael addition of nitromethane to α,β-unsaturated γ-amino esters, crystal conformations of β-nitromethane substituted γ-amino acids and peptides are studied. Results suggest that the N-Boc protected amide NH, conformations of α,β-unsaturated γ-amino esters and alkyl side chains play a crucial role in dictating the high diastereoselectivity of nitromethane addition to E-vinylogous amino esters. Investigation of the crystal conformations of both α,β-unsaturated γ-amino esters and the Michael addition products suggests that an H-C(γ)-C(β)=C(α) eclipsed conformer of the unsaturated amino ester leads to the major (anti) product compared to that of an N-C(γ)-C(β)=C(α) eclipsed conformer. The major diastereomers were separated and subjected to the peptide synthesis. The single crystal analysis of the dipeptide containing β-nitromethane substituted γ-amino acids reveals a helical type of folded conformation with an isolated H-bond involving a nine-atom pseudocycle.

Published
2013
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