A Review on Molecular Docking

Molecular docking is computational modeling of structure complexes formed by two or more interacting molecule. The goal of molecular docking is prediction of three dimensional structure of interest. Molecular docking software mostly used in drug improvement. Molecules and effortless entrance to structural databases has befallen essential mechanism. Molecular Docking provide a collection of expensive tools for drug design and analysis. Simple prophecy of molecules and easy way in to structural databases has become essential components on the desktop of the medicinal chemist. The most important application of molecular docking is virtual screening. A variety of docking programs were residential to imagine the three dimensional structure of the molecule and docking gain can also be analyze with the assist of dissimilar computational methods. Molecular docking is a key tool in structural molecular biology and computer-assist drug design. Docking can be worn to execute virtual screening on large libraries of compounds, rank the results, and suggest structural hypotheses of how the ligands reduce the target, which is precious in lead optimization.

Structural Bioinformatics: Computational Software and Databases for the Evaluation of Protein Structure

Databases are the computerized platform where information is stored and can be retrieved easily by public users. Biological databases are the repositories of biological data. These biological data libraries contain facts and figures related to various disciplines of research including genomics, proteomics, microarray technology, metabolomics and phylogenetics. By using biological databases, a broad collection of essential biological information can be exploited ranging from function, structure and localization of gene, clinical consequences of mutation to similarity index among biological sequences and structures. Nowadays, different kinds of biological databases are available on the web. The present write up focuses on biological databases and bioinformatics tools for protein structure analysis. This review also aims to elaborate the searching schemes, available in different structural databases. The wide variety of different levels and types of information content related to 3D protein structures are available on web-based databases. Regarding the biological functions and 3D structures of various proteins, these databases provide a huge range of useful links, schematic diagrams as well as strategies for detailed analysis of proteins and other macromolecules structures. 3D structural illustration of proteins stored in structural databases is determined and visualized by X-ray crystallography, electron microscopy and NMR spectroscopy. On regular basis, a large number of protein structures are submitted by structural biologists, updated and curated by subject experts. Most familiar biological databases that store 3D protein and other macromolecules structures include, PDB, 3D Genomics, CATH, & SCOP. These databases contain valuable information of overall protein structures, domains and motif structures, protein-protein complex systems and complex of protein with other biomolecules.

Tessellate & Montage: Molecular analytics of cyclic conformations

The conformations and shapes of macromolecular structures in biological and synthetic materials often define the macroscopic functions of the systems. Tessellate and Montage provide a standardized toolset for rapid reporting of large datasets allowing comparisons of cyclic molecule conformations (ring pucker) from structural databases and simulation trajectory data. This facilitates an understanding of the dynamic transition between common conformations and the flexible range in a ring that underlies molecular behaviour and recognition properties.

Computational design of cephradine synthase in a new scaffold identified from structural databases

A new protein scaffold was identified and redesigned to catalyze the synthesis of β-lactam antibiotic cephradine.