Vibrational Markovian modelling of footprints after the interaction of antibiotics with the packaging region of HIV Type 1

Autor:	Ronal Ramos de Armas, Humberto González Díaz, Reinaldo Molina
Rok vydání:	2003
Předmět:	Models Molecular Anti-HIV Agents Paromomycin General Mathematics Molecular Sequence Data Immunology Markov process Context (language use) Models Biological General Biochemistry Genetics and Molecular Biology Matrix (mathematics) symbols.namesake Chain (algebraic topology) Statistics Humans General Environmental Science Mathematics Pharmacology Mathematical and theoretical biology Base Sequence Markov chain General Neuroscience Function (mathematics) Markov Chains Computational Theory and Mathematics Drug Design HIV-1 symbols RNA Viral Graph (abstract data type) General Agricultural and Biological Sciences Biological system
Zdroj:	Bulletin of Mathematical Biology. 65:991-1002
ISSN:	0092-8240
DOI:	10.1016/s0092-8240(03)00064-8
Popis:	The design of novel anti-HIV compounds has now become a crucial area for scientists working in numerous interrelated fields of science such as molecular biology, medicinal chemistry, mathematical biology, molecular modelling and bioinformatics. In this context, the development of simple but physically meaningful mathematical models to represent the interaction between anti-HIV drugs and their biological targets is of major interest. One such area currently under investigation involves the targets in the HIV-RNA-packaging region. In the work described here, we applied Markov chain theory in an attempt to describe the interaction between the antibiotic paromomycin and the packaging region of the RNA in Type-1 HIV. In this model, a nucleic acid squeezed graph is used. The vertices of the graph represent the nucleotides while the edges are the phosphodiester bonds. A stochastic (Markovian) matrix was subsequently defined on this graph, an operation that codifies the probabilities of interaction between specific nucleotides of HIV-RNA and the antibiotic. The strength of these local interactions can be calculated through an inelastic vibrational model. The successive power of this matrix codifies the probabilities with which the vibrations after drug-RNA interactions vanish along the polynucleotide main chain. The sums of self-return probabilities in the k-vicinity of each nucleotide represent physically meaningful descriptors. A linear discriminant function was developed and gave rise to excellent discrimination in 80.8% of interacting and footprinted nucleotides. The Jackknife method was employed to assess the stability and predictability of the model. On the other hand, a linear regression model predicted the local binding affinity constants between a specific nucleotide and the antibiotic (R 2 = 0.91, Q 2 = 0.86). These kinds of models could play an important role either in the discovery of new anti-HIV compounds or the study of their mode of action.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::77c594902c213116e03b0ca05e9922bd https://doi.org/10.1016/s0092-8240(03)00064-8 Zobrazit plný text záznamu Full text from SpringerLink