Genetic characterization and evolutionary inference of TNF-α through computational analysis

Awasthi, Gauri; Singh, Suchita; Dash, A. P.; Das, Ashim

doi:10.1590/s1413-86702008000500006

Cited by 7 publications

(1 citation statement)

References 23 publications

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“…It is a well-known fact that microsatellites are present in eukaryotic genomes due to high mutation rate [32]. This pattern is quite different from other human genes, for example, TNF-α gene where the coding regions have undergone drastic modification in size, while conserving the overall intron length across the taxa [28]. This fact signifies that the NAT2 gene in P. troglodytes might be ancient as compared to others.…”

Section: Rattus Norvegicusmentioning

confidence: 91%

Characterization, comparative genomics, and evolutionary inferences of a human drug metabolizing (NAT2) gene

Khan

Pande

Das

2011

IMAS

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Aim: The present-day genetic architecture of a species bears much significance to its closely related species. In recent availability of whole genome sequence data for closely related species, it is possible to detect genetic similarities/differences in specific lineages and infer the role of evolutionary forces in bringing such similarities/differences. In this respect, NAT2 gene, responsible for drug metabolism, is conserved across a few taxa and, thus, comparative genomic studies could be useful for better pharmacogenetic realization. Methods: DNA sequences of human NAT2 gene were retrieved from NCBI and characterized. Comparative and evolutionary analyses were performed with sequences from four mammalian taxa and one avian taxon with different statistical algorithms. Results: The observed genetic architecture of NAT2 gene was different across the taxa. Phylogenetic inferences revealed that human and chimpanzee are diverged recently and fowl was found to be diverged from rest of the taxa significantly. Also, gene length, microsatellites, Ka/Ks, secondary structure, and distribution of CpG islands were observed across taxa. Conclusions: The detail architecture of NAT2 gene and its evolutionary history in different taxa show relationships with other taxa. Future population-based study in NAT2 would unravel the correlation between nucleotide changes and differential ability of drug metabolization in humans.

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Section: Rattus Norvegicusmentioning

confidence: 91%

Characterization, comparative genomics, and evolutionary inferences of a human drug metabolizing (NAT2) gene

Khan

Pande

Das

2011

IMAS

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Peroxisome proliferator activating receptor (PPAR) in cerebral malaria (CM): a novel target for an additional therapy

Balachandar

Katyal

2010

Eur J Clin Microbiol Infect Dis

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Evolution driven structural changes in CENP-E motor domain

Kumar

Kamaraj

Sethumadhavan

et al. 2013

Interdiscip Sci Comput Life Sci

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Genetic evolution corresponds to various biochemical changes that are vital development of new functional traits. Phylogenetic analysis has provided an important insight into the genetic closeness among species and their evolutionary relationships. Centromere-associated protein-E (CENP-E) protein is vital for maintaining cell cycle and checkpoint signal mechanisms are vital for recruitment process of other essential kinetochore proteins. In this study we have focussed on the evolution driven structural changes in CENP-E motor domain among primate lineage. Through molecular dynamics simulation and computational chemistry approaches we examined the changes in ATP binding affinity and conformational deviations in human CENP-E motor domain as compared to the other primates. Root mean square deviation (RMSD), Root mean square fluctuation (RMSF), Radius of gyration (Rg) and principle component analysis (PCA) results together suggested a gain in stability level as we move from tarsier towards human. This study provides a significant insight into how the cell cycle proteins and their corresponding biochemical activities are evolving and illustrates the potency of a theoretical approach for assessing, in a single study, the structural, functional, and dynamical aspects of protein evolution.

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Genetic characterization and evolutionary inference of TNF-α through computational analysis

Cited by 7 publications

References 23 publications

Characterization, comparative genomics, and evolutionary inferences of a human drug metabolizing (NAT2) gene

Characterization, comparative genomics, and evolutionary inferences of a human drug metabolizing (NAT2) gene

Peroxisome proliferator activating receptor (PPAR) in cerebral malaria (CM): a novel target for an additional therapy

Evolution driven structural changes in CENP-E motor domain

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