Bioinformatics challenges and potentialities in studying extreme environments

Biological systems show impressive adaptations at extreme environments. In extreme environments, directional selection pressure mechanisms acting upon mutational events often produce functional and structural innovations. Examples are the antifreeze proteins in Antarctic fish and their lack of hemog...

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Bibliographic Details
Main Authors: Angione C, Liò P, Pucciarelli S, Can B, Conway M, LOTTI, MARINA, Bukhari H, Mancini A, Sezerman U, Telatin A.
Other Authors: Angelini, C, Rancoita, P, Rovetta, S, Angione, C, Liò, P, Pucciarelli, S, Can, B, Conway, M, Lotti, M, Bukhari, H, Mancini, A, Sezerman, U, Telatin, A
Format: Book Part
Language:English
Published: Springer Verlag 2016
Subjects:
multi-omic
multi-layer networks
adaptation
metabolism
extreme environments
Antarc*
Antarctic
Online Access:http://hdl.handle.net/10281/259004
https://doi.org/10.1007/978-3-319-44332-4_16
Description
Summary:Biological systems show impressive adaptations at extreme environments. In extreme environments, directional selection pressure mechanisms acting upon mutational events often produce functional and structural innovations. Examples are the antifreeze proteins in Antarctic fish and their lack of hemoglobin, and the thermostable properties of TAQ polymerase from thermophilic organisms. During the past decade, more than 4000 organisms have been part of genome-sequencing projects. This has enabled the retrieval of information about evolutionary relationships among all living organisms, and has increased the understanding of complex phenomena, such as evolution, adaptation, and ecology. Bioinformatics tools have allowed us to perform genome annotation, crosscomparison, and to understand the metabolic potential of living organisms. In the last few years, research in bioinformatics has started to migrate from the analysis of genomic sequences and structural biology problems to the analysis of genotype-phenotype mapping. We believe that the analysis of multi-omic information, particularly metabolic and transcriptomic data of organisms living in extreme environments, could provide important and general insights into the how natural selection in an ecosystem shapes the molecular constituents. Here we present a review of methods with the aim to bridge the gap between theoretical models, bioinformatics analysis and experimental settings. The amount of data suggests that bioinformatics could be used to investigate whether the adaptation is generated by interesting molecular inventions.We therefore review and discuss the methodology and tools to approach this challenge.

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