The Noisy and Marvelous Molecular World of Biology

The Noisy and Marvelous Molecular World of Biology

At the molecular level biology is intrinsically noisy. The forces that regulate the myriad of molecular reactions in the cell are tiny, on the order of piconewtons (10<sup>&#8722;12</sup> Newtons), yet they proceed in concerted action making life possible. Understanding how this is p...

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Bibliographic Details
Main Author: Felix Ritort
Format: Article
Language:English
Published: MDPI AG 2019-04-01
Series:Inventions
Subjects:
Biophysics
statistical physics
nonequilibrium physics
information theory
Online Access:https://www.mdpi.com/2411-5134/4/2/24
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spelling doaj-3f6936d1e49449f090c9f5e5f346a3472020-11-24T20:46:16ZengMDPI AGInventions2411-51342019-04-01422410.3390/inventions4020024inventions4020024The Noisy and Marvelous Molecular World of BiologyFelix Ritort0Small Biosystems Lab, Condensed Matter Physics Department, Facultat de Física, Universitat de Barcelona, C/ Martí i Franqués 1, 08028 Barcelona, SpainAt the molecular level biology is intrinsically noisy. The forces that regulate the myriad of molecular reactions in the cell are tiny, on the order of piconewtons (10<sup>&#8722;12</sup> Newtons), yet they proceed in concerted action making life possible. Understanding how this is possible is one of the most fundamental questions biophysicists would like to understand. Single molecule experiments offer an opportunity to delve into the fundamental laws that make biological complexity surface in a physical world governed by the second law of thermodynamics. Techniques such as force spectroscopy, fluorescence, microfluidics, molecular sequencing, and computational studies project a view of the biomolecular world ruled by the conspiracy between the disorganizing forces due to thermal motion and the cosmic evolutionary drive. Here we will digress on some of the evidences in support of this view and the role of physical information in biology.https://www.mdpi.com/2411-5134/4/2/24Biophysicsstatistical physicsnonequilibrium physicsinformation theory
collection DOAJ
language English
format Article
sources DOAJ
author Felix Ritort
spellingShingle Felix Ritort
The Noisy and Marvelous Molecular World of Biology
Inventions
Biophysics
statistical physics
nonequilibrium physics
information theory
author_facet Felix Ritort
author_sort Felix Ritort
title The Noisy and Marvelous Molecular World of Biology
title_short The Noisy and Marvelous Molecular World of Biology
title_full The Noisy and Marvelous Molecular World of Biology
title_fullStr The Noisy and Marvelous Molecular World of Biology
title_full_unstemmed The Noisy and Marvelous Molecular World of Biology
title_sort noisy and marvelous molecular world of biology
publisher MDPI AG
series Inventions
issn 2411-5134
publishDate 2019-04-01
description At the molecular level biology is intrinsically noisy. The forces that regulate the myriad of molecular reactions in the cell are tiny, on the order of piconewtons (10<sup>&#8722;12</sup> Newtons), yet they proceed in concerted action making life possible. Understanding how this is possible is one of the most fundamental questions biophysicists would like to understand. Single molecule experiments offer an opportunity to delve into the fundamental laws that make biological complexity surface in a physical world governed by the second law of thermodynamics. Techniques such as force spectroscopy, fluorescence, microfluidics, molecular sequencing, and computational studies project a view of the biomolecular world ruled by the conspiracy between the disorganizing forces due to thermal motion and the cosmic evolutionary drive. Here we will digress on some of the evidences in support of this view and the role of physical information in biology.
topic Biophysics
statistical physics
nonequilibrium physics
information theory
url https://www.mdpi.com/2411-5134/4/2/24
work_keys_str_mv AT felixritort thenoisyandmarvelousmolecularworldofbiology
AT felixritort noisyandmarvelousmolecularworldofbiology
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