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Quantitative models for microscopic ...

Olivares-Quiroz, Luis.

Quantitative models for microscopic to macroscopic biological macromolecules and tissues

Record Type:	Electronic resources : Monograph/item
Title/Author:	Quantitative models for microscopic to macroscopic biological macromolecules and tissuesedited by Luis Olivares-Quiroz, Osbaldo Resendis-Antonio.
other author:	Olivares-Quiroz, Luis.
Published:	Cham :Springer International Publishing :2018.
Description:	xiv, 226 p. :ill., digital ;24 cm.
Contained By:	Springer eBooks
Subject:	MacromoleculesAnalysis.
Online resource:	http://dx.doi.org/10.1007/978-3-319-73975-5
ISBN:	9783319739755$q(electronic bk.)

Quantitative models for microscopic to macroscopic biological macromolecules and tissues
Quantitative models for microscopic to macroscopic biological macromolecules and tissues[electronic resource] /edited by Luis Olivares-Quiroz, Osbaldo Resendis-Antonio. - Cham :Springer International Publishing :2018. - xiv, 226 p. :ill., digital ;24 cm.

Diverse protein-folding pathways and functions of beta-hairpins and beta-sheets -- MicroRNAs, gene's regulator in prostate cancer -- Subdiffusive Transport in Heterogeneous Patchy Environments -- Molecular assembling of the bacterial injectisome: a nanomachine used to inject effector proteins -- Pressure-driven DNA denaturation: state of the art and perspectives -- In silico identification and gene expression analysis of CDF-like genes from Trichomonas vaginalis in response to Zinc -- Dynamical features of a biochemical interaction in a plant root hair cell; a long story short -- Homeostasis from a time-series perspective: An intuitive interpretation of the variability of physiological variables -- Looking for biomarkers in physiological time series -- Systems Biology, Metabolomics and Breast Cancer: Where we are and which is the possible destination in the clinic -- Local effective temperatures for the patterns of motion of active particles.

This book presents cutting-edge research on the use of physical and mathematical formalisms to model and quantitatively analyze biological phenomena ranging from microscopic to macroscopic systems. The systems discussed in this compilation cover protein folding pathways, gene regulation in prostate cancer, quorum sensing in bacteria to mathematical and physical descriptions to analyze anomalous diffusion in patchy environments and the physical mechanisms that drive active motion in large sets of particles, both fundamental descriptions that can be applied to different phenomena in biology. All chapters are written by well-known experts on their respective research fields with a vast amount of scientific discussion and references in order the interested reader can pursue a further reading. Given these features, we consider Quantitative Models for Microscopic to Macroscopic Biological Macromolecules and Tissues as an excellent and up-to-date resource and reference for advanced undergraduate students, graduate students and junior researchers interested in the latest developments at the intersection of physics, mathematics, molecular biology, and computational sciences. Such research field, without hesitation, is one of the most interesting, challenging and active of this century and the next.

ISBN: 9783319739755$q(electronic bk.)

Standard No.: 10.1007/978-3-319-73975-5doiSubjects--Topical Terms:

228154
Macromolecules
--Analysis.

LC Class. No.: QP801.P64 / Q36 2018

Dewey Class. No.: 572

Quantitative models for microscopic to macroscopic biological macromolecules and tissues
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505 0 $a Diverse protein-folding pathways and functions of beta-hairpins and beta-sheets -- MicroRNAs, gene's regulator in prostate cancer -- Subdiffusive Transport in Heterogeneous Patchy Environments -- Molecular assembling of the bacterial injectisome: a nanomachine used to inject effector proteins -- Pressure-driven DNA denaturation: state of the art and perspectives -- In silico identification and gene expression analysis of CDF-like genes from Trichomonas vaginalis in response to Zinc -- Dynamical features of a biochemical interaction in a plant root hair cell; a long story short -- Homeostasis from a time-series perspective: An intuitive interpretation of the variability of physiological variables -- Looking for biomarkers in physiological time series -- Systems Biology, Metabolomics and Breast Cancer: Where we are and which is the possible destination in the clinic -- Local effective temperatures for the patterns of motion of active particles.
520 $a This book presents cutting-edge research on the use of physical and mathematical formalisms to model and quantitatively analyze biological phenomena ranging from microscopic to macroscopic systems. The systems discussed in this compilation cover protein folding pathways, gene regulation in prostate cancer, quorum sensing in bacteria to mathematical and physical descriptions to analyze anomalous diffusion in patchy environments and the physical mechanisms that drive active motion in large sets of particles, both fundamental descriptions that can be applied to different phenomena in biology. All chapters are written by well-known experts on their respective research fields with a vast amount of scientific discussion and references in order the interested reader can pursue a further reading. Given these features, we consider Quantitative Models for Microscopic to Macroscopic Biological Macromolecules and Tissues as an excellent and up-to-date resource and reference for advanced undergraduate students, graduate students and junior researchers interested in the latest developments at the intersection of physics, mathematics, molecular biology, and computational sciences. Such research field, without hesitation, is one of the most interesting, challenging and active of this century and the next.
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