Modeling the 3D Conformation of Genomes

Name: Modeling the 3D Conformation of Genomes
Brand: Taylor & Francis Ltd
SKU: 9781138500792
Price: 235.6 EUR
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3C Interaction

Age Group_Uncategorized

Alt Cell

Anomalous Exponent

automatic-update

B01=Guido Tiana

B01=Luca Giorgetti

bioinformatics

biophysical chromosome dynamics

Category1=Non-Fiction

Category=PHVN

Category=PSAK

Category=PSAK1

Category=UYM

Chromatin Contact

Chromatin Fiber

Chromatin Folding

Chromatin Interaction

Chromatin Type

chromosome modeling

Cohesin Ring

COP=United Kingdom

CTCF Site

Delivery_Delivery within 10-20 working days

DNA Fiber

DNA Fish

DNA Ligation

Energy Landscape Theory

epigenetic regulation mechanisms

Epigenomic State

eq_bestseller

eq_computing

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_science

genome spatial organization

Hi-C Data

Hi-C Study

Language_English

Loop Extrusion

MC

Negative Supercoiling

nuclear architecture analysis

PA=Available

physical modeling of chromatin domains

polymer physics modeling

Price_€100 and above

Promoter Enhancer Interactions

PS=Active

restraint-based genome modeling

SMC Complex

softlaunch

Tad Boundary

TADs

TF Model

three-dimensional genome structure

Product details

ISBN 9781138500792
Weight: 708g
Dimensions: 156 x 234mm
Publication Date: 23 Jan 2019
Publisher: Taylor & Francis Ltd
Publication City/Country: GB
Product Form: Hardback
Language: English

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This book provides a timely summary of physical modeling approaches applied to biological datasets that describe conformational properties of chromosomes in the cell nucleus. Chapters explain how to convert raw experimental data into 3D conformations, and how to use models to better understand biophysical mechanisms that control chromosome conformation. The coverage ranges from introductory chapters to modeling aspects related to polymer physics, and data-driven models for genomic domains, the entire human genome, epigenome folding, chromosome structure and dynamics, and predicting 3D genome structure.

Guido Tiana, PhD, is Associate Professor of Theoretical Biophysics at the University of Milano. He obtained the PhD at the Niels Bohr Institute (Copenhagen) in 2000 and since then has worked on the physics of complex systems of biological interest, such as proteins, DNA, RNA, chromosomes and genetic networks. The methods come from the realm of statistical mechanics, making heavy use of computational tools and some experimental work.

Luca Giorgetti, PhD, is a group leader at the Friedrich Miescher Institute for Biomedical Research in Basel. He obtained his PhD at the European Institute of Oncology (IEO) and University of Milan followed by a postdoctoral training at the Curie Institute in Paris. He is an expert in combining physical modeling and experimental research in chromosome conformation and transcriptional regulation.