How Proteins Work

Name: How Proteins Work
Brand: Taylor & Francis Inc
SKU: 9780815344469
Price: 92.99 EUR
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Product variants

A01=Michael Williamson

A01=Mike Williamson

acetylation

actin

activated conformation

active site

affinity

allostery

alpha helix

amino acid

amyloid

aromatic amino acid

ATP Hydrolysis

ATP Synthase

Author_Michael Williamson

Author_Mike Williamson

autoinhibition

beta oxidation

beta sheet

biosynthesis

Brownian motion

CAP

catalysis

Category=PSB

cell movement

channeling

chemical bond

chloroplast

coenzyme

cofactor

colocation

computational biology

Conformational Selection

cooperativity

cyclic reaction

cytoskeleton

dephosphorylation

diffraction

diffusion

dimer

DNA

DNA Bind Protein

domain swapping

dynein

electron transport chain

electrostatic attraction

electrostatic force

electrostatic repulsion

elongation

energy

enthalpy

entropy

enzyme

enzyme complex

eq_bestseller

eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_science

evolution

exon shuffling

exosome

FAS

fatty acid synthase

flagella

functional motion

G Protein

gene duplication

gene sharing

genetics

globular protein

glycogen phosphorylase

glycosylation

GPCR

Hedgehog

hemoglobin

hinge bending

histidine kinase

hydrogen bond

hydrophobic interaction

in vivo

induced fit model

inhibition

integral membrane complex

interactome

intracmolucular binding

ion channel

isozyme

ITC

JAK

kinesin

kJ Mol-1

Leucine zipper

Lipoyl Domains

lock and key model

Macromolecular Crowding

mass sectrometry

Mat A2

max

membrane protein

metabolon

methylation

microtubule

mitochondria

mitosis

modification

module

molecular biology

molecular biophysics

molecular machine

molecular machines

molecular switch

motor protein

multidomain construction

multienzyme complex

muscle contraction

MWC Model

myc

myosin

Myosin Head

Myosin II

natively unstructured protein

NMR Spectrum

NMR Structure

nonribosomal peptide

Notch

oligomer

oligomerisation

oligomerization

operon

PDB File

PDH

peptide

phosphorylation

photosynthesis

pKa

Pol II

Pol Ii Complex

Pol III

polyketide synthase

primary structure

processivity

Proline Rich Sequences

protein binding

protein complex

protein conformation

protein domain

protein domain architecture

protein dynamics

protein expression

protein flexibility

protein interaction

protein misfolding

protein motion

protein purification

protein structural evolution in biology

protein structure

protein-protein interactions

Proteins Work

proteolysis

proteolytic cascade

proteomics

pump

quaternary structure

Raf

random coil

random walk

Ras

ratchet

receptor

repressor

RNA

RNAse PH

scaffold protein

SDS Page Gel

searching

secondary structure

SH2 Domain

SH3 Domain

signal sequence

signal transduction mechanisms

SPR

Stat

sticky arm

structural homology

structure motif

substrate

tertiary structure

thermodynamics

thermolysin

Tramp Complex

transition state

transport

transposable domain

triosephosphate isomerase

tryptophane synthase

tubulin

tyrosine kinase

van der walls force

vesicle

Product details

ISBN 9780815344469
Weight: 1360g
Dimensions: 210 x 280mm
Publication Date: 20 Jul 2011
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Paperback

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How Proteins Work is an up-to-date and authoritative account of protein function in living systems, explained within the governing parameters of physics, chemistry, and evolution. This text will enable advanced undergraduate students in biochemistry and biophysics to understand the relationships among protein function, structure, and dynamics. It will also serve as a valuable resource for graduate students and researchers looking for a reference on the fundamentals underlying protein function.

By providing an integrated view of proteins at both a cellular and systemic level, this textbook shows how evolution drives proteins to adopt domain structures that combine to achieve biological outcomes. The association of proteins into dimers, molecular machines, and multi-enzymatic complexes enables them to achieve catalytic and functional efficiency.

Mike Williamson did his PhD and subsequent research at the University of Cambridge before moving to the lab of Nobel Laureate Kurt Wüthrich in Switzerland.　 There he worked on the first NMR structure of a globular protein.　 He is a professor of Biochemistry at the University of Sheffield.