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How Proteins Work

  • Format
  • Bog, paperback, brugt
  • Engelsk
  • Stand
  • Næsten ubrugt med få synlige brugstegn
  • Leveringstid: 4-6 hverdage
    Forventet levering: 25-11-2024

Beskrivelse

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.

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Detaljer
  • SprogEngelsk
  • Sidetal464
  • Udgivelsesdato20-07-2011
  • Forlag CRC Press Inc
  • FormatPaperback
Sælgerinfo
  • Sælger ID126900
Størrelse og vægt
  • Vægt1360 g
  • coffee cup img
    10 cm
    book img
    21 cm
    28 cm

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    Evolution Transport DNA Er Entropy Genetics Molecular biology Glycosylation Modification Analysis Photosynthesis Catalysis Muscle contraction Proteins Computational biology Diffusion Protein binding Energy Diffraction Thermodynamics Phosphorylation Protein Conformation Inhibition Amyloid Hemoglobin Biochemistry Biosynthesis Mitochondria Proteomics In vivo RNA Cell Movement Methylation Actin Cytoskeleton Mitosis Protein Structure Enthalpy Myosin Channeling Gene Duplication Stat Flagella Tubulin Hedgehog Spr Proteolysis Dynein Protein dynamics G protein Chloroplast Protein purification Affinity Searching Tertiary structure Peptide Motor protein Membrane Protein Hydrogen bond Primary structure CAP Ratchet MYC Max Colocation Operon Notch Quaternary structure ITC Jak Cooperativity RAF RAS Allostery Module Hydrophobic interaction Vesicle NMR structure Transition state Dephosphorylation PKA Protein expression FAS Secondary structure Random walk Enzyme Kinesin Chemical bond Pump Oligomerization Molecular switch Brownian motion Amino acid ATP-Synthase Molecular machine Protein misfolding ATP hydrolysis GPCR Protein interaction Tyrosine kinase Oligomer Protein flexibility Receptor Beta-Oxidation Substrate Ion channel Elongation Active Site Glycogen phosphorylase Exosome Coenzyme Acetylation MWC Model activated conformation autoinhibition aromatic amino acid Alpha Helix cyclic reaction electrostatic attraction domain swapping dimer electron transport chain Cofactor Electrostatic force electrostatic repulsion Conformational Selection functional motion Induced Fit Model DNA Bind Protein integral membrane complex kJ Mol-1 Lock and key model intracmolucular binding enzyme complex mass sectrometry Lipoyl Domains isozyme Metabolon Macromolecular Crowding microtubule Fatty acid synthase leucine zipper Myosin Head Mat A2 globular protein multidomain construction PDH hinge bending Histidine kinase gene sharing Pol III PDB File Proteins Work Proline Rich Sequences Repressor scaffold protein protein domain SH2 Domain Signal Sequence RNAse PH structure motif Tramp Complex Triosephosphate isomerase interactome van der walls force nonribosomal peptide processivity random coil multienzyme complex natively unstructured protein NMR Spectrum Pol II Pol Ii Complex Polyketide synthase SH3 Domain protein motion transposable domain Protein complex proteolytic cascade sticky arm thermolysin structural homology tryptophane synthase
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