Produktbild: Pocket Guide to Biomolecular NMR
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Pocket Guide to Biomolecular NMR

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Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

20.01.2011

Abbildungen

XI, 82 illus., schwarz-weiss Illustrationen

Verlag

Springer Berlin

Seitenzahl

159

Maße (L/B/H)

19/12,7/1 cm

Gewicht

180 g

Auflage

2011

Sprache

Englisch

ISBN

978-3-642-16250-3

Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

20.01.2011

Abbildungen

XI, 82 illus., schwarz-weiss Illustrationen

Verlag

Springer Berlin

Seitenzahl

159

Maße (L/B/H)

19/12,7/1 cm

Gewicht

180 g

Auflage

2011

Sprache

Englisch

ISBN

978-3-642-16250-3

Herstelleradresse

Springer-Verlag KG
Sachsenplatz 4-6
1201 Wien
AT

Email: GPSR Kontakt

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  • Produktbild: Pocket Guide to Biomolecular NMR
  • 1 Atomic Bells and Frequency Finders
    1.1 Chemical Choirs
    1.2 Essentials of Electromagnetism
    1.3 Electromagnetic Microsensors
    1.4 Frequency Finders
    Mathematical Sidebar 1.1: Fourier Transform
    1.5 Basics of one-dimensional NMR
    Mathematical Sidebar 1.2 Converting Hz to PPM
    References

    2 Bonded Bells and Two-Dimensional Spectra
    2.1 Introduction to Coupling
    2.2 Bonded Bells: J-Coupling
    Mathematical Sidebar 2.1: Karplus Equation
    2.3 NMR Maps: Two-Dimensional Spectra
    Mathematical Sidebar 2.2 Why 12C and 14N atoms are so shy?
    2.4 The 1H-15N HSQC: Our Bread and Butter
    2.5 Hidden Notes: Creating Two-Dimensional Spectra
    References

    3 Neighboring Bells and Structure Bundles
    3.1 Bumping Bells: Dipole-Dipole Coupling
    Mathematical Sidebar 3.1: Dipole-dipole Coupling
    3.2 Atomic Meter Stick: the NOE
    3.3 Into “Three-D”
    3.4 Adult “Connect-the-Dots:” HNCA
    3.5 Putting the Pieces Together: A Quick Review
    3.6 Wet Noodles and Proteins Bundles: Building a Three-Dimensional Structure
    References
    4 Relaxation Theory Part One: Silencing of the Bells
    4.1 Nothing Rings Forever: Two Paths to Relax
    4.2 Relaxation: Ticket to the Protein Prom
    Mathematical Sidebar 4.1: Boltzmann Distribution
    4.3 Oh-My, How Your Field Fluctuates
    4.4 Blowing Off Steam and Returning to Equilibrium: T1
    Mathematical Sidebar 4.2: T1 Relaxation
    4.5 Loosing Lock-Step : Coherence and T2
    Mathematical Sidebar 4.3: T2 Relaxation and Spin Echo
    References

    5 Relaxation Theory Part Two: Moving Atoms and Changing Notes
    5.1 Keeping the Terms Straight
    5.2 NMR Dynamics in a Nutshell: The Rules of Exchange
    5.3 Two States, One Peak: Atoms in the Fast Lane of Exchange
    5.4 Two States, Two Peaks: Atoms in the Slow Lane of Exchange
    5.5 Two States, One Strange Peak: Atoms in Intermediate Exchange
    5.6 Tumbling Together: Rotational Correlation Time (c)
    5.7 Summary
    References

    6 Protein Dynamics
    6.1 Dynamics Analysis by NMR: Multli-Channel Metronomes, Not a GPS
    6.2 Elegant Simplicity: Lipari and Szabo Throw Out the Models
    6.3 Wagging Tails and Wiggling Bottoms: Local versus Global Motion
    6.4 Measuring Fast Motion: Model Free Analysis
    Mathematical Sidebar 6.1: Correlation Functions and Model Free
    6.5 Changing Directions on the Track: Refocusing Pulses
    6.6 Measuring Intermediate Motion: CPMG Relaxation Dispersion Analysis
    6.7 Measuring Slow Motion: Z-Exchange Spectroscopy
    6.8 Measuring Motion Summary
    References