Introduction and Survey.
THE FOUNDATIONS: STRUCTURE AND NMR OF BIOPOLYMERS.
NMR of Amino Acid Residues and Mononucleotides.
NMR Spectra of Proteins and Nucleic Acids in Solution.
The NMR Assignment Problem in Biopolymers.
Two-Dimensional NMR With Proteins and Nucleic Acids.
Nuclear Overhauser Enhancement (NOE) in Biopolymers.
RESONANCE ASSIGNMENTS AND STRUCTURE DETERMINATION IN PROTEINS.
NOE-Observable 1H-1H Distances in Proteins.
Sequence-Specific Resonance Assignments in Proteins.
Polypeptide Secondary Structures in Proteins by NMR.
Three-Dimensional Protein Structures by NMR.
RESONANCE ASSIGNMENTS AND STRUCTURE DETERMINATION IN NUCLEIC
ACIDS.
NOE-Observable 1H-1H Distances in Nucleic Acids.
Resonance Assignments in Nucleic Acids Using Scalar Couplings.
Nucleic Acid Conformation, 1H-1H Overhauser Effects, and
Sequence-Specific Resonance Assignments.
WITH NMR TO BIOPOLYMER CONFORMATION AND BEYOND.
Conformation of Noncrystalline Proteins and Nucleic Acids.
NMR Studies of Intermolecular Interactions with Biopolymers.
References.
Index.
Kurt Wuthrich was a co-recipient of the 2003 Nobel Prize in Chemistry for his work on nuclear magnetic resonance technology and its application to protein analysis.
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