↓ Skip to main content
Altmetric
What is this page?
Embed badge
Share
Share on Twitter
Share on Facebook
Share by email
Principles of nucleic acid structure
Overview of attention for book
Table of Contents
Altmetric Badge
Book Overview
Altmetric Badge
Chapter 1
Why Study Nucleotide and Nucleic Acid Structure?
Altmetric Badge
Chapter 2
Defining Terms for the Nucleic Acids
Altmetric Badge
Chapter 3
Methods: X-Ray Crystallography, Potential Energy Calculations, and Spectroscopy
Altmetric Badge
Chapter 4
Structures and Conformational Properties of Bases, Furanose Sugars, and Phosphate Groups
Altmetric Badge
Chapter 5
Physical Properties of Nucleotides: Charge Densities, p K Values, Spectra, and Tautomerism
Altmetric Badge
Chapter 6
Forces Stabilizing Associations Between Bases: Hydrogen Bonding and Base Stacking
Altmetric Badge
Chapter 7
Modified Nucleosides and Nucleotides; Nucleoside Di- and Triphosphates; Coenzymes and Antibiotics
Altmetric Badge
Chapter 8
Metal Ion Binding to Nucleic Acids
Altmetric Badge
Chapter 9
Polymorphism of DNA versus Structural Conservatism of RNA: Classification of A-, B-, and Z-TYPe Double Helices
Altmetric Badge
Chapter 10
RNA Structure
Altmetric Badge
Chapter 11
DNA Structure
Altmetric Badge
Chapter 12
Left-Handed, Complementary Double Helices—A Heresy? The Z-DNA Family
Altmetric Badge
Chapter 13
Synthetic, Homopolymer Nucleic Acids Structures
Altmetric Badge
Chapter 14
Hypotheses and Speculations: Side-by-Side Model, Kinky DNA, and “Vertical” Double Helix
Altmetric Badge
Chapter 15
tRNA—A Treasury of Stereochemical Information
Altmetric Badge
Chapter 16
Intercalation
Altmetric Badge
Chapter 17
Water and Nucleic Acids
Altmetric Badge
Chapter 18
Protein—Nucleic Acid Interactions
Altmetric Badge
Chapter 19
Higher Organization of DNA
Overall attention for this book and its chapters
Altmetric Badge
Mentioned by
twitter
3
X users
syllabi
8
institutions with syllabi
wikipedia
21
Wikipedia pages
Citations
dimensions_citation
5749
Dimensions
Readers on
mendeley
78
Mendeley
Book overview
1. Why Study Nucleotide and Nucleic Acid Structure?
2. Defining Terms for the Nucleic Acids
3. Methods: X-Ray Crystallography, Potential Energy Calculations, and Spectroscopy
4. Structures and Conformational Properties of Bases, Furanose Sugars, and Phosphate Groups
5. Physical Properties of Nucleotides: Charge Densities, p K Values, Spectra, and Tautomerism
6. Forces Stabilizing Associations Between Bases: Hydrogen Bonding and Base Stacking
7. Modified Nucleosides and Nucleotides; Nucleoside Di- and Triphosphates; Coenzymes and Antibiotics
8. Metal Ion Binding to Nucleic Acids
9. Polymorphism of DNA versus Structural Conservatism of RNA: Classification of A-, B-, and Z-TYPe Double Helices
10. RNA Structure
11. DNA Structure
12. Left-Handed, Complementary Double Helices—A Heresy? The Z-DNA Family
13. Synthetic, Homopolymer Nucleic Acids Structures
14. Hypotheses and Speculations: Side-by-Side Model, Kinky DNA, and “Vertical” Double Helix
15. tRNA—A Treasury of Stereochemical Information
16. Intercalation
17. Water and Nucleic Acids
18. Protein—Nucleic Acid Interactions
19. Higher Organization of DNA
Summary
X
Syllabi
Wikipedia
Dimensions citations
This data is correct as of December 2015 - for more up to date information, please visit
https://opensyllabus.org/
So far, Altmetric has seen this research output assigned in
18
syllabi from
8
institutions on Open Syllabus Project.
Institution
Syllabi count
Course subject areas covered
University of Maryland-College Park
9
Chemistry, Biology
Technical University of Denmark
2
Biology
Reed College
1
Chemistry
North Eastern Hill University
1
Chemistry
Pennsylvania State University-Main Campus
1
Biology
University of California-Los Angeles
1
Chemistry, Earth Sciences, Biology
New York University
1
Unknown
Unknown
2
Biology