4 edition of Structure and conformation of nucleic acids and protein-nucleic acid interactions found in the catalog.
Includes bibliographical references and index.
|Statement||edited by M. Sundaralingam and S. T. Rao.|
|Contributions||Sundaralingam, M., Rao, Sambhorao Thyagaraja, 1937-|
|LC Classifications||QD433.A1 H37 1974|
|The Physical Object|
|Pagination||xxii, 752 p. :|
|Number of Pages||752|
|LC Control Number||75031954|
Start studying AP Biology Ch. 3: Nucleic Acids, Proteins, and Enzymes. Learn vocabulary, terms, and more with flashcards, games, and other study tools. A distinct group of DNA-binding proteins are the DNA-binding proteins that specifically bind single-stranded DNA. In humans, replication protein A is the best-understood member of this family and is used in processes where the double helix is separated, including DNA replication, recombination and DNA repair. These binding proteins seem to stabilize single-stranded DNA .
The basic chemical unit in nucleic acids, consisting of a pentose sugar, a phosphate group, and a nitrogen-containing base. base In nucleic acids, the purine or pyrimidine that is attached to each sugar in the sugar-phosphate backbone. It is a two-volume book, encompassing 14 chapters covering three major topics: the pattern of distribution of nucleic acids at the molecular level in various cells and states of activity and in relation to protein synthesis; the molecular and macromolecular organization of cellular membranes; and the origin and distribution of the major Book Edition: 1.
Proteins are polymers of amino acids. There are 20 different amino acids. Amino Acids. The R group is the point of variation. There are 20 different R groups. 11 are hydrophilic, 9 are hydrophobic. Of the 11 hydrophilic, 3 are basic, 2 are acidic. The 20 amino acids are referred to by their 3 letter abbreviation. EX: Glycine = Gly. Summary.- 18 Protein-Nucleic Acid Interaction.- General Considerations about Protein-Nucleic Acid Interactions.- Model Systems Involving Nucleic Acid and Protein Constituents.- Model Systems Combining Nucleic Acids and Synthetic Polypeptides or Protamines.- Nucleotides and Single-Stranded Nucleic Acids Adopt Extended Forms Brand: Springer-Verlag New York Inc.
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Get this from a library. Structure and conformation of nucleic acids and protein-nucleic acid interactions: proceedings of the fourth annual Harry Steenbock Symposium, Structure and Conformation of Nucleic Acids and Protein-Nucleic Acid Interactions, June, Madison, Wisconsin.
[M Sundaralingam; S T Rao;]. Protein—Nucleic Acid Interactions. and crystallization of protein-nucleic acid aggregates is difficult. Recently, however, two cases have been reported where. The structural biology of protein-nucleic acid interactions is in some ways a mature field and in others in its infancy.
High-resolution structures of protein-DNA complexes have been studied since the mid s and a vast array of such structures has now been determined, but surprising and novel structures still appear quite : $ Understanding how proteins interact with nucleic acids, determining what proteins are present in these protein-nucleic acid complexes and identifying the nucleic acid sequence/structure required to assemble these complexes are vital to understanding the role these complexes play in regulating cellular processes.
Get this from a library. Protein-nucleic acid interactions: structural biology. [Phoebe A Rice; Carl C Correll;] -- Written by a team of experts, this book bridges the gap between the DNA- and RNA- views of protein-nucleic acid recognition which are often treated as.
Protein–nucleic acid interactions are sensitive to the concentrations and nature of electrolyte ions in solution (Leirmo, Harrison, Cayley, Burgess, & Record, ).We evaluated the influence of ion composition on beacon binding to preformed Cas9/sgRNA(+ 89) complex and on the Cas9/sgRNA(+ 89) assembly in assay mixtures containing mM of either NaCl, KCl, or KGlu.
Changlin Liu, Yong Zhang, in Advances in Protein Chemistry and Structural Biology, IV Self-Assembly of Protein Nanostructures in the Presence of Nucleic Acids.
A good understanding on the mechanisms of both nucleic acid–proteins interactions and nucleic acid-mediated protein oligomerization or aggregation will help us not only further explore many important biological.
The overall goal of this collaborative project is to develop methods for analyzing protein-nucleic acid interactions. Nucleic acid-binding proteins have a central role in all aspects of genetic activity within an organism, such as transcription, replication, and repair.
Thus, it is extremely important to examine the nature of complexes that are. Circular dichroism (CD) is an excellent method for the study of the conformations adopted by proteins and nucleic acids in solution.
Although not able. Protein–nucleic acid interactions play essential roles in various biological activities such as gene regulation, transcription, DNA repair and DNA packaging.
Understanding the effects of amino acid substitutions on protein–nucleic acid binding affinities can help elucidate the molecular mechanism of protein–nucleic acid recognition. The analysis of the resulting structures requires computational tools unique to nucleic acid interactions.
This chapter summarizes the most important elements of the structure determination by NMR of protein-nucleic acid complexes and their by: The classical definition of ‘protein-nucleic acid interactions’ is encapsulated in the site-specific interaction of transcription factors with DNA, the result of exquisite complementarity between amino acid side chains arranged on a protein scaffold to recognize a specific sequence of nucleotide bases (see for example, the now classic Cited by: The above interactions are revealed upon inspection of the structure of a protein-nucleic acid complex.
However, the initial states of the partners are also important, since complex formation generally involves desolvation of the interface and changes in the conformation and flexibility of one or both partners (Chapter 2).Pages: Abstract.
From a conformational standpoint, nucleic acids are enormously complex. In order to rigorously describe, for example, the secondary structure of a repeating polynucleotide such as fibrous poly dAdT, the values of twelve torsion angles must be ascertained (Figure ); contrast this with a repeating polypeptide where only two conformation angles need be determined to Cited by: 3.
Classic Ness Protein nucleic Acid Interactions Gray Graphic T Shirt Classic Ness: $; Protein Ness Classic Shirt nucleic T Gray Interactions Acid Graphic Graphic Acid Interactions nucleic T Protein Gray Classic Ness Shirt.
Working with Molecular Genetics Chapter 2. Structures of Nucleic Acids labels in biology.) As diagrammed in Fig.The proteins of T2 phage were labeled with 35S (e.g. in methionine and cysteine) and the DNA was labeled with 32P (in the sugar-phosphate backbone, as will be presented in the next section).File Size: 1MB.
Protein-Nucleic Acid Interactions We use a variety of structural tools to uncover how enzymes, and transcriptional and translational regulators interact with nucleic acids to affect cellular development and disease outcome.
Abstract. This chapter will treat the intrinsic ultraviolet CD spectra of interacting nucleic acids and proteins. The CD spectra to be discussed will be restricted to the ultraviolet wavelength region below nm, where nucleic acids and proteins have optical activity as a Cited by: aspects of protein-nucleic acid interactions has been studied previously, these different aspects have just recently begun to be considered together.
This PSB session focuses on methods that bridge structure, sequence, and function to infer previously undiscovered associations between these different aspects of protein-nucleic acid interactions. Summary.- 18 Protein-Nucleic Acid Interaction.- General Considerations about Protein-Nucleic Acid Interactions.- Model Systems Involving Nucleic Acid and Protein Constituents.- Model Systems Combining Nucleic Acids and Synthetic Polypeptides or Protamines.- Nucleotides and Single-Stranded Nucleic Acids Adopt Extended Forms Price: $.
This book provides a detailed view of the molecular structures of DNA and RNA and how they are recognised by small molecules and proteins. Extensive source material is provided, including information on relevant web sites and computer programmes.
The major methods of structural investigationfor nucleic acids: X-ray crystallography, NMR, and molecular modelling are .Protein-Nucleic Acid Interactions › We offer a selection of easy-to-use kits for chromatin immunoprecipitation assays (ChIP), electrophoretic mobility shift assays (EMSA), and DNA pull-down assays.
These kits allow you to determine which proteins interact with DNA or RNA, and analyze what proteins are present in these protein-nucleic acid.16 Department of Protein-Nucleic Acids Interactions DNA endonucleases.
Using Streptococcus thermophilus Cas9 as a model system, we demonstrated the feasibility of Cas9 as a pro-grammable molecular tool for in vitro and in vivo DNA manip- ulations.