Nucleic Acid–Protein Recognition
Nucleic Acid–Protein Recognition

Author: Henry Vogel

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 614

ISBN-13: 0323144535

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Nucleic Acid-Protein Recognition covers the proceedings of a symposium on ""Nucleic Acid-Protein Recognition"", held at Arden House, Harriman Campus of Columbia University on May 30-June 1, 1976. The symposium inaugurated the ""P & S Biomedical Sciences Symposia"" under the sponsorship of the College of Physicians and Surgeons of Columbia University. This book is organized into nine part encompassing 31 chapters. The opening parts describe the principles of DNA replication and the unique chromatin structure. These parts also examine the physical chemistry of the interactions of melting proteins with nucleic acids. The third part presents the different types of approaches that can be used to study the function of RNA polymerases and the development of a cell-free system that favors Pol II-catalyzed transcription from type 2 adenovirus DNA. Parts IV and V deal with the sequence determination of wild-type and mutant repressor and the restriction and modification of DNA endonucleases, while parts VI and VII focus of the recognition of tRNA. Part VIII discusses some significant studies on the assembly of ribosomes and the principles of ribosomal interactions. Lastly, Part IX considers the role of small RNA template in the reaction mechanism of RNA replicases and ribonucleases. This part also surveys the so-called RNase III cleavage of different types of RNA and the structure of nucleic acid-protein complexes.

Protein-Nucleic Acid Interactions
Protein-Nucleic Acid Interactions

Author: Phoebe A. Rice

Publisher: Royal Society of Chemistry

Published: 2008-05-22

Total Pages: 417

ISBN-13: 0854042725

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This book provides both in-depth background and up-to-date information in this area. The chapters are organized by general themes and principles, written by experts who illustrate topics with current findings. Topics covered include: - the role of ions and hydration in protein-nucleic acid interactions - transcription factors and combinatorial specificity - indirect readout of DNA sequence - single-stranded nucleic acid binding proteins - nucleic acid junctions and proteins, - RNA protein recognition - recognition of DNA damage. It will be a key reference for both advanced students and established scientists wishing to broaden their horizons.

Protein Bioinformatics
Protein Bioinformatics

Author: M. Michael Gromiha

Publisher: Academic Press

Published: 2011-04-21

Total Pages: 349

ISBN-13: 0123884241

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One of the most pressing tasks in biotechnology today is to unlock the function of each of the thousands of new genes identified every day. Scientists do this by analyzing and interpreting proteins, which are considered the task force of a gene. This single source reference covers all aspects of proteins, explaining fundamentals, synthesizing the latest literature, and demonstrating the most important bioinformatics tools available today for protein analysis, interpretation and prediction. Students and researchers of biotechnology, bioinformatics, proteomics, protein engineering, biophysics, computational biology, molecular modeling, and drug design will find this a ready reference for staying current and productive in this fast evolving interdisciplinary field. Explains all aspects of proteins including sequence and structure analysis, prediction of protein structures, protein folding, protein stability, and protein interactions Presents a cohesive and accessible overview of the field, using illustrations to explain key concepts and detailed exercises for students.

Nucleic Acid Structure and Recognition
Nucleic Acid Structure and Recognition

Author: Stephen Neidle

Publisher: Oxford University Press, USA

Published: 2002

Total Pages: 212

ISBN-13: 9780198506355

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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 investigation for nucleic acids: X-ray crystallography, NMR, and molecular modelling are reviewed and their scope and limitations (in the context of nucleic acids) discussed. Also covered are the conformational features of nucleic acid building blocks, including a description of how base-pair morphologies are analysed; the structures of DNA double helices and helical oligonucleotides, emphasising current ideas on sequence-dependent structure; and DNA-DNA interactions, including triplexes and quadruplexes. The principles of RNA folding, ribosome, and ribozyme structure are also surveyed. Both covalent and non-covalent nucleic acid interactions with small molecules are described, with the emphasis on recognition principles and sequence specific gene recognition. The principles of protein - nucleic acid are covered, focussing on regulatory proteins. Nucleic Acid Structure and Recognition will therefore equip readers with a good understanding of all the important aspects of this major field. The Nucleic Acid Database (NDB) crystallographic and NMR structures for the nucleic acid structures described in the book are freely available through the Nucleic Acid Structure and Recognition website.

Evaluation of the Protein Recognition Properties of Peptide Nucleic Acids
Evaluation of the Protein Recognition Properties of Peptide Nucleic Acids

Author: Crystal Cox Serrano

Publisher:

Published: 2015

Total Pages:

ISBN-13:

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The objective is to evaluate the ability of aminoacyl-tRNA synthetases (aaRS) to recognize the non-standard nucleic acid, PNA (peptide nucleic acid). PNA has immense potential in biomedical applications due to its increased thermostability and nuclease resistance over natural nucleic acids. PNA represents a superior alternative to natural nucleic acids in many biomedical applications due to its specificity, strong binding, and nuclease resistance. This study is the initial data set that indicates PNA are recognized by translation enzymes.

A Laboratory Guide to In Vitro Studies of Protein-DNA Interactions
A Laboratory Guide to In Vitro Studies of Protein-DNA Interactions

Author: Jost

Publisher: Birkhäuser

Published: 2013-03-13

Total Pages: 319

ISBN-13: 3034875614

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A Safety Considerations Many techniques described here involve a number of hazards, such as high electrical current and voltage, radioactivity and highly toxic chemicals. It is absolutely essential that the instructions of equipment manufacturers be followed, and that particular attention be paid to the local and federal safety regulations. B Introduction The expression of prokaryotic and eukaryotic genes has been shown most often to be regulated at the level of mRNA synthesis. Thanks to the rapid development of methods for dissecting DNA sequences, cis-acting regulatory elements such as promoters and enhancers have been recognised. More recently, the widely expressed intuition that discrete sequences within these elements constitute binding sites for sequence-specific binding proteins has been confirmed, especially through the use of "footprinting" assays (for examples, Galas and Schmitz, 1978). This and similar assays have already resulted in the recognition, isolation and analysis of DNA-bind ing proteins for several genes. Excellent reviews exist of the structural studies on these transcription regulatory proteins and related DNA elements (for example, Glover, 1989 and Johnson and McKnight, 1989), to which the reader is referred for detailed information. To set the scene for applications of the techniques described in this volume, only the barest outline of previous studies is presented here. Protein-DNA interactions are dependent on very specific tertiary configurations of the binding protein which allow the closest contact with the DNA helix.