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(Ebook) Progress in Nucleic Acid Research and Molecular Biology Vol 72 1st Edition by Kivie Moldave ISBN 9780080522678 008052267X

  • SKU: EBN-1712558
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Authors:Kivie Moldave
Pages:1 pages.
Year:2002
Editon:1st
Publisher:Elsevier, Academic Press
Language:english
File Size:49.17 MB
Format:pdf
ISBNS:9780080522678, 9780125400725, 008052267X, 0125400721
Categories: Ebooks

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(Ebook) Progress in Nucleic Acid Research and Molecular Biology Vol 72 1st Edition by Kivie Moldave ISBN 9780080522678 008052267X

(Ebook) Progress in Nucleic Acid Research and Molecular Biology Vol 72 1st Edition by Kivie Moldave - Ebook PDF Instant Download/Delivery: 9780080522678 ,008052267X
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Product details:

ISBN 10: 008052267X
ISBN 13: 9780080522678
Author: Kivie Moldave

Progress in Nucleic Acid Research and Molecular Biology provides a forum for discussion of new discoveries, approaches, and ideas in molecular biology. It contains contributions from leaders in their fields and abundant references.

Progress in Nucleic Acid Research and Molecular Biology provides a forum for discussion of new discoveries, approaches, and ideas in molecular biology. It contains contributions from leaders in their fields and abundant references

(Ebook) Progress in Nucleic Acid Research and Molecular Biology Vol 72 1st Edition Table of contents:

Chapter 1. Viral Strategies of Translation Initiation: Ribosomal Shunt and Reinitiation

I. Introduction

II. Main Initiation Strategies in Eukaryotes

III. Translation and Translation-Dependent Strategies of Pararetroviruses and Retroviruses

IV. Shunting Mechanisms

V. Polycistronic Translation Strategies

VI. Outlook

References

Chapter 2. Initiation of Eukaryotic DNA Replication: Regulation and Mechanisms

I. The Eukaryotic Cell Cycle

II. Factors Required for the Initiation of DNA Replication

III. The Organization of Replication-Initiation Factors on Chromatin

IV. Cell Cycle Control by Checkpoints

V. Outlook

References

Chapter 3. Deoxyribonucleotide Synthesis in Anaerobic Microorganisms: The Class III Ribonucleotide R

I. Introduction

II. The Anaerobic Ribonucleotide Reductase: A Multicomponent System

III. The nrdD Protein: The Reductase Component

IV. The nrdG Protein: The Activase

V. Gene Organization and Regulation

VI. The Anaerobic RNR: The Link between the RNA World and the DNA World

References

Chapter 4. Regulation of Pathways of mRNA Destabilization and Stabilization

I. Life and Half-Life of mRNA

II. Degradation of mRNA through the General Pathway; Deadenylation-Dependent mRNA Decay

III. Special Pathways for Regulating the Stability of mRNAs

IV. Regulation of Vitellogenin and Albumin mRNA Stability

References

Chapter 5. Jasmonates and Octadecanoids: Signals in Plant Stress Responses and Development

I. Introduction

II. Occurrence of Jasmonates and Octadecanoids

III. Biosynthesis of Jasmonates and Octadecanoids

IV. Jasmonate-Induced Gene Expression

V. Jasmonates in Stress Response and Signal Transduction Pathways

VI. Jasmonates and Octadecanoids in Plant Development

VII. Concluding Remarks

References

Chapter 6. The Ubiquitous Nature of RNA Chaperone Proteins

I. Introduction

II. RNA Structure and the Folding Problem

III. RNA-Binding Proteins

IV. Investigating the Biochemical Properties of Nucleic Acid Chaperone Proteins

V. How Do RNA Chaperone Proteins Work?

VI. Conclusions and Future Prospects

References

Chapter 7. Mechanisms of Basal and Kinase-Inducible Transcription Activation by CREB

I. Introduction

II. Distinct CREB Activation Domains Mediate Constitutive and Kinase-Inducible Transcription

III. A Concerted Mechanism of Transcription Activation Involving Stimulation of Sequential Steps in

IV. Perspectives

References

Chapter 8. eIF4A: The Godfather of the DEAD Box Helicases

I. eIF4A: The Protein

II. The Biology of eIF4A

III. eIF4A: Biochemical Properties

IV. Influence of Other Proteins on eIF4A Function

V. Does Any of This Biochemistry Make Sense or Is There a Contradiction Somewhere?

VI. The Role of the DEAD Box Sequences

VII. The Function of the Helicase Activity of eIF4A

VIII. eIF4A and the 80S Initiation Pathway

IX. Lessons Learned from eIF4A

References

Chapter 9. CTD Phosphatase: Role in RNA Polymerase II Cycling and the Regulation of Transcript Elong

I. Historical Overview

II. General Properties of CTD Phosphatase

III. RNAP II Recycling Mediated by CTD Phosphatase

IV. Involvement of CTD Phosphatase in the Regulation of Transcript Elongation

V. Perspectives and Future Directions

References

Chapter 10. Translational Control of Gene Expression: Role of IRESs and Consequences for Cell Transf

I. Introduction

II. Background: Translation Initiation in Eukaryotes

III. The Murine Leukemia Virus: The Retroviral Genomic mRNA Codes for Two Gag–Pol Polyproteins fro

IV. The FGF-2 mRNA: How Cap-Dependent and IRES-Dependent Translation of a Single mRNA Leads to Expre

V. VEGF mRNA: Two Distinct IRESs Control Alternative Initiation of the Translation of Two Isoforms

VI. C-myc mRNA: A Natural Multicistronic Messenger

VII. IRES-Dependent Translational Control: IRES Activity Enhancement in Transformed Cells

VIII. IRES Tissue Specificity in Vivo

IX. FGF-2 Translational Silencing by Tumor Suppressor p53

X. Concluding Remarks

References

Chapter 11. Structure and Function of φ29 Hexameric RNA That Drives

I. Introduction

II. Approaches and Strategies for the Study of pRNA

III. Studies of pRNA Structure

IV. pRNA–Protein Interactions

V. Effect of Mono- and Divalent Cations on pRNA Dimer Formation, Procapsid Binding, and Viral Assemb

VI. Functions of pRNA

VII. Significance and Application of the Study of pRNA

VIII. Concluding Remarks

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Tags: Kivie Moldave, Progress, Nucleic Acid, Molecular Biology

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