High Yield Cell and Molecular Biology (High Yield Series) 3rd Edition PDF Free Download

Edition3rd edition
Book nameHigh yield cell and molecular biology (high yield series)
Pages151 pages
Publisher LWW
Author:Ronald W.Dudek


If you are preparing for USMLE step 1 so Informative and relevant books are the first requirement. Here we are going to discuss the description, key features and contents of the High yield cell and molecular biology (high yield series) 3rd edition pdf.

Book description:

  • All essential content required for USMLE step 1 is written in this book.
  • The latest molecular and cell biology is in this book with the proper principle, clinical focus, and techniques.
  • Complete required material that a physician needs to understand and treat different human diseases is present in this optimal book.
  • A review book is also there to help in understanding and revising. With this technique, you will be able to prepare for USMLE step 1.
  • Various courses are kept in focus along molecular biology, for example, histology, biochemistry, and microbiology.
  • Illustration and images have been added in this edition for a better understanding of the text.
  • The content present in other high-yield books has been removed such as microbiology and histopathology.
  • New topics such as DNA melting figure and flow cytometer has been added to this book.

High yield cell and molecular biology (high yield series) 3rd edition pdf – Contents:




Chromosomal DNA

  1. The Biochemistry of Nucleic Acid
  2. Levels of DNA Packaging

III. Centromere

  1. Heterochromatin
  2. Euchromatin
  3. Studying Human Chromosomes

VII. Staining of Chromosomes

VIII. Chromosome Morphology

  1. DNA Melting Curve

1Chromosome Replication

  1. General Features
  2. The Chromosome Replication Process

III. DNA Topoisomerase

  1. The Telomere
  2. DNA Damage
  3. DNA Repair VII. Clinical Considerations VIII. Summary of Chromosome Replication Machinery

.9Meiosis and Genetic Recombination

  1. Meiosis
  2. Genetic Recombination

17The Human Nuclear Genome

  1. General Features II. Protein-Coding Genes III. RNA-Coding Genes
  2. Epigenetic Control
  3. Noncoding DNA.22The Human Mitochondrial Genome
  4. General Features II. The 13 Protein-Coding Genes

III. The 24 RNA-Coding Genes

  1. Other Mitochondrial Proteins V. Mitochondrial Diseases

. .29Protein Synthesis

  1. General Features
  2. Transcription

III. Processing the RNA Transcript into mRNA

  1. Translation
  2. Clinical Considerations

.33Control of Gene Expression

  1. General Features
  2. Mechanism of Gene Expression

III. The Structure of DNA-Binding Proteins

  1. Other Mechanisms of Gene Expression
  2. The
  3. The39Lac Operon..47Mutations of the DNA Sequence
  4. General Features II. Silent (Synonymous) Mutations. III. Non-Silent (Nonsynonymous) Mutations IV. Loss of Function and Gain of Function Mutations
  5. Other Types of Polymorphisms

-Oncogenes, Oncogenes, and Tumor-Suppressor Genes

  1. Proto-Oncogenes and Oncogenes
  2. Tumor-Suppressor Genes

III. Hereditary Cancer Syndromes

58The Cell Cycle

  1. Mitosis
  2. Control of the Cell Cycle

66Molecular Biology of Cancer

  1. The Development of Cancer (Oncogenesis) II. The Progression of Cancer III. Signal Transduction Pathways.71Cell Biology of the Immune System
  2. Neutrophils (Polys, Segs, or PMNs)
  3. Eosinophil’s

III. Basophils

  1. Mast Cells
  2. Monocytes
  3. Macrophages (Histiocytes; Antigen-Presenting Cells)

VII. Natural Killer CD16

VIII. B Lymphocyte

  1. T Lymphocyte
  2. Immune Response to Exogenous Protein Antigens
  3. Immune Response to Endogenous Antigens (Intracellular Virus or Bacteria)

Molecular Biology of the Immune System

  1. Clonal Selection Theory II. The B Lymphocyte (B Cell) III. The T Lymphocyte (T Cell)
  2. Clinical Considerations
  3. Disorders of Phagocytic Function
  4. Systemic Autoimmune Disorders

VII. Organ-Specific Autoimmune Disorders

  1. The action of Restriction Enzymes.
  2. Electrophoresis

III. The Enzymatic Method of DNA Sequencing

  1. Southern Blotting and Prenatal Testing for Sickle Cell Anemia
  2. Isolating a Human Gene by DNA Cloning
  3. Construction of cDNA Library

VII. Polymerase Chain Reaction

VIII. Producing a Protein from a Cloned Gene

  1. Site-Directed Mutagenesis and Knockout Animals
  2. Northern Blot (mRNA)
  3. Western Blot (Protein)

XII. Human Immunodeficiency Virus (HIV) Structure

XIII. Ligase Chain Reaction (LCR)

XIV. Flow Cytometry

  1. General Features
  2. Identification of a Human Disease Gene Through a Chromosome Abnormality

III. Identification of a Human Disease Gene Through Pure Transcript Mapping

  1. Identification of a Human Disease Gene through Large-Scale DNA Sequencing
  2. Identification of a Human Disease Gene through Comparison of Human

And Mouse Maps

  1. Gene Therapy
  2. Ex Vivo and In Vivo Gene Therapy

III. Integration into Host Cell Chromosomes or as Episomes

  1. Viral Vectors Used in Gene Therapy
  2. Nonviral Vectors Used in Gene Therapy

Appendix 1: The Genetic Code

Appendix 2: Amino Acids

Appendix 3: Chromosomal Locations of Human Genetic Diseases

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