Hoer_scitable By Nature Education

What smaller elements make up the complex DNA molecule, how are these elements arranged, and how is information extracted from them? This unit answers each of these questions, and it also provides a basic overview of how DNA was discovered.

Introduction: What Is DNA?

DNA Is a Structure That Encodes Biological Information

Discovery of the Function of DNA Resulted from the Work of Multiple Scientists

Cells Can Replicate Their DNA Precisely

The Information in DNA Is Decoded by Transcription

The Information in DNA Determines Cellular Function via Translation

To better inform our decisions at the doctor, the grocery store, and at home, it is crucial for us to know something about genetics. As we cultivate this understanding, we need to explore the evidence that supports our modern knowledge of genetics.

Available Articles

Women in Science Forum

Barbara McClintock: The Secret of Maize

Cells Can Replicate Their DNA Precisely

Discovery of the Function of DNA Resulted from the Work of Multiple Scientists

DNA Is a Structure That Encodes Biological Information

DNA Is Constantly Changing through the Process of Mutation

DNA Is Constantly Changing through the Process of Recombination

Each Organism's Traits Are Inherited from a Parent through Transmission of DNA

Francis Crick: The Secret of Life

Frederick Sanger: Method Man, Problem Solver

Gene Expression Is Analyzed by Tracking RNA

Genomics Enables Scientists to Study Genetic Variability in Human Populations

Gregor Mendel: A Private Scientist

Inheritance of Traits by Offspring Follows Predictable Rules

Introduction: How Do We Study the DNA Inside Cells?

Introduction: How Does DNA Move from Cell to Cell?

Introduction: How Does Inheritance Operate at the Level of Whole Populations?

Introduction: How Is Genetic Information Passed between Organisms?

Introduction: What Is DNA?

James Watson: Genetics Impresario

Linus Pauling: A Lifetime of Science

Maurice Wilkins: Behind the Scenes of DNA

Nettie Stevens: A Discoverer of Sex Chromosomes

Replication and Distribution of DNA during Meiosis

Replication and Distribution of DNA during Mitosis

Rosalind Franklin: A Crucial Contribution

Scientists Can Analyze Gene Function by Deleting Gene Sequences

Scientists Can Make Copies of a Gene through PCR

Scientists Can Study an Organism's Entire Genome with Microarray Analysis

Some Genes Are Transmitted to Offspring in Groups via the Phenomenon of Gene Linkage

Some Organisms Transmit Genetic Material to Offspring without Cell Division

Some Sections of DNA Do Not Determine Traits, but Affect the Process of Transcription: Gene Regulation

The Collective Set of Alleles in a Population Is Its Gene Pool

The Genetic Variation in a Population Is Caused by Multiple Factors

The Information in DNA Determines Cellular Function via Translation

The Information in DNA Is Decoded by Transcription

The Order of Nucleotides in a Gene Is Revealed by DNA Sequencing

The Sex of Offspring Is Determined by Particular Chromosomes

The Variety of Genes in the Gene Pool Can Be Quantified within a Population

Thomas Hunt Morgan: The Fruit Fly Scientist

Chromosomes and Cytogenetics

(http://www.nature.com/scitable/topic/chromosomes-and-cytogenetics-7)

Cytogenetics is the study of chromosomes and their role in heredity. Thus, this topic room is all about chromosomes: chromosome structure and composition, the methods that scientists use to analyze chromosomes, chromosome abnormalities associated with disease, the roles that chromosomes play in sex determination, and changes in chromosomes during evolution.

Chromosome Analysis (10 Articles)

Chromosome Mapping: Idiograms

Fluorescence In Situ Hybridization (FISH)

Chromosome Territories: The Arrangement of Chromosomes in the Nucleus

Human Chromosome Translocations and Cancer

Karyotyping for Chromosomal Abnormalities

Cytogenetic Methods and Disease: Flow Cytometry, CGH, and FISH

Prenatal Screen Detects Fetal Abnormalities

Microarray-based Comparative Genomic Hybridization (aCGH)

Diagnosing Down Syndrome, Cystic Fibrosis, Tay-Sachs Disease, and Other Genetic Disorders

Synteny: Inferring Ancestral Genomes

Chromosome Number (4 Articles)

Chromosomal Abnormalities: Aneuploidies

Polyploidy

Human Chromosome Number

Trisomy 21 Causes Down Syndrome

Chromosome Structure (6 Articles)

Chromosome Mapping: Idiograms

DNA Packaging: Nucleosomes and Chromatin

Telomeres of Human Chromosomes

Chromosome Territories: The Arrangement of Chromosomes in the Nucleus

Chromosome Segregation in Mitosis: The Role of Centromeres

Genome Packaging in Prokaryotes: the Circular Chromosome of E. coli

Mutations and Alterations in Chromosomes (13 Articles)

Chromosomal Abnormalities: Aneuploidies

DNA Deletion and Duplication and the Associated Genetic Disorders

Human Chromosome Number

Chromosome Abnormalities and Cancer Cytogenetics

Human Chromosome Translocations and Cancer

X Chromosome: X Inactivation

Trisomy 21 Causes Down Syndrome

Karyotyping for Chromosomal Abnormalities

Cytogenetic Methods and Disease: Flow Cytometry, CGH, and FISH

Prenatal Screen Detects Fetal Abnormalities

Genetic Recombination

Synteny: Inferring Ancestral Genomes

Copy Number Variation and Human Disease

Sex Chromosomes (5 Articles)

Genetic Mechanisms of Sex Determination

Sex Chromosomes in Mammals: X Inactivation

Sex determination in honeybees

X Chromosome: X Inactivation

Sex Chromosomes and Sex Determination

Chromosome Theory and Cell Division (5 Articles)

Chromosome Theory and the Castle and Morgan Debate

Developing the Chromosome Theory

Chromosome Segregation in Mitosis: The Role of Centromeres

Mitosis and Cell Division

Meiosis, Genetic Recombination, and Sexual Reproduction

Evolutionary Genetics

(http://www.nature.com/scitable/topic/evolutionary-genetics-13)

Those articles that are part of the evolutionary genetics topic room can be arbitrarily divided into five main categories: phylogenetics; mutation and molecular population genetics; the genetics of speciation; genome evolution; and evolution and development (also known as evo-devo).