1. |
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Extensions to Mendel is law |
Extensions to Mendel for Single-Gene Inheritance |
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2. |
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Extensions to Mendel is law |
Extensions to Mendel for Multifactorial Inheritance |
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3. |
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The Chromosome Theory of Inheritance |
Chromosomes: The Carriers of Genes, Sex chromosomes and sex determination, Mitosis: Cell division that preserves chromosome number, Mitosis: Cell division that halve chromosome number, Gametogenesis, Validation of the chromosome theory, Sex-linked and sexually dimorphic traits in humans |
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4. |
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Linkage, Recombination, and the Mapping of Genes on Chromosomes |
Gene linkage and recombination, recombination: a result of crossing-over during meiosis, Mapping: Locating genes along a chromosome, The Chi-Square test and linkage analysis |
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5. |
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Linkage, Recombination, and the Mapping of Genes on Chromosomes |
Gene linkage and recombination, recombination: a result of crossing-over during meiosis, Mapping: Locating genes along a chromosome, The Chi-Square test and linkage analysis |
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6. |
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Linkage, Recombination, and the Mapping of Genes on Chromosomes |
Tetrad analysis in fungi, Mitotic recombination and genetic Mosaics |
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7. |
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DNA Structure, Replication, and Recombination |
Experimental Evidence for DNA as the Genetic Material, The watson and crick double helix model of DNA, Genetic Information in DNA base sequence, DNA Replication, Recombination at the DNA Level |
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8. |
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Anatomy and Function of a Gene: Dissection Through Mutation |
Mutations Primary tools of genetic anlysis, Molecular mechanisms of Mutation, What Mutations tell us about gene sructure /gene function |
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9. |
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Anatomy and Function of a Gene: Dissection Through Mutation |
A comprehensive example: mutations that affect vision |
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10. |
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Gene Expression: The Flow of information from DNA to RNA to Protein |
The Genetic code, Transcription: from DNA to RNA, Transtation: from mRNA to protein, Differences in Gene expression between Prokaryotes and Eukaryotes, The effects of Mutations on Gene Expression and Function |
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11. |
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Digital Analysis of Genomes |
Fragmention DNA, Cloning DNA Fragments, Sequencing DNA, Sequencing Genomes, Finding the Genes in Genomes, Genome architecture and evolution, Bioinformatics: Information Technology and Genomes, A comprehensive Example: The Hemoglobin genes |
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12. |
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The Eukaryotic Chromosome |
Chromosomal DNA and Proteins, Chromosome structure and compaction, Chromosomal packaging and Gene expression, Replication of Eukaryotic Chromosomes, Chromosome Segregation, Artificial Chromosome |
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13. |
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Chromosomal Rearrangements and Changes in Chromosome Number |
Rearrangements of Chromosomal DNA, The effects of Rearrangements, Transposable genetic elements, Aberrations in Chromosome number aneuploidy, Variation in number of chromosome sets Euploidy |
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14. |
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Bacterial Genetics |
The enormous diversity of bacteria, Bacterial genomes, Bacteria as Experimental organisms, Gene transfer in Bacteria |
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