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Population genetics by Knud Christensen
This note covers the following topics: quantitative versus qualitative genetics, Hardy-Weinberg law for gene frequency stability in large populations, Relationship and inbreeding, Estimation of breeding values, Inbreeding, crossing and bred structure, Chromosomes and chromosome aberrations, Genetics on hair and coat colour in mammals, Estimating- and biotechnology and disease resistance.
Author(s): Knud Christensen
118 Pages 
Lecture Notes in Population Genetics by Kent E. Holsinger
This note covers the genetic structure of populations, The genetics of natural selection, Genetic drift, Molecular evolution, Phylogeography and quantitative genetics.
Author(s): Kent E. Holsinger, University of Connecticut
357 Pages
This note explains the following topics: cell structure, Membrane receptors, Cell division, Genetic Material and mutation and human chromosome.
Author(s): Sathyabama Institute of Science and Technology
161 Pages
This note covers the following topics: Cells and DNA, How Genes Work, Variants and Health, Inheriting Genetic Conditions, Genetics and Human Traits, Genetic Testing, Direct-to-Consumer Genetic Testing.
Author(s): U.S. National Library of Medicine, National Institutes of Health
227 Pages
Principles of Genetics and Cytogenetics
The word genetics, coined by William Bateson, is derived from the Latin word genesis, which means birth. Genetics is the study of heredity and variation. Heredity refers to the transmission of genetic information, more precisely genes, from parents to offspring. This PDF Principles of Genetics and Cytogenetics covers the following topics related to Genetics : Inrtoduction, Earlier Concepts of Heredity, Cytology, Chromosome Morphology, Molecular Structure of Chromosome, Special Types of Chromosomes, Cell Division, Sexual Reproduction, Mendelian Genetics, Gene Action, Principles of Dominance, Lethal Genes, Epistasis / Gene Interaction, Multiple Alleles, Qualitative and Quantitative Characters, Polygenic Inheritance, Linkage, Crossing Over, Genetic and Physical Map, Sex Determination, Sex Determination in Humanbeings, Mutation, Chromosomal Aberrations, the Structure of Dna, Dna Replication, Rna as Genetic Material, the Genetic Code, Central Dogma of Molecular Biology, Transcription and Translation, Regulation of Gene Expression, Fine Structure of Genes, etc.
Author(s): T. Sabesan, K. Saravanan, S. Suganthi, P. Satheeshkumar
155 Pages
Lecture Notes on Gene Genealogies
This PDF covers the following topics related to Genetics : Descriptive Statistics for DNA Sequences, The Method of Maximum Likelihood, Genetic Drift, Gene Genealogies, Relating Gene Genealogies to Genetics, The Site Frequency Spectrum, The Mismatch Distribution.
Author(s): Alan R. Rogers
74 Pages
Population genetics by Knud Christensen
This note covers the following topics: quantitative versus qualitative genetics, Hardy-Weinberg law for gene frequency stability in large populations, Relationship and inbreeding, Estimation of breeding values, Inbreeding, crossing and bred structure, Chromosomes and chromosome aberrations, Genetics on hair and coat colour in mammals, Estimating- and biotechnology and disease resistance.
Author(s): Knud Christensen
118 Pages
The objective of this note is have a greater awareness and appreciation of classical and molecular genetics with emphasis on genetic material and its formation, transmission, function and organization. Topics covered includes: historical perspective of genetics, inheritance patterns and the chromosomal basis of heredity, sex chromosomes in sex determination and sexual dimorphism, cells reproduce through DNA and nucleic acids, DNA transcribes into RNA that ultimately translates into protein, prokaryotic and eukaryotic genes, genetic basis of cancer and how it relates to the cell cycle.
Author(s): Dr. Cindy Malone
NA Pages
This lecture note discusses the principles of genetics with application to the study of biological function at the level of molecules, cells, and multicellular organisms, including humans. Topics covered includes: structure and function of genes, chromosomes and genomes, biological variation resulting from recombination, mutation, and selection, population genetics, use of genetic methods to analyze protein function, gene regulation and inherited disease.
Author(s): Prof. Chris Kaiser, Prof. Gerald Fink, Prof. Leona Samson and Dr. Michelle Mischke
NA Pages