About the Book
Please note that the content of this book primarily consists of articles available from Wikipedia or other free sources online. Pages: 74. Chapters: Allele, Gamete, Ploidy, Polyploid, Dominance, Phenotype, Wild type, Phenotypic trait, Gene pool, Genetic history of Europe, Haplogroup E1b1b, Haplogroup E1b1b1a, Hardy-Weinberg principle, Quantitative trait locus, Genetic linkage, List of organisms by chromosome count, Haplotype, Paleopolyploidy, Epistasis, Microfluidic whole genome haplotyping, Monohybrid cross, Zygosity, F1 hybrid, Recessive, Genetic screen, Heterosis, Blending inheritance, Expression quantitative trait loci, Genetic association, Punnett square, Transheterozygote, Complementation, Introgression, Europhenome, Chromosomal polymorphism, List of Y-DNA single-nucleotide polymorphisms, Muller's morphs, Reciprocal cross, Mutant, Pedigree chart, Ob/ob mouse, Dihybrid cross, Null allele, White, Cleft chin, Seed production and gene diversity, Malecot's method of coancestry, Acentric fragment, Evolution of dominance, Identity by descent, True breeding organism, Test cross, Codominance, Proband, Hybrid growth disorders, Genetic heterogeneity, Developmental noise, Hypostatic gene, Identity by type, Complete linkage, Gene lethality, Genomovar, Minor allele frequency. Excerpt: The genetic history of Europe can be inferred from the patterns of genetic diversity across continents and time. The primary data to develop historical scenarios coming from sequences of mitochondrial, Y-chromosome and autosomal DNA from modern populations and if available from ancient DNA. European populations have a complicated demographic and genetic history, including many successive periods of population growth. The diversion of Y chromosome haplogroup Haplogroup F and its descendants. One of the first scholars to perform genetic studies was Luigi Luca Cavalli-Sforza. He used classical genetic markers to analyse DNA by proxy. This method studies differences in the frequencies of parti...
