Seminar Abstract - Las Positas College
Seminar Abstract - Las Positas College

... and how they are regulated. DNA point mutations within individual genes also contribute to the rise of new gene function. Garcia and Segelke will discuss some of the details of these molecular evolution processes, as they occur at the DNA and protein level, as well as the tools and experimental appr ...
Null hypotheses in evolutionary biology
Null hypotheses in evolutionary biology

... The neutral theory of molecular evolution Motoo Kimura (1968) High levels of polymorphism (variation) in protein and DNA sequences among individuals and species are difficult to reconcile with mutation-selection equilibrium (Ch 5.4) Most mutations affecting fitness are deleterious, hence quickly eli ...
lecture 9
lecture 9

... Neo-darwinism: merging of Darwinian and Mendelian theory - gave central role to selection in evolution Pan-selectionism: extreme reliance on selection as evolutionary explanation: Fixation events due to positive selection Polymorphisms due to balancing selection ...
Topics in Ecology and Evolution: Molecular Evolution
Topics in Ecology and Evolution: Molecular Evolution

... of mutations. Recombination and gene conversion. Molecular markers and polymorphisms. 3. Evolution of sequences. Mutational models. Nucleotide substitutions. GC content and isochores. Amino acid substitutions. Alignments. PAM and BLOSUM matrices. Lab: BLAST, ClustAl and manual alignment. 2. Molecula ...
Molecular Biologists
Molecular Biologists

... Molecular Biologists By: Amanda, Elizabeth, and Abby ...
Application of Molecular Biology Techniques in Astrobiology
Application of Molecular Biology Techniques in Astrobiology

... Driving ForcesMore Disequilibrium Polymers Molecular / Cellular Waste ...

History of molecular evolution

The history of molecular evolution starts in the early 20th century with ""comparative biochemistry"", but the field of molecular evolution came into its own in the 1960s and 1970s, following the rise of molecular biology. The advent of protein sequencing allowed molecular biologists to create phylogenies based on sequence comparison, and to use the differences between homologous sequences as a molecular clock to estimate the time since the last common ancestor. In the late 1960s, the neutral theory of molecular evolution provided a theoretical basis for the molecular clock, though both the clock and the neutral theory were controversial, since most evolutionary biologists held strongly to panselectionism, with natural selection as the only important cause of evolutionary change. After the 1970s, nucleic acid sequencing allowed molecular evolution to reach beyond proteins to highly conserved ribosomal RNA sequences, the foundation of a reconceptualization of the early history of life.