The study of the expression, regulation and inheritance of genes at the level of DNA and its transcription products.
the study of the flow and regulation of genetic information between DNA, RNA and protein molecules.
the branch of genetics concerned with the structure and activity of genetic material at the molecular level
The detailed study of genes - inherited instructions passed on from one generation to the next. Molecular geneticists try and work out what different genes do, and how they work.
The study of the molecular structure and function of genes.
Study of how genes function to control cellular activities.
the study of molecules of DNA in order to identify the form and function of the genes in them.
the study of the molecular processes underlying gene structure and function.
Molecular genetic methods involve studying genes at the level of the nucleotide sequence.
The study of how genes function to control cellular activies. (Genetic engineering involves the application of knowledge about molecular genetics in order to change living things by modifying their DNA, so they will produce desired strains).
The branch of genetics that deals with issues such as how a gene is copied, how a mutation arises, how genes are turned on and off when their activity is needed or not needed, what are the chemical products of genes, and what is the precise sequence of the chemical building blocks of DNA in genes.
The study of macromolecules important in biological inheritance.
study of the biochemical constitution of the genetic material (replication, repair, expression and regulation of its functions).
Molecular genetics is the field of biology which studies the structure and function of genes at a molecular level. Molecular genetics employs the methods of genetics and molecular biology. It is so-called to differentiate it from other sub fields of genetics such as ecological genetics and population genetics.