[
Methods Cell Biol,
1995]
Geneticists like to point out that the ultimate test of a proposed function for a gene and its encoded product (or products) in a living organism involves making a mutant and analyzing its phenotype. This is the goal of reverse genetics: a gene is cloned and sequenced, its transcripts and protein coding sequence are analyzed, and a function may be proposed; one must then introduce a mutation in the gene in a living organism to see what the functional consequences are. The analysis of genetic mosaics takes this philosophy a step further. In mosaics, some cells of an individual are genotypically mutant and other cells are genotypically wild type. One then asks what the phenotypic consequences are for the living organism. This is not the same as asking what cells transcribe the gene or in what cells the protein product of the gene is to be found, but rather it is asking in what cells the wild-type gene is needed for a given function...
[
Methods Cell Biol,
1995]
One way to study cell function is to eliminate the cell and observe subsequent developmental or behavioral abnormalities in the animal. In Caenorhabditis elegans, this is usually accomplished by killing individual cells or groups of cells with a laser microbeam. Laser killing has been used to determine the functions of many mature cell types, including neurons involved in locomotion, feeding, mechanosensation, and chemosensation. These studies have been practical because only a few cell types appear to be absolutely required for viability. Laser ablation can also be sued to ask how cells interact during development. Signaling and inductive interactions between cells can be examined by removing one cell and observing the development of the remaining cells...