Alkaline phosphatase fusions: sensors of subcellular location

Abstract

Alkaline phosphatase fusions allow genes to be identified solely on the basis of their protein products being exported from the cytoplasm. Thus, the use of such fusions helps render biological processes which involve cell envelope and secreted proteins accessible to a sophisticated genetic analysis. Furthermore, alkaline phosphatase fusions can be used to locate export signals. Specifying such signals is an important component of studies on the structure of individual cell envelope proteins. The basis of the alkaline phosphatase fusion approach is the finding that the activity of the enzyme responds differently to different environments. Thus, the activity of the fusion protein gives evidence as to its location. This general approach of using sensor proteins which vary in their function, depending on their environment, could be extended to the study of other sorts of problems. It may be that certain enzymes will provide an assay for localization to a particular subcellular compartment, if the environment of the compartment differs from that of others. For instance, the lysosome is more acidic than other intracellular organelles. A gene fusion system employing a reporter enzyme that could show activity only at the pH of the lysosome could allow the detection of signals determining lysosomal localization. Analogous types of enzymes may be used as probes for other subcellular compartments.