Immunofluorescent localization of proteins in caenorhabditis elegans muscle

Abstract

Caenorhabditis elegans is a premier model genetic system for discovering new information about the assembly and maintenance of striated muscle. The localization of a protein within a nematode muscle cell can reveal important clues to its function. In C. elegans, proteins can be localized by two different methods at the light microscopy level: GFP tagged proteins and indirect immunofluorescence. Although there are advantages and disadvantages of each method, antibodies can be used to localize proteins expressed at endogenous levels and without tags that might interfere with function. Immunolocalization requires efficient and effective methods of fixation. Here, we describe in detail two different methods for fixation of adult worms, the Nonet method and the Constant Spring method. We also discuss the advantages and the disadvantages of each, and how to choose between them. These methods are also useful for localizing proteins expressed in other cell types.