Yeast gene analysis

Introduction to functional analysis of the yeast genome, S.G. Oliver Whole chromosome analysis, E.J. Louis The bioinformatics of the yeast genome, H.W. Mewes et al Transformation of yeast by the lithium acetate/single-stranded carrier DNA/PEG method, R.D. Gietz, R.A. Woods PCR-based gene targeting in saccharomyces cerevisiae, A. Wach et al Studying essential genes-generating and using promoter fusions and conditional alleles, M.J.R. Stark Ty mutagenesis, D.J. Garfinkel et al Transcript analysis, A.J.P. Brown et al Reporter genes and their use in studying yeast gene expression, N. Koloteva et al Transposon tagging I - a novel system for monitoring protein production, function and localization, P. Ross-Macdonald et al Transposon tagging II - exploration of gene function and regulatory networks in yeast with the mini-mu transposon, M. Bolotin-Fukuhara Immunological approaches to the study of protein localisation in yeast, I.M. Hagan, C.J. Stirling Post-translational modifications of secretory proteins, F.M. Klis et al Studying post-translational modifications in yeast-intracellular proteins, M.J.R. Stark Analysis of protein-protein interactions in yeast, J. Rosamond 'Smart' genetic screens, J. de la Cruz et al Metabolic control analysis as a tool in the elucidation of the function of novel genes, B. Teusink et al Identifying stress genes, W.H. Mager et al Identifying genes encoding components of the protein synthesis machinery of the yeast saccharomyces cerevisiae, M.F. Tuite et al MAP kinase-mediated signal transduction pathways, M. Molina et al The analysis of the candida albicans genome, P.T. Magee Applications of yeast in the discovery of human gene function, P.A. Moore Yeast mutant and plasmid collections, P. Kotter Yeast gene analysis in the 21st century, A. Brown, M.F. Tuite. Appendices: The ribosomal protein genes of saccharomyces cerevisiae, R.J. Planta et al Yeast growth, A.J.P. Brown, M.F. Tuite Useful World Wide Web addresses for yeast researchers, A.J.P. Brown nomenclature for yeast genes and proteins, M.F. Tuite.