Chapter 5 Structure and function of the yeast vacuolar membrane H+-ATPase
- 1 January 1996
- book chapter
- Published by Elsevier
Abstract
No abstract availableThis publication has 83 references indexed in Scilit:
- Vacuolar H+-ATPase Mutants Transform Cells and Define a Binding Site for the Papillomavirus E5 OncoproteinJournal of Biological Chemistry, 1995
- Transcriptional Regulation of the Vacuolar H+-ATPase B2 Subunit Gene in Differentiating THP-1 CellsPublished by Elsevier ,1995
- Mutations at the putative junction sites of the yeast VMA1 protein, the catalytic subunit of the vacuolar membrane H+-ATPase, inhibit its processing by protein splicingBiochemical and Biophysical Research Communications, 1992
- Primary structure of the α‐subunit of vacuolar‐type Na+‐ATPase inEnterococcus hirae Amplification of a 1000‐bp fragment by polymerase chain reactionFEBS Letters, 1991
- Protein Splicing Converts the Yeast TFP1 Gene Product to the 69-kdDSubunit of the Vacuolar H + -Adenosine TriphosphataseScience, 1990
- Some features of the Streptococcus faecalis Na+‐ATPase resemble thoseof the vacuolar‐type ATPasesFEBS Letters, 1990
- A multinuclear magnetic resonance study of a cls11 mutant showing the Pet− phenotype of Saccharomyces cerevisiaeEuropean Journal of Biochemistry, 1990
- A yeast protein, homologous to the proteolipid of the chromaffin granule proton-ATPase, is important for cell growthBiochemical and Biophysical Research Communications, 1990
- The progenitor of ATP synthases was closely related to the current vacuolar H+‐ATPaseFEBS Letters, 1989
- Functional molecular masses of vacuolar membrane H+‐ATPase from Saccharomyces cerevisiae as studied by radiation inactivation analysisFEBS Letters, 1989