Down regulation of the α-factor pheromone receptor in S. cerevisiae
DD Jenness, P Spatrick - Cell, 1986 - cell.com
The peptide pheromone, a-factor, was found to elicit down regulation of receptor sites on
yeast a cell targets. Cellular uptake of a-factor accompanied the loss of receptor sites …
yeast a cell targets. Cellular uptake of a-factor accompanied the loss of receptor sites …
RAM, a gene of yeast required for a functional modification of RAS proteins and for production of mating pheromone a-factor
Results Identification of an Extrage RAS@ tg that Alters RAS AC Certain missense mutations
p dly after the activity of eukaryotic RAS genes. In particular, mutated H-ras genes that …
p dly after the activity of eukaryotic RAS genes. In particular, mutated H-ras genes that …
Multiple regulation of STE2, a mating-type-specific gene of Saccharomyces cerevisiae
A Hartig, J Holly, G Saari… - Molecular and cellular …, 1986 - Am Soc Microbiol
The Saccharomyces cerevisiae STE2 gene, which is required for pheromone response and
conjugation specifically in mating-type a cells, was cloned by complementation of the ste2 …
conjugation specifically in mating-type a cells, was cloned by complementation of the ste2 …
Control of Cell Growth and Division in Saccharomyces Cerevisiae
SD Hanes, R Koren, KA Bostian… - Critical Reviews in …, 1986 - Taylor & Francis
The survival of any eukaryotic microorganism or higher eukaryotic cell depends upon
accurate duplication of its genetic material and cellular organelles for partitioning into …
accurate duplication of its genetic material and cellular organelles for partitioning into …
Hormonal Control of Cell Division in Saccharomyces cerevisiae
DD Jenness, AC Burkholder, LH Hartwell - Cell Cycle and Oncogenes, 1986 - Springer
Conjugation of haploid MATa and MATα cells of Saccharomyces cevevisiae occurs only
under conditions that are also conducive to active vegetative growth. Thus, cells must decide …
under conditions that are also conducive to active vegetative growth. Thus, cells must decide …