Matches in Nanopublications for { ?s ?p "Expression of RSP5 in yeast cells potentiated hPR and human glucocorticoid receptor (hGR) transcriptional activity and increased the efficacy of weak agonists of these receptors. Remarkably, expression of this yeast protein in mammalian cells had a similar effect on PR and GR transcriptional activity. Importantly, a human homolog of RSP5, h RPF1, functioned identically in mammalian cells." ?g. }
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- _5 value "Expression of RSP5 in yeast cells potentiated hPR and human glucocorticoid receptor (hGR) transcriptional activity and increased the efficacy of weak agonists of these receptors. Remarkably, expression of this yeast protein in mammalian cells had a similar effect on PR and GR transcriptional activity. Importantly, a human homolog of RSP5, h RPF1, functioned identically in mammalian cells." provenance.
- _5 value "Expression of RSP5 in yeast cells potentiated hPR and human glucocorticoid receptor (hGR) transcriptional activity and increased the efficacy of weak agonists of these receptors. Remarkably, expression of this yeast protein in mammalian cells had a similar effect on PR and GR transcriptional activity. Importantly, a human homolog of RSP5, h RPF1, functioned identically in mammalian cells." provenance.
- _5 value "Expression of RSP5 in yeast cells potentiated hPR and human glucocorticoid receptor (hGR) transcriptional activity and increased the efficacy of weak agonists of these receptors. Remarkably, expression of this yeast protein in mammalian cells had a similar effect on PR and GR transcriptional activity. Importantly, a human homolog of RSP5, h RPF1, functioned identically in mammalian cells." provenance.
- _5 value "Expression of RSP5 in yeast cells potentiated hPR and human glucocorticoid receptor (hGR) transcriptional activity and increased the efficacy of weak agonists of these receptors. Remarkably, expression of this yeast protein in mammalian cells had a similar effect on PR and GR transcriptional activity. Importantly, a human homolog of RSP5, h RPF1, functioned identically in mammalian cells." provenance.