| The nuclear pore complex mediates binding of the Mig1 repressor to target promoters. Sarma N.J., Buford T.D., Haley T., Barbara-Haley K., Santangelo G.M., Willis K.A.
PLoS ONE 6:e27117-e27117(2011) |
| Chemical inhibition of CaaX protease activity disrupts yeast Ras localization. Manandhar S.P., Hildebrandt E.R., Jacobsen W.H., Santangelo G.M., Schmidt W.K.
Yeast 27:327-343(2010) · Mapped (5) |
| Heterologous expression studies of Saccharomyces cerevisiae reveal two distinct trypanosomatid CaaX protease activities and identify their potential targets. Mokry D.Z., Manandhar S.P., Chicola K.A., Santangelo G.M., Schmidt W.K.
Eukaryotic Cell 8:1891-1900(2009) · UniProtKB (1) · Mapped (4) |
| Coiled coil structures and transcription: an analysis of the S. cerevisiae coilome. Barbara K.E., Willis K.A., Haley T.M., Deminoff S.J., Santangelo G.M.
Mol. Genet. Genomics 278:135-147(2007) · Mapped (1) |
| Glucose-responsive regulators of gene expression in Saccharomyces cerevisiae function at the nuclear periphery via a reverse recruitment mechanism. Sarma N.J., Haley T.M., Barbara K.E., Buford T.D., Willis K.A., Santangelo G.M.
Genetics 175:1127-1135(2007) · UniProtKB (1) · Mapped (10) |
| The transcription factor Gcr1 stimulates cell growth by participating in nutrient-responsive gene expression on a global level. Barbara K.E., Haley T.M., Willis K.A., Santangelo G.M.
Mol. Genet. Genomics 277:171-188(2007) · UniProtKB (1) · Mapped (14) |
| Glucose signaling in Saccharomyces cerevisiae. Santangelo G.M.
Microbiol. Mol. Biol. Rev. 70:253-282(2006) · Mapped (75) |
| Reverse recruitment: the Nup84 nuclear pore subcomplex mediates Rap1/Gcr1/Gcr2 transcriptional activation. Menon B.B., Sarma N.J., Pasula S., Deminoff S.J., Willis K.A., Barbara K.E., Andrews B., Santangelo G.M.
Proc. Natl. Acad. Sci. U.S.A. 102:5749-5754(2005) · Mapped (18) |
| The global transcriptional activator of Saccharomyces cerevisiae, Gcr1p, mediates the response to glucose by stimulating protein synthesis and CLN-dependent cell cycle progression. Willis K.A., Barbara K.E., Menon B.B., Moffat J., Andrews B., Santangelo G.M.
Genetics 165:1017-1029(2003) · Mapped (4) |
| Rap1p requires Gcr1p and Gcr2p homodimers to activate ribosomal protein and glycolytic genes, respectively. Deminoff S.J., Santangelo G.M.
Genetics 158:133-143(2001) · UniProtKB (2) · Mapped (1) |
| A Saccharomyces cerevisiae mitochondrial DNA fragment activates Reg1p-dependent glucose-repressible transcription in the nucleus. Santangelo G.M., Tornow J.
Curr. Genet. 32:389-398(1997) · Mapped (1) |
| Specialized Rap1p/Gcr1p transcriptional activation through Gcr1p DNA contacts requires Gcr2p, as does hyperphosphorylation of Gcr1p. Zeng X., Deminoff S.J., Santangelo G.M.
Genetics 147:493-505(1997) · UniProtKB (2) · Mapped (1) |
| Unigenic evolution: a novel genetic method localizes a putative leucine zipper that mediates dimerization of the Saccharomyces cerevisiae regulator Gcr1p. Deminoff S.J., Tornow J., Santangelo G.M.
Genetics 141:1263-1274(1995) · UniProtKB (1) · Mapped (1) |
| GCR1, a transcriptional activator in Saccharomyces cerevisiae, complexes with RAP1 and can function without its DNA binding domain. Tornow J., Zeng X., Gao W., Santangelo G.M.
EMBO J. 12:2431-2437(1993) · UniProtKB (2) · Mapped (2) |
| Saccharomyces cerevisiae ribosomal protein L37 is encoded by duplicate genes that are differentially expressed. Tornow J., Santangelo G.M.
Curr. Genet. 25:480-487(1994) · UniProtKB (1) · Mapped (1) |
| The GCR1 gene of Saccharomyces cerevisiae is a split gene with an unusually long intron. Tornow J., Santangelo G.M.
Genetics 138:973-974(1994) · UniProtKB (1) |
| Efficient transcription of the glycolytic gene ADH1 and three translational component genes requires the GCR1 product, which can act through TUF/GRF/RAP binding sites. Santangelo G.M., Tornow J.
Mol. Cell. Biol. 10:859-862(1990) · Mapped (3) |
| Efficient expression of the Saccharomyces cerevisiae glycolytic gene ADH1 is dependent upon a cis-acting regulatory element (UASRPG) found initially in genes encoding ribosomal proteins. Tornow J., Santangelo G.M.
Gene 90:79-85(1990) · Mapped (2) |
| Screening a yeast promoter library leads to the isolation of the RP29/L32 and SNR17B/RPL37A divergent promoters and the discovery of a gene encoding ribosomal protein L37. Santangelo G.M., Tornow J., McLaughlin C.S., Moldave K.
Gene 105:137-138(1991) · UniProtKB (1) |
