Peter Weil
Faculty Member
Last active: 11/4/2015

  1. Functional analysis of the TFIID-specific yeast TAF4 (yTAF(II)48) reveals an unexpected organization of its histone-fold domain. Thuault S, Gangloff YG, Kirchner J, Sanders S, Werten S, Romier C, Weil PA, Davidson I (2002) J Biol Chem 277(47): 45510-7
    › Primary publication · 12237303 (PubMed)
  2. Distinct mutations in yeast TAF(II)25 differentially affect the composition of TFIID and SAGA complexes as well as global gene expression patterns. Kirschner DB, vom Baur E, Thibault C, Sanders SL, Gangloff YG, Davidson I, Weil PA, Tora L (2002) Mol Cell Biol 22(9): 3178-93
    › Primary publication · 11940675 (PubMed) · PMC133751 (PubMed Central)
  3. A method for plasmid purification directly from yeast. Singh MV, Weil PA (2002) Anal Biochem 307(1): 13-7
    › Primary publication · 12137773 (PubMed)
  4. Molecular genetic dissection of TAF25, an essential yeast gene encoding a subunit shared by TFIID and SAGA multiprotein transcription factors. Kirchner J, Sanders SL, Klebanow E, Weil PA (2001) Mol Cell Biol 21(19): 6668-80
    › Primary publication · 11533254 (PubMed) · PMC99812 (PubMed Central)
  5. Histone folds mediate selective heterodimerization of yeast TAF(II)25 with TFIID components yTAF(II)47 and yTAF(II)65 and with SAGA component ySPT7. Gangloff YG, Sanders SL, Romier C, Kirschner D, Weil PA, Tora L, Davidson I (2001) Mol Cell Biol 21(5): 1841-53
    › Primary publication · 11238921 (PubMed) · PMC86751 (PubMed Central)
  6. Fluorescence-based analyses of the effects of full-length recombinant TAF130p on the interaction of TATA box-binding protein with TATA box DNA. Banik U, Beechem JM, Klebanow E, Schroeder S, Weil PA (2001) J Biol Chem 276(52): 49100-9
    › Primary publication · 11677244 (PubMed)
  7. Identification of two novel TAF subunits of the yeast Saccharomyces cerevisiae TFIID complex. Sanders SL, Weil PA (2000) J Biol Chem 275(18): 13895-900
    › Primary publication · 10788514 (PubMed)
  8. TAF25p, a non-histone-like subunit of TFIID and SAGA complexes, is essential for total mRNA gene transcription in vivo. Sanders SL, Klebanow ER, Weil PA (1999) J Biol Chem 274(27): 18847-50
    › Primary publication · 10383379 (PubMed)
  9. MOT1 can activate basal transcription in vitro by regulating the distribution of TATA binding protein between promoter and nonpromoter sites. Muldrow TA, Campbell AM, Weil PA, Auble DT (1999) Mol Cell Biol 19(4): 2835-45
    › Primary publication · 10082549 (PubMed) · PMC84076 (PubMed Central)
  10. A rapid technique for the determination of unknown plasmid library insert DNA sequence directly from intact yeast cells. Klebanow ER, Weil PA (1999) Yeast 15(6): 527-31
    › Primary publication · 10234790 (PubMed)