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7 in total

1. Cloning of a transcriptionally active human TATA binding factor.

Authors: C C Kao; P M Lieberman; M C Schmidt; Q Zhou; R Pei; A J Berk
Journal: Science Date: 1990-06-29 Impact factor: 47.728

2. Functional domains and upstream activation properties of cloned human TATA binding protein.

Authors: M G Peterson; N Tanese; B F Pugh; R Tjian
Journal: Science Date: 1990-06-29 Impact factor: 47.728

3. Cloning and structure of a yeast gene encoding a general transcription initiation factor TFIID that binds to the TATA box.

Authors: M Horikoshi; C K Wang; H Fujii; J A Cromlish; P A Weil; R G Roeder
Journal: Nature Date: 1989-09-28 Impact factor: 49.962

4. Cloning of the Schizosaccharomyces pombe TFIID gene reveals a strong conservation of functional domains present in Saccharomyces cerevisiae TFIID.

Authors: A Hoffmann; M Horikoshi; C K Wang; S Schroeder; P A Weil; R G Roeder
Journal: Genes Dev Date: 1990-07 Impact factor: 11.361

5. Isolation of genomic DNA encoding transcription factor TFIID from Acanthamoeba castellanii: characterization of the promoter.

Authors: J M Wong; F Liu; E Bateman
Journal: Nucleic Acids Res Date: 1992-09-25 Impact factor: 16.971

6. Striking homology of the 'variable' N-terminal as well as the 'conserved core' domains of the mouse and human TATA-factors (TFIID).

Authors: T Tamura; K Sumita; I Fujino; A Aoyama; M Horikoshi; A Hoffmann; R G Roeder; M Muramatsu; K Mikoshiba
Journal: Nucleic Acids Res Date: 1991-07-25 Impact factor: 16.971

7. Highly conserved core domain and unique N terminus with presumptive regulatory motifs in a human TATA factor (TFIID).

Authors: A Hoffman; E Sinn; T Yamamoto; J Wang; A Roy; M Horikoshi; R G Roeder
Journal: Nature Date: 1990-07-26 Impact factor: 49.962

7 in total

8 in total

Review 1. The origins of polypeptide domains.

Authors: Edward E Schmidt; Christopher J Davies
Journal: Bioessays Date: 2007-03 Impact factor: 4.345

2. Analysis of the chicken TBP-like protein(tlp) gene: evidence for a striking conservation of vertebrate TLPs and for a close relationship between vertebrate tbp and tlp genes.

Authors: M Shimada; T Ohbayashi; M Ishida; T Nakadai; Y Makino; T Aoki; T Kawata; T Suzuki; Y Matsuda; T Tamura
Journal: Nucleic Acids Res Date: 1999-08-01 Impact factor: 16.971

3. Biochemical and genetic characterization of the dominant positive element driving transcription ofthe yeast TBP-encoding gene, SPT15.

Authors: S C Schroeder; P A Weil
Journal: Nucleic Acids Res Date: 1998-09-15 Impact factor: 16.971

4. Early vertebrate evolution of the TATA-binding protein, TBP.

Authors: Alla A Bondareva; Edward E Schmidt
Journal: Mol Biol Evol Date: 2003-07-28 Impact factor: 16.240

5. Interaction of protein inhibitor of activated STAT (PIAS) proteins with the TATA-binding protein, TBP.

Authors: Justin R Prigge; Edward E Schmidt
Journal: J Biol Chem Date: 2006-03-06 Impact factor: 5.157

6. Removing the vertebrate-specific TBP N terminus disrupts placental beta2m-dependent interactions with the maternal immune system.

Authors: Nicole K Hobbs; Alla A Bondareva; Sheila Barnett; Mario R Capecchi; Edward E Schmidt
Journal: Cell Date: 2002-07-12 Impact factor: 41.582

7. Evolution at the subgene level: domain rearrangements in the Drosophila phylogeny.

Authors: Yi-Chieh Wu; Matthew D Rasmussen; Manolis Kellis
Journal: Mol Biol Evol Date: 2011-09-07 Impact factor: 16.240

8. HAP1 can sequester a subset of TBP in cytoplasmic inclusions via specific interaction with the conserved TBP(CORE).

Authors: Justin R Prigge; Edward E Schmidt
Journal: BMC Mol Biol Date: 2007-09-14 Impact factor: 2.946

8 in total