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T F Donahue

Explore the profile of T F Donahue including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 43
Citations 2459
Followers 0
Related Specialties
Cell Biology
Molecular Biology
Science
Top 10 Co-Authors
A M Cigan
L Feng
S A Henry
G R Fink
A G Hinnebusch
H Yoon
M R Culbertson
E K Pabich
W J Feaver
R D Kornberg
Published In
Mol Cell Biol
Cell
Proc Natl Acad Sci U S A
Gene
J Bacteriol
Affiliations
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Recent Articles
1.
Utility of Routine Preoperative F-Fluorodeoxyglucose Positron Emission Tomography/Computerized Tomography in Identifying Pathological Lymph Node Metastases at Radical Cystectomy. Reply
Dason S, Wong N, Donahue T, Meier A, Zheng J, Mannelli L, et al.
J Urol . 2021 Apr; 206(1):170-171. PMID: 33793306
No abstract available.
2.
External beam radiation therapy after radical prostatectomy: efficacy and impact on urinary continence
Petroski R, Warlick W, Herring J, Donahue T, Sun L, Smith C, et al.
Prostate Cancer Prostatic Dis . 2004 May; 7(2):170-7. PMID: 15136786
Introduction And Objectives: The efficacy of adjuvant and salvage external beam radiation (AXRT+SXRT) for prostate cancer after radical prostatectomy (RP) has been debated because of the inability to rule out...
3.
A multifactor complex of eIF1, eIF2, eIF3, eIF5, and tRNA(i)Met promotes initiation complex assembly and couples GTP hydrolysis to AUG recognition
Asano K, Phan L, Valasek L, Schoenfeld L, Shalev A, Clayton J, et al.
Cold Spring Harb Symp Quant Biol . 2003 May; 66:403-15. PMID: 12762043
No abstract available.
4.
Multiple roles for the C-terminal domain of eIF5 in translation initiation complex assembly and GTPase activation
Asano K, Shalev A, Phan L, Nielsen K, Clayton J, Valasek L, et al.
EMBO J . 2001 May; 20(9):2326-37. PMID: 11331597
eIF5 stimulates the GTPase activity of eIF2 bound to Met-tRNA(i)(Met), and its C-terminal domain (eIF5-CTD) bridges interaction between eIF2 and eIF3/eIF1 in a multifactor complex containing Met-tRNA(i)(Met). The tif5-7A mutation...
5.
RNA polymerase I-promoted HIS4 expression yields uncapped, polyadenylated mRNA that is unstable and inefficiently translated in Saccharomyces cerevisiae
Lo H, Huang H, Donahue T
Mol Cell Biol . 1998 Feb; 18(2):665-75. PMID: 9447962
The HIS4 gene in Saccharomyces cerevisiae was put under the transcriptional control of RNA polymerase I to determine the in vivo consequences on mRNA processing and gene expression. This gene,...
6.
GTP hydrolysis controls stringent selection of the AUG start codon during translation initiation in Saccharomyces cerevisiae
Huang H, Yoon H, Hannig E, Donahue T
Genes Dev . 1997 Oct; 11(18):2396-413. PMID: 9308967
We have isolated and characterized two suppressor genes, SUI4 and SUI5, that can initiate translation in the absence of an AUG start codon at the HIS4 locus in Saccharomyces cerevisiae....
7.
SUI1/p16 is required for the activity of eukaryotic translation initiation factor 3 in Saccharomyces cerevisiae
Naranda T, MacMillan S, Donahue T, Hershey J
Mol Cell Biol . 1996 May; 16(5):2307-13. PMID: 8628297
A genetic reversion analysis at the HIS4 locus in Saccharomyces cerevisiae has identified SUI1 as a component of the translation initiation complex which plays an important role in ribosomal recognition...
8.
The yeast TFB1 and SSL1 genes, which encode subunits of transcription factor IIH, are required for nucleotide excision repair and RNA polymerase II transcription
Wang Z, Buratowski S, Svejstrup J, Feaver W, Wu X, Kornberg R, et al.
Mol Cell Biol . 1995 Apr; 15(4):2288-93. PMID: 7891722
The essential TFB1 and SSL1 genes of the yeast Saccharomyces cerevisiae encode two subunits of the RNA polymerase II transcription factor TFIIH (factor b). Here we show that extracts of...
9.
Different forms of TFIIH for transcription and DNA repair: holo-TFIIH and a nucleotide excision repairosome
Svejstrup J, Wang Z, Feaver W, Wu X, Bushnell D, Donahue T, et al.
Cell . 1995 Jan; 80(1):21-8. PMID: 7813015
Yeast TFIIH that is active in transcription can be dissociated into three components: a 5-subunit core, the SSL2 gene product, and a complex of 47 kDa, 45 kDa, and 33...
10.
Casein kinase II mediates multiple phosphorylation of Saccharomyces cerevisiae eIF-2 alpha (encoded by SUI2), which is required for optimal eIF-2 function in S. cerevisiae
Feng L, Yoon H, Donahue T
Mol Cell Biol . 1994 Aug; 14(8):5139-53. PMID: 8035796
Previous studies have demonstrated that the alpha subunit of eukaryotic initiation factor 2 (eIF-2 alpha), encoded by the SUI2 gene in the yeast Saccharomyces cerevisiae, is phosphorylated at Ser-51 by...