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L Denis

Showing results (201-210 of 310) with videos related to

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Molecular and Cellular Biology|July 11, 2007
PAB1 self-association precludes its binding to poly(A), thereby accelerating CCR4 deadenylation in vivoGang Yao, Yueh-Chin Chiang, Chongxu Zhang, et al.
Cell|March 10, 2001
The transcription factor associated Ccr4 and Caf1 proteins are components of the major cytoplasmic mRNA deadenylase in Saccharomyces cerevisiaeM Tucker, M A Valencia-Sanchez, R R Staples, et al.
Urology|June 1, 1984
Estramustine phosphate in prostate cancer. EORTC experience: preliminary results of Protocol 30762P H Smith, M Robinson, B Richards, et al.
Proteins|November 16, 2017
Defining the protein complexome of translation termination factor eRF1: Identification of four novel eRF1-containing complexes that range from 20S to 57S in sizeClyde L Denis, Roy Richardson, Shiwha Park, et al.
Fertility and Sterility|June 1, 1997
Antiphospholipid antibodies and pregnancy rates and outcome in in vitro fertilization patientsA L Denis, M Guido, R D Adler, et al.
The Prostate|October 12, 2000
International Consultation on Urological Diseases: a decade of progressS Khoury, A Cockett, Y Aso, et al.
Molecular and Cellular Biology|September 22, 1999
The CCR4 and CAF1 proteins of the CCR4-NOT complex are physically and functionally separated from NOT2, NOT4, and NOT5Y Bai, C Salvadore, Y C Chiang, et al.
The Prostate|January 1, 1994
Phase I trial of high-dose fosfestrol in hormone-refractory adenocarcinoma of the prostateJ P Droz, E De Smedt, J Kattan, et al.
The Prostate. Supplement|January 1, 1992
The TNM classification of prostate cancerF H Schröder, P Hermanek, L Denis, et al.
Journal of Molecular Biology|May 4, 2010
PUF3 acceleration of deadenylation in vivo can operate independently of CCR4 activity, possibly involving effects on the PAB1-mRNP structureDarren Lee, Takbum Ohn, Yueh-Chin Chiang, et al.
Pageof 31

Showing results (201-210 of 310) with videos related to

Sort By:
Pageof 31
Molecular and Cellular Biology|July 11, 2007
PAB1 self-association precludes its binding to poly(A), thereby accelerating CCR4 deadenylation in vivoGang Yao, Yueh-Chin Chiang, Chongxu Zhang, et al.
Cell|March 10, 2001
The transcription factor associated Ccr4 and Caf1 proteins are components of the major cytoplasmic mRNA deadenylase in Saccharomyces cerevisiaeM Tucker, M A Valencia-Sanchez, R R Staples, et al.
Urology|June 1, 1984
Estramustine phosphate in prostate cancer. EORTC experience: preliminary results of Protocol 30762P H Smith, M Robinson, B Richards, et al.
Proteins|November 16, 2017
Defining the protein complexome of translation termination factor eRF1: Identification of four novel eRF1-containing complexes that range from 20S to 57S in sizeClyde L Denis, Roy Richardson, Shiwha Park, et al.
Fertility and Sterility|June 1, 1997
Antiphospholipid antibodies and pregnancy rates and outcome in in vitro fertilization patientsA L Denis, M Guido, R D Adler, et al.
The Prostate|October 12, 2000
International Consultation on Urological Diseases: a decade of progressS Khoury, A Cockett, Y Aso, et al.
Molecular and Cellular Biology|September 22, 1999
The CCR4 and CAF1 proteins of the CCR4-NOT complex are physically and functionally separated from NOT2, NOT4, and NOT5Y Bai, C Salvadore, Y C Chiang, et al.
The Prostate|January 1, 1994
Phase I trial of high-dose fosfestrol in hormone-refractory adenocarcinoma of the prostateJ P Droz, E De Smedt, J Kattan, et al.
The Prostate. Supplement|January 1, 1992
The TNM classification of prostate cancerF H Schröder, P Hermanek, L Denis, et al.
Journal of Molecular Biology|May 4, 2010
PUF3 acceleration of deadenylation in vivo can operate independently of CCR4 activity, possibly involving effects on the PAB1-mRNP structureDarren Lee, Takbum Ohn, Yueh-Chin Chiang, et al.
Pageof 31