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C W ANDERSON

Showing results (171-180 of 183) with videos related to

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Cell|June 6, 1986
A second virus-encoded proteinase involved in proteolytic processing of poliovirus polyproteinH Toyoda, M J Nicklin, M G Murray, et al.
The Journal of Biological Chemistry|October 5, 1993
The carboxyl-terminal transactivation domain of human serum response factor contains DNA-activated protein kinase phosphorylation sitesS H Liu, J T Ma, A Y Yueh, et al.
Journal of Virology|March 1, 1984
Protein processing map of poliovirusM A Pallansch, O M Kew, B L Semler, et al.
Epidemiology and Infection|March 28, 2013
Surveillance and movements of Virginia opossum (Didelphis virginiana) in the bovine tuberculosis region of MichiganW D Walter, J W Fischer, C W Anderson, et al.
Molecular Carcinogenesis|January 20, 1998
Prolonged p53 protein accumulation in trichothiodystrophy fibroblasts dependent on unrepaired pyrimidine dimers on the transcribed strands of cellular genesN Dumaz, A Duthu, J C Ehrhart, et al.
Oncogene|November 1, 1994
The carboxy-terminal serine 392 phosphorylation site of human p53 is not required for wild-type activitiesM Fiscella, N Zambrano, S J Ullrich, et al.
Nature|May 2, 1996
A human RNA polymerase II complex associated with SRB and DNA-repair proteinsE Maldonado, R Shiekhattar, M Sheldon, et al.
The Journal of Biological Chemistry|December 8, 1995
A p53-independent pathway for activation of WAF1/CIP1 expression following oxidative stressT Russo, N Zambrano, F Esposito, et al.
Science (New York, N.Y.)|September 11, 1998
Enhanced phosphorylation of p53 by ATM in response to DNA damageS Banin, L Moyal, S Shieh, et al.
Oncogene|June 1, 1993
Mutation of the serine 15 phosphorylation site of human p53 reduces the ability of p53 to inhibit cell cycle progressionM Fiscella, S J Ullrich, N Zambrano, et al.
Pageof 19

Showing results (171-180 of 183) with videos related to

Sort By:
Pageof 19
Cell|June 6, 1986
A second virus-encoded proteinase involved in proteolytic processing of poliovirus polyproteinH Toyoda, M J Nicklin, M G Murray, et al.
The Journal of Biological Chemistry|October 5, 1993
The carboxyl-terminal transactivation domain of human serum response factor contains DNA-activated protein kinase phosphorylation sitesS H Liu, J T Ma, A Y Yueh, et al.
Journal of Virology|March 1, 1984
Protein processing map of poliovirusM A Pallansch, O M Kew, B L Semler, et al.
Epidemiology and Infection|March 28, 2013
Surveillance and movements of Virginia opossum (Didelphis virginiana) in the bovine tuberculosis region of MichiganW D Walter, J W Fischer, C W Anderson, et al.
Molecular Carcinogenesis|January 20, 1998
Prolonged p53 protein accumulation in trichothiodystrophy fibroblasts dependent on unrepaired pyrimidine dimers on the transcribed strands of cellular genesN Dumaz, A Duthu, J C Ehrhart, et al.
Oncogene|November 1, 1994
The carboxy-terminal serine 392 phosphorylation site of human p53 is not required for wild-type activitiesM Fiscella, N Zambrano, S J Ullrich, et al.
Nature|May 2, 1996
A human RNA polymerase II complex associated with SRB and DNA-repair proteinsE Maldonado, R Shiekhattar, M Sheldon, et al.
The Journal of Biological Chemistry|December 8, 1995
A p53-independent pathway for activation of WAF1/CIP1 expression following oxidative stressT Russo, N Zambrano, F Esposito, et al.
Science (New York, N.Y.)|September 11, 1998
Enhanced phosphorylation of p53 by ATM in response to DNA damageS Banin, L Moyal, S Shieh, et al.
Oncogene|June 1, 1993
Mutation of the serine 15 phosphorylation site of human p53 reduces the ability of p53 to inhibit cell cycle progressionM Fiscella, S J Ullrich, N Zambrano, et al.
Pageof 19