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Trends in Molecular Medicine
|
May 22, 2012
Cancer research, a field on the verge of a paradigm shift?
Ido Goldstein, Shalom Madar, Varda Rotter
Cancer Research
|
August 6, 2009
Did experimental biology die? Lessons from 30 years of p53 research
Shalom Madar, Ido Goldstein, Varda Rotter
Cell Reports
|
May 25, 2017
Bivariate Genomic Footprinting Detects Changes in Transcription Factor Activity
Songjoon Baek, Ido Goldstein, Gordon L Hager
The Journal of Nutritional Biochemistry
|
June 19, 2023
Dynamic chromatin accessibility during nutritional iron overload reveals a BMP6-independent induction of cell cycle genes
Talia Radushkevitz-Frishman, Meital Charni-Natan, Ido Goldstein
Cell Cycle (Georgetown, Tex.)
|
December 14, 2011
Beyond tumor suppression: p53 controls blastocyst implantation
Shalom Madar, Ido Goldstein, Ortal Neeman, et al.
Liver International : Official Journal of the International Association for the Study of the Liver
|
August 20, 2024
Transcriptional cascades during fasting amplify gluconeogenesis and instigate a secondary wave of ketogenic gene transcription
Dana Goldberg, Nufar Buchshtab, Meital Charni-Natan, et al.
Cancer & Metabolism
|
November 28, 2013
p53 promotes the expression of gluconeogenesis-related genes and enhances hepatic glucose production
Ido Goldstein, Keren Yizhak, Shalom Madar, et al.
Nucleic Acids Research
|
May 13, 2022
Hormone-controlled cooperative binding of transcription factors drives synergistic induction of fasting-regulated genes
Dana Goldberg, Meital Charni-Natan, Nufar Buchshtab, et al.
Nature Communications
|
November 30, 2017
Synergistic gene expression during the acute phase response is characterized by transcription factor assisted loading
Ido Goldstein, Ville Paakinaho, Songjoon Baek, et al.
Cellular and Molecular Gastroenterology and Hepatology
|
May 6, 2021
Fasting Hormones Synergistically Induce Amino Acid Catabolism Genes to Promote Gluconeogenesis
Noga Korenfeld, Maya Finkel, Nufar Buchshtab, et al.
Page
of 5
Search research articles
Search
Showing results (11-20 of 43) with videos related to
Sort By:
Page
of 5
Trends in Molecular Medicine
|
May 22, 2012
Cancer research, a field on the verge of a paradigm shift?
Ido Goldstein, Shalom Madar, Varda Rotter
Cancer Research
|
August 6, 2009
Did experimental biology die? Lessons from 30 years of p53 research
Shalom Madar, Ido Goldstein, Varda Rotter
Cell Reports
|
May 25, 2017
Bivariate Genomic Footprinting Detects Changes in Transcription Factor Activity
Songjoon Baek, Ido Goldstein, Gordon L Hager
The Journal of Nutritional Biochemistry
|
June 19, 2023
Dynamic chromatin accessibility during nutritional iron overload reveals a BMP6-independent induction of cell cycle genes
Talia Radushkevitz-Frishman, Meital Charni-Natan, Ido Goldstein
Cell Cycle (Georgetown, Tex.)
|
December 14, 2011
Beyond tumor suppression: p53 controls blastocyst implantation
Shalom Madar, Ido Goldstein, Ortal Neeman, et al.
Liver International : Official Journal of the International Association for the Study of the Liver
|
August 20, 2024
Transcriptional cascades during fasting amplify gluconeogenesis and instigate a secondary wave of ketogenic gene transcription
Dana Goldberg, Nufar Buchshtab, Meital Charni-Natan, et al.
Cancer & Metabolism
|
November 28, 2013
p53 promotes the expression of gluconeogenesis-related genes and enhances hepatic glucose production
Ido Goldstein, Keren Yizhak, Shalom Madar, et al.
Nucleic Acids Research
|
May 13, 2022
Hormone-controlled cooperative binding of transcription factors drives synergistic induction of fasting-regulated genes
Dana Goldberg, Meital Charni-Natan, Nufar Buchshtab, et al.
Nature Communications
|
November 30, 2017
Synergistic gene expression during the acute phase response is characterized by transcription factor assisted loading
Ido Goldstein, Ville Paakinaho, Songjoon Baek, et al.
Cellular and Molecular Gastroenterology and Hepatology
|
May 6, 2021
Fasting Hormones Synergistically Induce Amino Acid Catabolism Genes to Promote Gluconeogenesis
Noga Korenfeld, Maya Finkel, Nufar Buchshtab, et al.
Page
of 5