Related references
Note: Only part of the references are listed.Identifying and Targeting Sporadic Oncogenic Genetic Aberrations in Mouse Models of Triple-Negative Breast Cancer
Hui Liu et al.
CANCER DISCOVERY (2018)
Cancer Statistics, 2018
Rebecca L. Siegel et al.
CA-A CANCER JOURNAL FOR CLINICIANS (2018)
Transcriptional Regulation of the Warburg Effect in Cancer by SIX1
Ling Li et al.
CANCER CELL (2018)
Inhibition of PC4 radiosensitizes non-small cell lung cancer by transcriptionally suppressing XLF
Tian Zhang et al.
CANCER MEDICINE (2018)
Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries
Freddie Bray et al.
CA-A CANCER JOURNAL FOR CLINICIANS (2018)
Recent advances in searching c-Myc transcriptional cofactors during tumorigenesis
Matteo Caforio et al.
JOURNAL OF EXPERIMENTAL & CLINICAL CANCER RESEARCH (2018)
Akt1 inhibition promotes breast cancer metastasis through EGFR-mediated β-catenin nuclear accumulation
Wei Li et al.
CELL COMMUNICATION AND SIGNALING (2018)
Sub1 contacts the RNA polymerase II stalk to modulate mRNA synthesis
Miguel Garavis et al.
NUCLEIC ACIDS RESEARCH (2017)
Molecular alterations in triple-negative breast cancer-the road to new treatment strategies
Carsten Denkert et al.
LANCET (2017)
Yeast Sub1 and human PC4 are G-quadruplex binding proteins that suppress genome instability at co-transcriptionally formed G4 DNA
Christopher R. Lopez et al.
NUCLEIC ACIDS RESEARCH (2017)
Sub1/PC4, a multifaceted factor: from transcription to genome stability
Miguel Garavis et al.
CURRENT GENETICS (2017)
The Sub1 nuclear protein protects DNA from oxidative damage
Lijian Yu et al.
MOLECULAR AND CELLULAR BIOCHEMISTRY (2016)
PC4 promotes genome stability and DNA repair through binding of ssDNA at DNA damage sites
O. Mortusewicz et al.
ONCOGENE (2016)
The Emerging Hallmarks of Cancer Metabolism
Natalya N. Pavlova et al.
CELL METABOLISM (2016)
An integrated systems biology approach identifies positive cofactor 4 as a factor that increases reprogramming efficiency
Junghyun Jo et al.
NUCLEIC ACIDS RESEARCH (2016)
MicroRNA-101 regulated transcriptional modulator SUB1 plays a role in prostate cancer
B. V. S. K. Chakravarthi et al.
ONCOGENE (2016)
Yeast transcription co-activator Sub1 and its human homolog PC4 preferentially bind to G-quadruplex DNA
Jun Gao et al.
CHEMICAL COMMUNICATIONS (2015)
Cooperation between SMYD3 and PC4 drives a distinct transcriptional program in cancer cells
Jin-Man Kim et al.
NUCLEIC ACIDS RESEARCH (2015)
Substitution of tryptophan 89 with tyrosine switches the DNA binding mode of PC4
Jinguang Huang et al.
SCIENTIFIC REPORTS (2015)
Breast Cancer Statistics, 2013
Carol DeSantis et al.
CA-A CANCER JOURNAL FOR CLINICIANS (2014)
Transcription cofactor PC4 plays essential roles in collaboration with the small subunit of general transcription factor TFIIE
Yusuke Akimoto et al.
GENES TO CELLS (2014)
Mass Spectrometric Proteomics Reveals that Nuclear Protein Positive Cofactor PC4 Selectively Binds to Cross-Linked DNA by a trans-Platinum Anticancer Complex
Zhifeng Du et al.
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2014)
Human positive coactivator 4 (PC4) is involved in the progression and prognosis of astrocytoma
Lei Chen et al.
JOURNAL OF THE NEUROLOGICAL SCIENCES (2014)
Inhibition of human positive cofactor 4 radiosensitizes human esophageal squmaous cell carcinoma cells by suppressing XLF-mediated nonhomologous end joining
D. Qian et al.
CELL DEATH & DISEASE (2014)
Differential Requirement for SUB1 in Chromosomal and Plasmid Double-Strand DNA Break Repair
Lijian Yu et al.
PLOS ONE (2013)
MYC, Metabolism, Cell Growth, and Tumorigenesis
Chi V. Dang
COLD SPRING HARBOR PERSPECTIVES IN MEDICINE (2013)
Triple-negative breast cancer in the older population
P. Boyle
ANNALS OF ONCOLOGY (2012)
Emerging targeted therapies in triple-negative breast cancer
J. Crown et al.
ANNALS OF ONCOLOGY (2012)
Metabolic Reprogramming: A Cancer Hallmark Even Warburg Did Not Anticipate
Patrick S. Ward et al.
CANCER CELL (2012)
Human positive coactivator 4 is a potential novel therapeutic target in non-small cell lung cancer
Y. Peng et al.
CANCER GENE THERAPY (2012)
c-Myc and Cancer Metabolism
Donald M. Miller et al.
CLINICAL CANCER RESEARCH (2012)
18F-Fluorodeoxy-glucose Positron Emission Tomography Marks MYC-Overexpressing Human Basal-Like Breast Cancers
Nicolaos Palaskas et al.
CANCER RESEARCH (2011)
Hallmarks of Cancer: The Next Generation
Douglas Hanahan et al.
CELL (2011)
Targeting cancer metabolism: a therapeutic window opens
Matthew G. Vander Heiden
NATURE REVIEWS DRUG DISCOVERY (2011)
Otto Warburg's contributions to current concepts of cancer metabolism
Willem H. Koppenol et al.
NATURE REVIEWS CANCER (2011)
Human Positive Coactivator 4 Controls Heterochromatinization and Silencing of Neural Gene Expression by Interacting with REST/NRSF and CoREST
Chandrima Das et al.
JOURNAL OF MOLECULAR BIOLOGY (2010)
MYC-Induced Cancer Cell Energy Metabolism and Therapeutic Opportunities
Chi V. Dang et al.
CLINICAL CANCER RESEARCH (2009)
Genome-wide location analysis reveals a role for Sub1 in RNA polymerase III transcription
Arounie Tavenet et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2009)
A gene expression signature that can predict the recurrence of tamoxifen-treated primary breast cancer
Maiea Chanrion et al.
CLINICAL CANCER RESEARCH (2008)
Recruitment of RNA polymerase II cofactor PC4 to DNA damage sites
Oliver Mortusewicz et al.
JOURNAL OF CELL BIOLOGY (2008)
Spontaneous transformation of a clonal population of dermis-derived multipotent cells in culture
Chunmeng Shi et al.
IN VITRO CELLULAR & DEVELOPMENTAL BIOLOGY-ANIMAL (2007)
Transcriptional coactivator PC4, a chromatin-associated protein, induces chromatin condensation
Chandrima Das et al.
MOLECULAR AND CELLULAR BIOLOGY (2006)
The transcriptional coactivator PC4/Sub1 has multiple functions in RNA polymerase II transcription
O Calvo et al.
EMBO JOURNAL (2005)
The single-strand DNA binding activity of human PC4 prevents mutagenesis and killing by oxidative DNA damage
JY Wang et al.
MOLECULAR AND CELLULAR BIOLOGY (2004)
Transcriptional coactivator PC4 stimulates promoter escape and facilitates transcriptional synergy by GAL4-VP16
A Fukuda et al.
MOLECULAR AND CELLULAR BIOLOGY (2004)
Why do cancers have high aerobic glycolysis?
RA Gatenby et al.
NATURE REVIEWS CANCER (2004)
Functional characterization of the interacting domains of the positive coactivator PC4 with the transcription factor AP-2α
L Zhong et al.
GENE (2003)
Gene expression profiling predicts clinical outcome of breast cancer
LJ van't Veer et al.
NATURE (2002)