Dr. Harold S. Bernstein M.D., PH.D.
Cardiologist (Pediatric) | Pediatric Cardiology
603 STERLING DR FLORHAM PARK NJ, 07932About
Dr. Harold Bernstein is a pediatric cardiologist practicing in San Francisco, CA. Dr. Bernstein specializes in caring for fetuses, infants, children and adolescents with cardiovascular or cardiac abnormalities. Practiced in both inpatient and outpatient settings, the scope of conditions cared for by pediatric cardiologists is large and includes congenital heart defects, heart muscle disorders, rhythm disturbances and hypertension.
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Expert Publications
Data provided by the National Library of Medicine- The hypertrophic response in C2C12 myoblasts recruits the G1 cell cycle machinery.
- Genome-wide examination of myoblast cell cycle withdrawal during differentiation.
- Distinct domains of human CDC5 direct its nuclear import and association with the spliceosome.
- E2F-1 regulates the expression of a subset of target genes during skeletal myoblast hypertrophy.
- Stem cell antigen-1 is necessary for cell-cycle withdrawal and myoblast differentiation in C2C12 cells.
- Stem cell antigen-1 regulates the tempo of muscle repair through effects on proliferation of alpha7 integrin-expressing myoblasts.
- MicroRNA regulation of cell lineages in mouse and human embryonic stem cells.
- Stem cell antigen-1 localizes to lipid microdomains and associates with insulin degrading enzyme in skeletal myoblasts.
- Cell cycle-dependent phosphorylation of human CDC5 regulates RNA processing.
- Subpopulations of human embryonic stem cells with distinct tissue-specific fates can be selected from pluripotent cultures.
- Usefulness of various plasma biomarkers for diagnosis of heart failure in children with single ventricle physiology.
- Mutations in potassium channel Kir2.6 cause susceptibility to thyrotoxic hypokalemic periodic paralysis.
- Timed inhibition of p38MAPK directs accelerated differentiation of human embryonic stem cells into cardiomyocytes.
- High-throughput tracking of pluripotent human embryonic stem cells with dual fluorescence resonance energy transfer molecular beacons.
- Fate mapping of human embryonic stem cells by teratoma formation.
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