Center Publications

Vohra, M., et al. “The Beneficial Effects Of Dietary Restriction On Learning Are Distinct From Its Effects On Longevity And Mediated By Depletion Of A Neuroinhibitory Metabolite.”. Plos Biology, p. e2002032.	DOI PubMed PMC	UCSF
Tschen, S. -I., et al. “Cyclin D2 Is Sufficient To Drive Β Cell Self-Renewal And Regeneration.”. Cell Cycle (Georgetown, Tex.), pp. 2183-2191.	DOI PubMed PMC	UCSF
Chang, R., et al. “Nanoporous Immunoprotective Device For Stem-Cell-Derived Β-Cell Replacement Therapy.”. Acs Nano, pp. 7747-7757.	DOI PubMed PMC	UCSF
Sacaan, A. I., et al. “Cdk4/6 Inhibition On Glucose And Pancreatic Beta Cell Homeostasis In Young And Aged Rats.”. Molecular Cancer Research : Mcr, pp. 1531-1541.	DOI PubMed	Einstein
Hanif, W., et al. “Left Atrial Remodeling, Hypertrophy, And Fibrosis In Mouse Models Of Heart Failure.”. Cardiovascular Pathology : The Official Journal Of The Society For Cardiovascular Pathology, pp. 27-37.	DOI PubMed PMC	Einstein
Perng, W., et al. “Metabolomic Determinants Of Metabolic Risk In Mexican Adolescents.”. Obesity (Silver Spring, Md.), pp. 1594-1602.	DOI PubMed PMC	Michigan
Cattin-Ortolá, J., et al. “The Dense-Core Vesicle Maturation Protein Cccp-1 Binds Rab-2 And Membranes Through Its C-Terminal Domain.”. Traffic (Copenhagen, Denmark), pp. 720-732.	DOI PubMed PMC	Washington
Cannon, M. E., et al. “-Ancestry Fine Mapping And Molecular Assays Identify Regulatory Variants At The Hdl-C Gwas Locus.”. G3 (Bethesda, Md.), pp. 3217-3227.	DOI PubMed PMC	Michigan
Li, W., et al. “Ezrin Directly Interacts With Aqp2 And Promotes Its Endocytosis.”. Journal Of Cell Science, pp. 2914-2925.	DOI PubMed PMC	Boston Area
Rubinow, K. B., et al. “Kidney Function Is Associated With An Altered Protein Composition Of High-Density Lipoprotein.”. Kidney International, pp. 1526-1535.	DOI PubMed PMC	Washington
Dai, N., et al. “Igf2 Mrna Binding Protein-2 Is A Tumor Promoter That Drives Cancer Proliferation Through Its Client Mrnas Igf2 And Hmga1.”. Elife.	DOI PubMed PMC	Boston Area
Johnson, A. M. F., et al. “Inflammation And Insulin Resistance: New Targets Encourage New Thinking: Galectin-3 And Ltb Are Pro-Inflammatory Molecules That Can Be Targeted To Restore Insulin Sensitivity.”. Bioessays : News And Reviews In Molecular, Cellular And Developmental Biology.	DOI PubMed PMC	UCSD-UCLA