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Próbáld ki Bajusz interjú farmer s.r 2006 cell metab 4 263 273 Átmenet Bibliográfia Felvillanyoz

Loss of Notch signaling in skeletal stem cells enhances bone formation with  aging | Bone Research
Loss of Notch signaling in skeletal stem cells enhances bone formation with aging | Bone Research

IJMS | Free Full-Text | The Potential to Fight Obesity with Adipogenesis  Modulating Compounds
IJMS | Free Full-Text | The Potential to Fight Obesity with Adipogenesis Modulating Compounds

Phenotypic Discovery of SB1501, an Anti‐obesity Agent, through Modulating  Mitochondrial Activity - Jo - 2021 - ChemMedChem - Wiley Online Library
Phenotypic Discovery of SB1501, an Anti‐obesity Agent, through Modulating Mitochondrial Activity - Jo - 2021 - ChemMedChem - Wiley Online Library

Foods | Free Full-Text | Black Wheat Extracts (Arriheuk) Regulate  Adipogenesis and Lipolysis via Adenosine Monophosphate (AMP) Activated  Protein Kinase (AMPK)/Sirtuin 1 (SIRT1) Signaling Pathways
Foods | Free Full-Text | Black Wheat Extracts (Arriheuk) Regulate Adipogenesis and Lipolysis via Adenosine Monophosphate (AMP) Activated Protein Kinase (AMPK)/Sirtuin 1 (SIRT1) Signaling Pathways

Visceral Adipose Tissue Immune Homeostasis Is Regulated by the Crosstalk  between Adipocytes and Dendritic Cell Subsets - ScienceDirect
Visceral Adipose Tissue Immune Homeostasis Is Regulated by the Crosstalk between Adipocytes and Dendritic Cell Subsets - ScienceDirect

Identification of an adipose tissue-resident pro-preadipocyte population -  ScienceDirect
Identification of an adipose tissue-resident pro-preadipocyte population - ScienceDirect

Frontiers | miR-214-5p Regulating Differentiation of Intramuscular  Preadipocytes in Goats via Targeting KLF12
Frontiers | miR-214-5p Regulating Differentiation of Intramuscular Preadipocytes in Goats via Targeting KLF12

Transcriptional control of adipocyte formation - ScienceDirect
Transcriptional control of adipocyte formation - ScienceDirect

Frontiers | Long Non-coding RNA 332443 Inhibits Preadipocyte  Differentiation by Targeting Runx1 and p38-MAPK and ERK1/2-MAPK Signaling  Pathways
Frontiers | Long Non-coding RNA 332443 Inhibits Preadipocyte Differentiation by Targeting Runx1 and p38-MAPK and ERK1/2-MAPK Signaling Pathways

Single-cell transcriptional networks in differentiating preadipocytes  suggest drivers associated with tissue heterogeneity | Nature Communications
Single-cell transcriptional networks in differentiating preadipocytes suggest drivers associated with tissue heterogeneity | Nature Communications

Selective targeting of visceral adiposity by polycation nanomedicine |  Nature Nanotechnology
Selective targeting of visceral adiposity by polycation nanomedicine | Nature Nanotechnology

Valerenic Acid Promotes Adipocyte Differentiation, Adiponectin Production,  and Glucose Uptake via Its PPARγ Ligand Activity | ACS Omega
Valerenic Acid Promotes Adipocyte Differentiation, Adiponectin Production, and Glucose Uptake via Its PPARγ Ligand Activity | ACS Omega

IJMS | Free Full-Text | The Receptor Tyrosine Kinase c-Met Promotes Lipid  Accumulation in 3T3-L1 Adipocytes
IJMS | Free Full-Text | The Receptor Tyrosine Kinase c-Met Promotes Lipid Accumulation in 3T3-L1 Adipocytes

IJMS | Free Full-Text | APE1/Ref-1 Inhibits Adipogenic Transcription  Factors during Adipocyte Differentiation in 3T3-L1 Cells
IJMS | Free Full-Text | APE1/Ref-1 Inhibits Adipogenic Transcription Factors during Adipocyte Differentiation in 3T3-L1 Cells

Cell fate determining molecular switches and signaling pathways in  Pax7-expressing somitic mesoderm | Cell Discovery
Cell fate determining molecular switches and signaling pathways in Pax7-expressing somitic mesoderm | Cell Discovery

Biomedicines | Free Full-Text | Autophagy, Mesenchymal Stem Cell  Differentiation, and Secretion
Biomedicines | Free Full-Text | Autophagy, Mesenchymal Stem Cell Differentiation, and Secretion

Human fetal mesenchymal stem cells differentiate into brown and white  adipocytes: a role for ERRα in human UCP1 expression | Cell Research
Human fetal mesenchymal stem cells differentiate into brown and white adipocytes: a role for ERRα in human UCP1 expression | Cell Research

Untapped Pharmaceutical Potential of 4,5,4′-Trihydroxy-3,3′-dimethoxybibenzyl  for Regulating Obesity: A Cell-Based Study with a Focus on Terminal  Differentiation in Adipogenesis | Journal of Natural Products
Untapped Pharmaceutical Potential of 4,5,4′-Trihydroxy-3,3′-dimethoxybibenzyl for Regulating Obesity: A Cell-Based Study with a Focus on Terminal Differentiation in Adipogenesis | Journal of Natural Products

Adipogenesis and metabolic health | Nature Reviews Molecular Cell Biology
Adipogenesis and metabolic health | Nature Reviews Molecular Cell Biology

Mdm2 controls CREB-dependent transactivation and initiation of adipocyte  differentiation | Cell Death & Differentiation
Mdm2 controls CREB-dependent transactivation and initiation of adipocyte differentiation | Cell Death & Differentiation

Transcriptional control of adipocyte formation - ScienceDirect
Transcriptional control of adipocyte formation - ScienceDirect

Frontiers | Weighing in on Adipogenesis
Frontiers | Weighing in on Adipogenesis

The KLF2 Transcription Factor Does Not Affect the Formation of  Preadipocytes but Inhibits Their Differentiation into Adipocytes |  Biochemistry
The KLF2 Transcription Factor Does Not Affect the Formation of Preadipocytes but Inhibits Their Differentiation into Adipocytes | Biochemistry

Srebf1a is a key regulator of transcriptional control for adipogenesis |  Scientific Reports
Srebf1a is a key regulator of transcriptional control for adipogenesis | Scientific Reports

Molecules | Free Full-Text | Derhamnosylmaysin Inhibits Adipogenesis via  Inhibiting Expression of PPARγ and C/EBPα in 3T3-L1 Cells
Molecules | Free Full-Text | Derhamnosylmaysin Inhibits Adipogenesis via Inhibiting Expression of PPARγ and C/EBPα in 3T3-L1 Cells