Metabolism

Introduction to Metabolism

Metabolism research delves into the intricate biochemical processes powering every cell, involving a complex network of reactions converting nutrients into energy and building blocks. It encompasses all chemical reactions within organisms, governing nutrient transformation, molecule synthesis, and waste elimination. This dynamic field explores metabolic pathways and regulatory mechanisms, aiming to uncover fundamental principles in cellular and organismal metabolism. 

In metabolism research, scientists explore metabolic regulation, nutrient sensing, and signal integration across tissues. Understanding metabolic pathways provides profound insights into disorders, obesity, and adaptations. The impact of this research extends widely, influencing fields like medicine, nutrition, and exercise physiology, leading to breakthroughs in diabetes management, personalized nutrition plans, and strategies for metabolic health. 

With a catalog boasting over 15,000 protein targets, trial sizes for exploring emerging projects, and advanced validation methods, Aviva is dedicated to supporting researchers as they pave the way for new discoveries and breakthroughs in Metabolism Research.

Featured Products

PPARD Antibody - N-terminal region (ARP37889_T100) ACACA Antibody (Phospho-Ser79) (OAAN02936) CPT1A Antibody - middle region (ARP44796_P050)

Sample Type: SP2/0 cell lysate

PPARD Antibody - N-terminal region (ARP37889_T100) - WB Suggested Anti-PPARD Antibody Titration: 0.3125ug/ml. ELISA Titer: 1:312500. Positive Control: SP2/0 cell lysate, click here

Sample Type: HEK293 WT Cells

ACACA Antibody (Phospho-Ser79) (OAAN02936) - Western blot analysis of extracts from 293 cells using Phospho-ACACA-S79 antibody, click here

Sample Type: Human Cell Line Panel

CPT1A Antibody - middle region (ARP44796_P050) - 25 ug of the indicated Human whole cell extracts was loaded onto a 12% SDS-PAGE gel. 5 ug/mL of the antibody was used in this experiment. Recommended dilution for this antibody is 1-3 ug/mL click here

Â