Disulfidptosis, a new form of cell death identified in March 2023, mainly occurs in cells with high expression of SLC7A11. Under glucose starvation conditions, intracellular disulfides, such as cysteine, accumulate abnormally, inducing disulfide stress and causing cell death. The process involves glucose uptake, cysteine uptake, and the pentose phosphate pathway. Elabscience®, following current research trends, has developed assay kits for indicators such as cysteine uptake, glucose uptake, NADP+/NADPH, and others to assist in the study of disulfidptosis.
Results Per Page:
Filter
Price: $150.00
Size:
- 96T
Qty:
-
+
Price: $150.00
Cat. No.:
E-BC-K056-M
Sample Type:
Serum;Plasma;Animal tissue
Detection Instrument:
Microplate reader (450 nm)
Reasearch Areas:
Glycolysis and Lipid Metabolism;Disulfidptosis
Price: $450.00
Size:
- 96T
- 48T
Qty:
-
+
Price: $450.00
Cat. No.:
E-BC-F002
Sample Type:
Animal tissue;Cell
Detection Instrument:
Chemiluminescence detector
Reasearch Areas:
Oxidative Stress;Tricarboxylic Acid(TCA)Cycle;Mitochondria Function;Disulfidptosis;Energy Metabolism
Price: $360.00
Size:
- 96T
Qty:
-
+
Price: $360.00
Cat. No.:
E-BC-K011-M
Sample Type:
Serum;Plasma;Animal tissue
Detection Instrument:
Microplate reader (450 nm)
Reasearch Areas:
Glycolysis and Lipid Metabolism;Disulfidptosis;Energy Metabolism
Price: $425.00
Size:
- 96T
Qty:
-
+
Price: $425.00
Cat. No.:
E-BC-K803-M
Sample Type:
Animal tissue;Cell
Detection Instrument:
Microplate reader (450 nm)
Reasearch Areas:
Oxidative Stress;Metabolic Diseases;Glycolysis and Lipid Metabolism;Cuproptosis;Disulfidptosis
