MDH1 (NM_001199111) Human Recombinant Protein
CAT#: TP720248XL
Recombinant protein of human malate dehydrogenase 1, NAD (soluble) (MDH1), transcript variant 1.
Need it in bulk or customized? Get a free quote |
CNY 26,600.00
货期*
2周
规格
经常一起买 (1)
Specifications
Product Data | |
Species | Human |
Expression Host | E. coli |
Expression cDNA Clone or AA Sequence |
Ser2-Ala334
|
Tag | C-His |
Predicted MW | 37.5 kDa |
Concentration | lot specific |
Purity | >95% as determined by SDS-PAGE and Coomassie blue staining |
Buffer | Supplied as a 0.2 um filtered solution of 20mM Tris-HCl, 150mM NaCl, pH 8.0. |
Storage | Store at < -20°C, stable for 6 months after receipt. Please minimize freeze-thaw cycles. |
Stability | Stable for at least 3 months from date of receipt under proper storage and handling conditions. |
Endotoxin | < 0.1 EU per µg protein as determined by LAL test |
Reference Data | |
RefSeq | NP_001186040 |
Locus ID | 4190 |
UniProt ID | P40925 |
Cytogenetics | 2p15 |
Synonyms | DEE88; EIEE88; HEL-S-32; KAR; MDH-s; MDHA; MGC:1375; MOR2 |
Summary | This gene encodes an enzyme that catalyzes the NAD/NADH-dependent, reversible oxidation of malate to oxaloacetate in many metabolic pathways, including the citric acid cycle. Two main isozymes are known to exist in eukaryotic cells: one is found in the mitochondrial matrix and the other in the cytoplasm. This gene encodes the cytosolic isozyme, which plays a key role in the malate-aspartate shuttle that allows malate to pass through the mitochondrial membrane to be transformed into oxaloacetate for further cellular processes. Alternatively spliced transcript variants have been found for this gene. A recent study showed that a C-terminally extended isoform is produced by use of an alternative in-frame translation termination codon via a stop codon readthrough mechanism, and that this isoform is localized in the peroxisomes. Pseudogenes have been identified on chromosomes X and 6. [provided by RefSeq, Feb 2016] |
Protein Families | Druggable Genome |
Protein Pathways | Citrate cycle (TCA cycle), Glyoxylate and dicarboxylate metabolism, Metabolic pathways, Pyruvate metabolism |
Documents
FAQs |
SDS |
Customer
Reviews
Loading...