Date published: 2026-2-2
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DL-β-Hydroxybutyryl coenzyme A lithium salt (CAS 103404-51-9) - chemical structure image
Molecular structure of DL-β-Hydroxybutyryl coenzyme A lithium salt, CAS Number: 103404-51-9
DL-β-Hydroxybutyryl coenzyme A lithium salt (CAS 103404-51-9) - chemical structure image
Molecular structure of DL-β-Hydroxybutyryl coenzyme A lithium salt, CAS Number: 103404-51-9
Molecular structure of DL-β-Hydroxybutyryl coenzyme A lithium salt, CAS Number: 103404-51-9

DL-β-Hydroxybutyryl coenzyme A lithium salt (CAS 103404-51-9)

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Alternate Names:
DL-3- Hydroxybutyryl coenzyme A lithium salt
Application:
DL-β-Hydroxybutyryl coenzyme A lithium salt is a PHB starting material
CAS Number:
103404-51-9
Purity:
≥90%
Molecular Weight:
853.62
Molecular Formula:
C25H42N7O18P3S•Li
For Research Use Only. Not Intended for Diagnostic or Therapeutic Use.
* Refer to Certificate of Analysis for lot specific data.

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SDS & Certificate of Analysis

DL-β-Hydroxybutyryl coenzyme A lithium salt serves as a pivotal starting material for the synthesis of bacterial polyhydroxyalkanoates (PHB) through the action of polyhydroxybutyrate (PHB) synthases. This compound plays a role in the broader context of microbial biosynthesis and biodegradable polymer production, highlighting its significance in biotechnological research aimed at developing sustainable materials. Its involvement in the metabolism of fatty acids and the generation of energy underscores its fundamental importance in biochemical pathways that are central to cellular processes. As such, DL-β-Hydroxybutyryl coenzyme A lithium salt is not only essential for the synthesis of PHB, a biopolymer of interest for its biodegradable properties, but also represents a key node in the metabolic networks that facilitate the conversion of lipid substrates into valuable biotechnological products, thereby offering insights into the optimization of metabolic engineering strategies for improved biosynthesis efficiency.


DL-β-Hydroxybutyryl coenzyme A lithium salt (CAS 103404-51-9) References

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  2. Detection of covalent and noncovalent intermediates in the polymerization reaction catalyzed by a C149S class III polyhydroxybutyrate synthase.  |  Li, P., et al. 2009. Biochemistry. 48: 9202-11. PMID: 19711985
  3. Characterization of the highly active polyhydroxyalkanoate synthase of Chromobacterium sp. strain USM2.  |  Bhubalan, K., et al. 2011. Appl Environ Microbiol. 77: 2926-33. PMID: 21398494
  4. LC-MS/MS-based analysis of coenzyme A and short-chain acyl-coenzyme A thioesters.  |  Neubauer, S., et al. 2015. Anal Bioanal Chem. 407: 6681-8. PMID: 26168961
  5. Unraveling and engineering the production of 23,24-bisnorcholenic steroids in sterol metabolism.  |  Xu, LQ., et al. 2016. Sci Rep. 6: 21928. PMID: 26898409
  6. Polyhydroxyalkanoates (PHA) production from synthetic waste using Pseudomonas pseudoflava: PHA synthase enzyme activity analysis from P. pseudoflava and P. palleronii.  |  Venkateswar Reddy, M., et al. 2017. Bioresour Technol. 234: 99-105. PMID: 28319778
  7. Optimization of overexpression of a chaperone protein of steroid C25 dehydrogenase for biochemical and biophysical characterization.  |  Niedzialkowska, E., et al. 2017. Protein Expr Purif. 134: 47-62. PMID: 28343996
  8. Hydrophilic interaction liquid chromatography tandem mass spectrometry analysis of malonyl-coenzyme A in breast cancer cell cultures applying online solid-phase extraction.  |  Schriewer, A., et al. 2017. J Sep Sci. 40: 4303-4310. PMID: 28877409
  9. Functional characterization of a novel gene, Hc-dhs-28 and its role in protecting the host after Haemonchus contortus infection through regulation of diapause formation.  |  Yang, Y., et al. 2020. Int J Parasitol. 50: 945-957. PMID: 32858035
  10. Histone Deacetylase 3 Couples Mitochondria to Drive IL-1β-Dependent Inflammation by Configuring Fatty Acid Oxidation.  |  Chi, Z., et al. 2020. Mol Cell. 80: 43-58.e7. PMID: 32937100
  11. Ketogenesis impact on liver metabolism revealed by proteomics of lysine β-hydroxybutyrylation.  |  Koronowski, KB., et al. 2021. Cell Rep. 36: 109487. PMID: 34348140
  12. Quantitative subcellular acyl-CoA analysis reveals distinct nuclear metabolism and isoleucine-dependent histone propionylation.  |  Trefely, S., et al. 2022. Mol Cell. 82: 447-462.e6. PMID: 34856123
  13. β-hydroxybutyrate reduces reinstatement of cocaine conditioned place preference through hippocampal CaMKII-α β-hydroxybutyrylation.  |  Li, H., et al. 2022. Cell Rep. 41: 111724. PMID: 36450263
  14. A quantitative cytochemical method for the measurement of beta-hydroxyacyl CoA dehydrogenase activity in rat heart muscle.  |  Chambers, DJ., et al. 1982. Histochemistry. 75: 67-76. PMID: 7118583

Ordering Information

Product NameCatalog #UNITPriceQtyFAVORITES

DL-β-Hydroxybutyryl coenzyme A lithium salt, 10 mg

sc-214926
10 mg
$410.00

DL-β-Hydroxybutyryl coenzyme A lithium salt, 25 mg

sc-214926A
25 mg
$890.00

DL-β-Hydroxybutyryl coenzyme A lithium salt, 50 mg

sc-214926B
50 mg
$1795.00
1-800-457-3801
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