28130-13-4

Basic information

• Product Name: H-VAL-VAL-VAL-OH
• Synonyms: L-VAL-VAL-VAL;H-VAL-VAL-VAL-OH
• CAS NO: 28130-13-4
• Molecular Formula: C₁₅H₂₉N₃O₄
• Molecular Weight: 315.41
• Mol File: 28130-13-4.mol

Chemical Properties

• Boiling Point: 565.9°Cat760mmHg
• Flash Point: 296.1°C
• Appearance: /
• Density: 1.093g/cm³
• Storage Temp.: -15°C
• PKA: 3.33±0.10(Predicted)
• CAS DataBase Reference: H-VAL-VAL-VAL-OH(CAS DataBase Reference)
• NIST Chemistry Reference: H-VAL-VAL-VAL-OH(28130-13-4)
• EPA Substance Registry System: H-VAL-VAL-VAL-OH(28130-13-4)

Safety Data

• Hazardous Substances Data: 28130-13-4(Hazardous Substances Data)

Usage

Uses

Used in Biochemical Research:
H-VAL-VAL-VAL-OH is used as a building block in biochemical research for creating longer peptides with specific properties or functions.
Used in Pharmaceutical Research:
H-VAL-VAL-VAL-OH is used as a component in pharmaceutical research to develop new drugs or drug delivery systems, leveraging its unique chemical structure and interactions with biological systems.
Used in Drug Development:
H-VAL-VAL-VAL-OH is used as a potential candidate in drug development, given its ability to form specific interactions with biological systems, which may contribute to the creation of novel therapeutic agents.
Used in Drug Delivery Systems:
H-VAL-VAL-VAL-OH is used in the development of drug delivery systems, potentially enhancing the delivery, bioavailability, and therapeutic outcomes of associated pharmaceuticals.

Upstream product

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Downstream Products

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Relevant articles and documents

N-Carboxyanhydride-Mediated Fatty Acylation of Amino Acids and Peptides for Functionalization of Protocell Membranes

Early protocells are likely to have arisen from the self-assembly of RNA, peptide, and lipid molecules that were generated and concentrated within geologically favorable environments on the early Earth. The reactivity of these components in a prebiotic environment that supplied sources of chemical energy could have produced additional species with properties favorable to the emergence of protocells. The geochemically plausible activation of amino acids by carbonyl sulfide has been shown to generate short peptides via the formation of cyclic amino acid N-carboxyanhydrides (NCAs). Here, we show that the polymerization of valine-NCA in the presence of fatty acids yields acylated amino acids and peptides via a mixed anhydride intermediate. Notably, Nα-oleoylarginine, a product of the reaction between arginine and oleic acid in the presence of valine-NCA, partitions spontaneously into vesicle membranes and mediates the association of RNA with the vesicles. Our results suggest a potential mechanism by which activated amino acids could diversify the chemical functionality of fatty acid membranes and colocalize RNA with vesicles during the formation of early protocells.

A novel L-amino acid ligase from bacillus subtilis NBRC3134 catalyzed oligopeptide synthesis

L-Amino acid ligase catalyzes dipeptide synthesis from unprotected L-amino acids in an ATP-dependent manner. We have purified a new L-amino acid ligase, RizA, which synthesizes dipeptides whose N-terminus is Arg, from Bacillus subtilis NBRC3134, a microorganism that produces a rhizocticin peptide antibiotic. It was suggested that RizA is probably involved in rhizocticin biosynthesis. In this study, we performed sequence analysis of unknown regions around rizA, and newly identified a gene that encodes a protein that possesses an ATP-grasp motif upstream of rizA. This gene was designated rizB, and its recombinant protein was prepared. Recombinant RizB synthesized homo-oligo-mers of branched-chain L-amino acids and L-methionine consisting of two to five amino acids in an ATP-dependent manner. RizB also synthesized various heteropeptides. Further examination showed that RizB might elongate a peptide chain at the N-terminus. This is the first report on an L-amino acid ligase catalyzing oligopeptide synthesis.

Mechanism study on the oligomerization of amino acids into peptides by phosphorus trichloride

As treated by phosphorus trichloride, amino acids could oligomerize into polypeptides. Based on the results obtained by 31P-NMR and ESI-MS/MS, a possible reaction mechanism was proposed. The mechanism might undergo a penta-coordinated phosphorus intermediat. The activated amino acid was a five-membered cyclic penta-coordinated phosphorus intermediate. The nucleophilic attack of the amino group from an amino acid or peptide on the carbonyl group of intermediate led to the formation of peptide and released one equivalent dichloride phosphoric acid. The repetition of the reaction sequence generated a series of oligopeptides. Copyright Taylor & Francis Group, LLC.