Catalog No.
Product Name
Application
Product Information
Citations
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Isomer
(Rac)-H-Thr-OMe hydrochloride is an isomer of H-Thr-OMe hydrochloride, serving as a valuable experimental control in various biochemical assays. This threonine derivative exhibits properties that can be utilized in studies related to protein synthesis and metabolism. Its application in research facilitates the exploration of threonine's role in biological processes and structural biology. -
OSW1 Analog
Fmoc-1,6-diaminohexane hydrochloride is a hydrochloride derivative of Fmoc-1,6-diaminohexane, serving as an analog of OSW1. This compound is known for its ability to conjugate with monoclonal antibodies, demonstrating significant anticancer activity against p21-deficient cancer cells. Its application in research includes the development of targeted therapies and exploring the mechanisms of cancer cell resistance. -
Cysteine Derivative
N,S-Diacetylcysteine methyl ester is a cysteine derivative that enhances intracellular levels of cysteine and glutathione through hydrolysis by intracellular esterases. This compound promotes glutathione synthesis by releasing cysteine within cells. Its acetylation improves membrane permeability, facilitating efficient cellular uptake. N,S-Diacetylcysteine methyl ester is valuable for investigating the transport mechanisms of cysteine and glutathione (GSH) within biological systems. -
Amino Acid Derivative
Boc-D-Pen(Mob)-OH is an amino acid derivative of phenylalanine featuring a Boc protection group. This compound serves as a valuable building block in peptide synthesis and can be utilized in studies exploring the structure and function of peptides. Its unique structure allows for modifications that can enhance biological activity, making it a useful tool in the development of therapeutic agents and for research in medicinal chemistry. -
Amino Acid Derivative
(S)-2-Amino-2-(thiophen-2-yl)acetic acid is an amino acid derivative that serves as a glycine analog. It demonstrates potential for modulating various biological pathways, including neurotransmitter activity. This compound is utilized in research applications involving neuropharmacology and the study of amino acid metabolism, as well as in investigations of synaptic function. -
Amino Acid Derivative
Fmoc-3-Me-Glu(OtBu)-OH is an amino acid derivative featuring a 9-fluorenylmethoxycarbonyl (Fmoc) protective group. It serves as a key building block in peptide synthesis and is particularly useful in the preparation of modified peptides. This compound facilitates the introduction of structural diversity in biological studies and therapeutic research applications. -
Amino Acid Derivative
4-(Trifluoromethyl)-L-phenylglycine is an amino acid derivative with modifications that enhance its chemical properties. This compound is primarily utilized in chemical research, particularly for studies involving receptor binding and protein interactions. Its unique trifluoromethyl group contributes to its ability to influence biological activities, making it a valuable tool in the exploration of metabolic pathways and enzymatic functions. -
Amino Acid Derivative
Fmoc-Ser(O-β-D-GlcNAc(OAc)3)-OH is an amino acid derivative of serine, featuring a 3-O-acetylated β-D-N-acetylglucosamine moiety. This compound is valuable for studying glycosylation processes and for applications in peptide synthesis involving glycan incorporation. Its structure aids in exploring the interactions between glycoproteins and their biological functions in various research contexts. -
Amino Acid Derivative
4-(Azidomethyl)-L-phenylalanine is an unnatural amino acid derivative featuring an azidomethyl substituent at the 4-position of L-phenylalanine. This compound serves as a valuable reporter for investigating protein hydration dynamics, enabling insightful studies into protein structure and function. Its unique properties make it a useful tool for researchers exploring novel biochemical pathways and interactions in protein science. -
Amino Acid Analog
N-(Phenylacetyl)-L-phenylalanine is an amino acid analog designed to modulate protein interactions. Synthesized through the enantioselective acylation of L-phenylalanine using penicillin G acylase from Alcaligenes faecalis, it exhibits unique biochemical properties. Under aqueous conditions, N-(Phenylacetyl)-L-phenylalanine is prone to hydrolysis, making it a valuable tool in research applications studying enzyme activity and protein structure. -
Amino Acid Derivative
3-Bromo-L-tyrosine TFA is an amino acid derivative that acts as a unique precursor in biochemical research. It incorporates a bromine atom into the tyrosine structure, which can influence protein function and stability. This compound is commonly utilized in studies of enzyme activity, protein labeling, and the synthesis of novel biomolecules for therapeutic applications. -
Amino Acid Derivative
(R)-2-Amino-2-(thiophen-2-yl)acetic acid is an amino acid derivative that serves as a structural analogue of glycine. This compound demonstrates potential biological activity, making it suitable for research applications focused on neuropharmacology and the study of neurotransmitter interactions. Its unique thiophene group may provide insights into the modulation of synaptic transmission and other physiological processes. -
Amino Acid Derivative
L-Lombricine is an amino acid derivative primarily derived from the earthworm species Lumbricus terrestris. This compound plays a significant role in energy storage within these organisms. L-Lombricine can be utilized in biochemical studies focusing on metabolic processes and the physiological functions of amino acids in various biological systems. Its unique properties make it a valuable reagent for research in comparative physiology and energy metabolism. -
Arginine Derivative
4-Hydroxy-L-arginine is an arginine derivative that acts as a nitric oxide synthase substrate. This compound is involved in the regulation of nitric oxide production, playing a crucial role in vascular function and neuroprotection. It is widely used in research focused on cardiovascular health, metabolism, and neurobiology, enabling studies on nitric oxide signaling pathways and their implications in various physiological and pathological conditions. -
Amino Acid Derivative
(Rac)-Threonine is an amino acid derivative that has been isolated from the methanol extract of Rumex roseus L. This compound demonstrates notable antioxidant and cytotoxic activities, making it valuable for research applications in oxidative stress studies and cancer biology. Its dual functionality allows for exploration of therapeutic potentials in various biological contexts. -
Tryptophan Derivative
DL-Tryptophan octyl ester hydrochloride is a tryptophan derivative characterized by an octyl ester protection on the carboxylic acid group. This compound exhibits biological activity that is relevant in studies of serotonin metabolism and neurobiology. It serves as a valuable reagent in biochemical research, particularly in the synthesis of tryptophan analogs and the investigation of tryptophan metabolism pathways. -
Amino Acid Derivative
Z-DL-Met-OH is an amino acid derivative of Methionine, functioning primarily as a source of sulfur and a methyl donor in biological systems. This compound plays a crucial role in protein synthesis and various metabolic processes. Its applications extend to fields such as cell culture, peptide synthesis, and biochemical research, where it is utilized to study metabolic pathways involving sulfur-containing biomolecules. -
Amino Acid Derivative
Boc-Arg(Boc)2-OH is an amino acid derivative of arginine, featuring two tert-butyloxycarbonyl (Boc) protecting groups. This compound serves as a versatile building block for the synthesis of peptides and proteins, facilitating the introduction of arginine residues with enhanced stability and solubility. It is widely utilized in biochemical research for peptide library construction and in studies focusing on protein structure and function. -
Non-proteinogenic Amino Acid
L-Homoleucine (H-HoLeu-OH) is a non-proteinogenic amino acid that serves as a unique building block in chemical research. This compound is noteworthy for its presence in mycoplanecin, contributing to various biological activities. L-Homoleucine is utilized in studies focusing on amino acid metabolism and the biosynthesis of specialized biomolecules, making it valuable for researchers exploring non-standard amino acid applications. -
Histidine Derivative
Z-DL-His-OH is a histidine derivative, specifically N-Cbz-DL-histidine, which serves as a versatile building block in peptide synthesis. This compound is utilized in various biochemical research applications, particularly in the study of amino acid behavior and enzymatic interactions. Notably, Z-DL-His-OH does not inhibit root growth in rapeseed, making it suitable for experiments exploring plant growth and development without cytotoxic effects. -
Amino Acid Derivative
L-Methionine p-nitroanilide is an amino acid derivative of methionine known for its role as a substrate in enzymatic assays. This compound provides valuable insights into methionine metabolism and protein synthesis pathways. It is commonly used in biochemical research to study enzyme activity, specifically in the context of methionine-related enzymes. -
Amino Acid Derivative
2-Amino-4-(ethylthio)butanoic acid is an amino acid derivative with potential roles in biochemical research. This compound serves as a methionine analog and can be utilized in studies focusing on sulfur-containing amino acids, metabolism, and cellular signaling pathways. Its structural properties may offer insights into enzyme interactions and neurotransmitter function, making it a valuable reagent for exploring amino acid biochemistry and related physiological processes. -
Amino Acid Derivative
N-Lauroyl-L-alanine sodium is an amino acid derivative that primarily targets membrane interactions. It exhibits surfactant properties, making it valuable in biochemical research for studying peptide interactions and drug delivery systems. Its unique structure allows it to be utilized in formulations aimed at enhancing solubility and stability of hydrophobic compounds. -
Amino Acid Derivative
Boc-Met-OSu is a derivative of Methionine, primarily acting as an amino acid building block in peptide synthesis. This compound features a protected amino group, facilitating the selective incorporation of Methionine in various biochemical applications. Boc-Met-OSu is instrumental in the development of peptide-based therapeutics and can be utilized in research focused on protein engineering, drug design, and other areas of chemical biology. -
Amino Acid Derivative
Methyl N-methylglycinate hydrochloride is an amino acid derivative that serves as a methylated form of glycine. It exhibits biochemical activities relevant to neurotransmitter modulation and may influence synaptic transmission. This compound is utilized in research applications involving neurobiology, metabolic studies, and the synthesis of novel compounds in medicinal chemistry. -
Amino Acid Derivatives
N-(Aminoiminomethyl)-N-methyl-D-alanine is an amino acid derivative that acts as a potential inhibitor of specific metabolic pathways associated with cancer progression. This compound exhibits notable biological activity relevant to oncology research, facilitating the investigation of tumor metabolism and cell signaling mechanisms. Its application in various experimental models may enhance understanding of cancer biology and therapeutic development. -
Amino Acid Derivative
L-Lysinamide is an amide derivative of L-Lysine, serving as a critical component in various biochemical applications. This compound can be conjugated with cholesterol and L-ornithinamide, enhancing its utility as a DNA delivery agent. Its properties make L-Lysinamide suitable for research in gene therapy and other areas of molecular biology. -
Amino Acid Derivative
AA-dUTP tetrasodium is an amine-modified nucleotide that targets applications in molecular biology, particularly in the synthesis of fluorescently labeled dUTP. This reagent is commonly used to enhance the detection capabilities in techniques such as quantitative PCR and in situ hybridization, allowing for improved visualization of nucleic acids in various research contexts. Its unique structure enables efficient incorporation into nucleic acid sequences, making it a valuable tool for researchers focusing on gene expression and localization studies. -
Amino Acid Derivative
Ethyl 4,4,4,4',4',4'-hexafluoro-DL-valinate is an amino acid derivative that incorporates six fluorine atoms, enhancing its biochemical properties. This compound serves as a valuable tool in the study of peptide synthesis and modification, enabling researchers to explore the effects of fluorinated amino acids on protein structure and function. Its unique properties make it suitable for applications in medicinal chemistry and materials science. -
Amino Acid Analog
N-(Aminoiminomethyl)-N-methyl-L-alanine is an amino acid analog that serves as a potent inhibitor of various metabolic pathways. This compound exhibits significant biological activity and is particularly relevant in cancer research, allowing for investigations into amino acid metabolism and its implications in tumor growth and progression. Its unique structure provides a valuable tool for elucidating the role of amino acids in cellular processes. -
Amino Acid Derivative
C902 is an amino acid derivative that features a cysteine residue within the RAG1 protein, functioning as a critical binding site for Zn2+ ions. This interaction plays a vital role in the DNA cleavage process, essential for V(D)J recombination. C902 is valuable for research applications focused on immunology and molecular biology, particularly in studies investigating the mechanisms of DNA manipulation and repair. -
Amino Acid Derivative
1-Boc-3,3-difluoro-D-proline is an amino acid derivative that serves as a protected form of D-proline. This compound exhibits key characteristics that make it useful in peptide synthesis and medicinal chemistry. Its distinctive difluoromethyl group enhances stability and affects biological activity, making it a valuable reagent for research in areas such as drug development and structure-activity relationship studies. -
Food Additive
(S,S)-Lysinoalanine is an amino acid that arises from the crosslinking of lysine with dephosphorylated serine or cysteine under alkaline conditions. This compound is utilized as a protein-based food additive, improving the elasticity and flexibility of meat products. Its applications are especially relevant in the field of food science and technology, where it contributes to the texture and overall quality of processed meats. -
Amino Acid Derivatives
Fmoc-L-Dap(NBSD)-OH is an amino acid derivative designed for applications in peptide synthesis and fluorescence imaging. This compound serves as a versatile building block for the development of background-free peptide probes, enhancing the detection and visualization of biomolecules. Its unique structure enables specific interactions that facilitate advanced imaging techniques in chemical research. -
Amino Acid Derivative
DL-Propargylglycine hydrochloride is an amino acid derivative containing a propargyl group, functioning primarily as a click chemistry reagent. This compound facilitates copper-catalyzed azide-alkyne cycloaddition (CuAAc), enabling the conjugation of azide-containing molecules. Its utility in bioorthogonal reactions makes it valuable for applications in chemical biology, drug development, and materials science, particularly in the synthesis of bioconjugates and the study of protein interactions. -
Amino Acid Building Block
Boc-D-Leu-OSu is a versatile amino acid building block that serves as a precursor for the synthesis of gastrin antagonists and antibiotic analogs, including Gramicidin S. This compound facilitates the development of targeted therapeutic agents by enabling the incorporation of D-leucine residues into peptide structures. Its utility in peptide synthesis makes it valuable for research in pharmaceutical and biochemical applications.

