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Synthetic Amino Acid
H-Tyr(Me)-OH is a synthetic amino acid that serves as a useful building block for incorporating modified residues into peptides and proteins. It can be utilized in Escherichia coli to suppress amber nonsense codons, thereby facilitating the study of protein function and structure. This reagent is applicable in research areas such as protein engineering, unnatural amino acid incorporation, and the development of novel therapeutics. -
Building Block
Z-Ala-Ala-OH is an N-benzyloxycarbonyl (Z) protected dipeptide that functions as a building block in peptide synthesis. This compound is particularly valuable for enzymatic peptide assembly due to the stability imparted by the Z group. Its structural characteristics enable diverse applications in research, including the development of peptide-based therapeutics and studying peptide interactions in biological systems. -
Amino Acid Derivative
(R)-2-((tert-Butoxycarbonyl)amino)pent-4-ynoic acid is an amino acid derivative featuring an alkyne group, making it suitable for click chemistry applications. This compound is capable of undergoing copper-catalyzed azide-alkyne cycloaddition (CuAAc), facilitating the conjugation of azide-containing molecules. Its unique reactivity and structural properties make it valuable in the development of bioconjugates, peptide synthesis, and various chemical biology applications. -
Amino Acid Derivative
Lauroyl lysine (N6-Lauroyl-L-lysine) is an amino acid derivative with applications in biochemistry and synthetic biology. This compound is synthesized using recombinant enzymes, which enhances the efficiency and yield of its production from specific substrates. Lauroyl lysine is primarily utilized in research focused on lipid interactions and protein engineering, making it a valuable reagent for studies in these fields. -
Amino Acid Derivative
Fmoc-Ser(Trt)-OH is a serine derivative that features a Fmoc group for easy incorporation into peptide synthesis. It is primarily utilized in solid-phase peptide synthesis protocols, facilitating the formation of peptide bonds while offering stable protection for the hydroxyl side chain. This reagent is valuable in producing peptides for a wide range of biological studies, including structure-function analysis and drug development. -
Amino Acid Derivative
Boc-L-Ile-OH is a derivative of isoleucine featuring a tert-butyloxycarbonyl (Boc) protecting group. This compound serves as an important building block in peptide synthesis and is utilized in studies involving protein structure and function. Its application extends to the development of pharmaceuticals and bioactive peptides, enabling researchers to explore the biological roles of isoleucine in various biochemical pathways. -
Urea Cycle Promoter
DL-Ornithine (hydrochloride) is a key amino acid that serves as a urea cycle promoter. This compound exhibits a low metabolic rate, resulting in rapid excretion, with only its L-enantiomer undergoing decarboxylation. In preclinical studies, DL-Ornithine hydrochloride has demonstrated minimal conversion to carbon dioxide within 24 hours in murine models of leukemia. It is primarily utilized to facilitate the elimination of excess nitrogen in the body and to provide protective effects on kidney function. -
Amino Acid Derivative
Fmoc-Lys-OAll.HCl is a protected lysine derivative featuring a 9-fluorenylmethyloxycarbonyl (Fmoc) group. This reagent serves as a key building block in peptide synthesis, allowing for the selective modification of lysine residues. Its applications extend to biochemical studies of proteins and peptides, providing insights into lysine’s role in cellular processes and post-translational modifications. -
Amino Acid Derivative
N2-(((9H-Fluoren-9-yl)methoxy)carbonyl)-N5,N5-dimethyl-L-glutamine is an amino acid derivative with a unique structure. It serves as a protected form of glutamine, which is important for various biochemical studies. This compound can be utilized in synthetic chemistry for the development of peptide-based drugs and as a building block in the synthesis of bioactive molecules. Its properties make it a valuable reagent for research applications involving amino acid functionality and modification. -
Amino Acid Derivative
Fmoc-(S)-phenylglycine is an amino acid derivative that features a phenyl group substituent on the glycine backbone. It serves as an important building block in the synthesis of peptides and plays a vital role in the development of peptide-based therapeutics. This compound is utilized in various research applications, including medicinal chemistry, drug discovery, and the study of protein interactions. -
Amino Acid Derivative
Methyl 2-amino-3,3,3-trifluoropropanoate hydrochloride is an amino acid derivative with a focus on alanine modification. This compound exhibits unique properties due to the presence of trifluoromethyl groups, influencing its biological activity. It is primarily utilized in synthetic organic chemistry, particularly in the development of drug candidates and research related to metabolic pathways involving amino acids. -
Amino Acid Derivative
N-Benzyl-L-isoleucine, an amino acid derivative, functions as a crucial building block in peptide synthesis and modifications. This compound is employed in various research applications, including investigations into protein structure, function, and interaction. Its unique side chain may influence peptide stability and activity, making it a valuable tool for developing novel therapeutic peptides. -
Amino Acid Derivative
Boc-N-Me-Ser-OH is a protected amino acid derivative of serine, featuring a tert-butyloxycarbonyl (Boc) protecting group. It serves as a valuable building block for peptide synthesis and is utilized in the study of peptide-modulated biological processes. Its structural properties facilitate the exploration of serine-related pathways, making it essential for various biochemical and pharmaceutical research applications. -
L-2,3-diaminopropionic Acid Derivative
Boc-L-Dap-OH is a Boc-protected derivative of L-2,3-diaminopropionic acid, designed for various biochemical applications. This important chiral amino acid derivative can be synthesized through the Hofmann rearrangement of Boc-L-asparagine. Boc-L-Dap-OH is commonly used as a starting material for the synthesis of BIM analogs, facilitating research in pharmaceutical development and peptide chemistry. -
Amino Acid Derivative
Methyl L-histidinate dihydrochloride is an amino acid derivative that serves as a key precursor in the synthesis of various bioactive compounds. It exhibits potential biological activities, including modulation of neurotransmitter systems and involvement in metabolic pathways. This compound is widely utilized in research applications focused on neurochemistry and enzymatic studies. -
Amino Acid Derivative
(S)-Ethyl 2-amino-4-fluoro-4-methylpentanoate sulfate is an amino acid derivative that acts as a leucine analog. This compound exhibits potential for modulating metabolic pathways and investigating protein synthesis processes. It is applicable in biochemical research aimed at understanding amino acid metabolism and its effects on cellular function. -
Amino Acid Derivative
Fmoc-HoArg(Pbf)-OH is an amino acid derivative of arginine that features a Fmoc protecting group and a Pbf (2,2,4,6,7-pentamethyldihydrobenzofuranyl) group. This compound is primarily utilized in peptide synthesis, enabling the introduction of tailored modifications into peptide chains. Its unique structural attributes enhance stability and facilitate the development of bioactive peptides for various biological applications, including pharmacological studies and functional analysis of peptide-based therapeutics. -
Keto-amino Acid
H-Phe(4-Ac)-OH, also known as L-4-Acetylphenylalanine, is a keto-amino acid that serves as a versatile building block in peptide synthesis. This compound can be utilized to modify peptides, particularly in the incorporation of acetyl groups, enabling the formation of chemical bonds with solid surfaces. H-Phe(4-Ac)-OH is particularly valuable for studies involving mutant Z-domain proteins and other related biochemical applications. Its role in peptide modification makes it an important reagent for researchers exploring peptide interactions and solid-phase synthesis methodologies. -
Amino Acid Derivative
(((9H-Fluoren-9-yl)methoxy)carbonyl)-D-tyrosine is an amino acid derivative that serves as a protective group in peptide synthesis. This compound exhibits key functionality by enhancing the stability of reactive amino groups, facilitating the synthesis of biologically active peptides. Its applications extend to research in protein engineering and drug development, where precise control over peptide structure is essential. -
Amino Acid Derivative
N-Methyl-D-valine is an amino acid derivative that acts as an important building block in peptide synthesis. This compound is utilized in the study of protein structure and function, facilitating research in pharmacology and biotechnology. Its unique methylation provides insight into the modulation of peptide interactions and stability. -
Amino Acid Derivative
(S)-2-Amino-5-(tert-butoxy)-5-oxopentanoic acid is an amino acid derivative that functions as a selective modulator of glutamate receptors. This compound exhibits biological activity related to neurotransmission, making it valuable for research in neuropharmacology and the study of synaptic plasticity. It may be utilized in investigations focusing on cognitive functions and neurodegenerative diseases. -
Amino Acid Derivative
Ethyl 2-(benzylamino)acetate hydrochloride is an amino acid derivative targeting glycine pathways. This compound exhibits potential biological activity relevant to the modulation of neurotransmitter systems, particularly in the context of neuropharmacology and neurobiology research. It is suitable for applications in studies assessing glycine receptor function and exploring associated signaling pathways. -
Nitrogen Source
N-Boc-O-tosyl hydroxylamine serves as an efficient nitrogen source for the N-amination of aryl and alkyl amines. It facilitates electrophilic N-amination reactions, yielding β-Boc-protected aryl hydrazines and alkyl hydrazines. This reagent is particularly useful in synthetic organic chemistry for the modification of amines in various research applications. -
Amino Acid Derivative
Boc-Asp(OMe)-OH is a protected derivative of aspartic acid commonly utilized in peptide synthesis. This compound serves as a versatile building block for the preparation of various peptides and proteins, enabling researchers to explore structure-function relationships in biochemical studies. Its significant role in the development of bioactive compounds makes it valuable for applications in pharmaceutical research and development. -
Amino Acid Derivatives
Fmoc-N-Me-Arg(Pbf)-OH is an amino acid derivative featuring a guanidinium protecting group on the arginine side chain. This compound serves as a valuable building block in the synthesis of neurotensin-derived NTS1 ligands, which are utilized in PET imaging applications. Its unique structure enables targeted research in neurobiology and related therapeutic areas. -
Amino Acid Derivative
Methyl D-cysteinate hydrochloride is an amino acid derivative that serves as a useful building block in organic synthesis. It exhibits properties relevant for studying redox biology and protein structure-function relationships. This compound is frequently utilized in research applications focused on biochemical modulation and therapeutic development targeting cysteine residues in proteins. -
Amino Acid Derivative
Boc-Glu-OtBu is a protected form of glutamic acid, specifically an amino acid derivative featuring a tert-butyloxycarbonyl (Boc) group and a t-butyl ester. It serves as a valuable building block in peptide synthesis and is utilized in the development of bioactive compounds. Its ability to participate in coupling reactions makes it essential for studies involving protein engineering, drug design, and the analysis of metabolic pathways related to glutamate. -
Amino Acid Derivative
3,5-Diiodo-D-tyrosine is an amino acid derivative that serves as a modified form of the natural amino acid tyrosine. This compound exhibits significant biological activity associated with its iodine substitutions, making it useful in various biochemical research applications. It can be employed in studies investigating thyroid function and metabolism, as well as in the synthesis of iodinated compounds for imaging and therapeutic purposes. -
Amino Acid Derivative
3-Bromo-L-phenylalanine is an amino acid derivative that serves as a useful building block in peptide synthesis. It is known for its ability to incorporate bromine into peptide structures, which can facilitate the study of protein function and interactions. This compound is commonly utilized in research applications involving the modification of amino acids and the development of novel therapeutic agents. -
Amino Acid Derivative
H-Glu(OMe)-OH is a methoxy derivative of glutamic acid. This compound serves as a valuable amino acid derivative in biochemical research, particularly for studying protein structure and function. Its ability to participate in peptide synthesis makes it useful in the development of novel therapeutics and in investigations of neurological pathways where glutamate signaling is essential. -
Amino Acid Derivative
Boc-His-OMe is a histidine derivative that serves as a crucial amino acid building block in peptide synthesis. This compound is widely utilized in the development of biologically active peptides and the study of protein interactions owing to its ability to mimic the natural amino acid. Its protective Boc group enhances stability during synthesis, making it an essential reagent in chemical research applications. -
Biochemical Reagent
Boc-Pip-OH, or Boc-L-pipecolic acid, acts as a biochemical reagent serving as a radical precursor in chemical synthesis. Its primary mechanism involves the introduction of the t-butyloxycarbonyl protecting group, facilitating the assembly of peptide chains and other complex organic structures. This compound is widely utilized in peptide synthesis and the development of novel bioactive molecules. -
Amino Acid Derivative
Fmoc-D-Tyr(Me)-OH is an amino acid derivative featuring a phenylalanine core. This compound serves as a building block in peptide synthesis and is primarily utilized in the preparation of modified peptides for various biochemical studies. Its application extends to research in drug development and the investigation of protein interactions, due to its ability to enhance peptide stability and solubility. -
Amino Acid Derivative
N-(((9H-Fluoren-9-yl)methoxy)carbonyl)-S-methyl-L-cysteine is an amino acid derivative targeting the cysteine metabolism pathway. This compound exhibits potential biological activity by acting as a thiol protector and can aid in the study of protein folding, redox signaling, and the modulation of oxidative stress. It is useful in various research applications, including the synthesis of peptides and pharmaceuticals, as well as in studies investigating cysteine-related biochemical processes. -
Amino Acid Derivative
(tert-Butoxycarbonyl)-L-methionine is a protected derivative of the amino acid methionine, featuring a tert-butoxycarbonyl (Boc) group. This compound is commonly utilized in peptide synthesis and biochemical studies to facilitate the formation of methionine-containing peptides. Its protection enables the selective modification of methionine while maintaining its biological activity, making it a valuable tool for research in protein engineering and drug development. -
amino acids and their derivatives
5-Methyl-DL-tryptophan is an amino acid analogue that primarily functions as a tryptophan derivative. It is recognized for its role in modulating serotonin biosynthesis and may influence various metabolic pathways related to mood and behavior. This compound is useful in research applications exploring neurotransmitter dynamics, metabolic disorders, and the effects of tryptophan on physiological functions. -
Amino Acid Derivative
O-(tert-Butyl)-N-Fmoc-L-allothreonine is an amino acid derivative that serves as a versatile building block in peptide synthesis. It features a tert-butyl protecting group and an Fmoc (9-fluorenylmethoxycarbonyl) moiety, facilitating the selective protection of the amino group during chemical modifications. This compound is primarily utilized in combinatorial chemistry and the synthesis of modified peptides for research applications in enzymatic studies and drug discovery. -
Phenylalanine Derivative
Fmoc-Phe(4-CONH2)-OH is a protected phenylalanine derivative that serves as an intermediate in peptide synthesis. This compound is particularly useful in the design and production of polypeptides, facilitating the incorporation of amino groups for enhanced functionality. Its application extends to various research fields, including drug development and the study of peptide interactions. -
Amino Acid Derivative
2-(Bis(2-(tert-butoxy)-2-oxoethyl)amino)acetic acid is an amino acid derivative with potential applications in biochemical research. This compound can serve as a building block in the synthesis of more complex molecules and may be used to study glycine-related metabolic pathways. Its unique structural features enhance its applicability in various experimental protocols involving amino acids and their derivatives. -
Amino Acid Derivative
3-(2-Thienyl)-L-alanine is an amino acid derivative featuring a thienyl group that may influence biological activity. This compound is utilized in studies related to protein synthesis and modifications, offering insights into amino acid interactions and their roles in metabolic processes. Its unique structure makes it suitable for investigating novel biochemical pathways and potential therapeutic applications. -
Amino Acid Derivative
Fmoc-D-N-Me-Val-OH is an amino acid derivative that serves as a protective group in peptide synthesis. This compound aids in the development of peptides with specific structural characteristics due to its unique properties. It is primarily used in research related to synthetic organic chemistry and the study of peptide interactions in biological systems. Its utility in customizing peptide design makes it a valuable tool for researchers in drug development and bioconjugation studies. -
Amino Acid Derivative
(S)-3-((((9H-Fluoren-9-yl)methoxy)carbonyl)amino)-4-(allyloxy)-4-oxobutanoic acid is an amino acid derivative that serves as a valuable building block for peptide synthesis. This compound exhibits key biological activity related to mimicking aspartic acid, thereby facilitating studies in protein engineering and molecular biology. Its structural features make it a useful reagent in the development of novel therapeutics and drug discovery applications. -
Amino Acid Derivative
(R)-2-Amino-3-(3-bromophenyl)propanoic acid is an amino acid derivative that serves as an important phenylalanine analog. It exhibits potential applications in the study of protein interactions and enzyme activities related to amino acid metabolism. This compound may also be utilized in the investigation of neurological pathways and disorders, particularly those involving phenylalanine. -
Amino Acid Derivative
Methyl acetyl-L-cysteinate is an amino acid derivative of cysteine. It exhibits biological activity by acting as a precursor in the synthesis of glutathione, an important antioxidant in cellular defense. This compound is utilized in research applications focused on redox biology, cellular signaling, and the study of sulfur-containing compounds in metabolism and drug design. -
Amino Acid Derivative
Thialysine hydrochloride is an amino acid derivative that serves as a cysteine analogue. It exhibits biological activity by participating in the synthesis of proteins and may influence redox states within cells. This compound is valuable for research applications involving cellular metabolism, protein structure studies, and the investigation of thiol-related biochemical pathways. -
Amino Acid Derivative
N-9-Fluorenylmethoxycarbonylaspartic acid β-methyl ester is an amino acid derivative that serves as a protecting group for aspartic acid in peptide synthesis. Its primary mechanism involves the protection of the aspartic acid's amino and carboxyl functional groups, facilitating the development of complex peptides without unwanted reactions. This compound is crucial for researchers exploring peptide synthesis and modifications in chemical biology, enabling the formation of diverse peptide libraries and the study of protein interactions. -
Amino Acid Derivative
N-tert-Butoxycarbonyl-D-alanine is an amino acid derivative featuring a tert-butoxycarbonyl (Boc) protecting group. This compound serves as a key intermediate in peptide synthesis, facilitating the stable derivatization of the D-alanine residue. Its application extends to the development of biologically active peptides, making it a valuable reagent in chemical and pharmaceutical research. -
Amino Acid Derivative
Boc-Ser-OMe is an amino acid derivative of serine, featuring a tert-butyloxycarbonyl (Boc) protecting group and a methoxy (OMe) moiety. This compound is widely utilized in peptide synthesis and as an intermediate in the development of bioactive molecules. Its key properties allow for enhanced stability and solubility, making it a valuable reagent in biochemical and medicinal chemistry research applications. -
Amino Acid Derivative
Fmoc-Phe(CF2PO3)-OH is a phenylalanine derivative that serves as a phosphonate-modified amino acid. This compound acts as a building block for peptide synthesis and can be utilized in the development of novel bioactive peptides. Its unique properties may facilitate research in drug design, targeting phosphonate interactions in biological systems, and exploring therapeutic applications in various fields, including medicinal chemistry and biochemistry. -
Amino Acid Derivative
(S)-1-(((9H-Fluoren-9-yl)methoxy)carbonyl)-2,5-dihydro-1H-pyrrole-2-carboxylic acid is an amino acid derivative featuring a proline structure. This compound exhibits potential utility in peptide synthesis and other biochemical research applications, particularly in studies involving protein design and modification. Its unique fluorene moiety may enhance solubility and stability, making it a valuable tool in chemical biology and medicinal chemistry.

