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Amino Acid Derivative
H-DL-Phe(4-Me)-OH is an amino acid derivative of phenylalanine featuring a 4-methyl substitution. It serves as a useful building block in peptide synthesis and can be employed in studies related to protein structure and function. Its properties make it suitable for exploring modifications in biochemical pathways and enhancing the understanding of amino acid interactions in various biological systems. -
Amino Acid Derivative
Fmoc-4-Pal-OH is an amino acid derivative targeting peptide synthesis. It serves as a valuable building block in solid-phase peptide synthesis (SPPS), facilitating the introduction of palmitic acid into peptide sequences. This compound is instrumental in studies of lipid-modified peptides and their biological activities, enhancing research in peptide engineering and drug development. -
Cancer Vaccine Structural Unit
Fmoc-Thr[GalNAc(Ac)3-α-D]-OH is a glycoamino acid derivative that serves as a structural unit for cancer vaccines. Its design enables targeted delivery and enhanced immunogenicity through galactosylation. This compound can facilitate research into tumor immunology and the development of cancer therapeutics that leverage immune responses. -
Amino Acid Derivative
Fmoc-Ser-Obzl is a serine derivative designed for use in peptide synthesis. It features an Fmoc protective group that allows for selective deprotection during solid-phase peptide synthesis, facilitating the incorporation of serine residues into peptides. This reagent is essential for studies involving protein interactions, therapeutic peptides, and other applications in biochemistry and molecular biology. -
Amino Acid Derivative
3-Phenylpropionylglycine is an amino acid derivative that functions as a glycine analog. This compound is utilized in biochemical research to investigate its effects on neurotransmission and metabolic processes. Its structural modifications may facilitate the study of glycine receptor signaling and provide insights into its potential therapeutic roles in neurological disorders. -
Amino Acid Derivative
H-Lys(Boc)-OMe hydrochloride is a protected derivative of the amino acid lysine, featuring a Boc (tert-butyloxycarbonyl) protecting group. This compound is primarily utilized in peptide synthesis and serves as a building block in the development of various biologically active compounds. Its stability and reactivity make it a valuable reagent in the fields of medicinal chemistry and molecular biology. -
Amino Acid Derivative
(S)-2-(Methylamino)-3-phenylpropanoic acid is an amino acid derivative that functions as a phenylalanine analogue. It exhibits significant biological activity in modulating neurotransmitter pathways and is utilized in research applications focused on neuropharmacology and amino acid metabolism. This compound serves as a valuable tool for studying the effects of phenylalanine modifications on biological processes. -
Amino Acid Derivative
Boc-His(Trt)-OH is a histidine derivative with a Boc protecting group at the amino site and a Trt protecting group at the imidazole ring. This compound is primarily used in peptide synthesis and can facilitate the introduction of histidine residues into peptides for various biological studies. Its incorporation aids in investigating protein interactions, enzyme activities, and metal ion binding, making it a valuable reagent for researchers in peptide chemistry and biochemistry. -
Amino Acid Derivative
L-Aspartic acid 4-tert-butyl ester is an amino acid derivative that serves as a key intermediate in synthetic chemistry. It is primarily utilized in the synthesis of peptides and other bioactive compounds. This compound is valuable for studies related to protein engineering and metabolic research, providing insights into aspartate metabolism and its physiological roles. -
Amino Acid Derivative
(S)-2-((((9H-Fluoren-9-yl)methoxy)carbonyl)amino)pentanoic acid is an amino acid derivative specifically designed as a valine analog. This compound serves as a valuable building block in peptide synthesis and is useful in the development of therapeutic agents. Its unique structure facilitates various biochemical applications, making it an essential reagent for researchers in the fields of medicinal chemistry and biochemistry. -
Amino Acid Derivative
H-Sar-OtBu.HCl is an amino acid derivative that serves as a protected form of sarcosine. This reagent is commonly utilized in peptide synthesis and the development of specific bioconjugates. Its unique structure enhances stability and facilitates the incorporation of glycine-related motifs into larger biomolecules for various research applications in medicinal chemistry and drug discovery. -
Amino Acid Derivative
N-[(9H-Fluoren-9-ylmethoxy)carbonyl]-N-methyl-D-phenylalanine is an amino acid derivative targeting protein synthesis and modification processes. This compound is utilized in peptide synthesis as a protecting group for the amine functionality, facilitating the preparation of complex peptides. Its effectiveness in enhancing solubility and stability makes it an important tool in biochemical research and pharmaceutical development. -
Amino Acid Derivative
N-[(9H-Fluoren-9-ylmethoxy)carbonyl]-5-methyl-L-norleucine is a derivative of leucine designed for use in peptide synthesis and protein engineering. This amino acid derivative serves as a protective group, facilitating the selective modification of peptide chains. It is particularly useful in the development of peptide-based therapeutics and in research applications involving protein structure and function studies. -
Amino Acid Derivative
N-[(9H-Fluoren-9-ylmethoxy)carbonyl]-O-(phenylmethyl)-L-serine is an amino acid derivative designed for use in peptide synthesis and the study of protein interactions. This compound acts as a protecting group for serine residues, facilitating the selective modification of peptides. Its utility in bioconjugation and other chemical biology applications supports research in drug discovery and protein engineering. -
Alanine Derivative
Fmoc-alpha-allyl-L-alanine is an Fmoc-protected derivative of alanine with a unique allyl group at the alpha position. This compound is useful in peptide synthesis and modifications, facilitating the introduction of allylic side chains in peptides. Its biological applications include studies on peptide structure-function relationships and the development of novel therapeutics. -
Amino Acid Derivative
DL-Cystine is a di-sulfide derivative of cysteine, functioning primarily as a source of cysteine in biological systems. It plays a crucial role in protein synthesis and cellular metabolism, as well as in maintaining the structure of proteins through the formation of disulfide bonds. DL-Cystine is widely used in biochemical research and cell culture applications, particularly in studies related to oxidative stress and antioxidant defense mechanisms. -
Macromolecular Polymer
Poly-L-γ-glutamic acid sodium is a macromolecular polymer that results from the polymerization of glutamic acid residues through peptide bonds between γ-amino and carboxyl functional groups. This biopolymer serves as an effective carrier material in drug delivery systems, particularly in targeting colon cancer cells. It has demonstrated the ability to enhance the delivery of therapeutic agents, such as Paclitaxel, leading to reduced cell viability and inhibition of colon cancer spheroid growth. Poly-L-γ-glutamic acid sodium is a valuable reagent for research on compound delivery and colon cancer therapeutic strategies. -
Amino Acid Derivatives
Boc-β-Ala-ol (3-(Boc-amino)-1-propanol) is an amino acid derivative characterized by a Boc protecting group at the N-terminus. This compound serves as a valuable building block for the synthesis of bioactive peptide mimics, including Nα-Benzoyl-α-azaornithine phenyl ester, which exhibits trypsin inhibitory activity. Its applications in peptide chemistry and drug development make it an important reagent for researchers studying enzyme inhibition and peptide design. -
β amino acid
β-Glutamic acid, a β-amino acid, is involved in various biochemical pathways due to its role as a building block for peptides. Its unique structure allows it to participate in diverse research applications, including studies related to protein synthesis, metabolic pathways, and potential therapeutic interventions. This compound is essential for exploring the mechanisms of amino acid metabolism and functional protein assembly. -
Amino Acid Derivative
Fmoc-Bpa-OH is an amino acid derivative based on phenylalanine, featuring a fluorenylmethoxycarbonyl (Fmoc) protecting group. This compound is utilized in peptide synthesis, enhancing the stability and protection of reactive amine groups. It serves as a valuable building block for the preparation of peptides with specific structural and functional properties, facilitating research in biochemistry and pharmacology. -
Amino Acid Derivative
Boc-Phe(3-Br)-OH is an amino acid derivative of phenylalanine, featuring a bromine substitution at the meta position. This compound serves as a versatile building block in peptide synthesis and modification. Its application extends to the development of peptide-based therapeutics and probes for studying protein interactions and modifications in biological systems. -
Amino Acid Derivative
Z-Sar-OH is an amino acid derivative characterized by its protective Z-group on sarcosine. This compound is utilized in various biochemical applications, including peptide synthesis and the study of enzyme function. Its unique properties make it a valuable reagent for research involving glycine-related metabolic pathways and protein engineering. -
Amino Acid Derivative
N-(((9H-Fluoren-9-yl)methoxy)carbonyl)-N-(2,4-dimethoxybenzyl)glycine is an amino acid derivative that serves as a key building block in peptide synthesis. This compound features protective groups that enhance stability and facilitate further modifications. It is widely utilized in chemical research for studies related to peptide design, drug development, and amino acid functionalization. -
Amino Acid Derivative
H-D-2-Nal-OH is an amino acid derivative with potential applications in peptide synthesis and drug development. This compound plays a role in modifying peptide structures to enhance biological activity and stability. Its unique properties make it valuable for researchers studying protein interactions, enzyme activity, and therapeutic design. -
Amino Acid Derivative
H-Asp(OtBu)-OMe.HCl is an aspartic acid derivative that functions as a protected form of the amino acid aspartate. This compound is commonly utilized in peptide synthesis and as a building block in the development of biologically active molecules. Its protective groups facilitate the manipulation of functional groups, making it valuable in chemical biology and medicinal chemistry research applications. -
Amino Acid Derivative
H-DL-Gly-OBzl hydrochloride is an amino acid derivative of glycine, primarily functioning as a building block in peptide synthesis. This compound serves as an essential intermediate in the development of glycine-containing peptides and can be utilized in a variety of biochemical research applications, including studies on protein folding and enzyme activity. Its stability and solubility make it suitable for diverse experimental conditions in organic synthesis and biochemical assays. -
Amino Acid Derivative
(R)-2-((((9H-Fluoren-9-yl)methoxy)carbonyl)amino)-3-(furan-2-yl)propanoic acid is a specific alanine derivative that acts as an amino acid building block in peptide synthesis. Its structure incorporates a fluorenylmethoxycarbonyl (Fmoc) protecting group, facilitating applications in solid-phase peptide synthesis. This compound is valuable for researchers exploring modifications of peptide structures and assessing their biological activities. -
Amino Acid Derivative
(S)-2-((((9H-Fluoren-9-yl)methoxy)carbonyl)amino)-3-(o-tolyl)propanoic acid is an amino acid derivative specifically designed for applications in peptide synthesis. This compound features a fluorenylmethoxycarbonyl (Fmoc) protective group, facilitating the efficient assembly of peptides while maintaining the integrity of the amino acid during elongation. Its application in research enhances studies on protein interactions and enzyme functions, making it valuable for advancing biochemical and biophysical investigations. -
Amino Acid Derivatives
H-Dab(Boc)-OH is an amino acid derivative with a Boc protecting group, primarily utilized in the synthesis of methotrexate (MTX) analogs. This compound exhibits antitumor and antifolate activities, making it valuable for cancer research and the development of therapeutic agents. Its versatility in peptide synthesis supports various biochemical studies and applications in drug development. -
Amino Acid Derivative
O-Phospho-L-threonine is a phosphorylated derivative of threonine that primarily functions as a phosphoamino acid. It plays a crucial role in cellular signaling pathways and post-translational modifications, particularly in the regulation of protein functions. This compound is useful in studies related to phosphorylation processes, protein interactions, and the investigation of signaling networks in various biological systems. -
Amino Acid Derivative
N-Acetyl-DL-aspartic acid is an amino acid derivative that serves as an important metabolic intermediate. It is implicated in various biological processes, including neural signaling and the synthesis of neurotransmitters. This compound is widely used in research to study its role in neurobiology and to explore its potential applications in neuroprotective strategies. -
Amino Acid Derivative
(S)-2-((((9H-Fluoren-9-yl)methoxy)carbonyl)amino)-3,3-diphenylpropanoic acid is an amino acid derivative primarily targeting phenylalanine. This compound exhibits significant biological activity as a precursor in peptide synthesis, facilitating various research applications in medicinal chemistry and drug discovery. Its unique structural characteristics enhance its utility in the development of novel therapeutics and biomolecules. -
Amino Acid Derivative
(R)-2-Amino-4-mercaptobutanoic acid is an amino acid derivative that serves as a cysteine analogue. It is primarily utilized in biochemical research to investigate the roles of thiols in redox biology and cellular signaling. This compound may also be employed in studies related to protein folding and stability, making it a valuable reagent for both academic and pharmaceutical research applications. -
Amino Acid Derivative
Fmoc-L-photo-leucine is an amino acid derivative that serves as a photo-responsive leucine analog. This compound exhibits significant potential in studies related to protein synthesis and photopharmacology, enabling researchers to manipulate biological processes with light. It is particularly useful in the development of light-activated systems and in the study of protein interactions within cellular environments. -
Amino Acid Derivative
BOC-O-Benzyl-L-threonine is an amino acid derivative that serves as a versatile building block in peptide synthesis. This compound is employed in the development of modified peptides and as a substrate in enzymatic studies, facilitating research in protein chemistry and biotechnology. Its benzyl protecting group provides enhanced stability in various chemical reactions, making it valuable for innovative applications in medicinal chemistry and drug development. -
Amino Acid Derivative
Boc-Asp-OMe is an aspartic acid derivative featuring a Boc (tert-butyloxycarbonyl) protection and a methoxy (OMe) group. This compound serves as a key building block in peptide synthesis and facilitates the study of protein structure and function. Its unique properties make it valuable for applications in medicinal chemistry and biochemistry research, particularly in the development of peptide-based therapeutics. -
Amino Acid Derivative
N-Heptanoylglycine is an amino acid derivative that functions as a modulator of metabolic pathways. This compound plays a significant role in metabolic studies, particularly in assessing fatty acid metabolism and energy homeostasis. It can be utilized in research related to metabolic disorders and neurobiology, providing insights into the biochemical processes involving glycine. -
Amino Acid Derivative
(6S,9S,12S)-Benzyl 12-benzyl-9-isobutyl-2,2-dimethyl-4,7,10-trioxo-6-phenethyl-3-oxa-5,8,11-triazatridecan-13-oate is an amino acid derivative with a complex structural framework. This compound exhibits significant biological activity, particularly in studies focused on peptide synthesis and modifications. It serves as a valuable reagent in research applications exploring the functionality of phenylalanine and its derivatives in biochemical processes. -
Amino Acid Derivative
L-Methionine methyl ester hydrochloride is a derivative of the amino acid Methionine. It exhibits key biological activity related to protein synthesis and plays an essential role in cellular metabolism. This compound is commonly utilized in research applications focusing on amino acid transport, metabolic studies, and the synthesis of peptides. -
Amino Acid Derivative
3-(2-Thienyl)-D-alanine is an amino acid derivative that incorporates a thienyl group. This compound serves as a useful building block in the synthesis of bioactive peptides and can be utilized in studies investigating amino acid transport and metabolism. Its unique structural features may also contribute to the exploration of novel therapeutics in neuropharmacology and cancer research. -
Sweetener
Alitame is a high-intensity sweetener that acts on taste receptors to provide a sweet flavor profile. It is synthesized from the amino acids L-aspartic acid and D-alanine, along with an amine derived from thietane. Alitame is utilized in food and beverage research applications for its sweetening properties while contributing to the study of non-caloric sweeteners and their impact on taste perception and metabolism. -
Amino Acid Derivative
N,N'-Di-BOC-L-cystine is a protected derivative of the amino acid cysteine, featuring two tert-butoxycarbonyl (BOC) protective groups. This compound is commonly utilized in peptide synthesis and the development of bioconjugates due to its ability to form disulfide bonds, enhancing stability and reactivity. Its robust protective groups facilitate selective deprotection, making it a valuable asset in the study of protein structure and function. -
Amino Acid Derivatives
Fmoc-D-Cit-OH is an Fmoc-protected derivative of citrulline, serving as a valuable building block for the synthesis of bioactive peptide mimetics. These mimetics, such as H-Dmt-D-Cit-Aba-b-Ala-NMe-30,50-(CF3)2-Bn and H-Dmt-D-Cit-Aba-b-Ala-NMe-Bn, exhibit neurokinin-1 antagonist activity, making them relevant in research focused on neurobiology and potential therapeutic applications. This compound is particularly useful in studies of peptide design and development in the context of neuroactive compounds. -
Amino Acid Derivative
Methyl 2-amino-2-cyclopropylacetate hydrochloride is an amino acid derivative targeting various biological pathways involving glycine modulation. This compound exhibits key biological activities such as neurotransmission enhancement and potential neuroprotective effects. It is suitable for research applications in neuroscience and pharmacology, particularly in studies focused on amino acid metabolism and receptor modulation. -
Amino Acid Derivative
L-Phenylalanylglycylglycine is an amino acid derivative with potential implications in peptide synthesis and biochemical research. This compound may be utilized to study peptide interactions and the roles of amino acid substitutions in protein structure and function. Its unique composition allows for exploration in areas such as drug development, enzyme activity modulation, and cellular signaling pathways. -
Amino Acid Derivative
Tos-Pro-OH is an amino acid derivative specifically designed for chemical research involving proline. This compound serves as a valuable building block in the synthesis of peptides and other biologically active molecules. Its structural characteristics make it a useful tool in studying protein folding and stability, as well as in the development of pharmaceuticals targeting proline-related pathways. -
Amino Acid Derivative
Boc-D-(4-fmoc)-aminophenylalanine is an amino acid derivative featuring an Fmoc protecting group. This compound serves as a versatile building block in peptide synthesis, particularly for the preparation of peptides that exhibit gonadotropin-releasing hormone antagonist activity. Its unique structure facilitates the exploration of biological functions and therapeutic applications in hormonal regulation and related research fields. -
Amino Acid Derivatives
Fmoc-D-Tic-OH is an amino acid derivative featuring an Fmoc protecting group, primarily utilized in peptide synthesis. This compound serves as a key building block for the creation of bioactive peptide mimetics, including [desArg10]HOE 140, which demonstrates antagonistic activity towards the bradykinin B1 receptor. Applications of Fmoc-D-Tic-OH include peptide research and the development of therapeutic agents targeting the bradykinin system. -
Amino Acid Derivatives
H-Dab(Boc)-OMe hydrochloride is an N-terminally protected diaminobutyric acid, featuring both methoxy (OMe) and tert-butyloxycarbonyl (Boc) protecting groups. This reagent is utilized in the synthesis of the bifunctional chelator H3Dpaa, which can effectively complex 68Ga under physiological conditions. Its properties make it valuable for research in radiochemistry and the development of radiopharmaceuticals. -
Amino Acid Derivative
(S)-methyl 2-amino-3-cyclohexylpropanoate hydrochloride is an amino acid derivative that functions as a key building block in the synthesis of peptidomimetics and other bioactive compounds. It exhibits significant potential in biochemical research, particularly in the study of protein folding and enzyme interactions. Its structural properties make it valuable in exploring ligand-receptor dynamics and drug development applications.

