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Items 2001-2050 of 13502

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  1. Amino Acid

    Deoxyhypusine is an uncommon amino acid resulting from the posttranslational modification of eukaryotic translation initiation factor 5A (eIF-5A) by deoxyhypusine hydroxylase (DOHH). This modification plays a critical role in cellular processes, including protein synthesis and cell proliferation. Deoxyhypusine is utilized in research applications involving translation regulation, cellular stress response, and the study of eIF-5A's biological functions.
  2. PWD Inhibitor

    Cyclo(IP) (Cyclo-(L-Pro-L-Ile)) is a diketopiperazine that functions as a phytopathogen wilt disease (PWD) inhibitor. It effectively suppresses the severity of PWD and enhances the expression of defense-related genes, emulating the effects of treatment with Bacillus thuringiensis JCK-1233. This compound is valuable in research focused on plant disease management and the exploration of plant defense mechanisms.
  3. Amino Acid Derivative

    Fmoc-Glu(ODmab)-OH is a protected derivative of glutamic acid, functioning primarily as an amino acid building block in peptide synthesis. Its Fmoc (Fluorenylmethyloxycarbonyl) protection allows for selective deprotection during solid-phase peptide synthesis. This compound is important for the development of peptides with specific functionalities, enhancing research in pharmaceutical applications, including drug development and protein engineering.
  4. Amino Acid Derivative

    H-Glu-pNA is a glutamic acid derivative that serves as a chromogenic substrate for the enzymatic activity of glutamate-specific proteases. Its hydrolysis results in the release of para-nitroaniline, which can be quantified spectrophotometrically, making it a useful tool in the study of enzyme kinetics and protein assays. H-Glu-pNA is valuable in biochemical research aimed at understanding protein metabolism and related pathways.
  5. Amino Acid Derivative

    DL-3-Hydroxynorvaline is an amino acid derivative of valine. This compound serves as a precursor in the synthesis of various peptides and proteins, contributing to studies in metabolic pathways and protein engineering. Its unique structural characteristics make it useful for investigating amino acid interactions and modifications in biological systems. DL-3-Hydroxynorvaline is employed in research focused on protein synthesis, as well as in the exploration of metabolic disorders and therapeutic agents.
  6. Lysine Derivative

    Mca-KKEDVV-Abu-CS-Abu-S-(NO2)F-KK-NH2 is a derivative of L-lysine designed as a peptide building block. This compound exhibits unique properties due to its structural modifications, facilitating research applications in peptide synthesis and drug development. Its specific structure allows for enhanced interactions with biological targets, making it valuable in studies involving enzymatic activity and protein interactions.
  7. Tyrosine Derivative

    3,5-Dinitro-L-tyrosine sodium is a tyrosine derivative that serves as an artificial substrate in biochemical assays. It does not exhibit activity as a substrate for tyrosine aminotransferase, making it useful for studies that require the differentiation of enzymatic reactions involving tyrosine. This compound is significant in research applications aimed at understanding enzyme specificity and substrate interactions in metabolic pathways.
  8. Amino Acid Derivative

    Z-D-Met-OH is an amino acid derivative of Methionine. This compound serves as a valuable reagent in peptide synthesis and can be utilized for the design of biologically active peptides. Its applications extend to studies in protein engineering and drug development, providing crucial insights into metabolic pathways and cellular processes involving sulfur-containing amino acids.
  9. Amino Acid Derivative

    Fmoc-L-Lys(Nvoc)-OH is an amino acid derivative featuring a lysine backbone modified with Fmoc and Nvoc protecting groups. This compound serves as a crucial building block in peptide synthesis, enabling the selective protection of amino groups during chemical reactions. Its key applications include solid-phase peptide synthesis and the development of novel peptide-based therapeutics.
  10. Amino Acid Derivative

    (S)-2-(Benzylamino)-3-(4-hydroxyphenyl)propanoic acid is a derivative of tyrosine that serves as an amino acid analog. This compound exhibits biological activity relevant to the regulation of various metabolic pathways and neurotransmitter synthesis. It is valuable in research applications focused on studying amino acid metabolism and exploring potential therapeutic targets in neurological disorders.
  11. Amino Acid Derivative

    Fmoc-His(MMt)-OH is a protected histidine derivative that features an Fmoc-related moiety, serving as a crucial building block in peptide synthesis. This compound is particularly useful in developing bioconjugates and studying protein structure and function. Its unique chemical properties facilitate selective detachment of the Fmoc group, allowing for efficient deprotection in various chemical contexts. This reagent is valuable in applications such as the synthesis of bioactive peptides and drug discovery research.
  12. Amino Acid Derivatives

    Boc-Asn(Xan)-OH is an amino acid derivative featuring a Boc protecting group, primarily targeting peptide synthesis. This compound is crucial for the development of locust fat growth hormone and other related research applications in protein biochemistry and peptide engineering. Its unique structure allows for enhanced stability and selective reactivity in synthetic procedures, making it a valuable reagent for researchers in the field of peptide synthesis and hormonal studies.
  13. Amino Acid Derivative

    Benzyloxycarbonyl-D-alloisoleucine is an amino acid derivative that serves as a crucial building block in peptide synthesis. This compound is utilized in the study of protein structure and function, as well as in the development of novel therapeutics. Its structural features enable it to participate in various biochemical reactions, making it valuable for researchers exploring amino acid modifications and their effects on biological activity.
  14. Amino Acid Derivative

    Nα-Fmoc-N(im)-trityl-L-histidine pentafluorophenyl ester is an amino acid derivative that serves as a protected form of histidine. This compound exhibits critical properties for peptide synthesis, facilitating the incorporation of histidine into complex peptides. It is particularly useful in studies involving protein engineering and drug design, where histidine plays a significant role in enzymatic catalysis and metal ion coordination.
  15. Substrate for SAM Enzymes

    SAHO2 is a sulfone derivative of S-(5'-adenosyl)-L-methionine chloride (SAM) that functions as a substrate for radical SAM enzymes. This compound plays a critical role in various enzymatic processes that involve radical-mediated methylation and sulfur insertion, making it valuable for research in enzymology and metabolic pathways. Its use can provide insights into the mechanisms of SAM-dependent enzymes and their biological significance.
  16. RGD Derivative

    CGGRGD is a cysteine-modified RGD peptide that targets integrins, particularly αvβ3 and α5β1. This compound exhibits enhanced cell adhesion and migration properties, making it valuable in studies of tissue engineering, cancer metastasis, and wound healing. Its distinctive structure allows for increased stability and effective binding to integrin receptors, which is critical in the development of therapeutic strategies and biomaterials research.
  17. Amino Acid Derivative

    N-Chloroacetyl-DL-alanine is an amino acid derivative that functions as a versatile reagent for peptide synthesis and protein modification. It facilitates the introduction of chloroacetyl groups, enhancing biochemical reactivity and selectivity in various reactions. This compound is utilized in research applications focused on drug discovery, biochemical assays, and the development of novel therapeutic agents.
  18. Amino Acid Derivative

    Bz-Tyr-OEt is a benzoyl-protected tyrosine derivative that serves as a valuable building block in peptide synthesis. Its unique chemical properties facilitate the study of tyrosine-related pathways and protein interactions. This reagent is commonly utilized in the development of bioactive peptides and other molecular probes for biochemical research applications.
  19. Amino Acid Derivative

    N-Phthaloyl-DL-methionine is an amino acid derivative of methionine known for its role as a substrate in various biochemical studies. This compound exhibits potential in drug design and metabolic research, offering insights into protein modifications and interactions. Its unique chemical structure allows for applications in studying enzymatic processes and cellular responses involving methionine metabolism.
  20. Amino Acid Derivative

    Z-D-His-OH is an amino acid derivative of histidine with a Z (benzyloxycarbonyl) protective group. It is commonly utilized in peptide synthesis and modifications, serving as a crucial building block in the development of biologically active peptides and proteins. Z-D-His-OH can facilitate studies on enzyme activity and protein interactions, making it an important reagent in biochemical and pharmaceutical research.
  21. Amino Acid Derivative

    Z-Gly-Osu is a derivative of glycine and serves as an amino acid reagent. This compound is utilized in peptide synthesis and various biochemical applications, where it acts as a protecting group for amino acids. Its unique structure facilitates the study of protein interactions and enzymatic activities in biochemical research.
  22. Amino Acid Derivative

    Cbz-L-Alloisoleucine is an amino acid derivative and a protected form of alloisoleucine. It serves as a valuable building block in peptide synthesis and enables the study of protein structure and function. This compound is particularly useful in the development of modified peptides and therapeutic protein design.
  23. Anti-Breast Cancer Agent

    AUPF02 is a 5-arylurea uracil derivative that targets breast cancer cells, exhibiting potent anti-cancer activity. It has an IC50 of 23.4 µM in MCF-7 cells, demonstrating its potential as an effective therapeutic agent for breast cancer research. This compound serves as a valuable tool for exploring mechanisms of action and developing novel treatment strategies in the fight against breast cancer.
  24. L-Glutamate Derivative

    MDNI-caged-L-glutamate is a photosensitive derivative of L-glutamate, the predominant excitatory neurotransmitter in the central nervous system. This compound is biologically inert until exposed to light, enabling precise spatial and temporal control of L-glutamate release in experimental settings. It is widely used in neuroscience research to study synaptic transmission and neuronal signaling pathways.
  25. Amino Acid Derivative

    N-((Benzyloxy)carbonyl)-N-methyl-L-isoleucine is an amino acid derivative that serves as a versatile building block in peptide synthesis. Its unique structural modifications enhance molecular stability and bioactivity, making it a valuable reagent in biochemical studies. This compound is frequently utilized in the development of peptide-based therapeutics and as a tool for probing protein function and interactions in various research applications.
  26. Amino Acid Derivative

    2-(2-(2-Amino-4-methylpentanamido)acetamido)acetic acid is an amino acid derivative that functions as a glycine analogue. This compound exhibits potential biological activity in modulating neurotransmission and could be utilized in research applications focused on neurobiology and amino acid metabolism. Its structural similarity to glycine may provide insights into the mechanisms underlying glycine receptor function and related signaling pathways.
  27. Amino Acid Derivative

    Fmoc-D-Phe(2,4-Cl2)-OH is an amino acid derivative that features halogenated phenylalanine. This compound serves as a crucial building block in peptide synthesis and enables the study of peptide structure-activity relationships. Its unique substitution pattern enhances its stability and introduces distinct chemical properties, making it valuable for research in medicinal chemistry and biochemistry applications.
  28. Amino Acid Derivative

    Fmoc-Glu(biotinyl-PEG)-OH is an amino acid derivative targeting glutamic acid. This compound is designed for bioconjugation and facilitates the study of protein interactions and cellular localization through biotinylation. It serves as a valuable tool in the synthesis of peptide-based probes and the development of targeted drug delivery systems in chemical biology research.
  29. Amino Acid Derivative

    H-D-Glu-OtBu hydrochloride is an amino acid derivative of glutamic acid, serving as a valuable building block in peptide synthesis. This compound is employed in research applications focusing on the design and modification of peptides, particularly for studies related to protein engineering and drug development. Its properties enable increased stability and bioactivity in peptide formulations, making it a critical reagent for advancing biochemical research.
  30. Amino Acid Derivative

    Fmoc-L-Dap(Boc,Me)-OH is an amino acid derivative featuring multiple protecting groups. Its structure enables the synthesis of peptides containing diaminopropionic acid. This reagent is essential for researchers engaged in peptide synthesis and functional studies related to peptide behavior and activity.
  31. Serine Peptidase

    Boc-Ala-Ala-pNA is a synthetic substrate for serine peptidases. This compound is utilized in biochemical assays to study enzyme kinetics and substrate specificity. Its use can enhance the understanding of peptidase function and facilitate research in proteolytic enzyme inhibition and related signaling pathways.
  32. Amino Acid Derivative

    L-Histidine β-naphthylamide is a derivative of the amino acid histidine, known for its role as a substrate in enzymatic reactions. This compound can be utilized in studies investigating histidine metabolism and its involvement in protein synthesis. Additionally, it serves as a valuable tool in assessing enzyme activity related to histidine residues, making it relevant for research in biochemistry and molecular biology.
  33. Amino Acid Derivative

    Fmoc-Glu-ODmab is a glutamic acid derivative featuring a 9-fluorenylmethoxycarbonyl (Fmoc) protecting group. This compound is utilized in peptide synthesis and offers enhanced stability during coupling reactions, making it an essential reagent for researchers in the field of chemical and biological sciences. Its application extends to the study of protein interactions and the development of peptide-based therapeutics.
  34. Amino Acid Derivative

    Ala-Ala-Ala is an alanine derivative that serves as a key building block in peptide synthesis. This amino acid derivative is utilized in various biochemical studies and research applications, including enzymatic assays and protein engineering. Its structural properties make it valuable for investigating protein interactions and mechanisms of action in biological systems.
  35. Amino Acid Derivative

    (S)-2-amino-3-guanidinopropanoic acid hydrochloride is an amino acid derivative primarily known for its role as a selective agonist of the NMDA receptor. This compound is significant in neuroscience research for studying neurotransmission and synaptic plasticity. Its unique structure and biological properties make it a valuable reagent for investigations into neuropharmacology and related therapeutic applications.
  36. Amino Acid Derivative

    (S)-1-((S)-2-Amino-4-methylpentanoyl)pyrrolidine-2-carboxylic acid compound with 2,2,2-trifluoroacetic acid (1:1) is a proline derivative known for its unique structural properties. This compound acts as an amino acid derivative, contributing to research on peptide synthesis and protein engineering. Its distinctive characteristics make it valuable for studies involving enzymatic reactions and molecular modeling in various biochemical applications.
  37. Amino Acid Derivative

    2-Amino-3-hydroxy-2-methylpropanoic acid is an amino acid derivative that functions as a potential precursor in various biochemical pathways. It plays a role in protein synthesis and may influence cellular signaling and metabolism. This compound is commonly utilized in research settings to investigate metabolic processes and to study the functions of serine-related pathways in biological systems.
  38. Fluorogenic Substrate

    H-Gly-Gly-Arg-AMC is a fluorogenic substrate designed for the continuous assessment of thrombin generation. This compound features a C-terminal 7-amino-4-methylcoumarin (AMC) moiety, which fluoresces upon cleavage. It is employed in research applications focusing on coagulation pathways and thrombin activity, enabling precise monitoring of thrombin dynamics in biological samples.
  39. Amino Acid

    (S,R)-Lysinoalanine is an unnatural amino acid formed through the thermal treatment of food, particularly under alkaline conditions. This compound is of interest in biochemical research due to its potential implications in food chemistry and toxicology. Its unique structure may provide insights into protein interactions and modifications, contributing to studies on protein engineering and the effects of dietary components on human health.
  40. Amino Acid Derivative

    N-Fmoc-O-ethyl-L-homoserine is an amino acid derivative that serves as a versatile building block in the synthesis of cyclic peptide compounds. Its structure allows for the introduction of O-ethyl groups, enhancing solubility and reactivity. This reagent is valuable in research applications involving peptide chemistry and the development of novel pharmacological agents.
  41. Amino Acid Derivative

    N-(3-Indolylacetyl)-L-isoleucine is an amino acid derivative that exhibits significant biological activity through modulation of signaling pathways. This compound is primarily utilized in research focused on protein interactions and metabolic processes. Its unique structure allows for exploration in studies of cellular function and potential therapeutic applications involving amino acid metabolism.
  42. Amino Acid Derivative

    γ-D-Glutamylaminomethylsulfonic acid is a derivative of glutamic acid that acts as a valuable amino acid compound. This reagent is utilized in various biochemical research applications, including studies on neurotransmission and metabolic pathways. Its unique sulfonic acid structure may enhance solubility and reactivity, making it suitable for investigations into amino acid metabolism and receptor interactions.
  43. Glycine Derivative

    N-(2-Methoxyethyl)-N-methylglycine is a glycine derivative known for its utility in compound synthesis. This reagent serves as an important building block in the development of various pharmaceuticals and biochemical research applications, facilitating studies on neurotransmitter modulation and metabolic pathways. Its unique structure allows for the exploration of novel chemical properties and interactions within biological systems.
  44. Amino Acid Derivative

    2-Amino-3,3,3-trifluoropropanoic acid is an amino acid derivative and a structural analogue of alanine. This compound serves as a useful tool in biochemical research for studying amino acid metabolism and protein interactions. Its unique trifluoromethyl group provides distinct properties for investigating enzyme activity and protein folding processes, making it valuable in various biological assays.
  45. Amino Acid Derivative

    DL-β-Homomethionine is an amino acid derivative that serves as a precursor in the synthesis of various biological compounds. It plays a crucial role in the study of methionine metabolism and can be utilized to explore its implications in cellular processes and signaling pathways. This compound is of interest in research focusing on nutritional biochemistry, metabolic disorders, and the regulation of gene expression.
  46. Amino Acid Derivative

    Methyl acetyl-D-phenylalaninate is an amino acid derivative that serves as a phenylalanine analog. It is utilized in various biochemical research applications, particularly in the study of protein synthesis and modifications involving phenylalanine residues. This compound may also be used in the development of novel therapeutics and in the exploration of metabolic pathways involving amino acid derivatives.
  47. Amino Acid Derivative

    Boc-Asp-NH2 is a protected derivative of aspartic acid that features a tert-butyloxycarbonyl (Boc) group. This compound serves as a valuable building block in peptide synthesis, facilitating the introduction of aspartic acid into various peptide chains. Its application is critical in biochemical research, particularly in studies related to protein engineering and drug development.
  48. Amino Acid Derivative

    Methyl D-cysteinate is an amino acid derivative that serves as a precursor for various biological studies. It is utilized in research applications related to redox biology and protein synthesis, allowing for the analysis of thiol-reactive pathways and the modulation of cellular redox states. This compound plays a critical role in understanding antioxidant mechanisms and cellular stress responses.
  49. Amino Acid Derivative

    Dodecyl glycinate is an amino acid derivative that modulates membrane properties and influences cellular processes. It exhibits surfactant-like activity, which can enhance the solubility of hydrophobic compounds and improve drug delivery systems. This compound is useful in biochemical research involving membrane interactions, drug formulation development, and the study of cellular signaling pathways.
  50. Amino Acid Derivatives

    Boc-Lys(Boc)-Onp (N-Alpha,N-epsilon-di-Boc-L-lysine 4-nitrophenyl ester) is an amino acid derivative featuring two Boc protecting groups on lysine. This compound serves as a substrate in the study of enzymatic hydrolysis reactions, particularly those catalyzed by copper(II) complexes. Researchers utilize Boc-Lys(Boc)-Onp to explore catalytic mechanisms and enzyme-substrate interactions in biochemical applications.

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