1814 Results for: "peptide synthesis"

Supplier: Chem-Impex International

Fmoc-Gly-Pro-OH is a valuable building block in peptide synthesis, particularly favored for its role in solid-phase peptide synthesis (SPPS). This compound, also known as Fmoc-glycine proline hydroxyl, features a fluorenylmethoxycarbonyl (Fmoc) protecting group that allows for selective deprotection during synthesis, making it an essential tool for researchers and industry professionals in the field of biochemistry and pharmaceuticals. Its unique structure enhances stability and solubility, facilitating the formation of complex peptides and proteins. This compound is particularly useful in the development of therapeutic peptides and proteins, enabling the creation of bioactive molecules with specific functionalities. Researchers have successfully utilized Fmoc-Gly-Pro-OH in the synthesis of peptide-based drugs and in studies related to protein folding and interactions. Its ability to provide a stable backbone while allowing for functional group modifications makes it a preferred choice for those looking to innovate in peptide design and development. With its proven track record in various applications, Fmoc-Gly-Pro-OH stands out as a reliable and efficient reagent for advancing peptide chemistry.

Supplier: Chem-Impex International

Boc-Phe(3,4-dimethoxy)-OH is a key compound in peptide synthesis and pharmaceutical research, known for its stability and efficiency in creating biologically active peptides. Ideal for medicinal chemistry applications, it enhances selectivity and yields in drug development.

Supplier: Chem-Impex International

4-(Fmoc-amino)-1-methylpyrrole-2-carboxylic acid is a key building block in peptide synthesis, offering stability and selective deprotection for efficient drug development. Ideal for researchers in medicinal chemistry, it enhances the creation of diverse peptide sequences and novel pharmaceuticals.

Supplier: Chem-Impex International

Discover the versatile applications of Boc-(R)-g-benzyl-L-proline in organic synthesis and pharmaceutical research. This key reagent enhances stability and solubility, making it ideal for peptide synthesis and drug development. Explore its role in creating bioactive compounds and enantiomerically pure products for therapeutic advancements.

Supplier: Chem-Impex International

Discover the versatile applications of Boc-L-b-leucine in peptide synthesis and pharmaceutical research. This amino acid derivative enhances stability and solubility, making it ideal for therapeutic peptide development and innovative drug delivery systems. Perfect for researchers and industry professionals.

Supplier: Chem-Impex International

Na-Boc-L-histidine methyl ester is a key compound in peptide synthesis and pharmaceutical research, offering stability and reactivity for complex structures. Ideal for medicinal chemistry, it serves as a building block for histidine-containing peptides, enhancing therapeutic potential.

Supplier: Chem-Impex International

Na-Fmoc-Na-methyl-Ne-Boc-L-lysine is a key amino acid derivative used in peptide synthesis, offering stability and selectivity for researchers in drug development. Ideal for complex peptide sequences, it enhances efficiency in pharmaceutical applications.

Supplier: Chem-Impex International

Fmoc-diethylglycine is a key amino acid derivative for peptide synthesis, offering stability and ease of use in drug development. Ideal for researchers in medicinal chemistry, it enhances the production of high-purity peptides and supports diverse applications in synthetic chemistry.

Supplier: Chem-Impex International

Z-L-glutamic acid g-benzyl a-4-nitrophenyl ester is a key intermediate in organic synthesis and pharmaceutical development, ideal for researchers seeking innovative drug design solutions. Its unique structure enhances reactivity, making it suitable for peptide-based drug synthesis and controlled release applications.

Supplier: Chem-Impex International

Fmoc-a-methyl-L-4-Fluorophenylalanine is a key amino acid derivative used in peptide synthesis and drug development. Its unique structure enhances peptide stability and solubility, making it ideal for therapeutic applications and high-throughput screening in medicinal chemistry.

Supplier: Chem-Impex International

Boc-D-aspartic acid b-9-fluorenylmethyl ester is a key compound in peptide synthesis, enhancing stability and reactivity for drug discovery. Ideal for researchers in organic chemistry and pharmaceutical applications.

Supplier: Chem-Impex International

Fmoc-O-benzyl-D-phosphotyrosine is a key reagent in peptide synthesis and protein phosphorylation studies, aiding drug discovery and biosensor development. Ideal for researchers in molecular biology.

Supplier: Chem-Impex International

Fmoc-1,4-diaminobutane hydrochloride is a key compound in peptide synthesis, offering stability and selective deprotection for efficient drug development. Ideal for researchers in pharmaceutical and biomaterial applications.

Supplier: Chem-Impex International

Fmoc-Ala-Ala-OH is a highly regarded compound in the field of peptide synthesis, known for its role as a versatile building block in the development of peptides and proteins. This compound features a fluorenylmethoxycarbonyl (Fmoc) protecting group, which is essential for the selective protection of amino groups during the synthesis process. Its unique structure allows for efficient coupling reactions, making it an ideal choice for researchers and professionals engaged in peptide chemistry. Fmoc-Ala-Ala-OH is particularly useful in the synthesis of dipeptides and can be employed in various applications, including drug development, bioconjugation, and the design of peptide-based therapeutics. Its stability and compatibility with standard coupling reagents enhance its utility in complex peptide assembly, providing a reliable option for achieving high yields in synthetic processes. Moreover, Fmoc-Ala-Ala-OH stands out due to its ease of use and the ability to facilitate the synthesis of peptides with specific sequences, which is crucial for the development of targeted therapies. Researchers appreciate its effectiveness in generating peptides that can be utilized in a range of applications, from basic research to advanced therapeutic solutions. With its proven track record in peptide synthesis, Fmoc-Ala-Ala-OH is an indispensable tool for professionals looking to innovate in the fields of biochemistry and pharmacology.

Supplier: Chem-Impex International

Fmoc-4-(Boc-aminomethyl)-L-phenylalanine is a key amino acid derivative for peptide synthesis, offering stability and high yield. Ideal for drug development and tailored peptide design, it enhances pharmaceutical applications with its unique structure and ease of use.

Supplier: Chem-Impex International

Na-Boc-Ng-trityl-L-asparagine is a key amino acid derivative used in peptide synthesis and drug development. Its protective Boc and trityl groups enhance stability and reactivity, making it ideal for creating bioactive peptides. Explore its applications in pharmaceutical research and peptide library production.

Supplier: Chem-Impex International

Fmoc-(R)-4-amino-6-methyl-heptanoic acid is a key amino acid derivative used in peptide synthesis and drug development. Its protective Fmoc group enhances stability and solubility, making it ideal for creating complex peptides and novel pharmaceuticals.

Supplier: Chem-Impex International

Phthaloyl-L-Leucine is a key compound in peptide synthesis and drug development, enhancing stability and solubility for improved therapeutic formulations. Ideal for researchers seeking innovative solutions in pharmaceuticals.

Supplier: Chem-Impex International

Fmoc-(S)-3-amino-3-(2-naphthyl)propionic acid is a crucial building block for peptide synthesis, enhancing drug development and biomaterials. Explore its applications in medicinal chemistry and research.

Supplier: Chem-Impex International

Fmoc-N-methyl-L-threonine is a key amino acid derivative used in peptide synthesis, enhancing stability and reactivity. Ideal for pharmaceutical applications, it aids in developing therapeutic peptides and novel drug candidates. Explore its benefits in biotechnology and research.

Supplier: Adipogen

Efficient coupling reagent for the synthesis of sterically hindered amides, especially peptides. In terms of reactivity and racemization-suppressing capability, this pyridinium-type reagent, BEP, proved to be more efficient than commonly used uronium- and phosphonium-type reagents, such as HBTU, BOP, and PyBroP, for the synthesis of hindered peptides containing N-methylated or Calpha,Calpha-dialkylated amino acid residues. BEP was also proven to be an efficient reagent for the synthesis of esters, especially active esters and hindered esters, and tert-butyl esters.

Supplier: Chem-Impex International

Na-Fmoc-Ng-4-methyltrityl-L-asparagine is a key amino acid derivative for peptide synthesis, enhancing stability and solubility in drug development. Ideal for researchers and pharmaceutical applications, it streamlines complex peptide formation and offers efficient deprotection methods.

Supplier: Chem-Impex International

Boc-N-methyl-L-threonine is a key amino acid derivative used in peptide synthesis and drug development. Its stability and selective modification capabilities make it ideal for creating novel therapeutics and high-purity peptides, enhancing research and clinical applications.

Supplier: Chem-Impex International

Boc-L-aspartic acid a-tert-butyl ester is a key amino acid derivative used in peptide synthesis and pharmaceutical research. Its stability and solubility make it ideal for developing bioactive compounds, streamlining synthesis processes, and ensuring high-quality results in various applications.

Supplier: Chem-Impex International

Fmoc-3-styryl-L-alanine is a key amino acid derivative used in peptide synthesis and drug development. Its unique properties enhance reactivity and solubility, making it ideal for creating bioactive peptides. Perfect for researchers in pharmaceuticals, especially in oncology and neurology.

Supplier: Honeywell Research Chemicals

BioSyn products are ideal for DNA, RNA and oligonucleotide synthesis. All solvents and regents are filtered (0.2-micron) and tested for oxidation reage.

Supplier: Chem-Impex International

Fmoc-3-(4-thiazolyl)-L-alanine is a key amino acid derivative for peptide synthesis, enhancing stability and activity in drug development. Ideal for researchers seeking innovative therapeutic solutions.

Supplier: Chem-Impex International

Fmoc-(S)-3-amino-3-(1-naphthyl)propionic acid is a key building block in peptide synthesis, offering unique properties for drug development and research. Ideal for creating bioactive peptides, it enhances hydrophobic interactions and stability, making it essential for innovative therapeutic applications.

Supplier: Chem-Impex International

Boc-Gly-Gly-Gly-OH, also known as N-Boc-Glycylglycylglycine, is a versatile peptide derivative that plays a significant role in peptide synthesis and drug development. This compound is particularly valued in the pharmaceutical and biochemistry sectors for its ability to serve as a building block in the synthesis of more complex peptides. Its unique structure, featuring three glycine residues, enhances its solubility and stability, making it an ideal candidate for various applications, including the development of peptide-based therapeutics and research into protein interactions. Researchers utilize Boc-Gly-Gly-Gly-OH in the preparation of peptide libraries, enabling the exploration of new drug candidates and therapeutic agents. Its protective Boc (tert-butyloxycarbonyl) group allows for selective deprotection, facilitating the stepwise assembly of peptides. This compound's compatibility with solid-phase peptide synthesis (SPPS) further underscores its importance in the field, as it streamlines the process of creating complex peptide structures. With its robust applications and ease of use, Boc-Gly-Gly-Gly-OH is an essential tool for professionals engaged in peptide research and development.

Supplier: Chem-Impex International

Discover the potential of Na-Boc-Ne-isopropyl-Ne-Z-L-lysine, a key amino acid derivative for peptide synthesis and drug development. Ideal for researchers in medicinal chemistry, it enhances stability and solubility, facilitating the creation of bioactive peptides for therapeutic applications.