Mostrando 10 resultados de: 10
Filtros aplicados
Publisher
ACS Combinatorial Science(1)
ACS Omega(1)
ACS Sustainable Chemistry and Engineering(1)
Amino Acids(1)
Chemical Communications(1)
Área temáticas
Farmacología y terapéutica(4)
Química física(2)
Bioquímica(1)
Química inorgánica(1)
Tecnología de las bebidas(1)
Origen
scopus(10)
An efficient solid-phase strategy for total synthesis of naturally occurring amphiphilic marine siderophores: Amphibactin-T and moanachelin ala-B
ArticleAbstract: Microorganisms such as bacteria, fungi and some plants secrete an abundance of suites of low moleculPalabras claves:Autores:Alberício F., B. G. De la Torre, Cherkupally P., Govender T., Kruger H.G., Ramesh S.Fuentes:scopus2-Methyltetrahydrofuran and cyclopentyl methyl ether for green solid-phase peptide synthesis
ArticleAbstract: 2-MeTHF and CPME were evaluated as greener alternatives for the most employed solvents in peptide syPalabras claves:2-methyltetrahydrofuran, Cyclopentyl methyl ether, Green solvents, Peptide synthesis, Solid-phase peptide synthesisAutores:Acosta G.A., Alberício F., B. G. De la Torre, El-Faham A., Govender T., Jad Y.E., Khattab S.N., Kruger H.G.Fuentes:scopusA Facile Synthesis of NODASA-Functionalized Peptide
ArticleAbstract: Herein, we report a mild and efficient synthesis of a NODASA-functionalized peptide, which was initiPalabras claves:bifunctional chelators, NODASA, NOTA, peptide, PetAutores:Alberício F., Arvidsson P.I., B. G. De la Torre, Chinthakindi P.K., Dutta J., Govender T., Kruger H.G., Naicker T.Fuentes:scopusGreen Solid-Phase Peptide Synthesis (GSPPS) 3. Green Solvents for Fmoc Removal in Peptide Chemistry
ArticleAbstract: DMF (N,N-dimethylformamide) is the most widely used solvent for Fmoc-SPPS, which is the conventionalPalabras claves:Fmoc, Green solvents, Peptide aggregation, Protecting groups, Solid-phase peptide synthesis, valerolactoneAutores:Alberício F., B. G. De la Torre, El-Faham A., Govender T., Jad Y.E., Kruger H.G.Fuentes:scopusGreen Solid-Phase Peptide Synthesis 2. 2-Methyltetrahydrofuran and Ethyl Acetate for Solid-Phase Peptide Synthesis under Green Conditions
ArticleAbstract: N,N-Dimethylformamide (DMF), N-methyl-2-pyrrolidone, and dichloromethane (DCM) are the most widely uPalabras claves:2-MeTHF, Green Chemistry, Peptide aggregation, Polyethylene glycol resins, Solid-phase peptide synthesis, solid-phase synthesisAutores:Acosta G.A., Alberício F., B. G. De la Torre, El-Faham A., Govender T., Jad Y.E., Kruger H.G.Fuentes:scopusEDC·HCl and Potassium Salts of Oxyma and Oxyma-B as Superior Coupling Cocktails for Peptide Synthesis
ArticleAbstract: Nowadays, DIC is the most widely used carbodiimide for solid-phase peptide synthesis, while EDC·HClPalabras claves:peptide coupling, Peptides, solid-phase synthesis, Steric hindrance, synthetic methodsAutores:Alberício F., B. G. De la Torre, El-Faham A., Govender T., Jad Y.E., Khattab S.N., Kruger H.G.Fuentes:scopusHighly chemoselective ligation of thiol- and amino-peptides on a bromomaleimide core
ArticleAbstract: Application of a bromomaleimide core allows for the incorporation of three different peptides. The kPalabras claves:Autores:Alberício F., B. G. De la Torre, Cherkupally P., Govender T., Kruger H.G., Ramesh S.Fuentes:scopusLysine scanning of Arg<inf>10</inf>−teixobactin: Deciphering the role of hydrophobic and hydrophilic residues
ArticleAbstract: Teixobactin is a recently discovered antimicrobial cyclodepsipeptide with good activity against GramPalabras claves:Autores:Alberício F., B. G. De la Torre, El-Faham A., Govender T., Jad Y.E., Kruger H.G., Monaim S.A.H.A., Ramchuran E.J.Fuentes:scopusImmobilized coupling reagents: Synthesis of amides/peptides
ReviewAbstract: The primary idea of using immobilized reagents in organic synthetic chemistry is to simplify the dowPalabras claves:combinatorial chemistry, coupling additive, high-throughput organic synthesis, solid-phase synthesis, stand-alone coupling reagentAutores:Alberício F., B. G. De la Torre, Cherkupally P., Govender T., Kruger H.G., Ramesh S.Fuentes:scopusTOMBU and COMBU as novel uronium-type peptide coupling reagents derived from oxyma-b
ArticleAbstract: Here we describe two novel uronium salts, TOMBU and COMBU, derived from the recently described OxymaPalabras claves:amino acids, Coupling reagents, Oxyma-B, Peptide synthesis, Solid-phase peptide synthesisAutores:Alberício F., B. G. De la Torre, El-Faham A., Govender T., Jad Y.E., Khattab S.N., Kruger H.G.Fuentes:scopus