82909-47-5Relevant articles and documents
INSULIN CONJUGATES
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, (2020/07/05)
The present invention relates to a conjugate comprising a sulfonamide of formula (I) and an active pharmaceutical ingredient such as an insulin analog comprising at least one mutation relative to the parent insulin, wherein the insulin analog comprises a mutation at position B16 which is substituted with a hydrophobic amino acid and/or a mutation at position B25 which is substituted with a hydrophobic amino acid. The present invention further relates to a sulfonamide of formula (A). Moreover, the present invention relates to an insulin analog comprising at least one mutation relative to the parent insulin.
Robust fluorescent detection of protein fatty-acylation with chemical reporters
Charron, Guillaume,Zhang, Mingzi M.,Yount, Jacob S.,Wilson, John,Raghavan, Anuradha S.,et al.
supporting information; scheme or table, p. 4967 - 4975 (2009/09/29)
Fatty-acylation of proteins in eukaryotes is associated with many fundamental cellular processes but has been challenging to study due to limited tools for rapid and robust detection of protein fatty-acylation in cells. The development of azido-fatty acid
Synthesis of carboxyl-tethered symmetric conjugated polyenes as fluorescent transmembrane probes of lipid bilayers
Quesada, Ernesto,Acuna, A. Ulises,Amat-Guerri, Francisco
, p. 1308 - 1318 (2007/10/03)
The synthesis of a new series of fluorescent transmembrane probes in which two hydrophilic methyl ester or carboxyl groups are connected by a polymethylene chain, with four, five or six conjugated double bonds in a central position, is reported. The length of the linear structures was designed to match the width of typical lipid bilayers. These bolaamphiphilic compounds result, with overall yields higher than 80%, from an easy PdII-catalyzed double cross-coupling between terminal acetylene esters and conjugated 1,ω-dihalopolyenes, followed by selective triple bond partial reduction with activated zinc, and iodine isomerization to the all-(E) isomer. An alternative approach, based on a Stille double cross-coupling between the appropriate all-(E)-ω-halopolyenes and (E)-bis(tributylstannyl)ethene, yielded mixtures that could not be resolved by standard chromatographic methods due to the presence of other simultaneous coupling reactions, which are also discussed in detail. Nevertheless, the Stille method can be of utility for the obtention of carbonyl-polyene conjugated analogs. Wiley-VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2003.