30403-51-1Relevant articles and documents
H-Phosphonate Synthesis and Biological Evaluation of an Immunomodulatory Phosphoglycolipid from Thermophilic Bacteria
Gan, Chin Heng,Hua, Kuo-Feng,Lam, Yulin,Li, Lan-Hui,Peng, Yi-Jen,Wei, Chih-Feng,Wijaya, Hadhi,Wu, Shih-Hsiung
, (2020/04/02)
The synthesis of a library of bacterial phosphoglycolipid, PGL-1, is described. Key features of the synthesis include regioselective esterification of the primary alcohol of the diacylglycerol moiety and an H-phosphonate method to install the phosphate in PGL-1 in comparison with earlier reported procedures. A representative set of PGL-1 analogues was prepared and evaluated for their biological activities. Results showed that the immunological activity of PGL-1 is dependent on the chain lengths of the fatty acids.
Total Synthesis of the Lipid-Anchor-Attached Core Trisaccharides of Lipoteichoic Acids of Streptococcus pneumoniae and Streptococcus oralis Uo5
Ghotekar, Balasaheb K.,Kulkarni, Suvarn S.,Podilapu, Ananda Rao
supporting information, (2020/02/04)
Herein we report an efficient total synthesis of lipid-anchor-appended core trisaccharides of lipoteichoic acids of Streptococcus pneumoniae and Streptococcus oralis Uo5. The key features include the expedient synthesis of the rare sugar 2,4,6-trideoxy-2-acetamido-4-amino-d-Galp building block via one-pot sequential SN2 reactions and the α-selective coupling of d-thioglucoside with the diacyl glycerol acceptor to construct a common disaccharide acceptor, which was utilized in the total synthesis of target molecules 1 and 2.
Verification study for an empirical rule in diverse helical conformational behaviors of asymmetric 1,2-diacyl-sn-glycerols in the solution state
Nishida, Yoshihiro,Mengfei, Yuan,Fujisawa, Kaito,Kitagawa, Sakura,Dohi, Hirofumi,Uzawa, Hirotaka
, p. 1435 - 1443 (2017/10/30)
Cell-membrane glycerophospholipids and glycolipids have a common asymmetric skeleton of 1,2-diacyl-sn-glycerols. The 1,2-diacyl moiety in solutions permits a rapid equilibrium among three helical conformers, namely gt(+), gg(?), and tg, to display diverse conformational properties. The conformational property changes variably not only by head groups at the sn-3 position, but also by the solvent conditions applied. Recently, we came across an empirical rule in the conformational diversity in the solution state when we assumed the term of ‘helical disparity’ for the equilibrium between gt(+) and gg(?) conformers with reversed helical signs for each other. The sign and magnitude of the helical disparity (%) governs the (+)- or (?)-chirality around the lipid tail and corresponds to the magnitude of the exciton couplet CD (circular dichroism) bands. The empirical rule expresses that the disparity (%) changes linearly by the function of gt(+) population (%). Herein, the rule was verified by 1H NMR spectroscopy using different types of 1,2-diacyl-sn-glycerols as model compounds. The present paper describes that the rule is formulated with a general equation (Eq-1): ‘helical disparity (%)’ = [gt(+)?gg(?)] (%) = A[gt(+)?B], in which A and B are constants taking values around 1.3 and 38, respectively. This rule is maintained regardless of the 1,2-diacyl and sn-3 substituent groups as far as examined here, while affording several exceptions. With Eq-1 (A = 1.3, B = 38), a conformational diagram can be obtained. This allows us to overview the diverse helical conformational properties of the asymmetric 1,2-diacyl-sn-glycerols in the solutions state.