10098-89-2Relevant articles and documents
A Water-Soluble Cationic Zinc Lysine Precursor for Coating ZnO on Biomaterial Surfaces
Yuan, Shaotang,Nawrocki, Shiri,Stranick, Michael,Yang, Ying,Zheng, Chong,Masters, James G.,Pan, Long
, p. 10094 - 10097 (2016)
A novel water-soluble cationic zinc lysine coordination compound, [Zn[(C6H14N2O2)]2Cl]Cl·2H2O (1), has been designed and synthesized and its crystal structure determined. The aqueous solution of this coordination compound is not only transparent and stable at room temperature but it is also nearly neutral (pH ~ 7). It is worth noting that zinc oxide (ZnO) forms in situ upon dilution of a solution of the compound. The bioactivity of ZnO has been confirmed using an Alarma Blue assay. These unique properties allow the coordination compound to gently grow ZnO coating with excellent antibacterial benefits onto biomaterial surfaces in a facile and safe manner.
Polyunsaturated fatty acid derivatives, pharmaceutical compositions containing the same, method for the preparation thereof, and their use as medicament
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, (2008/06/13)
The compounds of the Formula (I) STR1 wherein R1 is a C18-24 alkenyl containing at least two double bonds, or --(CH2)n --CH(NH2)m --COOH X is 0, NH or C1-4 alkyl-N, Y is CONH2, COOH or COOMe, wherein Me is hydrogen metal, and R2 is a side chain of a any amino acid except L-GLU or L-ASP at α-position or a group of Formula wherein k is zero or an integer of 1, n is zero or an integer of 1 to 3, m is zero or an integer of 1 to 4, A is hydroxyl or one A is hydroxyl and the other A is hydrogen. M is H or R1 --CO and X and R1 are as defined above and their salts having tyrosine kinase inhibitor activity can be used as antitumor agents.
Enantioselective synthesis of isotopically labelled α-amino acids. Preparation of (ε-13C)-L-α-aminoadipic acid and five isotopomers of L-lysine with 13C, 15N and 2H in the δ and ε-positions
Raap, J.,Wielen, C. M. van der,Lugtenburg, J.
, p. 277 - 286 (2007/10/02)
An asymmetric synthesis of the six-carbon α-amino acids (ε-13C)-L-α-aminoadipic acid and various isotopomers of L-lysine is described.The synthesis is based on a general method starting from the bis-lactim ether of cyclo(D-Val-Gly) and simple labelled reagents like K(13)CN, K(13)C15N, (13)CH3CN and LiAl(2)H4.Using this route (ε-13C)-L-α-aminoadipic acid was prepared in 31percent yield based on the labelled potassium cyanide.Five different isotopomers of L-lysine were prepared in high overall yield (45percent based on the labelled starting compound): (ε-13C)-L-lysine,(ε-13C,ε-15N)-L-lysine, (δ-13C)-L-lysine, (ε-2H2)-L-lysine and (ε-13C,ε-2H2)-L-lysine.The isotopomers were characterized using various spectroscopic techniques, e.g., 1H NMR, 2H NMR, 13C NMR, 15N NMR and mass spectrometry.The 31.2-ppm and the 27.6-ppm peak in the 13C NMR spectrum of lysine could be unambiguously assigned to the β- and δ-carbons, respectively.This means that the assignment previously reported is incorrect.