14379-33-0Relevant articles and documents
A systematic understanding of gelation self-assembly: solvophobically assisted supramolecular gelation via conformational reorientation across amide functionality on a hydrophobically modulated dipeptide based ambidextrous gelator, N-n-acyl-(l)Val-X(OBn), (X = 1,ω-amino acid)
Haldar, Saubhik,Karmakar, Koninika
, p. 66339 - 66354 (2015/08/18)
A systematic investigation on gelation self-assembly has been performed on a hydrophobically modulated dipeptide based ambidextrous gelator, N-n-acyl-(l)Val-X(OBn), (X = 1,ω-amino acid). To elucidate the effect of hydrophobic tuning on gelator architecture towards its gelation self-assembly, three sets of gelators with a common formula: CmH2m+1C(=O)NH(l)Val(C=O)NH-(CH2)n-(C=O)OBn, were synthesized, Set-I includes gelators with n = 2, m = 9, 11, 13, 15, 17, for Set-II it is n = 2, 3, 5, m = 13 and Set-III comprises of two isomeric gelators (n = 2, m = 15; n = 10, m = 7). Gelation has been critically analyzed in various apolar (aromatic and aliphatic) and polar (protic and aprotic) solvents using FESEM, CD, IR, WAXRD and rheological studies. Obtained results reveal that π-π type interaction dictates the primary molecular alignment and positioning of amide functionality across the aliphatic chain which influences the peptidic orientation in parallel (when m > n) or antiparallel (when m gel and yield stress of gel systems increases with m, but for a given m, the trend goes apparently inverse with the increasing n. Circular dichroism (CD) studies suggest an intriguing evidence of non-planarity of amide plane during self-assembly, highlighting the involvement of conformational change taking place during molecular organization towards its gelation. Despite complex nature of solvent-gelator interaction, the effect of H-bonding component of solubility parameters was found to have a significant role on self-assembly. Overall, supramolecular forces acting at specific functionalities encrypted in gelator backbone must overcome the solvation energy with synergic assistance of solvophobic effect towards stabilization of gel-network with optimum gelator backbone conformation for achieving required enthalpic contribution for self-assembly.
Synthesis and evaluation of anti-tumor activities of N4 fatty acyl amino acid derivatives of 1-β-arabinofuranosylcytosine
Liu, Boyang,Cui, Chunying,Duan, Wei,Zhao, Ming,Peng, Shiqi,Wang, Lili,Liu, Hu,Cui, Guohui
scheme or table, p. 3596 - 3600 (2009/12/04)
1-β-d-Arabinofuranosylcytosine (Ara-C, Cytarabine) is one of the drugs used for acute nonlymphocytic leukemia (ANLL). However, the bioavailability of Ara-C is relatively low due to its low lipophilicity. In order to improve the lipophilicity and bioavailability of Ara-C, a series of N4 derivatives of Ara-C, i.e., (fatty acid)-(amino acid)-Ara-C analogues, were prepared. The 15 derivatives synthesized were characterized by their melting points, optical rotations and partition coefficients. It was found that the Ara-C derivatives synthesized in this study were more lipophilic than Ara-C as determined by their partition coefficients. Their in vitro cytotoxicity and in vivo anti-tumor activity were determined and compared with that of Ara-C. It was found that the derivatives were more active than Ara-C in Hela cells, but not in HL-60 cells. The in vivo results showed that some of the derivatives were more effective than Ara-C in mice bearing S180 tumor while others showed a decreased activity in comparison with Ara-C.