4064-06-6Relevant articles and documents
Reductive Cleavage of Sulfonates. Deprotection of Carbohydrate Tosylates by Photoinduced Electron Transfer
Masnovi, John,Koholic, Dolores J.,Berki, Robert J.,Binkley, Roger W.
, p. 2851 - 2853 (1987)
-
Rapid synthesis of 1-deoxygalactonojirimycin using a carbamate annulation
Timmer, Mattie S.M.,Dangerfield, Emma M.,Cheng, Janice M.H.,Gulab, Shivali A.,Stocker, Bridget L.
, p. 4803 - 4805 (2011)
A remarkably efficient synthesis of the biologically important iminosugar 1-deoxygalactonojirimycin (DGJ) is presented. Key to this strategy is the development of a novel carbamate annulation reaction that favours formation of a six-membered carbamate-containing piperidine skeleton over its five-membered counterpart.
Ready preparation of sugar acetals under ultrasonic irradiation
Einhorn, Cathy,Luche, Jean-Louis
, p. 258 - 261 (1986)
-
Thermoresponsive copolymers with pendant d-galactosyl 1,2,3-triazole groups: Synthesis, characterization and thermal behavior
Dhumure, Archana B.,Patil, Ajay B.,Kulkarni, Anuja S.,Voevodina, Irina,Scandola, Mariastella,Shinde, Vaishali S.
, p. 8179 - 8187 (2015)
A galactose containing glycomonomer has been synthesized by copper catalyzed azide-alkyne cyclo-addition reaction (CuAAC) of 6-azido-6-deoxy-1,2:3,4-di-O-isopropylidene-α-d-galactopyranose with propargyl acrylate. This monomer was subjected to homopolymerization and copolymerization with N-isopropylacrylamide (NIPAm) at different compositions by free radical polymerization using 2,2′-azobis-isobutyronitrile (AIBN) as an initiator. The composition of the copolymer was determined by 1H-NMR spectroscopy. Upon acid hydrolysis of acetonide protected polymers, water-soluble deprotected polymers were obtained. The polymers were characterized and confirmed by NMR, IR, GPC and thermal analytical techniques. The protected and deprotected copolymers showed a sharp cloud-point temperature and a linear correlation was obtained between the lower critical solution temperatures (LCST) and the concentration of glycomonomer in the copolymers. This allows tuning the thermal response by simply altering the copolymer composition. Water contact angle experiments showed the changes in the hydrophilicity of copolymers with compositions that supported the LCST results. The glass transition temperature of protected copolymers followed a regular monotonic decreasing trend with increasing glycomonomer content, whereas Tg of deprotected copolymers increased due to H-bond interaction. The attempts to develop thermoresponsive polymers having LCSTs at physiological temperature were successful.
-
Horton et al.
, p. 56,62 (1968)
-
Synthesis, spectroscopic studies, and x-ray crystallographic analysis of the organotin carbohydrate: 1,2:3,4-di-O-isopropylidene-6-O-triphenylstannylmethyl-α-D-galactopyranose
Cox, Philip J.,Melvin, Olga A.,Garden, Simon J.,Wardell, James L.
, p. 469 - 476 (1995)
The title organotin carbohydrate, C31H36O6Sn, has been synthesized and its molecular structure has been determined in solution and in the solid state.NMR, infrared, mass and X-ray crystallographic techniques were used.The chiral molecules crystallize in the monoclinic space group P21 with Z=2.The triphenyltin and carbohydrate moieties are linked by a trans methylene-oxygen-methylene arrangement.The pyranosyl ring adopts a twist-boat conformation and the isopropylidene rings adopt different (half-chair and envelope) forms.Solution and solid-state conformations are similar as only three Δ 13C shift values are greater than 2ppm; the Δ 119Sn value is 12 ppm.KEY WORDS: X-ray crystallographic analysis; organotin; carbohydrate.
-
Dmitriev et al.
, p. 25,26-34 (1976)
-
Me3SI-promoted chemoselective deacetylation: a general and mild protocol
Gurawa, Aakanksha,Kashyap, Sudhir,Kumar, Manoj
, p. 19310 - 19315 (2021/06/03)
A Me3SI-mediated simple and efficient protocol for the chemoselective deprotection of acetyl groups has been developedviaemploying KMnO4as an additive. This chemoselective deacetylation is amenable to a wide range of substrates, tolerating diverse and sensitive functional groups in carbohydrates, amino acids, natural products, heterocycles, and general scaffolds. The protocol is attractive because it uses an environmentally benign reagent system to perform quantitative and clean transformations under ambient conditions.
KMnO4-catalyzed chemoselective deprotection of acetate and controllable deacetylation-oxidation in one pot
Gurawa, Aakanksha,Kumar, Manoj,Rao, Dodla S.,Kashyap, Sudhir
supporting information, p. 16702 - 16707 (2020/10/27)
A novel and efficient protocol for chemoselective deacetylation under ambient conditions was developed using catalytic KMnO4. The stoichiometric use of KMnO4 highlighted the dual role of a heterogeneous oxidant enabling direct access to aromatic aldehydes in one-pot sequential deacetylation-oxidation. The reaction employed an alternative solvent system and allowed the clean transformation of benzyl acetate to sensitive aldehyde in a single step while preventing over-oxidation to acids. Use of inexpensive and readily accessible KMnO4 as an environmentally benign reagent and the ease of the reaction operation were particularly attractive, and enabled the controlled oxidation and facile cleavage of acetate in a preceding step. This journal is
General Strategy for Integrated Bioorthogonal Prodrugs: Pt(II)-Triggered Depropargylation Enables Controllable Drug Activation in Vivo
Sun, Tao,Lv, Tian,Wu, Jianbing,Zhu, Mingchao,Fei, Yue,Zhu, Jie,Zhang, Yihua,Huang, Zhangjian
, p. 13899 - 13912 (2020/12/02)
Bioorthogonal decaging reactions for controllable drug activation within complex biological systems are highly desirable yet extremely challenging. Herein, we find a new class of Pt(II)-triggered bioorthogonal cleavage reactions in which Pt(II) but not Pt(IV) complexes effectively trigger the cleavage of O/N-propargyl in a variety of ranges of caged molecules under biocompatible conditions. Based on these findings, we propose a general strategy for integrated bioorthogonal prodrugs and accordingly design a prodrug 16, in which a Pt(IV) moiety is covalently connected with an O2-propargyl diazeniumdiolate moiety. It is found that 16 can be specifically reduced by cytoplasmic reductants in human ovarian cancer cells to liberate cisplatin, which subsequently stimulates the cleavage of O2-propargyl to release large amounts of NO in situ, thus generating synergistic and potent tumor suppression activity in vivo. Therefore, Pt(II)-triggered depropargylation and the integration concept might provide a general strategy for broad applicability of bioorthogonal cleavage chemistry in vivo.