93714-01-3Relevant academic research and scientific papers
Regio/site-selective alkylation of substrates containing a: Cis -, 1,2- or 1,3-diol with ferric chloride and dipivaloylmethane as the catalytic system
Lv, Jian,Liu, Yu,Zhu, Jia-Jia,Zou, Dapeng,Dong, Hai
supporting information, p. 1139 - 1144 (2020/03/11)
In this study, we reported the regio/site-selective alkylation of substrates containing a cis-, 1,2- or 1,3-diol with FeCl3 as a key catalyst. A catalytic system consisting of FeCl3 (0.01-0.1 equiv.) and dipivaloylmethane (FeCl3/dipivaloylmethane = 1/2) was used to catalyze the alkylation in the presence of a base. The produced selectivities and isolated yields were similar to those obtained by methods using the same amount of FeL3 (L = acylacetone ligand) as the catalyst in most cases. The previously reported FeL3 catalysts for alkylation are not commercially available and have to be synthesized prior to use. In contrast, FeCl3 and dipivaloylmethane (Hdipm) are very common and inexpensive nontoxic reagents in the lab, thereby making the method much greener and easier to handle. Mechanism studies confirmed for the first time that FeCl3 initially reacts with two equivalents of Hdipm to form [Fe(dipm)3] in the presence of a base in acetonitrile, followed by the formation of a five or six-membered ring intermediate between [Fe(dipm)3] and two hydroxyl groups of the substrate. A subsequent reaction between the cyclic intermediate and the alkylating agent results in selective alkylation of the substrate.
Both d - And l -Glucose Polyphosphates Mimic d - myo-Inositol 1,4,5-Trisphosphate: New Synthetic Agonists and Partial Agonists at the Ins(1,4,5)P3Receptor
Shipton, Megan L.,Riley, Andrew M.,Rossi, Ana M.,Brearley, Charles A.,Taylor, Colin W.,Potter, Barry V. L.
, p. 5442 - 5457 (2020/07/21)
Chiral sugar derivatives are potential cyclitol surrogates of the Ca2+-mobilizing intracellular messenger d-myo-inositol 1,4,5-trisphosphate [Ins(1,4,5)P3]. Six novel polyphosphorylated analogues derived from both d- and l-glucose were synthesized. Binding to Ins(1,4,5)P3 receptors [Ins(1,4,5)P3R] and the ability to release Ca2+ from intracellular stores via type 1 Ins(1,4,5)P3Rs were investigated. β-d-Glucopyranosyl 1,3,4-tris-phosphate, with similar phosphate regiochemistry and stereochemistry to Ins(1,4,5)P3, and α-d-glucopyranosyl 1,3,4-tris-phosphate are full agonists, being equipotent and 23-fold less potent than Ins(1,4,5)P3, respectively, in Ca2+-release assays and similar to Ins(1,4,5)P3 and 15-fold weaker in binding assays. They can be viewed as truncated analogues of adenophostin A and refine understanding of structure-activity relationships for this Ins(1,4,5)P3R agonist. l-Glucose-derived ligands, methyl α-l-glucopyranoside 2,3,6-trisphosphate and methyl α-l-glucopyranoside 2,4,6-trisphosphate, are also active, while their corresponding d-enantiomers, methyl α-d-glucopyranoside 2,3,6-trisphosphate and methyl α-d-glucopyranoside 2,4,6-trisphosphate, are inactive. Interestingly, both l-glucose-derived ligands are partial agonists: they are among the least efficacious agonists of Ins(1,4,5)P3R yet identified, providing new leads for antagonist development.
Multi-gram scale synthesis of a bleomycin (BLM) carbohydrate moiety: exploring the antitumor beneficial effect of BLM disaccharide attached to 10-hydroxycamptothecine (10-HCPT)
Li, MaoLin,Huang, Weiping,Jiang, Zhilin,Shi, Yonghui,Yuan, Sisi,Fu, Kaishuo,Chen, YongJun,Zhou, Li,Zhou, Wen
, p. 6010 - 6020 (2019/04/17)
The “tumor-seeking” role of bleomycin (BLM) disaccharide has been demonstrated to serve as a promising tool for cancer diagnosis and a potential ligand for targeted therapy. However, these practical applications are often hampered by the lack of BLM disaccharide. Herein, an efficient multi-gram synthesis of peracetylated BLM disaccharide 20 is achieved by a TMSOTF-mediated glycosidation coupling manner in 43.6% overall yield in terms of benzyl galactoside. The critical innovation of the synthetic strategy is that inexpensive benzyl galactoside was first adopted to prepare an l-gulose subunit 3 as a glycosyl acceptor, with a much shorter route in 73.0% yield, and a 3-O-carbamoyl-mannose donor 4 was achieved in 47.2% yield by lowering the amount of dibutyltin oxide, and merging aminolysis and selective deacetylation into a one-pot reaction. Next, the incorporation of BLM disaccharide into 10-hydroxycamptothecin (10-HCPT), a non-specific model compound, to form conjugate 1 could significantly improve the antitumor activity and display obvious selectivity toward cancerous and normal cells in comparison with 10-HCPT. Moreover, BLM disaccharide itself was non-cytotoxic, clearly indicating the importance and potential of BLM disaccharide in solving the targeted antitumor therapy of cytotoxic drugs.
Structural properties of D-mannopyranosyl rings containing O-Acetyl side-chains
Turney, Toby,Zhang, Wenhui,Oliver, Allen G.,Serianni, Anthony S.
, p. 1166 - 1174 (2019/08/13)
The crystal structures of 1,2,3,4,6-penta-O-Acetyl--d-mannopyranose, C16H22O11, and 2,3,4,6-Tetra-O-Acetyl--d-mannopyranosyl-(1.2)-3,4,6-Tri-O-Acetyl--d-mannopyranosyl-( 1.3)-1,2,4,6-Tetra-O-Acetyl--d-mannopyranose, C40H54O27, were determined and compared to those of methyl 2,3,4,6-Tetra-O-Acetyl--d-mannopyranoside, methyl -d-mannopyranoside andmethyl -d-mannopyranosyl-(1.2)--d-mannopyranoside to evaluate the effects of O-Acetylation on bond lengths, bond angles and torsion angles. In general, O-Acetylation exerts little effect on the exo-and endocyclic C-C and endocyclic C-O bond lengths, but the exocyclic C-O bonds involved in O-Acetylation are lengthened by -0.02 A ° . The conformation of the O-Acetyl side-chains is highly conserved, with the carbonyl O atom either eclipsing the H atom attached to a 2-Alcoholic C atom or bisecting the H-C-H bond angle of a 1-Alcoholic C atom. Of the two C-O bonds that determine O-Acetyl side-chain conformation, that involving the alcoholic C atom exhibits greater rotational variability than that involving the carbonyl C atom. These findings are in good agreement with recent solution NMR studies of O-Acetyl side-chain conformations in saccharides. Experimental evidence was also obtained to confirm density functional theory (DFT) predictions of C-O and O-H bond-length behavior in a C-O-H fragment involved in hydrogen bonding.
One-pot synthesis of orthogonally protected sugars through sequential base-promoted/acid-catalyzed steps: A solvent-free approach with self-generation of a catalytic species
Traboni, Serena,Bedini, Emiliano,Giordano, Maddalena,Iadonisi, Alfonso
supporting information, p. 1777 - 1780 (2019/06/07)
A varied set of solvent-free, one-pot synthetic sequences were developed to carry out the orthogonal protection of saccharide polyols. These sequences are composed of an initial regioselective benzylation, silylation or iodination (under mildly basic cond
Intercepted dehomologation of aldoses by N-heterocyclic carbene catalysis-a novel transformation in carbohydrate chemistry
Draskovits, Markus,Kalaus, Hubert,Stanetty, Christian,Mihovilovic, Marko D.
, p. 12144 - 12147 (2019/10/21)
The development of an N-heterocyclic carbene (NHC) catalysed intercepted dehomologation of aldoses is reported. The unique selectivity of NHCs for aldehydes is exploited in the complex context of reducing sugars. Examples of strong substrate governance for either intercepted dehomologation or a subsequent redox-lactonisation were identified and mechanistically understood. More importantly, it was shown that catalyst design allowed the tuning of the selectivity of the reaction with structurally unbiased starting materials towards either of the two scenarios.
Preparation methods of 2-hydroxygulose receptor derivative, bleomycin disaccharide and precursor of bleomycin disaccharide
-
Page/Page column 14-15; 19; 21, (2019/01/08)
The invention discloses a preparation method of a 2-hydroxygulose receptor derivative. The method comprises the following steps: carrying out a series of reactions of ylidene protection on benzyl-beta-galactoside, 3-position configuration inversion, deacetylation, and selective acetylation. Meanwhile, the invention also discloses a method for preparing bleomycin disaccharide and a precursor of bleomycin disaccharide by using the 2-hydroxygulose receptor derivative prepared by the method as a receptor. According to the invention, through the adoption of the preparation method of the 2-hydroxygulose receptor derivative, the problems that sources of natural L-gulose are rare, cost is too high, and industrialization is not facilitated and the like are solved; meanwhile, the problems that the bleomycin disaccharide and the precursor of the bleomycin disaccharide are low in yield, reaction operability and repeatability are poor, industrialization is not facilitated and the like are solved. The preparation methods have the advantages that raw materials are cheap and easily available, the yield is high, the operability is high, conditions can be easily controlled, industrial amplificationcan be realized, efficiency is high, cost is low, and the like.
Highly Efficient Selective Benzylation of Carbohydrates Catalyzed by Iron(III) with Silver Oxide and Bromide Anion as Co-catalysts
Ren, Bo,Lv, Jian,Zhang, Yu,Tian, Jun,Dong, Hai
, p. 950 - 953 (2017/03/27)
A highly efficient, green, and regioselective method for the benzylation of diols and polyols was developed. With the use of Ag2O (0.6 equiv.) and tetrabutylammonium bromide (0.1 equiv.) as co-catalysts, the iron(III)-catalyzed benzylation reaction proceeded to completion at 40 °C within 2–3 h and gave the products in high yields with high regioselectivities. A mechanism involving the principle of enhanced basicity of Ag2O by soft anions was proposed.
Regioselective alkylation of carbohydrates and diols: A cheaper iron catalyst, new applications and mechanism
Ren, Bo,Yan, Ningning,Gan, Lu
, p. 46257 - 46262 (2017/10/11)
As an extension of our previous research on the regioselective protection of carbohydrates and diols, we developed an iron catalyst, Fe(dibm)3 (dibm = diisobutyrylmethane), which has an unusually broad catalytic scope in the selective monoalkyl
An Iron(III) Catalyst with Unusually Broad Substrate Scope in Regioselective Alkylation of Diols and Polyols
Ren, Bo,Ramstr?m, Olof,Zhang, Qiang,Ge, Jiantao,Dong, Hai
, p. 2481 - 2486 (2016/02/12)
In this study, [Fe(dibm)3] (dibm=diisobutyrylmethane) is shown to have unusually broad scope as a catalyst for the selective monoalkylation of a diverse set of 1,2- and 1,3-diol-containing structures. The mechanism is proposed to proceed via a cyclic dioxolane-type intermediate, formed between the iron(III) species and two adjacent hydroxyl groups. This approach represents the first transition-metal catalysts that are able to replace stoichiometric amounts of organotin reagents in regioselective alkylation. The reactions generally lead to very high regioselectivities and high yields, on par with, or better than, previous methods used for regioselective alkylation.
