76101-30-9Relevant academic research and scientific papers
Application of a solid-phase β-triphosphitylating reagent in the synthesis of nucleoside β-triphosphates
Ahmadibeni, Yousef,Parang, Keykavous
, p. 5837 - 5839 (2006)
A β-triphosphitylating reagent was subjected to reaction with aminomethyl polystyrene resin-bound p-acetoxybenzyl alcohol to yield the corresponding polymer-bound β-triphosphitylating reagent. The solid-phase reagent was reacted with unprotected nucleosides (e.g., 3′-azido-3′- deoxythymidine, cytidine, thymidine, uridine, inosine, or adenosine) in the presence of 1H-tetrazole. Polymer-bound nucleosides underwent oxidation with t-butyl hydroperoxide, deprotection of cyanoethoxy groups with DBU, and the acidic cleavage, respectively, to afford only monosubstituted 5′-O-β-triphosphorylated nucleosides.
Synthesis of nucleoside 5′-O-α,β-methylene-β- triphosphates and evaluation of their potency towards inhibition of HIV-1 reverse transcriptase
Ahmadibeni,Dash,Hanley,Le Grice,Agarwal,Parang
, p. 1271 - 1274 (2010)
A polymer-bound α,β-methylene-β-triphosphitylating reagent was synthesized and subjected to reactions with unprotected nucleosides, followed by oxidation, deprotection of cyanoethoxy groups, and acidic cleavage to afford nucleoside 5′-O-α,β-methylene-β-tr
An effective reagent to functionalize alcohols with phosphocholine
Xu, Lianyan L.,Berg, Lawrence J.,Jamin Keith,Townsend, Steven D.
supporting information, p. 767 - 770 (2020/02/11)
Phosphocholine is a small haptenic molecule that is both a precursor and degradation product of choline. Phosphocholine decorates a number of biologics such as lipids and oligosaccharides. In this study, an air and bench stable phosphocholine donor has been developed and evaluated with a number of alcohol acceptors. Using a one-pot, three-step sequence, (phosphitylation, oxidation, and phosphate deprotection) phosphocholine derivatives are synthesized in high yields. Of particular interest is the synthesis of miltefosine, the lone oral drug approved to treat leishmaniasis. Due to its prohibitive expense ($1500 per g), miltefosine is not accesable for the majority of the world's patients. Based on the described reaction sequence, this drug can be produced for $25 per g.
Total Synthesis of the Congested, Bisphosphorylated Morganella morganii Zwitterionic Trisaccharide Repeating Unit
Keith, D. Jamin,Townsend, Steven D.
supporting information, p. 12939 - 12945 (2019/08/22)
Zwitterionic polysaccharides (ZPSs) activate T-cell-dependent immune responses by major histocompatibility complex class II presentation. Herein, we report the first synthesis of a Morganella morganii ZPS repeating unit as an enabling tool in the synthesis of novel ZPS materials. The repeating unit incorporates a 1,2-cis-α-glycosidic bond; the problematic 1,2-trans-galactosidic bond, Gal-β-(1 → 3)-GalNAc; and phosphoglycerol and phosphocholine residues which have not been previously observed together as functional groups on the same oligosaccharide. The successful third-generation approach leverages a first in class glycosylation of a phosphoglycerol-functionalized acceptor. To install the phosphocholine unit, a highly effective phosphocholine donor was synthesized.
Synthesis of cyclic di-nucleotidic acids as potential inhibitors targeting diguanylate cyclase
Ching, Shi Min,Tan, Wan Jun,Chua, Kim Lee,Lam, Yulin
scheme or table, p. 6657 - 6665 (2010/10/21)
Five analogs of cyclic di-nucleotidic acid including c-di-GMP were synthesized and evaluated for their biological activities on Slr1143, a diguanylate cyclase of Synechocystis sp. Slr1143 was overexpressed from the recombinant plasmid which contained the gene of interest and subsequently purified by affinity chromatography. A new HPLC method capable of separating the compound and product peaks with good resolution was optimized and applied to the analysis of the compounds. Results obtained show that cyclic di-inosinylic acid 1b demonstrates a stronger inhibition on Slr1143 than c-di-GMP and is a potential inhibitor for biofilm formation.
Synthesis of nucleoside mono-, di-, and triphosphoramidates from solid-phase cyc/osaligenyl phosphitylating reagents
Ahmadibeni, Yousef,Tiwari, Rakesh K.,Sun, Gongqin,Parang, Keykavous
supporting information; experimental part, p. 2157 - 2160 (2009/09/28)
Chloromethyl polystyrene resin was reacted with 5-hydroxysalicylaldehyde in the presence of potassium carbonate to afford polymer-bound 2-hydroxybenzaldehyde. Subsequent reduction with borane solution produced polymer-bound 2-hydroxybenzyl alcohol. The re
Selective synthesis of chlorophosphoramidites using ionic liquids
Amigues, Eric J.,Hardacre, Christopher,Keane, Gillian,Migaud, Marie E.,Norman, Sarah E.,Pitner, William R.
experimental part, p. 1391 - 1396 (2010/05/18)
A range of chlorophosphoramidites have been prepared in ionic liquids and compared with material synthesised in molecular solvents. Through the use of ionic liquids as reaction media the moisture sensitivity and impurity issues hampering existing traditio
New approach to the synthesis of phosphorodichloridites, phosphorochloridites, and trialkyl phosphites
Majewski, Piotr
experimental part, p. 942 - 955 (2010/01/17)
Different trivalent organophosphorus esters such as phosphorodichloridites, phosphorochloridites, and mixed trialkyl phosphites have been easily synthesized in good yields using a HCl-catalyzed reaction of the corresponding chlorophosphine and alkoxytrimethylsilane by mutual exchange of the alkoxy and chlorine ligand pIIICl/ROSiR′3; exchange reaction). Chemoselectivity of the exchange reaction with primary and secondary alkoxytrimethylsilanes, as well as with alkoxytrimethylsilanes and thioalkoxytrimethylsilanes, respectively, has also been examined. It has been also found that the substitution reaction of chlorophosphines with secondary amine occurs more rapidly than the exchange reaction with ROSiR′ 3.
Solid-phase synthesis of symmetrical 5′,5′-dinucleoside mono-, di-, tri-, and tetraphosphodiesters
Ahmadibeni, Yousef,Parang, Keykavous
, p. 4483 - 4486 (2008/03/12)
(Chemical Equation Presented) Four classes of phosphitylating reagents were subjected to reactions with aminomethyl polystyrene resin-bound p-acetoxybenzyl alcohol to yield the corresponding polymer-bound mono-, di-, tri-, and tetraphosphitylating reagents. The solid-phase reagents were reacted with unprotected nucleosides (e.g., thymidine, adenosine, 3′-azido-3′- deoxythymidine, cytidine, or inosine) in the presence of 5-(ethylthio)-1H- tetrazole. Polymer-bound nucleosides underwent oxidation with fert-butyl hydroperoxide, deprotection of cyanoethoxy groups with DBU, and the acidic cleavage, respectively, to afford 5′,5′-dinucleoside mono-, di-, tri-, and tetraphosphodiesters in 59-78% yield.
Selective diphosphorylation, dithiodiphosphorylation, triphosphorylation, and trithiotriphosphorylation of unprotected carbohydrates and nucleosides
Ahmadibeni, Yousef,Parang, Keykavous
, p. 5589 - 5592 (2007/10/03)
(Chemical Equation Presented) Aminomethyl polystyrene resin-bound linkers of p-acetoxybenzyl alcohol were subjected to reactions with diphosphitylating and triphosphitylating reagents to yield the corresponding polymer-bound diphosphitylating and triphosphitylating reagents, respectively. A number of unprotected carbohydrates and nucleosides were reacted with the polymer-bound reagents. Oxidation with tert-butyl hydroperoxide or sulfurization with Beaucage's reagent, followed by removal of cyanoethoxy group with DBU and the acidic cleavage, respectively, afforded only one type of monosubstituted nucleoside and carbohydrate diphosphates, dithiodiphosphates, triphosphates, and trithiotriphosphates with high regioselectivity.
