University of Freiburg, Institute of Organic Chemistry, Albertstrasse 21, 79104, Freiburg, Germany.
Laboratory of Cell Signaling, CDFD, Hyderabad, India.
Angew Chem Int Ed Engl. 2019 Mar 18;58(12):3928-3933. doi: 10.1002/anie.201814366. Epub 2019 Feb 14.
An iterative polyphosphorylation approach is described, which is based on a phosphoramidite (P-amidite) derived reagent (c-PyPA) obtained from the cyclization of pyrophosphate with a reactive diisopropylaminodichlorophosphine. This type of reagent is unprecedented as it represents a reactive P-amidite without protecting groups. The reagent proved to be stable in solution over several weeks. Its utility is described in the context of iterative monodirectional and bidirectional polyphosphorylations. The ensuing functionalized cyclotriphosphate can be opened with a variety of nucleophiles providing ready access to diverse functionalized polyphosphate chains of defined length with several tags, including both P-N and P-O labels. Their interaction with exo- and endopolyphosphatases is described.
描述了一种迭代多磷酸化方法,该方法基于焦磷酸与反应性二异丙基氨基二氯膦环化得到的磷酰胺(P-酰胺)衍生试剂(c-PyPA)。这种类型的试剂是前所未有的,因为它代表了一种没有保护基团的反应性 P-酰胺。该试剂在溶液中稳定数周。描述了其在迭代单方向和双方向多磷酸化中的应用。由此得到的官能化环三磷酸可以与各种亲核试剂打开,提供了易于获得具有多种标签的不同功能化的多磷酸链的方法,包括 P-N 和 P-O 标记。描述了它们与外切和内切磷酸酶的相互作用。