147762-53-6Relevant articles and documents
An in situ Dynamic Continuum of Supramolecular Phosphoglycopeptides Enables Formation of 3D Cell Spheroids
Wang, Huaimin,Shi, Junfeng,Feng, Zhaoqianqi,Zhou, Rong,Wang, Shiyu,Rodal, Avital A.,Xu, Bing
, p. 16297 - 16301 (2017)
Higher-order assemblies of proteins, with a structural and dynamic continuum, is an important concept in biology, but these insights have yet to be applied in designing biomaterials. Dynamic assemblies of supramolecular phosphoglycopeptides (sPGPs) transf
Enzyme Instructed Self-assembly of Naphthalimide-dipeptide: Spontaneous Transformation from Nanosphere to Nanotubular Structures that Induces Hydrogelation
Chakravarthy, Rajan Deepan,Lin, Hsin-Chieh,Mohammed, Mohiuddin
supporting information, (2020/08/03)
Understanding the structure-morphology relationships of self-assembled nanostructures is crucial for developing materials with the desired chemical and biological functions. Here, phosphate-based naphthalimide (NI) derivatives have been developed for the
A general and convenient synthesis of novel phosphotyrosine mimetics
Szardenings, Anna Katrin,Gordeev, Mikhail F.,Patel, Dinesh V.
, p. 3635 - 3638 (2007/10/03)
A simple and general procedure for preparation of various phosphotyrosine mimetics from the corresponding phenolic precursors is described. In situ silylation of phenol acids followed by treatment with Et3N/CBr4/HP(O)(OEt)2 provides diethyl phosphate intermediates (36-96%), which can be cleanly deprotected in quantitative yields upon treatment with BSTFA/TMSI to afford novel phosphotyrosine mimetics.