15297-43-5Relevant articles and documents
Sequence-defined vinyl sulfonamide click nucleic acids (VS-CNAs) and their assembly into dynamically responsive materials
Bischoff, Derek J.,Kloxin, April M.,Kloxin, Christopher J.,LeValley, Paige J.,Sutherland, Bryan P.
supporting information, p. 11263 - 11266 (2020/10/06)
Synthetic DNA analogues are of great interest for their application in information storage, therapeutics, and nanostructured materials, yet are often limited in scalability. Vinyl sulfonamide click nucleic acids (VS-CNAs) have been developed to overcome t
COMPOUND HAVING RADIOACTIVE TECHNETIUM BINDING SITE, AND RADIOACTIVE TECHNETIUM COMPLEX THEREOF
-
Paragraph 0077; 0081, (2016/10/10)
PROBLEM TO BE SOLVED: To provide a radioactive technetium complex which enables a hypoxia area in a living body to be visualized. SOLUTION: The present invention provides a compound represented by a predetermined structural formula and having a radioactive technetium binding site, or salt thereof, a radioactive technetium complex thereof, a radioactive pharmaceutical composition comprising the same, and a kit used for the preparation of the same. COPYRIGHT: (C)2015,JPO&INPIT
Reversible α-helix formation controlled by a hydrogen bond surrogate
Miller, Stephen E.,Kallenbach, Neville R.,Arora, Paramjit S.
experimental part, p. 4434 - 4437 (2012/08/08)
Strategically placed covalent linkages have been shown to stabilize helical conformations in short peptide sequences. Here we report the synthesis of a stabilized α-helix that utilizes an internal disulfide linkage. Structural analysis indicates that the