Defining the secondary structural requirements of a cocaine-binding aptamer by a thermodynamic and mutation studyMiguel A. D. Neves, Philip E. Johnson, Makbul Saad et al.|Biophysical Chemistry|2010Cited by 120
Defining a Stem Length-Dependent Binding Mechanism for the Cocaine-Binding Aptamer. A Combined NMR and Calorimetry StudyMiguel A. D. Neves, Philip E. Johnson, Oren Reinstein|Biochemistry|2010Cited by 110
Optimizing Stem Length To Improve Ligand Selectivity in a Structure-Switching Cocaine-Binding AptamerMiguel A. D. Neves, Philip E. Johnson, Aron A. Shoara et al.|ACS Sensors|2017Cited by 40
Engineering a Structure Switching Mechanism into a Steroid-Binding Aptamer and Hydrodynamic Analysis of the Ligand Binding MechanismOren Reinstein, Philip E. Johnson, Simone A. Beckham et al.|Biochemistry|2011Cited by 27
A proof of concept application of aptachain: ligand-induced self-assembly of a DNA aptamerMiguel A. D. Neves, Philip E. Johnson, Sladjana Slavkovic et al.|RSC Advances|2019Cited by 15