Related references
Note: Only part of the references are listed.Understanding Cell Penetration of Cyclic Peptides
Patrick G. Dougherty et al.
CHEMICAL REVIEWS (2019)
Conformational Control of Macrocycles by Remote Structural Modification
Solomon D. Appavoo et al.
CHEMICAL REVIEWS (2019)
Enhancing the Cell Permeability of Stapled Peptides with a Cyclic Cell-Penetrating Peptide
Patrick G. Dougherty et al.
JOURNAL OF MEDICINAL CHEMISTRY (2019)
Cyclic peptide therapeutics: past, present and future
Alessandro Zorzi et al.
CURRENT OPINION IN CHEMICAL BIOLOGY (2017)
Discovery and Mechanism of Highly Efficient Cyclic Cell-Penetrating Peptides
Ziqing Qian et al.
BIOCHEMISTRY (2016)
Inhibition of Ras Signaling by Blocking Ras-Effector Interactions with Cyclic Peptides
Punit Upadhyaya et al.
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2015)
Beyond cyclosporine A: conformation-dependent passive membrane permeabilities of cyclic peptide natural products
Christopher L. Ahlbach et al.
FUTURE MEDICINAL CHEMISTRY (2015)
Macrocyclic Drugs and Clinical Candidates: What Can Medicinal Chemists Learn from Their Properties?
Fabrizio Giordanetto et al.
JOURNAL OF MEDICINAL CHEMISTRY (2014)
DRUG DISCOVERY Tools and rules for macrocycles
Christian Heinis
NATURE CHEMICAL BIOLOGY (2014)
Form and Function in Cyclic Peptide Natural Products: A Pharmacokinetic Perspective
Andrew T. Bockus et al.
CURRENT TOPICS IN MEDICINAL CHEMISTRY (2013)
Technologies for the Synthesis of mRNA-Encoding Libraries and Discovery of Bioactive Natural Product-Inspired Non-Traditional Macrocyclic Peptides
Kenichiro Ito et al.
MOLECULES (2013)
Stapled α-helical peptide drug development: A potent dual inhibitor of MDM2 and MDMX for p53-dependent cancer therapy
Yong S. Chang et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2013)
A cyclic peptide inhibitor of C-terminal binding protein dimerization links metabolism with mitotic fidelity in breast cancer cells
Charles N. Birts et al.
CHEMICAL SCIENCE (2013)
Macrocycles in new drug discovery
Jamie Mallinson et al.
FUTURE MEDICINAL CHEMISTRY (2012)
Transient Focal Membrane Deformation Induced by Arginine-rich Peptides Leads to Their Direct Penetration into Cells
Hisaaki Hirose et al.
MOLECULAR THERAPY (2012)
Choosing membrane mimetics for NMR structural studies of transmembrane proteins
Dror E. Warschawski et al.
BIOCHIMICA ET BIOPHYSICA ACTA-BIOMEMBRANES (2011)
Membrane Permeable Cyclic Peptidyl Inhibitors against Human Peptidylprolyl Isomerase Pin1
Tao Liu et al.
JOURNAL OF MEDICINAL CHEMISTRY (2010)
HIV TAT forms pores in membranes by inducing saddle-splay curvature: Potential role of bidentate hydrogen bonding
Abhijit Mishra et al.
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2008)
Membrane interaction and perturbation mechanisms induced by two cationic cell penetrating peptides with distinct charge distribution
Isabel D. Alves et al.
BIOCHIMICA ET BIOPHYSICA ACTA-GENERAL SUBJECTS (2008)
The hydrophobic insertion mechanism of membrane curvature generation by proteins
Felix Campelo et al.
BIOPHYSICAL JOURNAL (2008)
The exploration of macrocycles for drug discovery - an underexploited structural class
Edward M. Driggers et al.
NATURE REVIEWS DRUG DISCOVERY (2008)
The nisin-lipid II complex reveals a pyrophosphate cage that provides a blueprint for novel antibiotics
STD Hsu et al.
NATURE STRUCTURAL & MOLECULAR BIOLOGY (2004)
Characterization by NMR and molecular modeling of the binding of polyisoprenols and polyisoprenyl recognition sequence peptides: 3D structure of the complexes reveals sites of specific interactions
GP Zhou et al.
GLYCOBIOLOGY (2003)
The Xplor-NIH NMR molecular structure determination package
CD Schwieters et al.
JOURNAL OF MAGNETIC RESONANCE (2003)
Polyarginine enters cells more efficiently than other polycationic homopolymers
DJ Mitchell et al.
JOURNAL OF PEPTIDE RESEARCH (2000)
Share Paper
