Heparin-mimicking polymers: synthesis and biological applications
SJ Paluck, TH Nguyen, HD Maynard - Biomacromolecules, 2016 - ACS Publications
Heparin is a naturally occurring, highly sulfated polysaccharide that plays a critical role in a
range of different biological processes. Therapeutically, it is mostly commonly used as an …
range of different biological processes. Therapeutically, it is mostly commonly used as an …
Polypeptide–polymer bioconjugates
LA Canalle, DWPM Löwik, JCM van Hest - Chemical Society Reviews, 2010 - pubs.rsc.org
Creating bioconjugates by combining polymers with peptides and proteins is an emerging
multidisciplinary field of research that has enjoyed increased attention within the scientific …
multidisciplinary field of research that has enjoyed increased attention within the scientific …
In situ preparation of protein−“smart” polymer conjugates with retention of bioactivity
KL Heredia, D Bontempo, T Ly, JT Byers… - Journal of the …, 2005 - ACS Publications
Protein− polymer conjugates are widely used in biotechnology and medicine, and new
methods to prepare the bioconjugates would be advantageous for these applications. In this …
methods to prepare the bioconjugates would be advantageous for these applications. In this …
Synthesis of protein–polymer conjugates
KL Heredia, HD Maynard - Organic & biomolecular chemistry, 2006 - pubs.rsc.org
Protein–polymer conjugates are widely employed for applications in medicine,
biotechnology and nanotechnology. Covalent attachment of synthetic polymers to proteins …
biotechnology and nanotechnology. Covalent attachment of synthetic polymers to proteins …
Site-directed conjugation of “clicked” glycopolymers to form glycoprotein mimics: binding to mammalian lectin and induction of immunological function
Synthesis of well-defined neoglycopolymer− protein biohybrid materials and a preliminary
study focused on their ability of binding mammalian lectins and inducing immunological …
study focused on their ability of binding mammalian lectins and inducing immunological …
Living radical polymerization as a tool for the synthesis of polymer‐protein/peptide bioconjugates
J Nicolas, G Mantovani… - Macromolecular rapid …, 2007 - Wiley Online Library
Combinations of synthetic and natural macromolecules offer a route to new functional
materials. While biological and polymer chemistry may not be natural bedfellows, many …
materials. While biological and polymer chemistry may not be natural bedfellows, many …
Recent advances in the design of bioconjugates from controlled/living radical polymerization
B Le Droumaguet, J Nicolas - Polymer Chemistry, 2010 - pubs.rsc.org
Since its discovery, controlled/living radical polymerization (CLRP) has proven to be a
mature technology for building tailor-made (block) copolymers, functional polymers and …
mature technology for building tailor-made (block) copolymers, functional polymers and …
Recent advances in the synthesis of well‐defined glycopolymers
Glycopolymers are receiving increasing interest due to their application in areas, such as
glycomics, medicine, biotechnology, sensors, and separation science. Consequently, new …
glycomics, medicine, biotechnology, sensors, and separation science. Consequently, new …
Visualization of β-adrenergic receptor dynamics and differential localization in cardiomyocytes
M Bathe-Peters, P Gmach, HH Boltz… - Proceedings of the …, 2021 - National Acad Sciences
A key question in receptor signaling is how specificity is realized, particularly when different
receptors trigger the same biochemical pathway (s). A notable case is the two β‐adrenergic …
receptors trigger the same biochemical pathway (s). A notable case is the two β‐adrenergic …
Synthesis of various glycopolymer architectures via RAFT polymerization: from block copolymers to stars
Well-defined linear poly (acryloyl glucosamine)(PAGA) exhibiting molar masses ranging
from 3 to 120 K and low polydispersities have been prepared via reversible addition …
from 3 to 120 K and low polydispersities have been prepared via reversible addition …