Maia Carnevali scite author profile

We report the design and total chemical synthesis of "synthetic erythropoiesis protein" (SEP), a 51-kilodalton protein-polymer construct consisting of a 166-amino-acid polypeptide chain and two covalently attached, branched, and monodisperse polymer moieties that are negatively charged. The ability to control the chemistry allowed us to synthesize a macromolecule of precisely defined covalent structure. SEP was homogeneous as shown by high-resolution analytical techniques, with a mass of 50,825 +/-10 daltons by electrospray mass spectrometry, and with a pI of 5.0. In cell and animal assays for erythropoiesis, SEP displayed potent biological activity and had significantly prolonged duration of action in vivo. These chemical methods are a powerful tool in the rational design of protein constructs with potential therapeutic applications.

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Gallium-based anti-infectives: targeting microbial iron-uptake mechanisms

Kelson

Carnevali

Truong‐Le

2013

Current Opinion in Pharmacology

149

110

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Hepatitis C Virus Translation Inhibitors Targeting the Internal Ribosomal Entry Site

et al. 2013

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The internal ribosome entry site (IRES) in the 5′ untranslated region (UTR) of the hepatitis C virus (HCV) genome initiates translation of the viral polyprotein precursor. The unique structure and high sequence conservation of the 5′ UTR render the IRES RNA a potential target for the development of selective viral translation inhibitors. Here, we provide an overview of approaches to block HCV IRES function by nucleic acid, peptide and small molecule ligands. Emphasis will be given to the IRES subdomain IIa which currently is the most advanced target for small molecule inhibitors of HCV translation. The subdomain IIa behaves as an RNA conformational switch. Selective ligands act as translation inhibitors by locking the conformation of the RNA switch. We review synthetic procedures for inhibitors as well as structural and functional studies of the subdomain IIa target and its ligand complexes.

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Maia Carnevali

Design and Chemical Synthesis of a Homogeneous Polymer-Modified Erythropoiesis Protein

Gallium-based anti-infectives: targeting microbial iron-uptake mechanisms

Hepatitis C Virus Translation Inhibitors Targeting the Internal Ribosomal Entry Site

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