Erin Delaney scite author profile

Erin Delaney

3Publications

48Citation Statements Received

211Citation Statements Given

How they've been cited

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164

194

Affiliations

University of Pennsylvania, Haverford College

Publications

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Determinants of pore folding in potassium channel biogenesis

Delaney

Khanna

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Many ion channels, both selective and nonselective, have reentrant pore loops that contribute to the architecture of the permeation pathway. It is a fundamental feature of these diverse channels, regardless of whether they are gated by changes of membrane potential or by neurotransmitters, and is critical to function of the channel. Misfolding of the pore loop leads to loss of trafficking and expression of these channels on the cell surface. Mature tetrameric potassium channels contain an α-helix within the pore loop. We systematically mutated the "pore helix" residues of the channel Kv1.3 and assessed the ability of the monomer to fold into a tertiary reentrant loop. Our results show that pore loop residues form a canonical α-helix in the monomer early in biogenesis and that disruption of tertiary folding is caused by hydrophilic substitutions only along one face of this α-helix. These results provide insight into the determinants of the reentrant pore conformation, which is essential for ion channel function.accessibility assay | formation of Kv pore | cysteine scan | glutamate scan

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Calcium-Dependent Interaction of Calmodulin with Human 80S Ribosomes and Polyribosomes

et al. 2012

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Ribosomes are the protein factories of every living cell. The process of protein translation is highly complex and tightly regulated by a large number of diverse RNAs and proteins. Earlier studies indicate that Ca(2+) plays a role in protein translation. Calmodulin (CaM), a ubiquitous Ca(2+)-binding protein, regulates a large number of proteins participating in many signaling pathways. Several 40S and 60S ribosomal proteins have been identified to interact with CaM, and here, we report that CaM binds with high affinity to 80S ribosomes and polyribosomes in a Ca(2+)-dependent manner. No binding is observed in buffer with 6 mM Mg(2+) and 1 mM EGTA that chelates Ca(2+), suggesting high specificity of the CaM-ribosome interaction dependent on the Ca(2+) induced conformational change of CaM. The interactions between CaM and ribosomes are inhibited by synthetic peptides comprising putative CaM-binding sites in ribosomal proteins S2 and L14. Using a cell-free in vitro translation system, we further found that these synthetic peptides are potent inhibitors of protein synthesis. Our results identify an involvement of CaM in the translational activity of ribosomes.

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Effect of Nascent Peptide Steric Bulk on Elongation Kinetics in the Ribosome Exit Tunnel

Delaney

Gamper

et al. 2017

Journal of Molecular Biology

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All proteins are synthesized by the ribosome, a macromolecular complex that accomplishes the life-sustaining tasks of faithfully decoding mRNA and catalyzing peptide bond formation at the peptidyl transferase center (PTC). The ribosome has evolved an exit tunnel to host the elongating new peptide, protect it from proteolytic digestion, and guide its emergence. It is here that the nascent chain begins to fold. This folding process depends on the rate of translation at the PTC. We report here that, besides PTC events, translation kinetics depend on steric constraints on nascent peptide side chains, and that confined movements of cramped side chains within and through the tunnel fine-tune elongation rates.

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Erin Delaney

Determinants of pore folding in potassium channel biogenesis

Calcium-Dependent Interaction of Calmodulin with Human 80S Ribosomes and Polyribosomes

Effect of Nascent Peptide Steric Bulk on Elongation Kinetics in the Ribosome Exit Tunnel

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