María Daniela Pulido Cendales scite author profile

María Daniela Pulido Cendales

4Publications

11Citation Statements Received

84Citation Statements Given

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Affiliations

Center for Integrated Protein Science Munich, Technical University of Munich

Publications

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A single residue switch reveals principles of antibody domain integrity

Weber

Brandl

Cendales

et al. 2018

Journal of Biological Chemistry

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Despite their importance for antibody architecture and design, the principles governing antibody domain stability are still not understood in sufficient detail. Here, to address this question, we chose a domain from the invariant part of IgG, the C2 domain. We found that compared with other Ig domains, the isolated C2 domain is a surprisingly unstable monomer, exhibiting a melting temperature of ∼44 °C. We further show that the presence of an additional C-terminal lysine in a C2 variant substantially increases the melting temperature by ∼14 °C relative to C2 WT. To explore the molecular mechanism of this effect, we employed biophysical approaches to probe structural features of C2. The results revealed that Lys is key for the formation of three secondary structure elements: the very C-terminal β-strand and two adjacent α-helices. We also noted that a dipole interaction between Lys and the nearby α-helix, is important for stabilizing the C2 architecture by protecting the hydrophobic core. Interestingly, this interaction between the α-helix and C-terminal charged residues is highly conserved in antibody domains, suggesting that it represents a general mechanism for maintaining their integrity. We conclude that the observed interactions involving terminal residues have practical applications for defining domain boundaries in the development of antibody therapeutics and diagnostics.

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Backbone 1H, 15N, 13C chemical shift assignments for the MAK33 CH2 antibody domain

Weber¹,

Berner²,

Feind³

et al. 2018

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Backbone 1H, 15N, 13C chemical shift assignments for MAK33 EV-CH2-SK antibody domain extended variant

Weber¹,

Berner²,

Feind³

et al. 2018

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Author response: Fatal amyloid formation in a patient’s antibody light chain is caused by a single point mutation

Kazman

Vielberg

Cendales

et al. 2020

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