Your search keyword '"McCaul, Nicholas"' showing total 22 results

1. A class II MHC-targeted vaccine elicits immunity against SARS-CoV-2 and its variants

Author

Pishesha, Novalia, Harmand, Thibault J., Rothlauf, Paul W., Praest, Patrique, Alexander, Ryan K., van den Doel, Renate, Liebeskind, Mariel J., Vakaki, Maria A., McCaul, Nicholas, Wijne, Charlotte, Verhaar, Elisha, Pinney, William, Heston, Hailey, Bloyet, Louis-Marie, Pontelli, Marjorie Cornejo, Ilagan, Ma. Xenia G., Lebbink, Robert Jan, Buchser, William J., Wiertz, Emmanuel J. H. J., Whelan, Sean P. J., and Ploegh, Hidde L.

Published

2021

2. Hold the fold: how delayed folding aids protein secretion

Author

McCaul, Nicholas and Braakman, Ineke

Published

2022

3. Induction of antigen-specific tolerance by nanobody–antigen adducts that target class-II major histocompatibility complexes

Author

Pishesha, Novalia, Harmand, Thibault, Smeding, Liyan Y., Ma, Weiyi, Ludwig, Leif S., Janssen, Robine, Islam, Ashraful, Xie, Yushu J., Fang, Tao, McCaul, Nicholas, Pinney, III, William, Sugito, Harun R., Rossotti, Martin A., Gonzalez-Sapienza, Gualberto, and Ploegh, Hidde L.

Published

2021

4. Deletion of mFICD AMPylase alters cytokine secretion and affects visual short-term learning in vivo

Author

McCaul, Nicholas, Porter, Corey M., Becker, Anouk, Tang, Chih-Hang Anthony, Wijne, Charlotte, Chatterjee, Bhaskar, Bousbaine, Djenet, Bilate, Angelina, Hu, Chih-Chi Andrew, Ploegh, Hidde, and Truttmann, Matthias C.

Published

2021

5. Intramolecular quality control: HIV-1 envelope gp160 signal-peptide cleavage as a functional folding checkpoint

Author

McCaul, Nicholas, Quandte, Matthias, Bontjer, Ilja, van Zadelhoff, Guus, Land, Aafke, Crooks, Ema T., Binley, James M., Sanders, Rogier W., and Braakman, Ineke

Published

2021

6. A nanobody that recognizes a 14-residue peptide epitope in the E2 ubiquitin-conjugating enzyme UBC6e modulates its activity

Author

Ling, Jingjing, Cheloha, Ross W., McCaul, Nicholas, Sun, Zhen-Yu J., Wagner, Gerhard, and Ploegh, Hidde L.

Published

2019

7. Co- and Post-Translational Protein Folding in the ER

Author

Ellgaard, Lars, McCaul, Nicholas, Chatsisvili, Anna, and Braakman, Ineke

Published

2016

8. Intramolecular quality control: HIV-1 envelope gp160 signal-peptide cleavage as a functional folding checkpoint

Author

Sub Cellular Protein Chemistry, Cellular Protein Chemistry, McCaul, Nicholas, Quandte, Matthias, Bontjer, Ilja, van Zadelhoff, Guus, Land, Aafke, Crooks, Ema T., Binley, James M., Sanders, Rogier W., Braakman, Ineke, Sub Cellular Protein Chemistry, Cellular Protein Chemistry, McCaul, Nicholas, Quandte, Matthias, Bontjer, Ilja, van Zadelhoff, Guus, Land, Aafke, Crooks, Ema T., Binley, James M., Sanders, Rogier W., and Braakman, Ineke

Published

2021

9. A class II MHC-targeted vaccine elicits immunity against SARS-CoV-2 and its variants

Author

MMB Research line 3a, Infection & Immunity, Pishesha, Novalia, Harmand, Thibault J, Rothlauf, Paul W, Praest, Patrique, Alexander, Ryan K, van den Doel, Renate, Liebeskind, Mariel J, Vakaki, Maria A, McCaul, Nicholas, Wijne, Charlotte, Verhaar, Elisha, Pinney, William, Heston, Hailey, Bloyet, Louis-Marie, Pontelli, Marjorie Cornejo, Ilagan, Ma Xenia G, Jan Lebbink, Robert, Buchser, William J, Wiertz, Emmanuel J H J, Whelan, Sean P J, Ploegh, Hidde L, MMB Research line 3a, Infection & Immunity, Pishesha, Novalia, Harmand, Thibault J, Rothlauf, Paul W, Praest, Patrique, Alexander, Ryan K, van den Doel, Renate, Liebeskind, Mariel J, Vakaki, Maria A, McCaul, Nicholas, Wijne, Charlotte, Verhaar, Elisha, Pinney, William, Heston, Hailey, Bloyet, Louis-Marie, Pontelli, Marjorie Cornejo, Ilagan, Ma Xenia G, Jan Lebbink, Robert, Buchser, William J, Wiertz, Emmanuel J H J, Whelan, Sean P J, and Ploegh, Hidde L

Published

2021

10. Deletion of the AMPylase mFICD alters cytokine secretion and affects cognitive plasticity in vivo

Author

McCaul, Nicholas, primary, Porter, Corey M, additional, Becker, Anouk, additional, Antony Tang, Chih-Hang, additional, Wijne, Charlotte, additional, Chatterjee, Bhaskar, additional, Bousbaine, Djenet, additional, Bilate, Angelina M, additional, Hu, Chih-Chi Andrew, additional, Ploegh, Hidde L, additional, and Truttmann, Matthias C, additional

Published

2021

11. Single domain antibody-antigen adducts that target Class II MHC induce antigen-specific tolerance

Author

Pishesha, Novalia, primary, Harmand, Thibault, additional, Smeding, Liyan, additional, Ma, Weiyi, additional, Ludwig, Leif, additional, Janssen, Robine, additional, Islam, Ashraful, additional, Xie, Yushu, additional, Fang, Tao, additional, McCaul, Nicholas, additional, Pinney, William, additional, Sugito, Harun, additional, and Ploegh, Hidde, additional

Published

2021

12. Intramolecular quality control: HIV-1 Envelope gp160 signal-peptide cleavage as a functional folding checkpoint

Author

McCaul, Nicholas, primary, Quandte, Matthias, additional, Bontjer, Ilja, additional, van Zadelhoff, Guus, additional, Land, Aafke, additional, Sanders, Rogier W., additional, and Braakman, Ineke, additional

Published

2020

13. A nanobody that recognizes a 14-residue peptide epitope in the E2 ubiquitin-conjugating enzyme UBC6e modulates its activity

Author

Ling, Jingjing, primary, Cheloha, Ross W., additional, McCaul, Nicholas, additional, Sun, Zhen-Yu J., additional, Wagner, Gerhard, additional, and Ploegh, Hidde L., additional

Published

2019

14. Analysis of Protein Folding, Transport, and Degradation in Living Cells by Radioactive Pulse Chase

Author

McCaul, Nicholas, primary, Yeoh, Hui Ying, primary, van Zadelhoff, Guus, primary, Lodder, Naomi, primary, Kleizen, Bertrand, primary, and Braakman, Ineke, primary

Published

2019

15. Structure and topology around the cleavage site regulate post-translational cleavage of the HIV-1 gp160 signal peptide

Author

Snapp, Erik Lee, primary, McCaul, Nicholas, additional, Quandte, Matthias, additional, Cabartova, Zuzana, additional, Bontjer, Ilja, additional, Källgren, Carolina, additional, Nilsson, IngMarie, additional, Land, Aafke, additional, von Heijne, Gunnar, additional, Sanders, Rogier W, additional, and Braakman, Ineke, additional

Published

2017

16. Author response: Structure and topology around the cleavage site regulate post-translational cleavage of the HIV-1 gp160 signal peptide

Author

Snapp, Erik Lee, primary, McCaul, Nicholas, additional, Quandte, Matthias, additional, Cabartova, Zuzana, additional, Bontjer, Ilja, additional, Källgren, Carolina, additional, Nilsson, IngMarie, additional, Land, Aafke, additional, von Heijne, Gunnar, additional, Sanders, Rogier W, additional, and Braakman, Ineke, additional

Published

2017

17. Photoinduced Synthesis of α,ω-Telechelic Sequence-Controlled Multiblock Copolymers

Author

Anastasaki, Athina, Nikolaou, Vasiliki, McCaul, Nicholas W., Simula, Alexandre, Godfrey, Jamie, Waldron, Christopher, Wilson, Paul, Kempe, Kristian, and Haddleton, David M.

Abstract

Photoinduced living radical polymerization has been employed to synthesize α,ω-telechelic multiblock copolymers of a range of acrylic monomers including methyl acrylate (MA), ethyl acrylate (EA), ethylene glycol methyl ether acrylate (EGA), and solketal acrylate (SA). Under carefully optimized conditions, a well-defined tricosablock (23 blocks) copolymer was obtained (Đ = 1.18) with high conversion (>98%) achieved throughout all the iterative monomer additions. Crucially, a reduced temperature (15 °C) was found to result in an observed decrease in the dispersities (1.14 vs 1.45) as opposed to when higher temperatures (50 °C) were employed. A number of bifunctional initiators were employed, including ethylene bis(2-bromoisobutyrate) (EbBiB), a PEG initiator (average Mw = 1000 g mol–1), and bis[2-(2′-bromoisobutyryloxy)ethyl] disulfide ((BiBOE)2S2), resulting in narrow dispersed multiblock copolymers in various molecular weights (DPn ∼ 2/13/50/100 per block). Impressively, a high molecular weight undecablock (11 blocks) copolymer of Mn = 150 000 g mol–1 and Đ = 1.22 was also synthesized. In order to demonstrate the symmetry of the resulting telechelic materials, a well-defined tridecablock (13 blocks, Đ = 1.18, Mn = 25 000 g mol–1) was synthesized utilizing a bifunctional disulfide initiator which was cleaved postpolymerization, yielding a narrow disperse polymer at half the molecular weight of the parent polymer (Đ = 1.10, Mn = 12 400 g mol–1)., Macromolecules, 48 (5), ISSN:1520-5835, ISSN:0024-9297

Published

2015

18. Structure and topology around the cleavage site regulate post-translational cleavage of the HIV-1 gp160 signal peptide

Author

Snapp, Erik Lee, McCaul, Nicholas, Quandte, Matthias, Cabartova, Zuzana, Bontjer, Ilja, Källgren, Carolina, Nilsson, Ingmarie, Land, Aafke, Von Heijne, Gunnar, Sanders, Rogier W, Braakman, Ineke, Snapp, Erik Lee, McCaul, Nicholas, Quandte, Matthias, Cabartova, Zuzana, Bontjer, Ilja, Källgren, Carolina, Nilsson, Ingmarie, Land, Aafke, Von Heijne, Gunnar, Sanders, Rogier W, and Braakman, Ineke

Abstract

Like all other secretory proteins, the HIV-1 envelope glycoprotein gp160, is targeted to the endoplasmic reticulum (ER) by its signal peptide during synthesis. Proper gp160 folding in the ER requires core glycosylation, disulfide-bond formation and proline isomerization. Signal-peptide cleavage occurs only late after gp160 chain termination and is dependent on folding of the soluble subunit gp120 to a near-native conformation. We here detail the mechanism by which co-translational signal-peptide cleavage is prevented. Conserved residues from the signal peptide and residues downstream of the canonical cleavage site form an extended alpha-helix in the ER membrane that covers the cleavage site, thus preventing cleavage. A point mutation in the signal peptide breaks the alpha helix allowing co-translational cleavage. We demonstrate that postponed cleavage of gp160 enhances functional folding of the molecule. The change to early cleavage results in decreased viral fitness compared to wild-type HIV.

Published

2017

19. Structure and topology around the cleavage site regulate post-translational cleavage of the HIV-1 gp160 signal peptide

Author

Sub Cellular Protein Chemistry, Cellular Protein Chemistry, Snapp, Erik Lee, McCaul, Nicholas, Quandte, Matthias, Cabartova, Zuzana, Bontjer, Ilja, Källgren, Carolina, Nilsson, Ingmarie, Land, Aafke, Von Heijne, Gunnar, Sanders, Rogier W, Braakman, Ineke, Sub Cellular Protein Chemistry, Cellular Protein Chemistry, Snapp, Erik Lee, McCaul, Nicholas, Quandte, Matthias, Cabartova, Zuzana, Bontjer, Ilja, Källgren, Carolina, Nilsson, Ingmarie, Land, Aafke, Von Heijne, Gunnar, Sanders, Rogier W, and Braakman, Ineke

Published

2017

20. Co- and Post-Translational Protein Folding in the ER

Author

Sub Cellular Protein Chemistry, Cellular Protein Chemistry, Ellgaard, Lars, McCaul, Nicholas, Chatsisvili, Anna, Braakman, Ineke, Sub Cellular Protein Chemistry, Cellular Protein Chemistry, Ellgaard, Lars, McCaul, Nicholas, Chatsisvili, Anna, and Braakman, Ineke

Published

2016

21. Bypass of Quality Control in Protein Folding Pathways Induces Specific Misfolding of HIV Envelope V2 Loop: Implications for Iminosugars as Antivirals

Author

Spiro, Simon, primary, McCaul, Nicholas, additional, Derking, Ronald, additional, Alonzi, Dominic, additional, Dwek, Raymond, additional, Sanders, Rogier, additional, Braakman, Ineke, additional, and Zitzmann, Nicole, additional

Published

2014

22. Bypass of Quality Control in Protein Folding Pathways Induces Specific Misfolding of HIV Envelope V2 Loop: Implications for Iminosugars as Antivirals.

Author

McCaul, Nicholas, Derking, Ronald, Alonzi, Dominic, Dwek, Raymond, Sanders, Rogier, Braakman, Ineke, and Zitzmann, Nicole

Abstract

An abstract of the article "Bypass of Quality Control in Protein Folding Pathways Induces Specific Misfolding of HIV Envelope V2 Loop: Implications for Iminosugars as Antivirals" by Simon Spiro, Nicholas McCaul, Ronald Derking, and colleagues is presented.

Published

2014