Your search keyword '"Juliana Yeung"' showing total 4 results

1. Mapping immunogenic epitopes of an adhesin-like protein from Methanobrevibacter ruminantium M1 and comparison of empirical data with in silico prediction methods

Author

Sofia Khanum, Vincenzo Carbone, Sandeep K. Gupta, Juliana Yeung, Dairu Shu, Tania Wilson, Natalie A. Parlane, Eric Altermann, Silvia M. Estein, Peter H. Janssen, D. Neil Wedlock, and Axel Heiser

Subjects

Medicine, Science

Abstract

Abstract In silico prediction of epitopes is a potentially time-saving alternative to experimental epitope identification but is often subject to misidentification of epitopes and may not be useful for proteins from archaeal microorganisms. In this study, we mapped B- and T-cell epitopes of a model antigen from the methanogen Methanobrevibacter ruminantium M1, the Big_1 domain (AdLP-D1, amino acids 19–198) of an adhesin-like protein. A series of 17 overlapping 20-mer peptides was selected to cover the Big_1 domain. Peptide-specific antibodies were produced in mice and measured by ELISA, while an in vitro splenocyte re-stimulation assay determined specific T-cell responses. Overall, five peptides of the 17 peptides were shown to be major immunogenic epitopes of AdLP-D1. These immunogenic regions were examined for their localization in a homology-based model of AdLP-D1. Validated epitopes were found in the outside region of the protein, with loop like secondary structures reflecting their flexibility. The empirical data were compared with epitope predictions made by programmes based on a range of algorithms. In general, the epitopes identified by in silico predictions were not comparable to those determined empirically.

Published

2022

2. Lipid/Polymer Nanoparticles as Tools to Improve the Therapeutic Activity of Existing and Emerging Anticancer Drug Combinations.

Author

Euan Ramsay, Dawn Waterhouse, Karen Gelmon, Nancy Dos Santos, Ellen Wasan, Jehan Alnajim, Malathi Anantha, Catherine Tucker, Richard Klasa, Gwyn Bebb, Juliana Yeung, Karen Fang, Lincoln Edwards, Yanping Hu, Corrina Warburton, Visia Dragowska, Sheela Abraham, Gigi Chui, and Marcel Bally

Published

2004

3. Lipid/polymer nanoparticles as tools to improve the therapeutic activity of existing and emerging anticancer drug combinations

Author

Ellen K. Wasan, Marcel B. Bally, V. Dragowska, Karen A. Gelmon, N.D. Santos, C. Warburton, Karen Fang, Juliana Yeung, Yanping Hu, Lincoln A. Edwards, Gwyn Bebb, Gigi Chui, D. Waterhouse, Catherine Tucker, M. Anantha, Richard Klasa, Euan Ramsay, J. Alnajim, and S. Abraham

Subjects

Drug, Chemotherapy, business.industry, medicine.medical_treatment, media_common.quotation_subject, Cancer, Pharmacology, medicine.disease, Bioinformatics, Anticancer drug, Clinical trial, Drug delivery, Cancer cell, medicine, Drug carrier, business, media_common

Abstract

Cancer is a complex disease and virtually all chemotherapy regimens for treating cancer utilize drug combinations selected to affect several targets that contribute to cancer cell survival and disease progression. Although drug combinations are the standard of care for patients with advanced cancer, new anticancer drugs are typically first introduced in patients as single agents and only after many years of clinical trials are these single agents combined with other drugs to determine their optimal role in cancer treatment. This process needs to change if patients are going to receive the full benefit of the arsenal of approved cytotoxic/cytostatic agents and emerging molecularly targeted therapeutics. It is clear that drug delivery systems will play an important role in the development and use of drug combinations for the treatment of cancer and the objective of this discussion is to highlight how existing and emerging drug carriers can be used as an enabling technology to create fixed ratio anticancer drug combination products for the treatment of systemic disease.

Published

2004

4. Lipid/Polymer Nanoparticles as Tools to Improve the Therapeutic Activity of Existing and Emerging Anticancer Drug Combinations.

Author

Ramsay, E., Waterhouse, D., Gelmon, K., Santos, N.D., Wasan, E., Alnajim, J., Anantha, M., Tucker, C., Klasa, R., Bebb, G., Juliana Yeung, Karen Fang, Edwards, L., Yanping Hu, Warburton, C., Dragowska, V., Abraham, S., Gigi Chui, and Bally, M.

Published

2004