MediaWiki API result
This is the HTML representation of the JSON format. HTML is good for debugging, but is unsuitable for application use.
Specify the format parameter to change the output format. To see the non-HTML representation of the JSON format, set format=json.
See the complete documentation, or the API help for more information.
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{
"logid": 29,
"ns": 0,
"title": "Bcell Epitope prediction answers",
"pageid": 26,
"logpage": 26,
"revid": 87,
"params": {},
"type": "create",
"action": "create",
"user": "Carol",
"timestamp": "2025-11-04T17:30:24Z",
"comment": "Created page with \"'''B-cell epitope prediction \u2014 Why do some flu vaccines miss? Influenza A hemagglutinin (HA) has two very different antibody targets: the variable head and the conserved stem. Head-binding antibodies often lose potency as the virus drifts; stem-binding broadly neutralizing antibodies (bnAbs) can resist drift. Can standard sequence-based and structure-based B-cell epitope predictors tell these stories apart? '''Part A, Get your bearings in PyMOL (find the ground truth...\""
},
{
"logid": 28,
"ns": 0,
"title": "Bcell Epitope prediction",
"pageid": 25,
"logpage": 25,
"revid": 75,
"params": {},
"type": "create",
"action": "create",
"user": "Carol",
"timestamp": "2025-10-24T11:25:13Z",
"comment": "Created page with \"We want to look for epitopes on the HIV GP120 protein. We will use both sequence-based and structure-based methods. Input data. Go to the pdb homepage and look for the pdb entry 4LSP. It is GP120 complexed with a broadly neutralizing antibody. These antibodies are extremely powerful, since they are effective against many different strains. Q1: Download both the structure (pdb) and the sequence (fasta) of the proteins in this entry. Which proteins are in chain G, L and...\""
},
{
"logid": 27,
"ns": 0,
"title": "Epitope prediction",
"pageid": 24,
"logpage": 24,
"revid": 74,
"params": {},
"type": "create",
"action": "create",
"user": "Carol",
"timestamp": "2025-10-24T11:12:25Z",
"comment": "Created page with \"'''B-cell epitope prediction exercise''' VEGF (vascular endothelial growth factor) is a target in cancer therapies, being the protein responsible for vascularization of tumoral tissue. The murine anti-VEGF antibody has been proved to be effective in blocking VEGF, but it is immunogenic. The Bevacizumab is the commercial, humanized version of the antibody. Let\u2019s reproduce its humanization. Anti-VEGF Humanization The sequence of the murine antibody is: >Light chai...\""
},
{
"logid": 26,
"ns": 0,
"title": "Antibody Modelling",
"pageid": 23,
"logpage": 23,
"revid": 73,
"params": {},
"type": "create",
"action": "create",
"user": "Carol",
"timestamp": "2025-10-20T15:12:15Z",
"comment": "Created page with \"'''Humanization of the anti-VEGF antibody''' VEGF (vascular endothelial growth factor) is a target in cancer therapies, being the protein responsible for vascularization of tumoral tissue. The murine anti-VEGF antibody has been proved to be effective in blocking VEGF, but it is immunogenic. The Bevacizumab is the commercial, humanized version of the antibody. Let\u2019s reproduce its humanization. Anti-VEGF Humanization The sequence of the murine antibody is: >Light c...\""
},
{
"logid": 25,
"ns": 0,
"title": "22145 Immunological Bioinformatics Course Programme Fall 2025",
"pageid": 22,
"logpage": 22,
"revid": 46,
"params": {},
"type": "create",
"action": "create",
"user": "Carol",
"timestamp": "2025-08-07T11:10:30Z",
"comment": "Created page with \"== General information == === Where and when === Wednesday from 8 to 12 in '''building 208, holdlokale 3/065''', starting on '''Wednesday, Sep 4 at 8:00'''. === Teachers === * [https://www.dtu.dk/Person/cwis?id=142840&entity=profile Carolina Barra Quaglia] — Associate professor, course responsible. * [https://www.dtu.dk/person/morten-nielsen?id=5973&entity=profile Morten Nielsen] — Professor, course responsible. === Teaching assistant === * [https://w...\""
},
{
"logid": 24,
"ns": 0,
"title": "22145 Immunological Bioinformatics Course Programme Fall 2024",
"pageid": 21,
"logpage": 21,
"revid": 27,
"params": {},
"type": "create",
"action": "create",
"user": "Carol",
"timestamp": "2024-08-25T18:02:00Z",
"comment": "Created page with \"== General information == === Where and when === Lectures and exercises will take place every Wednesday morning from 8 to 12 in '''Holdlokale 3/065, building 208''', starting on '''Wednesday, Sep 4 at 8:00'''. === Teachers === * [https://www.dtu.dk/Person/cwis?id=142840&entity=profile Carolina Barra Quaglia] — Associate professor, course responsible. * [https://www.dtu.dk/person/morten-nielsen?id=5973&entity=profile Morten Nielsen] — Professor, course...\""
},
{
"logid": 23,
"ns": 2,
"title": "User:Carol",
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"logpage": 0,
"params": {
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"type": "newusers",
"action": "create2",
"user": "WikiSysop",
"timestamp": "2024-08-23T11:08:27Z",
"comment": ""
},
{
"logid": 22,
"ns": 0,
"title": "Single cell technologies for T-cell epitopes",
"pageid": 20,
"logpage": 20,
"revid": 25,
"params": {},
"type": "create",
"action": "create",
"user": "WikiSysop",
"timestamp": "2024-03-20T14:46:49Z",
"comment": "Created page with \"'''It is the intention with the following exercises, that you discuss and solve the following tasks and questions in your groups, so talk to each other for mutual benefit''' = Introduction = The purpose of this exercise is to get a feeling with T-cell CDR3 sequence data and to try to make predictions on which sequences will bind a specific peptide. We will here use to approaches for predictions: a naive 'database look-up' approach and a neural network approach. With th...\""
},
{
"logid": 21,
"ns": 0,
"title": "IEDB",
"pageid": 19,
"logpage": 19,
"revid": 24,
"params": {},
"type": "create",
"action": "create",
"user": "WikiSysop",
"timestamp": "2024-03-20T14:46:11Z",
"comment": "Created page with \" == Immune Epitope DataBase (IEDB) Exercises == ---- The Immune Epitope DataBase (IEDB) is a very useful resource for researchers of immunology and immunoinformatics. It is a highly organized database of epitopes(or more precisely: epitope assay results) that has a user friendly search interface. It is maintained by the La Jolla Institute for Allergy and Immunology and has a dedicated team of curators and bioinformatitians that have mined the immunological literature. T...\""
},
{
"logid": 20,
"ns": 0,
"title": "Protein Drug Deimmunization",
"pageid": 18,
"logpage": 18,
"revid": 23,
"params": {},
"type": "create",
"action": "create",
"user": "WikiSysop",
"timestamp": "2024-03-20T14:43:37Z",
"comment": "Created page with \"== Protein Drug Deimmunization - Exercise == ---- Over the past few decades, biologics have gone from being experimental treatment options to standard care. They are very targeted and useful molecules in health care, but they come with their own immunological challenges. If a biologic is recognized as foreign by the immune system, Anti-Drug Antibodies can be formed that neutralize the biologic and render it useless. Deimmunization provides a potential solution to this...\""
}
]
}
}