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Highlights on: Exploring Alzheimer’s Disease with Personalized Transcriptional Signatures.
1 , 2 , 3 , 3 , 4 , * 5
1  The Rachel and Selim Benin School of Computer Science and Engineering, Hebrew University, Jerusalem 9190416, Israel.
2  Department for Bio-Medical Research, Faculty of Dental Medicine, Hebrew University of Jerusalem, Jerusalem 91120, Israel
3  Department for Bio-Medical Research, Faculty of Dental Medicine, Hebrew University of Jerusalem, Jerusalem 91120, Israel.
4  Department of Biochemistry and Molecular Biology, The Institute for Medical Research Israel—Canada, The Hebrew University School of Medicine, Jerusalem 9112102, Israel;
5  Department for Bio-Medical Research, Faculty of Dental Medicine, Hebrew University of Jerusalem, Jerusalem 91120, Israel;

https://doi.org/10.3390/mol2net-06-06818 (registering DOI)
Abstract:

MOL2NET Conference highlights fragments of abstracts published in special issues of journals associated to the conference. This is a fragment of the abstract of the original article that belongs to: Big Data Analysis in Biomolecular Research, Bioinformatics, and Systems Biology with Complex Networks and Multi-Label Machine Learning Models), Biomolecules 2020, 10(4), 503; https://doi.org/10.3390/biom10040503.

Fragment: Exploring Alzheimer’s Disease Molecular Variability via Calculation of Personalized Transcriptional Signatures. Despite huge investments and major efforts to develop remedies for Alzheimer’s disease (AD) in the past decades, AD remains incurable. While evidence for molecular and phenotypic variability in AD have been accumulating, AD research still heavily relies on the search for AD-specific genetic/protein biomarkers that are expected to exhibit repetitive patterns throughout all patients. Thus, the classification of AD patients to different categories is expected to set the basis for the development of therapies that will be beneficial for subpopulations of patients. Here we explore the molecular heterogeneity among a large cohort of AD and non-demented brain samples, aiming to address the question whether AD-specific molecular biomarkers can progress our understanding of the disease and advance the development of anti-AD therapeutics. We studied 951 brain samples, obtained from up to 17 brain regions of 85 AD patients and 22 non-demented subjects. Utilizing an information-theoretic approach, we deciphered the brain sample-specific structures of altered transcriptional networks. Our in-depth analysis revealed that 7 subnetworks were repetitive in the 737 diseased and 214 non-demented brain samples. Our results emphasize the need to expand the biomarker-based stratification to patient-specific transcriptional signature identification for improved AD diagnosis and for the development of subclass-specific future treatment.

This is a fragment of the original article that belongs to: Special Issues (Associated to Mol2Net): Big Data Analysis in Biomolecular Research, Bioinformatics, and Systems Biology with Complex Networks and Multi-Label Machine Learning Models, https://www.mdpi.com/journal/biomolecules/special_issues/big_data_analysis_biomolecular

Reference (Read Full Paper Free): Exploring Alzheimer’s Disease Molecular Variability via Calculation of Personalized Transcriptional Signaturesby Hila Dagan ,Efrat Flashner-Abramson ,Swetha Vasudevan ,Maria R. Jubran ,Ehud Cohen andNataly Kravchenko-BalashaBiomolecules 2020, 10(4), 503; https://doi.org/10.3390/biom10040503 - 26 Mar 2020,

Keywords: Networks; Alzheimer; biomarkers; Information
Comments on this paper
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