Cellular basis of diseases
Cellular dysfunction, the fundamental basis of all human diseases, underpins the pathophysiology of numerous disorders. This program presents a overview of research initiatives focused on advancing human health through the development of diagnostic, preventive, and therapeutic strategies. These projects are conducted in collaboration with multiple research institutions and are supported by diverse grant funding mechanisms.
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Funding details: Related items
Projects: Sex-specific differences in long-term gamma and simGCRsim-associated alterations in deferential gene expression in the heart tissue, Functional Genomics of Vine, Molecular Profiling of Cancer Metastases, Study of the molecular mechanisms of familial Mediterranean fever using genetic engineering and functional genomics, Mental disorders and aging brain, Omics-Based Insights into Human Long-Term Exposure to Environmental Metals, Biological pathway activity analysis, ML approaches for omic data analysis, Tools for Telomere Biology, Armenian Wine Genome Program, Molecular characterization of cancers with long-read RNA sequencing, Low dose radiation risks: present research and future perspectives
Institutions: Institute of Molecular Biology NAS RA, Armenian Bioinformatics Institute
https://orcid.org/0000-0002-6851-1056
The aim of this project is to establish a bank of induced pluripotent stem cells from patients with Familial Mediterranean Fever (FMF) using cell reprogramming approaches for a more comprehensive study of disease molecular mechanisms. In Armenia, FMF prevalence is about 14-100 per 10,000 inhabitants, depending on the region. For the comprehensive research of the disease, it is necessary to have appropriate cell platforms that will contain pathogenic mutations of the FMF. Created stem cell bank ...
Programme: Cellular basis of diseases
Public web page: Not specified
Start date: 1st Mar 2025
End date: 1st Mar 2027
In this project genetic engineering and functional genomics approaches will be used to describe molecular mechanisms of FMF. Using DNA/RNA samples obtained from FMF patients and healthy subjects MEFV nanopore gene sequencing will be performed to identify genetic variants and possibly find novel putative functional variants. The impact of genetic variants on transcriptome landscape will be studies by RNA-sequencing using nanopore sequencing device. Based on MEFV sequencing data and patients clinical ...
Programme: Cellular basis of diseases
Public web page: Not specified
Start date: 1st Sep 2021
End date: 31st Aug 2024
Abstract (Expand)
Authors: Varduhi Hayrapetyan, Lana Karapetyan, Lilit Ghukasyan, Sofi Atshemyan, Hovsep Ghazaryan, Valentina Vardanyan, Vahan Mukuchyan, Arsen Arakelyan, Roksana Zakharyan
Date Published: 2nd Dec 2024
Publication Type: Journal
Abstract (Expand)
Authors: Lilit Ghukasyan, Gisane Khachatryan, Tamara Sirunyan, Arpine Minasyan, Siras Hakobyan, Andranik Chavushyan, Varduhi Hayrapetyan, Hovsep Ghazaryan, Gevorg Martirosyan, Gohar Mkrtchyan, Valentina Vardanyan, Vahan Mukuchyan, Ashot Davidyants, Roksana Zakharyan, Arsen Arakelyan
Date Published: 29th Nov 2024
Publication Type: Journal
Abstract (Expand)
Authors: Elena V. Grigor’eva, Lana V. Karapetyan, Anastasia A. Malakhova, Sergey P. Medvedev, Julia M. Minina, Varduhi H. Hayrapetyan, Valentina S. Vardanyan, Suren M. Zakian, Arsen Arakelyan, Roksana Zakharyan
Date Published: 1st Jun 2024
Publication Type: Journal
Abstract (Expand)
Authors: Elena V. Grigor’eva, Anastasia A. Malakhova, Lilit Ghukasyan, Varduhi Hayrapetyan, Sofi Atshemyan, Valentina Vardanyan, Suren M. Zakian, Roksana Zakharyan, Arsen Arakelyan
Date Published: No date defined
Publication Type: Journal
Type: Patient-specific induced pluripotent stem cells (iPSCs)
Creators: Arsen Arakelyan, Lana Karapetyan, Roksana Zakharyan
Submitter: Arsen Arakelyan
Type: Patient-specific induced pluripotent stem cells (iPSCs)
Creators: Arsen Arakelyan, Lana Karapetyan, Roksana Zakharyan
Submitter: Arsen Arakelyan
Type: Patient-specific induced pluripotent stem cells (iPSCs)
Creators: Arsen Arakelyan, Lana Karapetyan, Roksana Zakharyan
Submitter: Arsen Arakelyan
Type: Patient-specific induced pluripotent stem cells (iPSCs)
Creators: Arsen Arakelyan, Lana Karapetyan, Roksana Zakharyan
Submitter: Arsen Arakelyan
