SEEK ID: https://seek.lisym.org/assays/274
Modelling analysis
Projects: LiSyM network
Investigation: Investigation of the Smad Protein Complex Formation and Its Link toGeneExpression
Study: Study about Smad complexes in liver-derived cells
Assay position:
Biological problem addressed: Signal Induction
Organisms: No organisms
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Created: 28th Mar 2023 at 13:52
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Projects: LiSyM-Krebs Partnering, LiSyM network, LiSyM Pillar II: Chronic Liver Disease Progression (LiSyM-DP), LiSyM Pillar III: Regeneration and Repair in Acute-on-Chronic Liver Failure (LiSyM-ACLF), LiSyM Scientific Leadership Team (LiSyM-LT), Forschungsnetzwerk LiSyM-Krebs, SMART-NAFLD, C-TIP-HCC network
Institutions: German Cancer Research Center (DKFZ), Division of Systems Biology of Signal Transduction
Detailed Profile here
Projects: LiSyM PALs, LiSyM network, LiSyM Pillar I: Early Metabolic Injury (LiSyM-EMI), LiSyM Pillar III: Regeneration and Repair in Acute-on-Chronic Liver Failure (LiSyM-ACLF), LiSyM Pillar II: Chronic Liver Disease Progression (LiSyM-DP), LiSyM Pillar IV: Liver Function Diagnostics (LiSyM-LiFuDi), LiSyM Core Infrastructure and Management (LiSyM-PD), LiSyM-Krebs Partnering, Molecular Steatosis - Imaging & Modeling (LiSyM-MSIM), Multi-Scale Models for Personalized Liver Function Tests (LiSyM-MM-PLF), The Hedgehog Signalling Pathway (LiSyM-JGMMS), Forschungsnetzwerk LiSyM-Krebs, SMART-NAFLD, DEEP-HCC network, C-TIP-HCC network, Default Project
Institutions: HITS gGmbH
https://orcid.org/0000-0003-3540-0402Expertise: big data, Systems Biology, Genetics, wet lab
Tools: SEEK, openBis, Protege, Copasi, JWS online RightFiled
I am a researcher at the Scientific Databases and Visualization Group at Heidelberg Institute for Theoretical Studies (HITS) , one of the developers of SabioRK - System for the Analysis of Biochemical Pathways - Reaction Kinetics (http://sabiork.h-its.org/) . I am working on design and maintenance of the information systems to store, query and analyse systems biology data; definition and implementation of methods for the integration of data from multiple sources. In SySMO-DB project ...
Liver Systems Medicine : striving to develop non-invasive methods for diagnosing and treating NAFLD by combining mathematical modeling and biological research. LiSyM, is a multidisciplinary research network, in which molecular and cell biologists, clinical researchers, pharmacologists and experts in mathematical modeling examine the liver in its entirety. LiSyM research focuses on the metabolic liver disease non-alcoholic fatty liver disease (NAFLD), which includes non-alcoholic steatohepatitis ...
Projects: LiSyM Core Infrastructure and Management (LiSyM-PD), LiSyM Pillar I: Early Metabolic Injury (LiSyM-EMI), LiSyM Pillar II: Chronic Liver Disease Progression (LiSyM-DP), LiSyM Pillar III: Regeneration and Repair in Acute-on-Chronic Liver Failure (LiSyM-ACLF), LiSyM Pillar IV: Liver Function Diagnostics (LiSyM-LiFuDi), Model Guided Pharmacotherapy In Chronic Liver Disease (LiSyM-MGP), Molecular Steatosis - Imaging & Modeling (LiSyM-MSIM), The Hedgehog Signalling Pathway (LiSyM-JGMMS), Multi-Scale Models for Personalized Liver Function Tests (LiSyM-MM-PLF), LiSyM PALs, Project Management PTJ, LiSyM network, LiSyM Scientific Leadership Team (LiSyM-LT)
Web page: https://www.lisym.org/
This comprises the whole LiSyM network
Programme: LiSyM: Liver Systems Medicine
Public web page: http://www.lisym.org
Start date: 1st Jan 2016
Organisms: Rattus norvegicus, Rattus rattus, Mus musculus, Homo sapiens
Upon stimulation of cells with transforming growth factorb(TGF-b),Smad proteins form trimeric complexes and activate a broad spectrum of target genes. It remains unresolved which of the possible Smad complexes are formed in cellular contexts and how these contribute to gene expression. Combining quantitative mass spectrometry with a computational selection strategy, we investigate Smad complexes in the mouse hepatoma cell line Hepa1-6.
Submitter: Olga Krebs
Studies: Study about Smad complexes in liver-derived cells
Assays: Modelling asssay II Lucarelli paper, exp assay I Lucarelli paper
Snapshots: No snapshots
In this study we identify most relevant Smad complexes in liver-derived cells, the contribution of the Smad complexes on target gene expression, and the role of Smad abundance and Smad2 phosphorylation in hepatocellular carcinoma
Submitter: Olga Krebs
Investigation: Investigation of the Smad Protein Complex Forma...
Assays: Modelling asssay II Lucarelli paper, exp assay I Lucarelli paper
Snapshots: No snapshots