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Printable Handouts
Navigable Slide Index
- Introduction
- AIST
- Biological functions of glycans
- Glycoproteome is the future
- Glycoproteomics
- Glycans are clothes for cells (proteins)
- Variety of monosaccharide
- N-glycans and O-glycans
- Human ABO blood antigens
- Three essentials of glycoscience
- Glycogene project (GG project)
- The strategy of cloning for glycogene
- GG project (2001-2004)
- Glycogene family cloned and analyzed to date
- Structural glycomics project (SG project)
- Complexity of glycan structures
- Glycan synthesizer
- Examples for glycan synthesizer performance
- Methods for glycan structure analysis
- Multistage tandem mass spectrometry
- Multi-stage tandem mass spectrometry example
- Glycogene expression profiling
- Evanescent-field fluorescence-assisted scanner
- IGOT LC/MS method
- Our technology for analyzing glycans
- Medical glycomics project (MG project)
- Functions of glycans
- Glyco-biomarkers for liver fibrosis and cancer
- The development of glycoprotein biomarker
- Glycans as serum markers for cancer
- Glycans methods for cancer seromarkers
- AGP as a liver fibrosis marker
- How to succeed in biomarker development?
- Pathology of liver fibrosis
- The prevalence of HCV infection
- Disease severity in HCV infected patients
- Issue in gold standard procedure "liver biopsy"
- Issues in current non-invasive system
- Our motivation
- Lectin microarray system
- Fibrosis-related fucosylation in AGP
- Serum AGP method
- Differential glycan profiling
- Lectin as diagnostic tool for liver cirrhosis
- Transfer to automatic assay system
- Multi-cohort study in Japan (2009-2010)
- Comparison of diagnostic performance
- Biomarkers of cancer
- Useful biomarkers for diagnosis (1)
- Useful biomarkers for diagnosis (2)
- Development of bile duct cancer marker
- Development of glycan profiling method
- Marker targeting for tissue sections
- Diagnostic by MY.1E12 antibody and WFA lectin
- Novel glyco-biomarker for cholangiocarcinoma
- WFA-MY.1E12 sandwich ELISA (bile)
- Specific glycoprotein marker
- Development of glyco-biomarker
- Conclusions
- Construction of glycan-related database
Topics Covered
- Overview of glycans
- Developing the technologies used in glycoscience
- Examples of successful glycobiomarker development
Talk Citation
Narimatsu, H. (2012, October 11). Development of glyco-biomarkers using glycoproteomics technologies [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 27, 2024, from https://doi.org/10.69645/GTML4215.Export Citation (RIS)
Publication History
Financial Disclosures
- Dr. Hisashi Narimatsu, Grant/Research Support (Principal Investigator): Research grants since 2000 to 2011 every year funded by the government (New Energy and Industrial Technology Development Organization; NEDO) ; Constructions of Libraries of Human Genes Participating in Glycosylation (April 2001-March 2004, Glycogene: NEDO GG project) ; Development of Methodologies and Databases for Structural Glycoproteomics (April 2003-February 2—6, Structural Glycomics: NEDO SG project) ; Developing Technology for Implementing Sugar Chain Functions (April 2006-February 2011, Medical Glycomics: NEDO MG project) ; Research grants since 2007 to present every year funded by the government (ministry of Education, Culture, Sports, Science and Technology (MEXT) Integrated database project).