The Mass Spectrometry society of Japan - The 62nd Annual Conference on Mass Spectrometry, Japan

Program

Plenary Lectures

[Program]

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Dr. Kazunori Hanagaki (Osaka University)

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Prof. Genji Kurisu (Osaka University)

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Prof. Joseph Loo (University of California-Los Angeles)

Award Lecture

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Day 2 Thursday, May 15 [Program]

Oral Sessions

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Day 1 Wednesday, May 14 [Program]

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Day 2 Thursday, May 15 [Program]

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Day 3 Friday, May 16 [Program]

Session Overview

■Session No

1A-01

■Title

New Trends of Mass Spectrometry-Driven Omics Sciences

■Organizer

Yasushi Ishihama (Kyoto Univ) / Yoshio Kodera (Kitazato Univ)

■Keynote

Yoshio Kodera (Kitazato University)

■Scope

Rapid progress has been made in mass spectrometry, driving the entire fields of omics sciences with high expectations. Nevertheless, analysis steps with mass spectrometry still become a bottleneck through the whole workflow, unlike the true omics fields such as genomics/transcriptmics with next-generation sequencers. In this session, we will focus on proteomics, glycomics, glycoproteomics and other PTM proteomics to discuss about the development of MS and related technologies as well as their applications to the industrial biosciences. In addition, we will give some prospects on the future omics sciences based on mass spectrometry.

■Keyword

Proteomics, Glycomics, Post-translational modification

■Session No

1B-01

■Title

Ion Mobility Spectrometry (IMS) and Ionization

■Organizer

Kenichi Iwamoto (Osaka Pref. Univ) / Toshiki Sugai (Toho Univ)

■Keynote

Fuminori Misaizu (Tohoku University)

■Scope

Rapid progress has been made in mass spectrometry, driving the entire fields of omics sciences with high expectations. Nevertheless, analysis steps with mass spectrometry still become a bottleneck through the whole workflow, unlike the true omics fields such as genomics/transcriptmics with next-generation sequencers. In this session, we will focus on proteomics, glycomics, glycoproteomics and other PTM proteomics to discuss about the development of MS and related technologies as well as their applications to the industrial biosciences. In addition, we will give some prospects on the future omics sciences based on mass spectrometry.

■Keyword

Ion mobility Spectrometry, Structural analysis, Theoretical analysis, Applications to biomolecules and nanomaterials, Ionization and reaction

■Session No

1C-01

■Title

Secure Society Led by Mass Spectrometry

■Organizer

Atsushi Yamamoto (Osaka City Inst. Pub. Health Environ. Sci.) /
Noriaki Shima (Osaka Pref. Police)

■Keynote

Shigeru Suzuki (Chubu University)

■Scope

While there is much danger such as crime, accidents and food and environmental problems in daily life, various organizations are working in governmental, corporate, and citizens' organizations to keep the society safe. Mass spectrometry may offer a further contribution to generate confidence between the organizations and the public. Mass spectrometry is already used in tests of regulated substances and identification of unknown offending substances. Furthermore, in food and environmental fields, nutrient composition and stable isotope ratio analysis and non-target analysis have been underway to detect outliers. In this session, we discuss various issues faced by each field and exchange ideas that can provide a further scientific basis with mass spectrometry.

■Keyword

Illicit drug, Positive list, Environmental pollution, Verification of geographical origin, Quality control

■Session No

2A-01

■Title

Upcoming Challenge from Static Analysis in Tissue Section to Dynamic Analysis by the MALDI- Imaging

■Organizer

Toyofumi Nakanishi (Osaka Med. Coll) / Yasuhide Naito (GPI)

■Keynote

Ikuko Yao (Hamamatsu University School of Medicine)

■Scope

The MALDI-imaging (IMS), which was developed by the Professor Richard M Caprioli at 1994, is an essentially powerful tool to understand the etiology of diseases. This technique could be quantitatively detected not only the all expressed proteins in a tissue section from the relatively low molecules to the high molecules but also identified pharmacokinetics of medicine and dynamic changes of neurotransmitter in the tissue sections. Moreover, the ultra high-spatial resolution and the high-speed analysis will enable us to identify expressed molecules in a single cell. The current performance of the IMS will bring a new frontier in the Life Science.

■Keyword

MALDI-imaging/Macro-and Micro-analysis/Organelle/Etiology/Monitoring

■Session No

2B-01

■Title

Mass Spectrometry for Industry Materials and Its Future Outlook

■Organizer

Hideya Kawasaki (Kansai Univ) / Takahiro Hoshi (Nippon Kayaku)

■Keynote

Hajime Ohtani (Nagoya Institute of Technology)

■Scope

The focus of this session is the application of mass spectrometry (MS) for industrial materials such as (co)polymer, surfactant, and organic/inorganic nanomaterials. Since mass spectrometry is recently used for materials/structural analysis in industrial and material sciences, the meeting will provide an opportunity to share their data and methods, learn those from their colleagues and discuss the future direction. Some of the key issues on MS for industrial materials that have been addressed are listed as the follows: i) ESI, MALDI, and new ionization methods including DESI, DART, and SALDI, ii) Detailed structural analysis by high-Resolution MS and MS/MS, iii) pyrolysis and separation methods such as GC, LC, and SEC, iv) imaging mass spectrometry.

■Keyword

Industrial materials, Polymer, Surfactant, and Nanomaterials

■Session No

2C-01

■Title

Accurate Structural Analysis Using Mass Spectrometry

■Organizer

Masahiro Miyashita (Kyoto Univ) / Takemichi Nakamura (RIKEN)

■Keynote

Katsuyoshi Masuda (SUNBOR)

■Scope

Structural analysis is one of the important research fields of mass spectrometry. Using mass spectrometers, we can analyze the structure of various sizes and properties of molecules. In addition, some may need partial structural information, whereas the others may want full structural determination using mass spectrometric data. On the other hand, database-dependent structural analysis is demanding due to difficulties in interpretation of fragmentation patterns. Although spectral databases continue to grow, structural analysis without databases is still essential particularly in the case where natural compounds are dealt with. As described above, great diversity of sizes and properties of samples often makes structural determination by mass spectrometry difficult. To overcome this problem, novel techniques of chemical derivatization and/or data interpretation are required in conjunction with improvement of instruments. In this session, we will discuss these novel techniques to expand the capabilities of structural analysis by mass spectrometer.

■Keyword

fragmentation, natural compound, derivatization, data interpretation

■Session No

3A-01

■Title

New Technologies and Novel Developments for the Future of Metabolomics

■Organizer

Takeshi Bamba (Osaka Univ) / Kazuki Ikeda (Keio Univ)

■Keynote

Eiichiro Fukusaki (Osaka University)

■Scope

Recently, metabolome analytical techniques have dramatically developed and applied to various fields such as medicine, food, and environment. Metabolomics is based on bioscience, analytical chemistry, and informatics, and this interlinking between the three fields is indispensable for obtaining high-quality results. However, metabolomics suffers from problems such as data processing inefficiency and inaccuracy because of the poor understanding of how these three subject fields are linked. Therefore, further improvements in analytical and data mining techniques are needed to develop a more global approach to metabolomics. In this session, we discuss new technology and its application for the future development of metabolomics.

■Keyword

metabolomics, metabolome, mass spectrometry, informatics

■Session No

3B-01

■Title

MALDI Ionization for Life Sciences

■Organizer

Takae Takeuchi (Nara Women's Univ) / Toru Yamagaki (SUNBOR)

■Keynote

Jeong Hee Moon (Korea Research Institute of Bioscience & Biotechnology)

■Scope

Laser desorption/ionization is an essential technique for life science research such as Imaging MS. We know that all biomolecules cannot be ionized equally by MALDI. The improvements such as chemical derivatization and new matrices promoting ionization are necessary. Addition to that, a new structure identification method using MS/MS fragmentation is also needed to be developed. In this session, we discuss these topics in this session.

■Keyword

MALDI, Ionization, Peptides, Glycan, Biomolecules

■Session No

3C-01

■Title

New Frontiers of Space and Earth Science Based on the Isotope Analyses

■Organizer

Kentaro Terada (Osaka Univ) / Teruyuki Maruoka (Tsukuba Univ)

■Keynote

Sachiko Amari (Washington University)

■Scope

Isotope analysis is a clue to decipher the origin and evolution of the Solar system. The scope of "isotope session" is to cover a variety of topics in Space and Earth science research based on the advanced isotope analysis and to enhance mutual understanding of our Solar System

■Keyword

isotope, meteorite, nuclear-synthesis, Solar system, radiometric age

■Session No

3A-02

■Title

New Developments in Instrumentation

■Organizer

Michisato Toyoda (Osaka Univ) /
Shuichi Shimma (Natl. Cancer Ctr. Res. Inst)

■Keynote

Zheng Ouyang ( Purdue University)

■Scope

This session covers the topics of novel developments in instrumentation (ionization, ion separation, ion detection, etc.). This session will become a good opportunity to share the knowledge of the present situation and future prospects of instrumentation in the field of mass spectrometry.
To develop a novel instrument, information on what is requiredf for instrumenta to do an original research is very important. We also would like to discuss the requirements for instruments.

■Keyword

new development, ionization, mass separation, ion detection

■Session No

3B-02

■Title

High-Temperature Mass-Spectrometry for Environment, Energy and Materials

■Organizer

Yuji Arita (Fukui Univ) / Takayuki Terai (Tokyo Univ) / Hideaki Sasaki (Tokyo Univ)

■Keynote

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■Scope

The high-temperature material behaviors, such as thermodynamic properties, are still important in the environmental issue, the energy developments and novel materials study.
This session covers the developments of new-materials and progress of the technique in the field of high temperature mass spectrometry.

■Keyword

Mass spectroscopy, Vapor pressure, high temperature, thermophysical properties, thermodynamics

■Session No

3C-02

■Title

Quantitation of Biomolecule: Challenge Through Small to Macromolecule

■Organizer

Tomoya Kinumi (AIST) / Sadamu Kurono (Osaka Univ)

■Invited

Nobuaki Takemori (Ehime University)

■Scope

Quantitative analysis for biomolecule using mass spectrometry has covered broad range of analytes. To deal with the wide variety of samples, each analytical method has been independently developed. In this session, we will discuss the practical examples of quantitation through small to macromolecule such as metabolite, nucleic acid, and protein/peptide. We expect vigorous information exchange between each research field.

■Keyword

Quantitation, Protein/peptide, Nucleic acid, Metabolite, LC-MS, Isotope-dilution

Poster Presentations

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Day 1 Wednesday, May 14 [Program]

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Day 2 Thursday, May 15 [Program]

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Day 3 Friday, May 16 [Program]

Timetable

Timetable（PDF 118 KB）
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