Posters
« Back
Application of Solid Phase Micro Extraction (SPME) and On‐Fiber Derivatization to Detect Precursors of Biomolecules in the study of Proto‐metabolism
EP25974
Poster Title: Application of Solid Phase Micro Extraction (SPME) and On‐Fiber Derivatization to Detect Precursors of Biomolecules in the study of Proto‐metabolism
Submitted on 29 Jun 2017
Author(s): Y.Hongo 1, K.Yamada2, H.Huebschmann 3, R.Yi 1
Affiliations: 1 WPI‐ELSI, Tokyo Institute of Technology, 2 AMR, Inc., 3 CTC Analytics AG
This poster was presented at Annual conference of MSJ
Poster Views: 2,071
View poster »


Poster Information
Abstract: In the studies of origins of life, plausible synthetic reaction pathways to
form biological relevant molecules, or building blocks of proto‐bilayer
lipids, protein, RNA, and DNA in the primitive environment have been
investigated intensively. We are focusing on studying syntheses of
primitive molecular set, including sugar, amino acid, and their
analogues, which were selected by further functional and informational
constrains.
Researchers hope to detect those targets, even they were
ultra‐trace comparing to major components (source molecules and
undefined byproducts). Analytical point of the views, it is the worst
situation.
Summary: Keywords:
studies on the origins of life,
reaction pathways,
proto‐metabolism,
GC‐MS,
SPME,
on‐fiber derivatization
Report abuse »
Questions
Ask the author a question about this poster.
Ask a Question »

Creative Commons

Related Posters


FINGERPRINT 1H- NMR BASED ON THE CHEMICAL PROFILING OF COLOMBIAN RED PROPOLIS
Guillermo Salamanca Grosso; Monica Patricia Osorio Tangarife; David Garcia Mendez; Julien Wist

Structure, Transport, and Seasonality of the Atlantic Water Boundary Current North of Svalbard: Results From a Yearlong Mooring Array
M. Dolores Pérez‐Hernández1,2 , Robert S. Pickart1 , Daniel J. Torres1 , Frank Bahr1 , Arild Sundfjord3 , Randi Ingvaldsen4 , Angelika H. H. Renner4 , Agnieska Beszczynska‐Möller5 , Wilken‐Jon von Appen6 , and Vladimir Pavlov3

High speed untargeted 4D-lipidomics LC-MS/MS workflows with Parallel Accumulation Serial Fragmentation (PASEF)
Ulrike Schweiger-Hufnagel1, Aiko Barsch1, Sven W. Meyer1

TMT Quantification for Shotgun Proteomics on a Trapped-Ion-Mobility quadrupole-Time-Of- Flight mass spectrometer (TIMS-QTOF) powered by Parallel-Accumulation and Serial- Fragmentation (PASEF)
Matt Willetts1, Shourjo Ghose1 Heiner Koch2, Scarlet Koch2, Markus Lubeck2, Gary Kruppa1

Genetic Engineering in Male Sterility for Hybrid Variety Development
Abir Hasan Joy