14717 items found.
Systems Biology
"Life" was once thought to be so complex that it would be impossible to understand its entirety. However, with the advent of the 21st century, it has become possible to analyze large amounts of biological information, including genomes, and with the use of information technology, it is no longer a dream to understand the full extent of "life". SFC has been a pioneer in this field for more than two decades.
The applied fields of systems biology are unlimited, ranging from medical science, environmental science and ecology, food science, to the elucidation of the origin and evolution of life. In this special research project, we will conduct intensive research on a specific theme within the scope of advanced biosciences.
Systems Biology
"Life" was once thought to be so complex that it would be impossible to understand its entirety. However, with the advent of the 21st century, it has become possible to analyze large amounts of biological information, including genomes, and with the use of information technology, it is no longer a dream to understand the full extent of "life". SFC has been a pioneer in this field for more than two decades.
The applied fields of systems biology are unlimited, ranging from medical science, environmental science and ecology, food science, to the elucidation of the origin and evolution of life. In this special research project, we will conduct intensive research on a specific theme within the scope of advanced biosciences.
Systems Biology
"Life" was once thought to be so complex that it would be impossible to understand its entirety. However, with the advent of the 21st century, it has become possible to analyze large amounts of biological information, including genomes, and with the use of information technology, it is no longer a dream to understand the full extent of "life". SFC has been a pioneer in this field for more than two decades.
The applied fields of systems biology are unlimited, ranging from medical science, environmental science and ecology, food science, to the elucidation of the origin and evolution of life. In this special research project, we will conduct intensive research on a specific theme within the scope of advanced biosciences.
Understanding of the metabolome analysis methods
Recently, various types of metabolome analysis methods have appeared, and it is possible to measure a large number of metabolites. In this project, we will deepen our understanding of typical metabolome analysis methods and conduct metabolome analysis research using actual instrument.
Systems Biology
"Life" was once thought to be so complex that it would be impossible to understand its entirety. However, with the advent of the 21st century, it has become possible to analyze large amounts of biological information, including genomes, and with the use of information technology, it is no longer a dream to understand the full extent of "life". SFC has been a pioneer in this field for more than two decades.
The applied fields of systems biology are unlimited, ranging from medical science, environmental science and ecology, food science, to the elucidation of the origin and evolution of life. In this special research project, we will conduct intensive research on a specific theme within the scope of advanced biosciences.
Synthetic biology
Aim to establish the necessary fundamental technologies and infrastructure for conducting various molecular biology experiments for non-model organisms.
Systems Biology
"Life" was once thought to be so complex that it would be impossible to understand its entirety. However, with the advent of the 21st century, it has become possible to analyze large amounts of biological information, including genomes, and with the use of information technology, it is no longer a dream to understand the full extent of "life". SFC has been a pioneer in this field for more than two decades.
The applied fields of systems biology are unlimited, ranging from medical science, environmental science and ecology, food science, to the elucidation of the origin and evolution of life. In this special research project, we will conduct intensive research on a specific theme within the scope of advanced biosciences.
Systems Biology
"Life" was once thought to be so complex that it would be impossible to understand its entirety. However, with the advent of the 21st century, it has become possible to analyze large amounts of biological information, including genomes, and with the use of information technology, it is no longer a dream to understand the full extent of "life". SFC has been a pioneer in this field for more than two decades.
The applied fields of systems biology are unlimited, ranging from medical science, environmental science and ecology, food science, to the elucidation of the origin and evolution of life. In this special research project, we will conduct intensive research on a specific theme within the scope of advanced biosciences.
Systems Biology
"Life" was once thought to be so complex that it would be impossible to understand its entirety. However, with the advent of the 21st century, it has become possible to analyze large amounts of biological information, including genomes, and with the use of information technology, it is no longer a dream to understand the full extent of "life". SFC has been a pioneer in this field for more than two decades.
The applied fields of systems biology are unlimited, ranging from medical science, environmental science and ecology, food science, to the elucidation of the origin and evolution of life. In this special research project, we will conduct intensive research on a specific theme within the scope of advanced biosciences.
SFC kotan: Learning the Aynu Language and Oral Literature
This project is intended for students who are already studying the Aynu language and culture. We will visit the important places engaged in the revitalisation of Aynu language and culture.
Development of computational methods for metabolomics
We will develop a computational method to analyze metabolites qualitatively and quantitatively from metabolic data obtained mainly from CE-MS analysis, as well as to perform statistical processing and its biological interpretation in an efficient manner.
In the development of the system, we will be particularly active in machine learning and will utilize metabolome data from the IAB.
We will first learn some basics of metabolomics and existing metabolomic information processing technologies. Then we will implement methods that can reduce various problems of current metabolomic data (e.g., noise in the data, accuracy of peak extraction, accuracy of matching the same peaks among multiple samples, batch effects, reproducibility, integration methods with other omics data, biological interpretation, appropriate computational infrastructure database, etc.) as software.
Participants should have programming experience, but no prior experience in metabolomics is required.
Since the end of the last century, the complete genomic sequences of many organisms have been determined. The impact of these genome projects ovarious fields of science has been enormous. It could be said that we now have in our hands “the blueprints of life” for these organisms. At the beginning of the 21st century, it became apparent that large numbers of noncoding RNAs are, unexpectedly, encoded in these genomes. These RNAs are not translated into proteins but act as riboregulators, and have had another huge impact on the life sciences. More recently still, a new tide of research into the classical noncoding RNAs, such as the transfer RNAs (tRNAs), has arrived. In this project, we are especially focusing on the following subjects: (a) Elucidate the acquisition mechanism of the accessory gene, vpu. (b) Comprehensive search for biofilm related genes. (c) Comparative sequence analysis on Ebola viruses.