Syllabus Search Result

“Advanced Biosciences” seminars
(Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama)are operated along with Academic Project “Advanced Biosciences” for graduate students.
All members, including faculty members, graduate students, and undergraduate students are involved to research projects.
The seminar(s) to be taken will be announced when students are notified of their permission to enroll."

Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

This Synthetic Biology Project aims to understand the design of living organisms constitutively, and is not restricted to any particular organism, but rather conducts research on a phenomenon-based basis. For this reason, we study not only major model organisms such as bacteria and rats, but also organisms that have not been studied very much in the past, such as slime molds, ants, and spiders. We welcome proposals for new target organisms with interesting phenomena.

Our research approach combines both experimental and computational (wet and dry) methods. Specifically, we combine experimental processing such as field sampling, culturing, nucleic acid extraction, and genome engineering with informatics processing such as a simulation, genome analysis, sequence analysis, and image analysis.

Keywords: synthetic biology, genome biology, behavioral ecology, molecular biology, molecular ecology, systems biology, bioinformatics

“Advanced Biosciences” seminars
(Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students.
All members, including faculty members, graduate students, and undergraduate students are involved to research projects.
The seminar(s) to be taken will be announced when students are notified of their permission to enroll."
Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

This Synthetic Biology Project aims to understand the design of living organisms constitutively, and is not restricted to any particular organism, but rather conducts research on a phenomenon-based basis. For this reason, we study not only major model organisms such as bacteria and rats, but also organisms that have not been studied very much in the past, such as slime molds, ants, and spiders. We welcome proposals for new target organisms with interesting phenomena.

Our research approach combines both experimental and computational (wet and dry) methods. Specifically, we combine experimental processing such as field sampling, culturing, nucleic acid extraction, and genome engineering with informatics processing such as a simulation, genome analysis, sequence analysis, and image analysis.

Keywords: synthetic biology, genome biology, behavioral ecology, molecular biology, molecular ecology, systems biology, bioinformatics

“Advanced Biosciences” seminars

(Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students.

All members, including faculty members, graduate students, and undergraduate students are involved to research projects.

The seminar(s) to be taken will be announced when students are notified of their permission to enroll."

Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

- Research
We will study data analysis in medical and life sciences, including diverse data such as omics and public data sets. We would generate new scientific knowledge using new information technologies, such as artificial intelligence and mathematical simulation.

“Advanced Biosciences” seminars (Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students.
All members, including faculty members, graduate students, and undergraduate students are involved to research projects.
The seminar(s) to be taken will be announced when students are notified of their permission to enroll."
Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html
Research topics; We will improve the sensitivity of metabolome analysis technology such as capillary electrophoresis-mass spectrometry (CE-MS). By applying this to biological samples, we will elucidate the pathogenic mechanism and search for biomarkers in various diseases.

“Advanced Biosciences” seminars (Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students. All members, including faculty members, graduate students, and undergraduate students are involved to research projects.
The seminar(s) to be taken will be announced when students are notified of their permission to enroll."
Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html
Research topics; We will improve the sensitivity of metabolome analysis technology such as capillary electrophoresis-mass spectrometry (CE-MS). By applying this to biological samples, we will elucidate the pathogenic mechanism and search for biomarkers in various diseases.

“Advanced Biosciences” seminars (Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students.

All members, including faculty members, graduate students, and undergraduate students are involved to research projects.

The seminar(s) to be taken will be announced when students are notified of their permission to enroll."

Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

Microorganisms (such as bacteria and viruses) play crucial roles in various environments, including the human body, buildings, sewage, air, soil, and plants. However, some microorganisms act as causes of infectious diseases, posing a threat to human health. In this study, our goal is to understand the evolution and diversity of microorganisms using bioinformatics and genome sequence analysis techniques, with the aim of applying this knowledge effectively across diverse fields, including medicine, agriculture, and engineering.

The increase in microbial infections can be attributed to factors such as antimicrobial resistance (AMR) in pathogens, as well as social factors like urbanization and human mobility. If no measures are taken, it is predicted that by 2050, infections caused by antimicrobial resistance (AMR) pathogens could result in 10 million deaths worldwide annually, so-called a 'hidden pandemic.' To prepare for the next pandemic, it is crucial to monitor the status of urban microbiomes and share data.

We have been collecting microbiome data in various cities and periods (e.g., before, during, and after the Olympics and Paralympics). We submit this data to public databases that can be accessed by anyone without restrictions. These datasets are expected to be effectively utilized in understanding the diversity and dynamics of microorganisms.

The findings of this research are expected to contribute to various fields, including biodiversity, public health, forensic science, architecture, and urban planning.

“Advanced Biosciences” seminars (Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students.

All members, including faculty members, graduate students, and undergraduate students are involved to research projects.

The seminar(s) to be taken will be announced when students are notified of their permission to enroll."

Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

Microorganisms (such as bacteria and viruses) play crucial roles in various environments, including the human body, buildings, sewage, air, soil, and plants. However, some microorganisms act as causes of infectious diseases, posing a threat to human health. In this study, our goal is to understand the evolution and diversity of microorganisms using bioinformatics and genome sequence analysis techniques, with the aim of applying this knowledge effectively across diverse fields, including medicine, agriculture, and engineering.

The increase in microbial infections can be attributed to factors such as antimicrobial resistance (AMR) in pathogens, as well as social factors like urbanization and human mobility. If no measures are taken, it is predicted that by 2050, infections caused by antimicrobial resistance (AMR) pathogens could result in 10 million deaths worldwide annually, so-called a 'hidden pandemic.' To prepare for the next pandemic, it is crucial to monitor the status of urban microbiomes and share data.

We have been collecting microbiome data in various cities and periods (e.g., before, during, and after the Olympics and Paralympics). We submit this data to public databases that can be accessed by anyone without restrictions. These datasets are expected to be effectively utilized in understanding the diversity and dynamics of microorganisms.

The findings of this research are expected to contribute to various fields, including biodiversity, public health, forensic science, architecture, and urban planning.

“Advanced Biosciences” seminars (Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students.
All members, including faculty members, graduate students, and undergraduate students are involved to research projects.
The seminar(s) to be taken will be announced when students are notified of their permission to enroll."
Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

Microorganisms (such as bacteria and viruses) play crucial roles in various environments, including the human body, buildings, sewage, air, soil, and plants. However, some microorganisms act as causes of infectious diseases, posing a threat to human health. In this study, our goal is to understand the evolution and diversity of microorganisms using bioinformatics and genome sequence analysis techniques, with the aim of applying this knowledge effectively across diverse fields, including medicine, agriculture, and engineering.

The increase in microbial infections can be attributed to factors such as antimicrobial resistance (AMR) in pathogens, as well as social factors like urbanization and human mobility. If no measures are taken, it is predicted that by 2050, infections caused by antimicrobial resistance (AMR) pathogens could result in 10 million deaths worldwide annually, so-called a 'hidden pandemic.' To prepare for the next pandemic, it is crucial to monitor the status of urban microbiomes and share data.

We have been collecting microbiome data in various cities and periods (e.g., before, during, and after the Olympics and Paralympics). We submit this data to public databases that can be accessed by anyone without restrictions. These datasets are expected to be effectively utilized in understanding the diversity and dynamics of microorganisms.

The findings of this research are expected to contribute to various fields, including biodiversity, public health, forensic science, architecture, and urban planning.

“Advanced Biosciences” seminars (Arakawa, Hirayama, Kanai, Kono, Kuroda, Naito, Soga, Sugimoto, and Suzuki are operated along with Academic Project “Advanced Biosciences” for graduate students. All members, including faculty members, graduate students, and undergraduate students are involved to research projects.

The seminar(s) to be taken will be announced when students are notified of their permission to enroll."

Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

Biology is rapidly transforming into a data-driven science. Key to this new paradigm is in the high-throughput, quantitative, and comprehensive measurement of biological phenomenon, and statistics and informatics techniques to extract novel biological insights from the large-scale data.

In this research group, we synergistically combine experiments, measurements, and informatics to gain quantitative understanding of living systems.

“Advanced Biosciences” seminars
(Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students.
All members, including faculty members, graduate students, and undergraduate students are involved to research projects.
The seminar(s) to be taken will be announced when students are notified of their permission to enroll."
Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

“Advanced Biosciences” seminars

(Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students.

All members, including faculty members, graduate students, and undergraduate students are involved to research projects.

The seminar(s) to be taken will be announced when students are notified of their permission to enroll."

Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

Considering the nature of your research and the way you are involved with other research groups, we may make adjustments to these affiliations. In such cases, please contact Mr. Kuroda directly to discuss. hkuroda@sfc.keio.ac.jp

“Advanced Biosciences” seminars

(Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students.

All members, including faculty members, graduate students, and undergraduate students are involved to research projects.

The seminar(s) to be taken will be announced when students are notified of their permission to enroll."

Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

Considering the nature of your research and the way you are involved with other research groups, we may make adjustments to these affiliations. In such cases, please contact Mr. Kuroda directly to discuss. hkuroda@sfc.keio.ac.jp

“Advanced Biosciences” seminars (Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students.

All members, including faculty members, graduate students, and undergraduate students are involved to research projects.

The seminar(s) to be taken will be announced when students are notified of their permission to enroll.

Please check our website for more details.

Considering the nature of your research and the way you are involved with other research groups, we may make adjustments to these affiliations. In such cases, please contact Mr. Kuroda directly to discuss. hkuroda@sfc.keio.ac.jp

Advanced Biosciences: Evolutionary Singularities

This project tries to explain how the singular designs of existing biological systems have been led to using logical reasoning and computational models.

“Advanced Biosciences” seminars

(Arakawa, Kanai, Kuroda, Kono, Sugimoto, Suzuki, Soga, Naito and Hirayama) are operated along with Academic Project “Advanced Biosciences” for graduate students.

All members, including faculty members, graduate students, and undergraduate students are involved to research projects.

The seminar(s) to be taken will be announced when students are notified of their permission to enroll."

Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

Considering the nature of your research and the way you are involved with other research groups, we may make adjustments to these affiliations. In such cases, please contact Mr. Kuroda directly to discuss. hkuroda@sfc.keio.ac.jp

Advanced Biosciences: Evolutionary Singularities

This project tries to explain how the singular designs of existing biological systems have been led to using logical reasoning and computational models.

Modeling and Simulation of Biological Systems (Advanced Biosciences)

We model biological systems such as cells and tissues to explore their complex and sophisticated mechanisms.

Advanced Biosciences: Evolutionary Singularities

This project tries to explain how the singular designs of existing biological systems have been led to using logical reasoning and computational models.

Modeling and Simulation of Biological Systems (Advanced Biosciences)

We model biological systems such as cells and tissues to explore their complex and sophisticated mechanisms.

“Advanced Biosciences” seminars (Arakawa, Hirayama, Kanai, Kono, Kuroda, Naito, Soga, Sugimoto, Suzuki, and Tsujimoto are operated along with Academic Project “Advanced Biosciences” for graduate students. All members, including faculty members, graduate students, and undergraduate students are involved to research projects.

The seminar(s) to be taken will be announced when students are notified of their permission to enroll."

Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

Considering the nature of your research and the way you are involved with other research groups, we may make adjustments to these affiliations. In such cases, please contact Mr. Kuroda directly to discuss. hkuroda@sfc.keio.ac.jp

“Advanced Biosciences” seminars (Arakawa, Hirayama, Kanai, Kono, Kuroda, Naito, Soga, Sugimoto, Suzuki, and Tsujimoto are operated along with Academic Project “Advanced Biosciences” for graduate students. All members, including faculty members, graduate students, and undergraduate students are involved to research projects.

The seminar(s) to be taken will be announced when students are notified of their permission to enroll."

Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

Considering the nature of your research and the way you are involved with other research groups, we may make adjustments to these affiliations. In such cases, please contact Mr. Kuroda directly to discuss. hkuroda@sfc.keio.ac.jp

“Advanced Biosciences” seminars (Arakawa, Hirayama, Kanai, Kono, Kuroda, Naito, Soga, Sugimoto, Suzuki, and Tsujimoto are operated along with Academic Project “Advanced Biosciences” for graduate students. All members, including faculty members, graduate students, and undergraduate students are involved to research projects.

The seminar(s) to be taken will be announced when students are notified of their permission to enroll."

Please check our website for more details. https://www.iab.keio.ac.jp/en/index.html

Considering the nature of your research and the way you are involved with other research groups, we may make adjustments to these affiliations. In such cases, please contact Mr. Kuroda directly to discuss. hkuroda@sfc.keio.ac.jp

“Advanced Biosciences” seminars (Tomita, Naito, Kuroda, Kanai, Soga, Arakawa, Suzuki and Tsujimoto) are operated along with “Systems Biology Project” for graduate students. All members, including faculty members, graduate students, and undergraduate students are involved to research projects.
At the first semester when you join the "Advanced Biosciences" seminars (Kenkyukai), you should take "SEMINAR B (1) Masaru Tomita."
Please check our website for more details.　 https://bio.sfc.keio.ac.jp/

Advanced Biosciences: Evolutionary Singularities

This project tries to explain how the singular designs of existing biological systems have been led to using logical reasoning and computational models.

Modeling and Simulation of Biological Systems (Advanced Biosciences)

We model biological systems such as cells and tissues to explore their complex and sophisticated mechanisms.