바이오 오르 간유 메이저 카지노 사이트
직원
Naoki Umezawa, Ph.D., 교수
Yosuke Hisamatsu, Ph.D., 조교수
Yosuke Hisamatsu, Ph.D., 조교수
연구 프로젝트
- 생물학적 기능을 설명하는 데 유용한 기능 분자 생성
- 제약 납 화합물의 합리적 설계 및 합성
- 새로운 개념에 기초한 기능 분자 개발
- 중간 크기 분자 (예 : 펩티드)를 사용하여 약물 발견을 달성하기위한 기술 개발
Our research is based on organic chemistry to develop molecules that are useful in drug discovery and life science research. We design and create molecules with excellent functions incorporating our original ideas. As an example, we are developing molecules that selectively bind to proteins, nucleic acids, and metal complexes that exist in living organisms. Molecules that bind to cancer-related proteins are expected to be anti-cancer 이들은 효소 억제제 또는 단백질-단백질 상호 작용 억제제가 될 수 있기 때문에 작용제.
In addition to conventional organic synthesis, solid-phase synthesis is also utilized to synthesize target molecules. Solid-phase synthesis is suitable for the synthesis of molecules with repeating structures, such as peptides and nucleic acids. Peptides are attracting attention as a new drug discovery modality (method or means) next to conventional small molecule and macromolecular drugs, but there are still some issues to be solved. We aim to overcome these challenges by developing petides that are both highly active and stable in vivo, and petides that are active only in specific environments such as distinguished cells. We are also working on the development of molecules that can distinguish the three- 핵산의 치수 구조 및 헴이 불리는 내인성 금속 복합체에 선택적으로 결합합니다.
In addition to conventional organic synthesis, solid-phase synthesis is also utilized to synthesize target molecules. Solid-phase synthesis is suitable for the synthesis of molecules with repeating structures, such as peptides and nucleic acids. Peptides are attracting attention as a new drug discovery modality (method or means) next to conventional small molecule and macromolecular drugs, but there are still some issues to be solved. We aim to overcome these challenges by developing petides that are both highly active and stable in vivo, and petides that are active only in specific environments such as distinguished cells. We are also working on the development of molecules that can distinguish the three- 핵산의 치수 구조 및 헴이 불리는 내인성 금속 복합체에 선택적으로 결합합니다.
연락처 정보
메이저 카지노 사이트 City University, 제약 과학 대학원,
3-1, Tanabe-Dori, Mizuho-Ku, 메이저 카지노 사이트 467-8603, Japan
이메일 : umezawa@phar.메이저 카지노 사이트-cu.ac.jp
전화/팩스 :+81-52-836-3435
3-1, Tanabe-Dori, Mizuho-Ku, 메이저 카지노 사이트 467-8603, Japan
이메일 : umezawa@phar.메이저 카지노 사이트-cu.ac.jp
전화/팩스 :+81-52-836-3435