日本語 English
| 開講年度/ Academic YearAcademic Year |
20232023 |
| 科目設置学部/ CollegeCollege |
理学研究科/Graduate School of ScienceGraduate School of Science |
| 科目コード等/ Course CodeCourse Code |
LD102/LD102LD102 |
| テーマ・サブタイトル等/ Theme・SubtitleTheme・Subtitle |
|
| 授業形態/ Class FormatClass Format |
対面(全回対面)/Face to face (all classes are face-to-face)Face to face (all classes are face-to-face) |
| 校地/ CampusCampus |
池袋/IkebukuroIkebukuro |
| 学期/ SemesterSemester |
春学期/Spring SemesterSpring Semester |
| 曜日時限・教室/ DayPeriod・RoomDayPeriod・Room |
土2・4251/Sat.2・4251 Sat.2・4251, 土3・4251/Sat.3・4251, Sat.3・4251 |
| 単位/ CreditCredit |
22 |
| 科目ナンバリング/ Course NumberCourse Number |
LFS5190 |
| 使用言語/ LanguageLanguage |
日本語/JapaneseJapanese |
| 備考/ NotesNotes |
RD102分子生物学概論と合同授業 |
| テキスト用コード/ Text CodeText Code |
LD102 |
Students will learn about regulatory mechanisms of bacterial cell division, morphogenesis and antibiotics resistance. These are regulated by supramolecular complexes. Students learn the functions and structures of supramolecular complexes.
The lecturer will lecture on prokaryotes, particularly with a focus on the advancing analysis of Escherichia coli. As needed, the lecturer will also introduce Bacillus subtilis, Streptococcus, Staphylococcus, thermophilic bacterium, etc. The lecturer will lecture about bacterial cell division, morphogenesis, antibiotics resistance and so on. Additionally, the students will read in turn recent, relevant papers as well as reviews, and discuss with their class members. The students will not only learn about the biological significance of phenomena, but also experimental methods.
※Please refer to Japanese Page for details including evaluations, textbooks and others.
原核生物の分裂と細胞形態形成制御機構、薬剤耐性などを学ぶ。どの制御もタンパク質超分子複合体によって行われており,これらのタンパク質の機能や構造などについて理解を深める。
Students will learn about regulatory mechanisms of bacterial cell division, morphogenesis and antibiotics resistance. These are regulated by supramolecular complexes. Students learn the functions and structures of supramolecular complexes.
原核生物の中でもとくに解析の進んでいる大腸菌を中心に講義する。必要に応じて,枯草菌,連鎖球菌,ブドウ球菌、好熱細菌なども紹介する。原核生物の普遍的な細胞分裂,形態形成制御機構、薬剤耐性や,個々の細胞に特異的な制御機構について講義する。また、最新の関連論文及び総説を輪読し、受講者で討論しながら進める。現象の生物学的な意義だけでなく、実験方法についても学ぶ。
The lecturer will lecture on prokaryotes, particularly with a focus on the advancing analysis of Escherichia coli. As needed, the lecturer will also introduce Bacillus subtilis, Streptococcus, Staphylococcus, thermophilic bacterium, etc. The lecturer will lecture about bacterial cell division, morphogenesis, antibiotics resistance and so on. Additionally, the students will read in turn recent, relevant papers as well as reviews, and discuss with their class members. The students will not only learn about the biological significance of phenomena, but also experimental methods.
| 1 | 序論 |
| 2 | バクテリア細胞の構造 |
| 3 | バクテリア細胞におけるタンパク質の局在 |
| 4 | バクテリアの分裂制御 |
| 5 | バクテリアの分裂制御 |
| 6 | バクテリアの形態形成制御 |
| 7 | バクテリアの形態形成制御 |
| 8 | バクテリアの薬剤耐性 |
| 9 | バクテリアの薬剤耐性 |
| 10 | 関連論文の紹介と討論 |
| 11 | 関連論文の紹介と討論 |
| 12 | 関連論文の紹介と討論 |
| 13 | 関連論文の紹介と討論 |
| 14 | 関連論文の紹介と討論 |
授業時間外の学習に関する指示は,必要に応じて別途指示する。
| 種類 (Kind) | 割合 (%) | 基準 (Criteria) |
|---|---|---|
| 平常点 (In-class Points) | 100 |
授業への取り組み,出席態度,発表,リアクションペーパーなど(100%) |
| 備考 (Notes) | ||
| その他 (Others) | |||||
|---|---|---|---|---|---|
| 特になし |
| その他 (Others) | |||||
|---|---|---|---|---|---|
| 特になし |