ナノ・バイオ化学特論

科目名
Course Title
授業コード 単位数 配当年次 開講期間
Term
科目分類 ナンバリング
コード
曜日
コマ
教室 担当教員氏名
Instructor
ナノ・バイオ化学特論
Advanced Nanobiochemistry
P122600001 2 1 後期授業 専門科目 TSAPC5823-E1 水4 B5-1B33,オンライン(中百舌鳥キャンパス) 床波 志保
児島 千恵

オフィスアワー

Tue. 16:15-17:45
Bldg. C10, Room 414 (Tokonami), 217 (Kojima)

授業目標

Students can understand and explain about (i) fundamental knowledge of nanomaterials, (ii) analytical methodologies to characterize nanomaterials, and (iii) structures and functions of biomolecules and bioassemblies after this lecture course.

教科書

Printed reference materials will be distributed.

参考書

Analytical Chemistry (John Wiley & Sons Inc) G.D. Christian
Life Chemistry & Molecular Biology (Portland Ltd.) E.J. Wood, C.A. Smith, W.R. Pickering
分析化学(岩波書店)梅澤喜夫 著
生命高分子科学入門(講談社サイエンティフィック)西村紳一郎 他、著

関連科目

None

授業時間外の学習(準備学習等について)

It is strongly recommended to read the reference books listed above whenever appropriate. This is due to diverse scope of this lecture course, which reflects inherently multidisciplinary nature of nanoscience and nanotechnology.

授業の概要

This course covers the principles, technologies, methods and applications of biosensors and bio-analytical systems. The objective of this course is to link engineering principles to understanding of biosystems in sensors and bioelectronics. It will provide students with detail of methods and procedures used in the design, fabrication and application of biosensors and bioelectronic devices.
Nanomaterials have been used for the biomedical applications, and some of them are composed of biomolecules such as DNA and proteins, and/or are inspired by biological systems such as biomembrane, virus and cells. Structures and functions of these biomolecules and bioassemblies will be explained. And, recent topics in the application of nanomaterials for delivery and imaging systems will be introduced.

授業計画

1. Introduction 2. Recombinant Protein, 3. Green Fluorescent Protein and Imaging, 4. Antibody, 5. Biomembrane, 6. Functional Nanomaterials for Cancer Therapy, 7. Functional Nanomaterials for Gene Delivery, 8. Recent topic on NanoBiochemistry, 9. Biomaterials and electronic elements for bioelectronic applications, 10. DNA-templated electronics, 11, 12. Electrochemical techniques for DNA detection, 13, 14. Biomaterial-nanoparticle hybrid for sensing, 15. Bacterial sensors

成績評価

This course contains two sections: Nanobiosensors and nanobiomaterials. Evaluation will be based on the degree of achievement of the goals. To pass (above C), students must attend more than 60% classes and submit all reports which will be requested in each section. Evaluation will be based on the total scores of exams (60%) and each class (40%).