Nutrient acquisition strategies of mammalian cells
2017-07-11
org.kosen.entty.User@1f0c4118
신동욱(biopang)
행사&학회소개
1. Introduction
2. Growth factors control metazoan nutrient uptake
3. Cellular nutrient sensors adjust nutrient uptake
4. Transporter-based glucose and amino acid uptake
5. Receptor-mediated endocytosis of nutrient carriers
6. Macropinocytosis of proteins as an amino acid source
7. Endolysosomal recovery of diverse nutrients
8. Coordination of nutrient acquisition routes
9. Flexible nutritional use of glucose and glutamine
10. Uptake or biosynthesis of non-essential metabolites
11. Metabolic cooperation in tumour microenvironments
12. Concluding remarks and future outlook
2. Growth factors control metazoan nutrient uptake
3. Cellular nutrient sensors adjust nutrient uptake
4. Transporter-based glucose and amino acid uptake
5. Receptor-mediated endocytosis of nutrient carriers
6. Macropinocytosis of proteins as an amino acid source
7. Endolysosomal recovery of diverse nutrients
8. Coordination of nutrient acquisition routes
9. Flexible nutritional use of glucose and glutamine
10. Uptake or biosynthesis of non-essential metabolites
11. Metabolic cooperation in tumour microenvironments
12. Concluding remarks and future outlook
보고서작성신청
포유동물 세포들은 포도당, 아미노산 등 다양한 영양분의 환경에 놓여있으며, 이들은 막 수용체 및 세포내 리소좀 경로를 통해서 얻게 된다. 본 분석물에서는 세포의 영양분 섭취 전략들 및 세포의 영양분 감지 능력 및 성장 인자에 의한 조절에 관해서 살펴보고 또한 종양 억제 인자들이 어떻게 영양분을 섭취하고, 종양 세포의 생존과 성장을 지지하는 지에 다루기에 분석의 의의가 있다.