ICF ECF membrane membrane lipid lipid bilayer glycerol
중점학습사항 • • • • • ICF, ECF, 그리고 이곳의 이온, 당, 단백질 농도를 기억한다. membrane 구성성분을 기억한다. membrane lipid, lipid bilayer에 대해 기억한다. glycerol, triacylglycerol, glycerophospholipid에 대해 기억한다. sphingosine, ceramide, sphingomyelin, sphingolipid에 대해 기억한다. blood Ag에 대해 기억한다. membrane cholesterol에 대해 기억한다. membrane protein (peripheral, integral)에 대해 기억한다. hydropathy index에 대해 기억한다. fluid mosaic model에 대해 기억한다. lipid raft에 대해 기억한다. cell membrane 통과기전에 대해 기억한다. facilitated GLUT, active GLUT에 대해 기억한다. clathrin coated vesicle, LDL receptor, cholesterol metabolism에 대해 기억한다. cyctic fibrosis에 대해 기억한다. mevalonate metabolic pathway에 대해 기억한다. HMGCo. A reductase와 statin에 대해 기억한다. protein prenylation, squalene, Co. Q (Ubiquinone), Dolichol에 대해 기억한다.
Figure 12. 1 Bilayer Structure of the Plasma Membrane
Figure 12. 2 Lipid Components of the Plasma Membrane
Figure 12. 3 Fluid Mosaic Model of the Plasma Membrane
Figure 12. 4 Solubilization of Integral Membrane Proteins by Detergents (Part 1)
Figure 12. 4 Solubilization of Integral Membrane Proteins by Detergents (Part 2)
Figure 12. 10 Mobility of Membrane Proteins
Figure 12. 12 Structure of Lipid Rafts
Figure 12. 15 Permeability of Phospholipid Bilayers
Figure 12. 16 Structure of the Glucose Transporter
Morris J. Birnbaum , M. D. , Ph. D. • School of Medicine, University of Pennsylvania • Rhoda and Willard Ware Professor of Diabetes and Metabolic Disease, • Depts of Medicine, Cell and Developmental Biology, Pharmacology, • Howard Hughes Medical Institute
Figure 12. 17 Model for the Facilitated Diffusion of Glucose
Figure 12. 34 Examples of Antiport
• Schematic diagram of a gap junction. One connexon is made from two hemiconnexons. Each hemiconnexon is made from six connexin molecules. Small solutes are able to diffuse through the central channel, providing a direct mechanism of cell-cell communication.
Figure 12. 35 Phagocytosis
Figure 12. 36 Examples of Phagocytic Cells
Figure 12. 37 Clathrin-Coated Vesicle Formation (Part 1)
Figure 12. 40 Formation of Clathrin-Coated Pits (Part 2)
Figure 12. 42 Sorting in Early Endosomes
Figure 12. 38 Structure of LDL
Figure 12. 39 The LDL Receptor (Part 1)
Figure 12. 39 The LDL Receptor (Part 2)
The Nobel Prize in Physiology or Medicine 1985 • • "for their discoveries concerning the regulation of cholesterol metabolism“ Michael S. Brown and Joseph L. Goldstein
Inflammatory cholesterol-rich atherosclerotic plaques in coronary arteries nourishing heart muscle.
Molecular Medicine 12. 1 Cystic Fibrosis
Francis S. Collins, M. D. , Ph. D • • the gene for cystic fibrosis 1989. the neurofibromatosis gene in 1990, And the gene for Huntington disease in 1993 the second director of the National Center for Human Genome Research, following in the footsteps of James Watson.
What Is Cystic Fibrosis? • Cystic fibrosis is a genetic disease that alters the body's respiratory, digestive, and reproductive systems. • It affects the body's epithelial cells that comprise the lining of the lungs, pancreas, liver, sweat glands, digestive tract, and reproductive system. •
What Causes Cystic Fibrosis? • Normally, the epithelial cells release a slippery layer of mucous that captures dust and germs, and acts as a lubricant. • A person with cystic fibrosis inherited a gene that causes the epithelial cells to produce a defective protein. • That protein leads to the formation of thick, sticky mucus, which causes many serious problems. • .
Effects of Cystic Fibrosis • The sticky mucus can: • clog the bronchial, interfere with breathing, causing coughing and wheezing, cause fatigue, interfere with digestion and absorption of nutrients, which can limit growth and weight gain and cause chronic diarrhea.
Symptoms of Cystic Fibrosis • Common symptoms • persistent coughing, • poor weight gain, • bulky stools, • very salty-tasting skin in infants.
Treating Cystic Fibrosis • Treatment of cystic fibrosis varies according to the stage of the disease and which organs are affected
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