Cytoplasmic Membrane Systems: Structure, Function, and

Slides:

Advertisements

Similar presentations

The Working Cell Figures 5.14 – 5.19

Advertisements

Master course Molecular & Cellular Life Sciences Part 1: Intracellular Membrane Processes October 8, 2009 Paul van Bergen en Henegouwen.

Rust et al 2004Troels Scheel Single molecule biophysics Assembly of endocytic machinery around individual influenza viruses during viral entry Influenza.

Intracellular Transport1 Chapter 15 You should review functions of different organelles We already discussed evolution; review Focus will be on: 1) mechanisms.

Cells: The Living Units: Part B.  Two types of active processes: ◦ Active transport ◦ Vesicular transport  Both use ATP to move solutes across a living.

Chapter 3 Cells: The Living Unit Part B Shilla Chakrabarty, Ph.D.

Ch. 8 Diagrams Cell Transport. Figure 7.2 Hydrophilic head Hydrophobic tail WATER.

Bulk Transport/Vessicular Traffic Bulk transport refers to the transport of solutes enclosed in vesicles. Many of these solutes are too large to diffuse.

A Closer Look at Cell Membranes Chapter 5 Part 2.

PowerPoint ® Lecture Slides prepared by Janice Meeking, Mount Royal College C H A P T E R Copyright © 2010 Pearson Education, Inc. 3 Cells: The Living.

Last Class: 1. transportation at the plasma membrane A. carrier protein, B. channel protein 2. intracellular compartments A. nucleus, B. Endoplasmic Reticulum.

Lecture 18: Intracellular transport Flint et al., Chapter 12.

Vesicular transport Dr. med. habil. Kőhidai László Assoc. Professor Depertment of Genetics, Cell- and Immunoibiology Semmelwesi University Semmelwesi University2008.

Endocytosis and Lysosome Formation The Endolytic Pathway.

2011 National Academies Northstar Institute for Undergraduate Education in Biology Endocytosis: the Dynamic Nature of the Endomembrane System Notes to.

CHAPTER 8 Part 2 Cytoplasmic Membrane Systems: Structure, Function, and Membrane Trafficking Copyright © 2008 by John Wiley & Sons, Inc.

Lecture 11 Vesicular Trafficking: Lysosomes;

Bio 178 Lecture 11 Biological Membranes (Cntd.)

Most proteins in the ER are glycosylated Proteins in cytosol are rarely glycosylated original precursor oligosaccharide added to most proteins in the ER.

Vesicular Transport III. N-linked glycosylation because sugar is added to N of asparagine. original precursor oligosaccharide added to most proteins in.

Vesicular transport Dr. med. habil. Kőhidai László Assoc. Professor Depertment of Genetics, Cell- and Immunoibiology Semmelwesi University Semmelwesi University.

Lecture 6 - Intracellular compartments and transport I.

Lecture 7 - Intracellular compartments and transport II

Lecture 3 Vesicular Trafficking -Cops and Clathrins -Arfs, Rabs, Sars -Snares.

Extra credit for Midterm 2

 Membranes are composed of phospholipids and proteins= fluid mosaic model Copyright © 2009 Pearson Education, Inc. Phospholipid bilayer Hydrophobic regions.

Simple Diffusion

Summary 1.Rough ER and smooth ER; 2.Signal hypothesis, translocation into ER; 3.Single-span and multi-span membrane proteins; 4.Glycosylation; 5.Protein.

The Secretory Pathway Becky Dutch Molecular and Cellular Biochemistry 1. ER - translation 2. ER- protein modifications 3. Discussion Section 4. Golgi apparatus.

Copyright © 2005 Pearson Prentice Hall, Inc. Intracellular Compartments and Transport Membrane Enclosed Organelles Protein Sorting Vesicular Transport.

Integral Proteins Some transmembrane transport proteins are porins that form aqueous channels through membranes Some integral proteins anchored to the.

Vesicular Transport IV Chapter possible fates of receptor proteins in an epithelial cell.

03_33 Receptor-mediated endocytosis Slide number: 1 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Molecules.

Receptor-Mediated Endocytosis As Presented By Michael Chan.

Cell Membranes and Cell Transport Lecture

Active Transport. Moves molecules from low to high concentration AGAINST a concentration gradient Requires energy, so cell must use ATP.

Active Transport Joohee Kim Sec. III IB Biology. Active Transport  Active transport is the pumping of molecules against their concentration gradient.

CHAPTER 10 DATA COLLECTION METHODS. FROM CHAPTER 10 Copyright © 2003 John Wiley & Sons, Inc. Sekaran/RESEARCH 4E.

Chapter 5 Membrane Structure & Function. Membrane structure, I Selective permeability Amphipathic polar & non-polar regions (ex. hydrophilic & hydrophobic)

Dynamin - Monique Krüger - e4b07fbe88868c13%2F %2FBDLPxtal_map_filament.png&imgrefurl=http%3A%2F%2Fwww.thelowlab.org%2Fr

Active Transport: Two Types

Inquiry into Life Twelfth Edition Chapter 4 Lecture PowerPoint to accompany Sylvia S. Mader Copyright © The McGraw-Hill Companies, Inc. Permission required.

A Closer Look at Cell Membranes  Aim: How do large particles enter and exit cells?  Do Now: Name some molecules/materials that enter and exit the cell.

A Closer Look at Cell Membranes Chapter 5 Part 2.

Biosynthesis of a Secretory Protein The starred words are made of membranes. This means that they are all composed of phospholipids Ribosome- *Rough Endoplasmic.

Vesicular Transport Pages The general flow of membrane enclosed material within cells.

MEMBRANE TRANSPORT. Membrane transport—movement of substances into and out of the cell Two basic methods of transport Passive transport No energy is required.

Biology Sylvia S. Mader Michael Windelspecht Chapter 5B Membrane Structure and Function Lecture Outline Copyright © The McGraw-Hill Companies, Inc. Permission.

The ER and Golgi Modify & Sort Proteins

Diffusion (more practice) Blue = water molecule (solvent) Red = salt molecule (solute) What will move where? How many? Do they just stop moving? Distilled.

Endomembrane system and vesicular transport

Animal viruses/other infectious agents.

Exocytosis, Endocytosis, Endosomes and Lysosome Formation

Section 5.2 Active Transport

A Closer Look at Cell Membranes

VIRAL GENE EXPRESSION DR.SOBIA MANZOOR MV LECTURE 04.

A Closer Look at Cell Membranes

Inquiry into Life Twelfth Edition

Active Transport Chapter 3, Section 3.

Penetration through cellular membranes Intracellular transport

Influenza Exits the Cell without an ESCRT

terms of water potential Compare diffusion and active transport

3 Cells: The Living Units: Part B.

Ayman El-Sayed, Hideyoshi Harashima Molecular Therapy

Endocytic and biosynthetic-secretory pathways

Vesicular pathways of unconventional secretion and models for their hijack by nonenveloped viruses. Vesicular pathways of unconventional secretion and.

Chapter 13 Intracellular Vesicular Traffic.

Intracellular Compartments and Vesicular Trafficking

Presentation transcript:

Cytoplasmic Membrane Systems: Structure, Function, and CHAPTER 8 Part 3 Cytoplasmic Membrane Systems: Structure, Function, and Membrane Trafficking Copyright © 2008 by John Wiley & Sons, Inc.

Why Study Endomembrane Systems, Vesicular Transport, and Protein Modification and Trafficking? Only A general Idea No Need to Memorize for Exam Will discuss in the Lecture Class what you need to take away from this section for Exam 2

Receptor-mediated Endocytosis

COATED PITS

Clathrin Triskelions

Molecular Organization of Coated Vesicles

Role of Dynamin in formation of clathrin coated vesicles

The Endocytic Pathway

LDL Cholesterol

Atherosclerosis

Initial Stages of receptor-mediated endocytosis of LDL particles are revealed by EM

Endocytic Pathway for internalizing LDL

Endocytic Pathway delivers Iron to Cells

Model of the mechanism for budding of HIV from the plasma membrane

EM of virus buddiing from wild-type (left) and ESCRT-deficient HIV-infected cells (right)

Influenza Virus Infection Conformational Changes in Viral Envelpe proteins Triiger Membrane Fusion Hemagglutinin (HA) glycoprotein of influenza virus

Phagocytosis