Post-Translational Events I Translocation of Newly Synthesized Proteins into Membranous Organelles.

Slides:

Advertisements

Similar presentations

Targeting and assembly of proteins destined for chloroplasts and mitochondria How are proteins targeted to chloroplasts and mitochondria from the cytoplasm?

Advertisements

Lesson 3: Translation.

Lysosomes They are membranous, vesicular organelles that are formed by Golgi apparatus and are then dispersed through out the cytoplasm of the cell. They.

1 CA García Sepúlveda MD PhD Tema 12 Localización y translocación proteica Laboratorio de Genómica Viral y Humana Facultad de Medicina, Universidad Autónoma.

11 Bioenergetics and Metabolism

Intracellular Compartments and Protein Sorting Haixu Tang School of Informatics.

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

Protein Sorting & Transport Paths of Protein Trafficking Nuclear Protein Transport Mitochondrial & Chloroplast Transport Experimental Systems Overview.

Chapter 12 Intracellular Compartments and Protein Sorting.

Cell organelles in terms of structure and function.

Cell and Molecular Biology Behrouz Mahmoudi Cell Organelles-1 1.

Chapter 26 Protein Sorting. Chapter Objectives Understand the pathways of cotranslational processing of proteins – ER, Golgi, Plasma membrane, Lysosomes.

Unit 7 Endomembranes. SECRETORY PATHWAY: Unit 7 Secretory Pathway Proteins are synthesized on the Rough ER. Move via vesicles to Golgi Move via vesicles.

1.Set up 110 µl mix for each primer/DNA combo on ice! µl 100x F primer (1 pMol/µl = 1µM final []) µl 100x R primer 3.11 µl 10x PCR buffer

2 Protein Targeting pathways Protein synthesis always begins on free ribosomes In cytoplasm 1) Post -translational: proteins of plastids, mitochondria,

Javad Jamshidi Fasa University of Medical Sciences Proteins Into membranes and Organelles and Vesicular Traffic Moving.

PROTEIN TRAFFICKING AND LOCALIZATION PROTEINS SYNTHESIZED IN CYTOPLASM, BUT BECOME LOCALIZED IN CYTOPLASM CYTOPLASMIC MEMBRANE PERIPLASM OUTER MEMBRANE.

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

Transport, con't.. The Na/K ATPase Consequences of Na/K ATPase Two ion gradients –Used as energy source –Electrical signaling Charge difference across.

Protein Sorting ISAT 351, Spring 2004 College of Integrated Science and Technology James Madison University.

A view of the prokaryotic cell:

Topic 41 4.Structure/Function of the Organelles - Synthesis.

A view of the eukaryotic cell: Elaborately compartmentalized systems *Generalized animal cell *Generalized plant cell.

Lecture 6 Intracellular Compartments and Protein Sorting.

Protein synthesis decodes the information in messenger RNA

ROUGH ENDOPLASMIC RETICULUM

Lecture 2: Protein sorting (endoplasmic reticulum) Dr. Mamoun Ahram Faculty of Medicine Second year, Second semester, Principles of Genetics.

Do Now: Look at the cell organelle sheet

1 CA García Sepúlveda MD PhD Protein Localization, Translocation & Trafficking Laboratorio de Genómica Viral y Humana Facultad de Medicina, Universidad.

CHAPTER 6 SYSTEMS BIOLOGY OF CELL ORGANIZATION

Previously Bio308 Hypotheses for molecular basis of bipolar disorder Suggest problem lies in protein targeting Proteins made in cytosol (cytosolic and.

Chapter 3 Membrane targeting of proteins By D. Thomas Rutkowski & Vishwanath R. Lingappa.

Protein Folding, Processing and Degradation 2 Protein Folding Protein in native state is not static Protein in native state is not static –2° structural.

Cellular compartmentalization Pages Q1 Name at least two of the three protein complexes involved in the electron transport chain?

© 2003 By Default!Slide 1 Protein Sorting, Transport and modification part1 M. Saifur Rohman, MD, PhD, FIHA.

Molecular Cell Biology

MOLECULAR CELL BIOLOGY SIXTH EDITION MOLECULAR CELL BIOLOGY SIXTH EDITION Copyright 2008 © W. H. Freeman and Company CHAPTER 13 Moving Proteins into Membranes.

Fates of Proteins in Cells See also pages in Goodman.

Functions of the Nucleus 1. Role in cell division. 2. Influences cytoplasmic events. 3. Contains codes for protein synthesis.

Chapte r 8 Protein localization. 8.1 Introduction 8.2 Chaperones may be required for protein folding 8.3 Post-translational membrane insertion depends.

Endomembrane System Yasir Waheed NUST Center of Virology & Immunolgy National University of Sciences &Technology.

Introduction to Cells How we study cells: Two basic types: microscope

LECT 20: PROTEIN SYNTHESIS AND TRANSLATIONAL CONTROL High fidelity of protein synthesis from mRNA is essential. Mechanisms controling translation accuracy.

ER and Golgi: Working Together! Mr. Nichols PHHS.

Cell Presentation Enter your name.

Translocation into mitochondria/plastids/peroxisome 1.The question and complexity Both mitochondria and plastids have their own genome but a large number.

Chapter 8 Lecture Outline

Slide 1 of 35 Nucleus Slide 2 of 35 Nucleus (Answers) 1. Nucleolus 2. Nuclear Pore3. Chromatin 4. Inner Nuclear Membrane 5. Outer Nuclear.

BIO201A Cell Biology Lecture 29 Wednesday 04/04/07.

Chapter 12 Intracellular Compartments and Protein Sorting.

Copyright (c) by W. H. Freeman and Company 17.3 The rough ER is an extensive interconnected series of flattened sacs Figure

Membrane Transport A Thermodynamic Perspective

Protein targeting or Protein sorting Refer Page 1068 to 1074 Principles of Biochemistry by Lehninger & Page 663 Baltimore Mol Cell Biology.

Protein degradation rate varies 100x

Post-Translational Events I Protein Trafficking

Biochemistry 2/e - Garrett & Grisham Copyright © 1999 by Harcourt Brace & Company.

Protein Localization Chapter Introduction Figure 10.1.

The Nobel Prize in Physiology or Medicine 1999

Protein Sorting & Transport

MOLECULAR CELL BIOLOGY © 2008 W. H. Freeman and Company

Chapter 22 Gene Expression: II. Protein Synthesis and Sorting.

Intracellular Compartments and Protein Sorting

Protein Synthesis and Transport within the Cell

structure & function of eukaryotic organelle

Mitochondrial import machinery: TOM - the translocase of

The major protein‐translocation machineries in eukaryotic and prokaryotic cells. The major protein‐translocation machineries in eukaryotic and prokaryotic.

Intracellular Compartments and Transport

Electron Micrograph of a Neuron

Importing Mitochondrial Proteins: Machineries and Mechanisms

Chapter 12 Intracellular Compartments and Protein Sorting

Presentation transcript:

Post-Translational Events I Translocation of Newly Synthesized Proteins into Membranous Organelles

Locations of Protein Synthesis ER Associated Ribosomes –proteins translocate co-translationally into ER lumen –subsequent processing & transport through Golgi for secretory vesicles and lysosomes Cytoplasmic Ribosomes –proteins translocated post-translationally into membranous organelles (except Golgi, ER and lysosome)

Transport of Cytoplasmically Synthesized Proteins Import into organelles (transmembrane and lumenal) –Mitochondrial import –Chloroplast import –Peroxisome import Translocation across plasma membrane Insertion in cytoplasmic face of plasma membrane

Signal Sequences Portions of protein sequence –Frequently N-terminal, C-terminal –Occasionally located within –Often cleaved following transport event Signal Recognition Particles/Complexes –protein-translocation channels –escort (chaperone) proteins

Mitochondrial Protein Import Four Destinations –Outer membrane –Innermembranous space –Inner membrane –Matrix TOMs –Translocase of the outer mitochondrial membrane TIMs –Translocase of the inner mitochondrial membrane Tiny TIMs –escorts of the innermembranous space

TOM & TIM Function

Tiny TIMs and TIM22

TOC & TIC

Peroxisome Import Signal sequence for recognition by PEX5 -SKL- COOH

Peroxisome Formation

Translocation of ER-Associated Ribosome Synthesized Proteins

Docking of Ribosomes to ER Signal peptides typically residues – shorter than those on cytostolically synthesized proteins

Signal Recognition Particle Ribonucleoprotein complex Similar to bacterial SRP Ribosome binding Signal peptide binding translocation

Translocation of Various Classes of ER Proteins lumenal proteins Type 1 transmembrane proteins Type 2 transmembrane proteins multipass transmembrane proteins