Atp structure.

Slides:

Advertisements

Similar presentations

Cellular Respiration Stage 2 & 3: Oxidation of Pyruvate Krebs Cycle

Advertisements

Targeting of Proteins to the Organelles

Thursday 9/ Mike Mueckler

Description Mitochondria are oval shaped organelles scattered randomly throughout the cytoplasm. They are the energy factories of the cell and produce.

11 Bioenergetics and Metabolism

Cellular Respiration. Cellular respiration What does it do?  Uses glucose to create ATP How do plants get glucose? make it themselves (autotroph) How.

Aerobic Respiration & Energy Production Dr. Michael P. Gillespie11.

Readings and Objectives Reading – Russell : Chapter 6 – Cooper: Chapter 3, 11 Objectives Sugar metabolism Mitochondrion structure Mitochondrial genome.

Chapter 12 Intracellular Compartments and Protein Sorting.

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

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

Biology 107 Cell III September 26, Cell III Student Objectives:As a result of this lecture and the assigned reading, you should understand the following:

Biology 107 Cellular Respiration October 3, 2003.

Biology 107 Cell III September 29, Cell III Student Objectives:As a result of this lecture and the assigned reading, you should understand the following:

Biology 107 Cellular Respiration September 30, 2005.

Chapter 7: How Cells Harvest Energy

Energy, Catalysis and Biosynthesis

Lecture 6 Intracellular Compartments and Protein Sorting.

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

Essential Cell Biology

Molecular Biology of the Cell

The Cell Division Cycle

Mitochondria. Introduction In 1890 a German scientist Altman observed mitochondria in the tissue of mouse liver and coined the term elementarorganism.

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

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

Bacterial protein secretion systems

AP Biology Cellular Respiration Electron Transport Chain.

NADH NAD + H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ O2O2 O H2OH2O H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ Electron Transport ATP.

Control of Gene Expression

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

Top X interactions of PIN Network A interactions Coverage of Network A Figure S1 - Network A interactions are distributed evenly across the top 60,000.

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

Cellular Respiration.  During photosynthesis the Sun’s energy is captured & stored in the form of carbohydrates & other organic molecules.

Essential Cell Biology

AP Biology Cellular Respiration Stage 4: Electron Transport Chain animations/etc/movie- flash.htm.

Essential Cell Biology Third Edition Chapter 1 Introduction to Cells Copyright © Garland Science 2010.

AP Biology Cellular Respiration Stage 2 & 3: Oxidation of Pyruvate Krebs Cycle.

An Overview of Cellular Respiration

Molecular Biology of the Cell

Figure Molecular Biology of the Cell (© Garland Science 2008)

Figure 14-1 Molecular Biology of the Cell (© Garland Science 2008)

Protein Localization Chapter Introduction Figure 10.1.

Pathways for the incorporation of polypeptides into mitochondria. A

Volume 23, Issue 5, Pages (May 2016)

Role of molecular chaperones in the importation of polypeptides into the mitochondrial matrix. Recently synthesized cytoplasmic polypeptides are kept in.

Chapter 4. Protein sorting and vesicle trafficking

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

Volume 24, Issue 3, Pages (September 2017)

Atsushi Tanaka, Richard J. Youle Molecular Cell

Intracellular Compartments and Protein Sorting

THE POWERHOUSE OF THE CELL

Components of the mitochondrial protein‐import machineries.

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.

Mammalian versus yeast OXPHOS system.

Volume 23, Issue 5, Pages (May 2016)

Organelle Evolution: A Mosaic of ‘Mitochondrial’ Functions

Organelle Evolution: A Mosaic of ‘Mitochondrial’ Functions

5.7 Electron Transport Chain

Mitochondrial Matrix Reloaded with RNA

Volume 19, Issue 3, Pages (March 2014)

Electron Transport Chain

Chaperoning through the Mitochondrial Intermembrane Space

Importing Mitochondrial Proteins: Machineries and Mechanisms

Mitochondrial pharmacology

Mitophagy and Quality Control Mechanisms in Mitochondrial Maintenance

F.-Nora Vögtle, Chris Meisinger Developmental Cell

Figure 5-1 Molecular Biology of the Cell (© Garland Science 2008)

Presentation transcript:

Atp structure

Outer membran Sorting and assembly machinery of the outer mitochondrial membrane. The precursors of -barrel proteins are initially imported through the TOM complex, interact with small TIM chaperones (Tim9–Tim10 complex, Tim8–Tim13 complex) in the intermembrane space, and are inserted into the outer membrane by the SAM complex. Other outer membrane proteins—the MDM complex and Mim1—support assembly of -barrel proteins. Mdm, mitochondrial distribution and morphology; Mim1, mitchondrial import 1; Mmm1, maintenance of mitochondrial morphology 1; SAM, sorting and assembly machinery; TIM, translocase of the inner memebrane; TOM, translocase of the outer membrane.

Two main protein import pathways of mitochondria. Presequences direct proteins through the TOM complex, TIM23 complex and motor PAM to the matrix; the mitochondrial processing peptidase (MPP) removes the presequences. Cleavable inner membrane proteins are laterally released from the TIM23 complex. Carrier precursors with internal targeting signals are recognized by the receptor Tom70, and translocated by the TOM complex and the Tim9–Tim10 chaperone of the intermembrane space. The TIM22 complex promotes insertion of carrier proteins into the inner membrane. MtHsp70, matrix heat shock protein 70; PAM, presequence translocase-associated motor; TIM, translocase of the inner membrane; TOM, translocase of the outer membrane.

Multiple pathways for sorting mitochondrial precursor proteins Mitochondrial intermembrane space import and assembly machinery. Precursors of small intermembrane space (IMS) proteins are translocated through the TOM complex and bound by Mia40 through disulphide bonds. The sulphydryl oxidase Erv1 cooperates with Mia40 in the oxidation of precursor proteins and their assembly into oligomeric complexes. Further factors such as Hot13 support assembly of the protein complexes. Erv1, Essential for respiration and viability 1; Hot13, Helper of TIM13; Mia40, mitochondrial intermembrane space import and assembly; TIM, translocase of the inner membrane; TOM, translocase of the outer membrane.

Sorting and assembly machinery of the outer mitochondrial membrane. The precursors of -barrel proteins are initially imported through the TOM complex, interact with small TIM chaperones (Tim9–Tim10 complex, Tim8–Tim13 complex) in the intermembrane space, and are inserted into the outer membrane by the SAM complex. Other outer membrane proteins—the MDM complex and Mim1—support assembly of -barrel proteins. Mdm, mitochondrial distribution and morphology; Mim1, mitchondrial import 1; Mmm1, maintenance of mitochondrial morphology 1; SAM, sorting and assembly machinery; TIM, translocase of the inner memebrane; TOM, translocase of the outer membrane.

Two main protein import pathways of mitochondria. Presequences direct proteins through the TOM complex, TIM23 complex and motor PAM to the matrix; the mitochondrial processing peptidase (MPP) removes the presequences. Cleavable inner membrane proteins are laterally released from the TIM23 complex. Carrier precursors with internal targeting signals are recognized by the receptor Tom70, and translocated by the TOM complex and the Tim9–Tim10 chaperone of the intermembrane space. The TIM22 complex promotes insertion of carrier proteins into the inner membrane. MtHsp70, matrix heat shock protein 70; PAM, presequence translocase-associated motor; TIM, translocase of the inner membrane; TOM, translocase of the outer membrane.

Figure 14-56a Molecular Biology of the Cell (© Garland Science 2008)

Figure 14-56b Molecular Biology of the Cell (© Garland Science 2008)

Figure Molecular Biology of the Cell (© Garland Science 2008)

Figure Molecular Biology of the Cell (© Garland Science 2008)

Figure Molecular Biology of the Cell (© Garland Science 2008)

Figure Molecular Biology of the Cell (© Garland Science 2008)

Table 14-3 Molecular Biology of the Cell (© Garland Science 2008)

Figure Molecular Biology of the Cell (© Garland Science 2008)