Monica Wilson Signal-Mediated Transport Through Nuclear Pore Complex.

Slides:

Advertisements

Similar presentations

Eukaryotic Cell Structures & Functions

Advertisements

Targeting of Proteins to the Organelles

Nuclear structure Nuclear pore Import/ Export Signals Receptors Ran (Directionality) FG Platform (Gating) Regulation Nuclear Import & Export Overview.

The Cell Nucleus. The evolutional significance The formation of nucleus was an essential event in evolution. Containing nucleus or not is an important.

My Summer Undergraduate Research Experience. Kinetics of Thyroid Hormone Receptor α Nuclear Import Xenopus laevis.

Biology 3.3 Cell Organelles

Cytoplasmic Membrane Systems I Lecture 11. The Cellular Compartmentalization Problem of Eukaryotic Cells Cytoplasm: Cytosol plus Organelles Excluding.

9 The Nucleus Student Learning Outcomes: Nucleus distinguishes Eukaryotes from Prokaryotes Explain general structures of Nuclear Envelope, Nuclear Lamina,

The Nucleus Nuclear Organization Nuclear Envelope and Molecular Trafficking Nucleolus and rRNA Processing The nucleus is one of the main features that.

Intracellular Compartments and Protein Sorting

Roadmap of protein traffic inside cell.

Membrane Transport III Chapter 11. Selectivity of a K + channel.

The Cell Nucleus and the Control of Gene Expression

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

Chapter 12 The Cell Nucleus and the Control of Gene Expression Copyright © 2010 by John Wiley & Sons, Inc.

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

Compartments and Information Flow between Nucleus & Cytoplasm Lecture 18 BSCI 420/421 Oct 14, 2002 “Your future is ahead of you” - Yogi Berra 1. Compartments.

HUMAN ANATOMY Fifth Edition Chapter 1 Lecture Copyright © 2005 Pearson Education, Inc., publishing as Benjamin Cummings Chapter 2 Lecture Chapter 2 The.

Virus Intracellular Movement LECTURE 11: Viro100: Virology 3 Credit hours NUST Centre of Virology & Immunology Waqas Nasir Chaudhry.

Cell Biology Lecture 6. Nucleus Structural components (molecular structure and function of each component) 1. Nuclear envelope 2.Nucleoskeleton 3.Nuclear.

Part 1: Intracellular trafficking Week 1: Transport through the nuclear pore complex Week 2: RNA transport, maturation & localization Week 3: ER translocation.

Carbohydrates *monosaccharides Linear and ring forms: Abbreviated ring structure Macromolecules.

Part 1: Intracellular trafficking Week 1: Transport through the nuclear pore complex Week 2: RNA transport, maturation & localization Week 3: ER translocation.

Lecture 6 - Intracellular compartments and transport I.

Lipids *hydrophobicity based on structure Fats store energy *Glycerol *Fatty acid Fats can be: Saturated Unsaturated Macromolecules.

Lecture 6 Intracellular Compartments and Protein Sorting.

By Mariah Ghant, Saori Ishizuka, and Monica Lin.   The set of membranes found in eukaryotic cells that carry out a variety of tasks in the cell  Tasks.

Cell Structure and Organelles

2.1 The Structure & Functions of Eukaryotic Cells.

The Endoplasmic Reticulum (ER) Jill, Edward, and Nicole.

Eukaryotic Cell Structures & Functions An Organelle Is: A minute structure within a plant or animal cell that has a particular job or function.

Last Class: 1. Posttranscription regulation

AP Biology Chapter 7. The Cell: Nucleus, Ribosomes.

A view of the cell: plasma membrane *All cells are membrane bound, possess ribosomes and contain DNA Red blood cell outside of cell inside of cell Hydrophobic.

Cells A Comparison of Eukaryotes and Prokaryotes.

Chapter Twelve: Macromolecular Transport Across the Nuclear Envelope Amberlea Elliott October 21, 2003.

The Nucleus Stephanie Baur Daniel Luna. Eukaryotic vs. Prokaryotic Location of DNA – Nucleus vs. Nucleoid – Double membrane or Non membrane-enclosed.

From Cytosol to organelles---post-translational translocation The big picture :

Oocyte injection assay Protein source : In vitro translation.

Lodish Berk Kaiser Krieger Scott Bretscher Ploegh Matsudaira MOLECULAR CELL BIOLOGY SIXTH EDITION CHAPTER 13 Moving Proteins into Membranes and Organelles.

Chapter 12 Processing pre-mRNA and Nuclear Transport

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

Pharmaceutical Biotechnology. Protein Synthesis Recombinant DNA Technology.

Trends in Biomedical Science

Chapter 6A A Tour of the Cell. Cytology: science/study of cells Light microscopy Resolving power~ measure of clarity Electron microscopy TEM~ electron.

Cell StructureSection 2 Key Ideas What does the cytoskeleton do? How does DNA direct activity in the cytoplasm? What organelles are involved in protein.

The Cell is like a… Because…. Manufacturing Plant.

Cell Communication (Chpt. 11) Chapter 11. Overview of Cell Signaling Signaling evolved early in history of life Communicating cells may be close together.

Protein Synthesis AS Biology. Protein synthesis pg DNA unwinds 2. mRNA copy is made of one of the DNA strands. 3. mRNA copy moves out of nucleus.

RanBP3 enhances nuclear export of active β-catenin independently of CRM1 Hendriksen et al., JCB(2005)

Phospholipids are a class of lipids and are a major component of all biological membranes. They produce tiny pores which can allow simple diffusion and.

Chapter 8 Intracellular Compartments and Protein Sorting: Transport Between the Nucleus and the Cytosol.

Unit 2 – The Cell n Chapter 7~ A Tour of the Cell.

Cell Biology & Biochemistry Series : Set 4 Version: 1.0.

Protein. Protein and Roles 1: biological process unknown 1.1 Structural categories 1.2 organism categories 1.3 cellular component o unlocalized.

2.1 The Structure & Functions of Eukaryotic Cells.

Inside the Eukaryotic Cell

Cell Theory & Eukaryotic Structures Cell theory – All living things are made of cells – Cells are the basic unit of life – New cells come from existing.

Protein Synthesis 12 Biology. Protein synthesis 1. DNA unwinds 2. mRNA copy is made of one of the DNA strands. 3. mRNA copy moves out of nucleus into.

Chapter 5.3 The Cell: Nucleus, Ribosomes

Facilitated Diffusion

Chapter 6 The Cell: Nucleus, Ribosomes

I. Protein export II. Structure and composition of the nuclear pore complex (NPC) III. Mechanism of translocation through the NPC.

Chapter 7 Test: Friday Cell Project: 9/25/14

WEEK 12 VOCABULARY CYTOPLASM NUCLEOLUS NUCLEAR MEMBRANE NUCLEAR PORES

Peroxisomal Protein Import

Baby Nuclear Pores Grow Up Faster All the Time

Nikos Xylourgidis, Maarten Fornerod Developmental Cell

Chapter 7 Vocab Quiz: Thursday Test: Friday Cell Project: Th. 2/22/07

Presentation transcript:

Monica Wilson Signal-Mediated Transport Through Nuclear Pore Complex

Outline What is a nuclear pore complex? What is a nuclear pore complex? Structure of a nuclear pore complex. Structure of a nuclear pore complex. Nuclear Export Signals Nuclear Export Signals Nuclear Localization Signals Nuclear Localization Signals

What Is a Nuclear Pore Complex? In all eucaryotic cells the nuclear envelope is perforated by many pores. In all eucaryotic cells the nuclear envelope is perforated by many pores. Each pore forms an elaborate structure called Nuclear Pore Complex (NPC). Each pore forms an elaborate structure called Nuclear Pore Complex (NPC). Large, multiprotein structure in the nuclear envelope through which ions and small molecules can diffuse. Large, multiprotein structure in the nuclear envelope through which ions and small molecules can diffuse. NPC mediates the active transport of ribonucleoproteins and large proteins between the nucleus and cytoplasm. NPC mediates the active transport of ribonucleoproteins and large proteins between the nucleus and cytoplasm.

Structure of a Nuclear Pore Complex Extensive electron microscopy studies, predominantly of nucleoplasmin, an abundant nuclear protein in Xenopus oocytes, are responsible for the structure of NPC. NPC is about 30 times larger than a ribosome. Made up of different proteins.

Nuclear-export Signals (NES) Nuclear-export signal (NES) stimulates a particular protein’s active transport through nuclear pores. Nuclear-export signal (NES) stimulates a particular protein’s active transport through nuclear pores. Transport from nucleus to the cytosol. Transport from nucleus to the cytosol. The mechanism of export of proteins is best understood for those containing a leucine-rich NES. The mechanism of export of proteins is best understood for those containing a leucine-rich NES.

Nuclear-localization signals (NLS) All proteins actively imported through nuclear pore complexes contain a nuclear-localization signal. All proteins actively imported through nuclear pore complexes contain a nuclear-localization signal. Transport from cytoplasm to nucleus. Transport from cytoplasm to nucleus. Mechanism for import of “cargo” proteins is best understood for those containing a basic NLS. Mechanism for import of “cargo” proteins is best understood for those containing a basic NLS.

Summary Nuclear Pore Complex is a large multiprotein, which ions and small molecules can diffuse and mediates the active transport of macromolecules. Nuclear Pore Complex is a large multiprotein, which ions and small molecules can diffuse and mediates the active transport of macromolecules. The discovery of the structure of NPC was done with an electron micrograph, studying Xenopus oocytes. The discovery of the structure of NPC was done with an electron micrograph, studying Xenopus oocytes. The transport of proteins from nucleus to cytosol requires a nuclear export signal along with various other proteins and enzymes. The transport of proteins from cytosol to nucleus requires nuclear localization signal along with various other proteins and enzymes.

Questions?????