Presentation is loading. Please wait.

Presentation is loading. Please wait.

Cytoskeleton and Cell Motility. Objective To survey the structure, protein composition, and functions of a complex network of cytoplasmic filaments known.

Published byImogen Simmons Modified over 8 years ago

Similar presentations

Presentation on theme: "Cytoskeleton and Cell Motility. Objective To survey the structure, protein composition, and functions of a complex network of cytoplasmic filaments known."— Presentation transcript:

1 Cytoskeleton and Cell Motility

2 Objective To survey the structure, protein composition, and functions of a complex network of cytoplasmic filaments known collectively as the cytoskeleton.

3 Gunther von Hagens’ Body Worlds

4 Cytoskeleton Cells must perform tasks requiring structural framework Cell maintains shape Changes shape Endocytosis and phagocytosis Stabilization of cell attachment

5 Cytoskeleton Cells must perform tasks: requiring contractile machinery Transport vesicles, organelles, and chromosomes Divide cytoplasm Specialization of cell surface Cell motility

6 Cytoskeleton Microtubules (25 nm) Microfilament (6 nm) Intermediate filament (10 nm) Non-membranous organelles

7 Microtubules Composed of tubulin - highly conserved protein Dimer - alpha and beta tubulin protofilament – 13 in a microtubule Labile - delicate equilibrium of assembled and disassembled MICROTUBULE ASSOCIATED PROTEINS = MAPs

8 http://www.youtube.com/watch? v=PvDlilBgoSs&feature=related http://www.youtube.com/watch?v=5G ATtn4edeUhttp://www.youtube.com/watch?v=5G ATtn4edeU

9 Microtubule ultrastructure Cytoplasmic microtubules Axonemes – cilia and flagella – 9 doublets and centered pair Centrioles – organizing centers of interphase microtubules 9 triplets Basal bodies of cilia 9 triplets

10 Stable plus labile MT Stable MT only CYTOPLASMIC MICROTUBULES

11 Microtubule function Guide contractile force (actin) to move the cell organelles within its cytoplasm Organization of Golgi, ER, and mitochondria Separate chromosomes during mitosis

12

13 Microtubules Mitochondria Organization of mitochondria Same cell with double staining

14 ERMicrotubules Organization of ER Same cell with double staining

15 Microtubules shown here Golgi with microtubules present, but not shown here Golgi without microtubules present Organization of Golgi, ER, and mitochondria typical location of Golgi in the cell nucleus

16 http://www.youtube.com/watch?v=8R ULvE9rw6Y&featur e=relatedhttp://www.youtube.com/watch?v=8R ULvE9rw6Y&featur e=related http://www.youtube.com/watch?v=YX NVWjAIKC0&featu re=relatedhttp://www.youtube.com/watch?v=YX NVWjAIKC0&featu re=related http://www.youtube.com/watch?v=yKW4 F0Nu-UY

17 Centrioles 9 triplet microtubules Centrosome - centriolar duplex at the cell’s center Diplosome - pair of centrioles Self duplicating – develops from pre-existing procentrioles Re-growth of microtubules at the centrosome

18

19 Centrioles Essential for formation of cilia and flagella Basal body - root-like anchoring device Function in organizing microtubules that pull chromosomes apart in mitosis

20

21

22

23 Axoneme of cilia and flagella Tubules polymerize to form nine doublets Pairs of conjoined microtubules with common wall segment Central pair of microtubules

24 Axoneme of cilia and flagella Stable Dynein arms Paired lateral appendages Protein ATPase activity for ciliary and flagellar motility

25 Table 10-3 Major Protein Structures of the Ciliary Axoneme Axoneme Component (periodicity along axoneme) Function Tubulin dimers (8 nm)principal component of microtubules Dynein arms (24 nm)project from microtubule doublets and interact with adjacent doublets to produce bending Nexin links (86 nm)hold adjacent microtubule doublets together Radial spokes (29 nm)extend from each of the 9 outer doublets inward to the central pair Sheath projections (14 nm)project as a series of side arms from the central pair of microtubules; together with the radial spokes these regulate the form of the ciliary beat

26 CILIA and BASAL BODIES CILIA BASAL BODIES

27

28

29 Drugs that influence - microtubules assembly and disassembly Inhibitors: –Colchicine - inhibit assembly in vitro, destroy in vivo –Vinblastine - inhibit assembly in vitro, destroy in vivo Stimulator: –Taxol - stimulate assembly in vitro Use in cancer therapy?

30 Microtubules - summary Microtubules - cylindrical walled tubes composed 13 parallel protofilaments Protofilaments - linear polymers of alpha and beta tubulin Growth at one end away from nucleation site Polarity of direction of growth - directs movements of cytoplasmic organelles Microtubule associated proteins - form stabilizing cross links of MT and may be associated with polymerization of microtubules Colchicine

31 Microfilaments “actin filaments” Composition: Actin - highly conserved protein Actin associated proteins –MYOSIN - ATPase –Trophomyosin - rod-like protein –Filamin - bundles actin filaments

32 Actin associated proteins Myosin - ATPase Trophomyosin - rod-like protein Filamin - bundles actin filaments MYOSIN TROPHOMYOSIN FILAMIN Cell cytoplasm Striated muscle

33 Cell cytoplasm

34 Striated muscle

35 Microfilaments - function Cell motility - actin and myosin

36 Microfilaments - function Cell motility - actin and myosin

37

38 Microfilaments - function Cytokinesis - division of cytoplasm

39 Microfilaments - function Structural support –Stress fibers

40 Microfilaments

41

42 Microfilaments - function Structural support –Cell movement

43 Microfilaments - function Structural support - –Microvilli movement and shape –Pushes membrane out from cell

44 Microfilaments - function Structural support - –Microvilli - movement and shape

45 Microfilaments - function Structural support - –Microvilli - movement and shape

46 Microfilaments - function Structural support - Stereocilia - extension

47 Microfilaments - function Structural support - Stereocilia - extension

48 Microfilaments - function Structural support - –Microvilli - movement and shape

49

50

51

52 Microfilaments - contractile proteins Actin and myosin – present in muscle and most all cells Actin 10% to 15% of cellular protein, widely distributed

53 Summary: microfilaments - contractile proteins Terminal web – anchor actin filaments in microvilli Below cell surface – excludes other organelles

54 Intermediate filaments Five classes (not conserved) 1. Keratin – insoluble substance, epithelium 2. Desmin – cytoskeleton in muscle 3. Vimentin – nuclear envelope for mechanical support and stability of its location in cell, mesenchymal cell

55 Intermediate filaments 4. Neurofilaments Dendrites and axons of nerve cells Internal support - gelated state of cytoplasm 5. Glial filaments - astrocytes Five classes con’t

56 Intermediate filaments Immunofluorescence detection - tool in distinguishing cell type of origin for malignant tumors

57 Intermediate filaments - function Myofibril organization - muscle

58 Intermediate filaments - function Structural support of epithelial desmosomes and hemidesmosomes collagen

59 Intermediate filaments - function Extracellular - hair, nails, horn, feathers, and scales

60 Intermediate filaments common region in construction

61

62 Intermediate filaments

63

64

65 Nucleus and Mitosis Next time

66

67

68

Download ppt "Cytoskeleton and Cell Motility. Objective To survey the structure, protein composition, and functions of a complex network of cytoplasmic filaments known."

Similar presentations

Cytoskeleton.

Cytoskeleton.
Cytoskeleton Mark Wiser. Mitochondria Plasma Membrane Nucleus Lysosome ER Golgi.

Cytoskeleton Mark Wiser. Mitochondria Plasma Membrane Nucleus Lysosome ER Golgi.
Chapter 16 The Cytoskeleton.

Chapter 16 The Cytoskeleton.
Cytoskeleton Providing structural support to the cell, the cytoskeleton also functions in cell motility and regulation.

Cytoskeleton Providing structural support to the cell, the cytoskeleton also functions in cell motility and regulation.
CYTOSKELETON 1. SIGNIFICANCE OF CYTOSKELETON IN MEDICINE Example: Cytoskeletal structure: mitotic spindle (microtubules) * Cancer diseases therapy: taxanes.

CYTOSKELETON 1. SIGNIFICANCE OF CYTOSKELETON IN MEDICINE Example: Cytoskeletal structure: mitotic spindle (microtubules) * Cancer diseases therapy: taxanes.
Cytoskeleton of the cell BY Nouf al-yami. cytoskeleton of the cell The cytoskeleton forms the skeleton of each cell and is responsible for its specific.

Cytoskeleton of the cell BY Nouf al-yami. cytoskeleton of the cell The cytoskeleton forms the skeleton of each cell and is responsible for its specific.
Concept 4.6: The cytoskeleton is a network of fibers that organizes structures and activities in the cell The cytoskeleton is a network of fibers extending.

Concept 4.6: The cytoskeleton is a network of fibers that organizes structures and activities in the cell The cytoskeleton is a network of fibers extending.
Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings PowerPoint ® Lecture Slides prepared by Stephen Gehnrich, Salisbury University.

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings PowerPoint ® Lecture Slides prepared by Stephen Gehnrich, Salisbury University.
Cell Motility Lecture 17. Cell Motility Includes: –Changes in Cell Location –Limited Movements of Parts of Cells Occurs at the Subcellular, Cellular,

Cell Motility Lecture 17. Cell Motility Includes: –Changes in Cell Location –Limited Movements of Parts of Cells Occurs at the Subcellular, Cellular,
A Tour of the Cell, cont… Last Time: The Nucleus and the Endomembrane System Today: Other Organelles and the Cytoskeleton.

A Tour of the Cell, cont… Last Time: The Nucleus and the Endomembrane System Today: Other Organelles and the Cytoskeleton.
Copyright (c) by W. H. Freeman and Company Chapter 18 Cell Motility and Shape I: Microfilaments.

Copyright (c) by W. H. Freeman and Company Chapter 18 Cell Motility and Shape I: Microfilaments.
Cytoskeleton, Cell Walls, & ECM

Cytoskeleton, Cell Walls, & ECM
Introduction: Why the Cytoskeleton Is Important What is the function of the system on the right?

Introduction: Why the Cytoskeleton Is Important What is the function of the system on the right?
Cytoskeleton Introduction The cytoskeleton of a cell provides structure, strength, and motility. - It provides a cellular scaffolding upon which the cellular.

Cytoskeleton Introduction The cytoskeleton of a cell provides structure, strength, and motility. - It provides a cellular scaffolding upon which the cellular.
Chapter 7. The Cell: Cytoskeleton

Chapter 7. The Cell: Cytoskeleton
Cytoskeleton Structure Determines Function Kyndal Goodwin – B3.

Cytoskeleton Structure Determines Function Kyndal Goodwin – B3.
CHAPTER 7 A TOUR OF THE CELL Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings Section F: The Cytoskeleton 1.Providing structural.

CHAPTER 7 A TOUR OF THE CELL Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings Section F: The Cytoskeleton 1.Providing structural.
Concept 6.6: The cytoskeleton is a network of fibers that organizes structures and activities in the cell The cytoskeleton is a network of fibers extending.

Concept 6.6: The cytoskeleton is a network of fibers that organizes structures and activities in the cell The cytoskeleton is a network of fibers extending.
Microtubules (17) Dynamic instability –Growing and shrinking microtubules can coexist in the same region of a cell. –A given microtubule can switch back.

Microtubules (17) Dynamic instability –Growing and shrinking microtubules can coexist in the same region of a cell. –A given microtubule can switch back.
The Cytoskeleton... Is a supportive meshwork of fine fibers inside eukaryotic cells Provides structural support Is involved in cell movement and movement.

The Cytoskeleton... Is a supportive meshwork of fine fibers inside eukaryotic cells Provides structural support Is involved in cell movement and movement.

Similar presentations

Ads by Google