Cell Communication Chapter 11. Slide 2 of 25 Common Mechanism  The same set of cell signaling mechanisms show up: 1. _____ _ 2. ___.

Slides:

Advertisements

Similar presentations

Cell Communication Chapter 11 - Abridged.

Advertisements

CELL TO CELL COMMUNICATION Part 2. Transduction: Cascades relay signals Signal transduction involves multiple steps Multistep pathways can amplify a signal.

CELL COMMUNICATION. YOU MUST KNOW… THE 3 STAGES OF CELL COMMUNICATION: RECEPTION, TRANSDUCTION, AND RESPONSE HOW G-PROTEIN-COUPLED RECEPTORS RECEIVE CELL.

Chapter 11 Cell Communication. Cell Signaling Evolved early in the History of Life.

AP Bio: Chp.11 Cell Communication. G-protein-linked receptors: vary in their binding sites and for recognizing different G-proteins. Most have seven alpha.

Cell Signaling.

Chapter 11 Cell Communication. Question? u How do cells communicate? u By “cellular” phones. u But seriously, cells do need to communicate for many reasons.

11.2 Reception: A signaling molecule binds to a receptor protein, causing it to change shape A receptor protein on or in the target cell allows the cell.

Chapter 11 notes Cell Communication. The Cellular Internet Trillions of cells in a multicellular organism must communicate together to enable growth,

AP content - SBI4UP Mrs. Franklin.  The trillions of cells within an organism must communicate with one another to coordinate chemical reactions and.

CHAPTER 11 cell signaling

Cell Signaling A __________________________is a series of steps by which a signal on a cell’s surface is converted into a ________________________________________________.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings PowerPoint Lectures for Biology, Seventh Edition Neil Campbell and Jane Reece.

Chapter 11.  Cell-to-cell communication is essential for both multicellular and unicellular organisms  Biologists have discovered some universal mechanisms.

Cellular Communication Denise M. Green Denise Green.

Cell Communication Chapter 9. Please note that due to differing operating systems, some animations will not appear until the presentation is viewed in.

Chapter 11: Cell Communication

Response: Cell signaling leads to regulation of transcription or cytoplasmic activities Chapter 11.4.

Cell Communication Chapter 11 p Evolution of Cell Signaling There is great similarity in cell-signaling mechanisms of yeasts & mammals ▫Suggests.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings PowerPoint Lectures for Biology, Seventh Edition Neil Campbell and Jane Reece.

Cell Signaling basics.

Cellular Internet Cell to cell communication is essential in order for organisms to coordinate activities that develop, survive and reproduce Cell communication.

Cell Communication Chapter 11.

Cell Communication. Overview: The Cellular Internet Cell-to-cell communication is absolutely essential for multicellular organisms Nerve cells must communicate.

Cell Communication.

AP Biology Ch. 11 Cell Signaling.

Cell Communication.

Figure 11.0 Yeast. Figure 11.1 Communication between mating yeast cells Cell Communication Between separate organisms Between cells within an organism.

AP Biology Chapter 11 Cell Communication. AP Biology The Cellular “Internet”  Within multicellular organisms, cells must communicate with one another.

Cell Communication.

Cell to Cell Communication

CHAPTER 11 CELL COMMUNICATION. Local ‘talk’: Paracrine Signaling (local secretions from neighboring cells), direct cell to cell ‘talk’/via diffusible.

Cell Communication Chapter 11.

Cell Communication.

The Three Stages of Cell Signaling: A Preview

Cell Communication Chapter 11 Biology Campbell Reece.

AP Biology Cell Communication. AP Biology Communication Methods  Cell-to-cell contact  Local signaling  Long distance signaling.

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

Cell Communication.

You Must Know  3 stages of cell communication Reception, transduction, & response  How G-protein-coupled receptors receive cell signals & start transduction.

CHAPTER 11 CELL COMMUNICATION Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings Section B: Signal Reception and the Initiation.

CHAPTER 11 CELL COMMUNICATION Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings Section C: Signal-Transduction Pathways 1.Pathways.

Chapter 11 Cell Communication. Cell communication signal cells communicate by direct contact or by secreting local regulators ex: growth factors, neurotransmitters.

Signal Transduction AP Biology Unit 3 Cell to Cell Communication Can occur in both eukaryotes and prokaryotes How? –Mostly through chemical signals –Can.

Cell Communication Chapter 11 p

Cellular Communication Objectives 1. Learn how external signals are turned into cell responses 2.Learn the role of receptor proteins in communication 3.Learn.

Chapter 11 CELL COMMUNICATION – EXTERNAL SIGNALS ARE CONVERTED TO RESPONSES WITHIN THE CELL.

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings PowerPoint ® Lecture Presentations for Biology Eighth Edition Neil Campbell.

Cell Communication.

Cell Communication Ch 11 Notes. Cellular Internet  Cell to Cell communication essential for multicellular organisms  Coordinates activities of cell.

LECTURE PRESENTATIONS For CAMPBELL BIOLOGY, NINTH EDITION Jane B. Reece, Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Robert.

Cell Communication.  Cell-to-cell communication is essential for both multicellular and unicellular organisms  Biologists have discovered some universal.

Chapter 11. Signaling Types  Two main types  Local signaling  Also called paracrine signaling  Influence cells in the local vicinity  Ex. Growth.

Overview: Cellular Messaging

Cell Communication Chapter 11.

Overview of Cellular Signaling Mechanisms

Chapter 11 – Cell Communication

Cell Communication.

Overview: Cellular Messaging

Cell Communication Lecture 4 Fall 2008

Cellular Communication

Cell Communication.

Chapter 11 Cell-to-cell communication is essential for multicellular organisms Biologists have discovered some universal mechanisms of cellular regulation.

Cell Communication.

In multicellular organisms

Cell Communication.

Cell Communication.

Chapter 11 Notes Cell Communication.

Chapter 11 Cell Communication.

Cell Communication.

Presentation transcript:

Cell Communication Chapter 11

Slide 2 of 25 Common Mechanism  The same set of cell signaling mechanisms show up: 1. ___________ ___________ 2. _______ action  _______ ______ are mediated through a ___ ________ __________ ______ _______ ___________ _______ 3. _________  ________ are responsible for _____ ______ ________ & ____________ ________ in allergic rxns 4. ___________ (Onco- means cancer)  ______ _________& Oncoproteins

Slide 3 of 25 Cell-to-Cell Communication  Critical for ________ organisms  Trillions of cells must ________ __ _______ ___ _________ ______ ________  Recent research indicates: ______ results from _______ ___________  On last year’s AP Exam  Also crucial for ____________________ ___________ _____________________________________________ _____________________________________________

Slide 4 of 25 Recent Nobel Prizes in Medicine  2001 – Hartwell, Hunt, & Nurse – _____ ________ and ____ _____ ________ (yeast)  2002 – Brenner, Sulston, Horvitz – used C. elegans to elucidate the mechanism of __________  2006 – Fire & Mello - used C.elegans to discover the ________ of ___ ___________  2007 – Capecchi, Evans, & Smithies – Hox genes & __________ ___________ ___________  2012 – Gurdon & Yamanaka - ______

Slide 5 of 25

Slide 6 of 25

Slide 7 of 25

Slide 8 of 25 Simon Sez…  Signaling is a lot like the game “Simon Says…”  The signal is received: the game players ____: “Simon says take a step forward”  The signal is transduced: players __________________ _________________________________________  The signal elicits a response: players ____ ________if the command was preceded by “Simon says”

Slide 9 of 25 3 Stages of Signaling  Thesis: external signals are received & converted to responses within the cell 1. Reception  Signaling molecule _____________________= Shape Change 2. Transduction  _________________________________________________ _______________________________________________ 3. Response  __________ of _____________ _______________________

Slide 10 of 25 ____ form of signaling  Yeast (fungi) mating Saccharomyces cerevisiae Process: 1.______ mating factor 2.______ complementary mating factor 3.???? 4._______: grow toward opp. type 5._____ ____ = _______ ____________

Slide 11 of 25 Overview of Cell Signaling

Slide 12 of 25 View Animation  11_06 SignalingOverview_A.swf

Slide 13 of 25 Reception  Reception involves __________________________ _______________________  Only ______ ____have the _______ ______= only _________________________________  Signaling molecule usually called ________  ___________ binding causes a __________ change in the ____________ (remember induced fit?)  Conformational change = ______________________ ________________________________

Slide 14 of 25 2 Types of Signal Receptors 1. ______ _________ Receptors  ___________ or __________ _______ or signal molecules  ________________________(GPCR)  ____________________ (RTK)  ___ _________ Receptors 2. ___________ Receptors  __________ or ________ ligands  ____________________________________

Slide 15 of 25 G Protein-Coupled Receptor

Slide 16 of 25 G-Protein Coupled Receptor  Common receptor  Found in ____________________________________ ___________________________________________  Similarity between __________ and ________ evidences early evolution of G protein receptor molecules  Also responsible for ____________________________ _____________________________________________  ____________ exert their influence by G protein pathways

Slide 17 of 25 G-Protein  All G Proteins have same basic structure  ________ spanning the membrane  Loops on either face of the membrane for ________ _____

Slide 18 of 25 G-Protein Pathways  We can explain how (Vibrio cholerae) actually creates its symptoms  Cholera bacteria _________________________________ _______________________________________  This G protein regulates _________ and ____ _________  ____________________________________________  So ____________________________________________  ________________________________________________________ __________________________________  Amplification?  Patients require _____________________________________ _________________ _________________________________

Slide 19 of 25 Receptor Tyrosine Kinase (RTK)  ___________  Kinase = enzyme for _______ __ _________ ______

Slide 20 of 25 Ligand-Gated Ion Channel  Membrane receptor _____________________ _________________________________________  When the signal molecule binds, __________ ___________________  Important in ____ _________ _________  ______________ & ________ _________  Could be _________________________ instead of ___________________________

Slide 21 of 25 Intracellular Receptor  __________ signal molecules  Testosterone  Most intracellular receptor signals do ___________________ _______________________  Testosterone behaving as a _____________ _______ -- controls ________________ ________________________

Slide 22 of 25 Questions 1. What are the 3 types of cell signaling? 2. What are the 3 stages of cell signaling? 3. What is the role of the “a” and “α” factors in yeast mating? 4. What happens when the “a” and “α” factors have been exchanged?

Slide 23 of 25 Questions (Page 2)  1. 2 Types of Receptors  2. What are the 3 Types of Membrane receptors?  3. How does G-Protein coupled receptor differ from a Tyrosine kinase receptor?  4. Which receptor is associated with steroid signaling molecules?

Slide 24 of 25 View Animation  11_13SignalTransduction_A.swf

Slide 25 of 25 Transduction  ________ Pathway  Transduction = _______ _________  Signal ___________  Signal Transduction Pathways often involve a _____________ _________  Molecule is phosphorylated = ________  Phosphate removed = _____________

Slide 26 of 25 Protein Kinases (PK) -- enzymes that _______ _____________________ Protein Phosphatases (PP) -- enzymes that _______ _____________________

Slide 27 of 25 Protein Kinases  _____________ & ______________ of _______ is the primary mechanism of cellular activity regulation  __ __ ______ content codes for protein kinases  ________ _______ ______ leads to cancer  Protein ____________  Enzymes that __________________________  ________________________

Slide 28 of 25 Second Messengers  1 st messenger = ________  Only _____ & ___ have 2 nd messengers  Other important component of transduction pathways  Most components are __________ __ _________  ___ ________  ______ & _____  ________ ____ & ______ ___  Initiate a ____________ ________

Slide 29 of 25 Response  Response may occur in the _________ or __________  2 Types of typical response: 1. _________ _______ is regulated (turned on or off) 2. _________ __ _______ is regulated (promoted or inhibited)  Transcription Factors – _____________________ _______________________________________________

Slide 30 of 25 Transcription Factors

Slide 31 of 25 Signal Amplification  2 Reasons for multistep pathways: 1. ______ _____________ 2. ________ of Cell Signaling  Signal Amplification  _______________________________________________ _______________________________________________ _______________________________________________

Slide 32 of 25 Signal Specificity  Different cells have different _______  Different _______ ______  Different _____ _______or __________  Allows ________ ____ to have a _________ _______to the same signal  In Liver cells: Epinephrine = glycogen breakdown  glucose production  In cardiac muscle: Epinephrine = rapid & enhanced contractions

Slide 33 of 25

Slide 34 of 25 Scaffolding Proteins  Definition - ______ _____ proteins that __________________ ________________________  Crucial for __________ _________ ________ ___________  _______ ________ significantly increases efficiency of signal transfer  Scaffolding in ______ _____ hold together _________________ _________________________

Slide 35 of 25

Slide 36 of 25 Signal Termination  Just as certain molecules are ________, they too can be _________  Signal molecule leaves the receptor = ____________  _______ ____________ _________ phosphorylated protein kinases  Soon the _____ ____ is returned to its _____ form, and ____ __ __ _______again.

Slide 37 of 25 GF = Growth factor RTK = Receptor Tyrosine Kinase Ras = G Protein Associated with tumor growth Rho = G protein

Slide 38 of 25 RTK = Receptor Tyrosine Kinase GPCR – G-protein coupled receptor Apoptosis = Programmed cell death PDK1 = Protein dehydrogenase kinase Akt = Protein kinase -- Involved in apoptosis

Slide 39 of ______ 2. ______ 3. ______ 11. ______ 4. ______ 5. ______ 6. ______ 7. ______ 8. ______9. ______10. ______