Mitochondria Tamboli Alija Z. Dept of Zoology, S.M.Joshi Collge , Hadapsar. F.Y.B.Sc.

Slides:



Advertisements
Similar presentations
Cellular Respiration Notes: 10/8/12.
Advertisements

Note! Please see 3.7 Cell Respiration Core prior to using this presentation.
Mitochondria & ATP explain why the theoretical maximum yield of ATP per molecule of glucose is rarely, if ever, achieved in aerobic respiration; explain,
MITOCHONDRIA AND CHLOROPLASTS Structure and function - a review.
Energy Generation in Mitochondria and Chloroplasts
2. Cellular Respiration A series of metabolic pathways involving 3 separate phases: Krebs cycle electron transport system oxidative phosphorylation Oxidizes.
The Structure of Mitochondria The Structure of Mitochondria Matrix – internal cytosol that contains enzymes for link reaction and Krebs Cristae.
Objectives Contrast the roles of glycolysis and aerobic respiration in cellular respiration. Relate aerobic respiration to the structure of a mitochondrion.
Chapter 13 &14 Energy Generation in Mitochondria.
Cellular Respiration Notes: 10/8/12.
Pyruvate Oxidation. Mitochondria In eukaryotes, mitochondria produce the majority of the cell’s ATP Mitochondria: oval shaped organelles with a double.
Oxidative Phosphorylation
CELLULAR RESPIRATION CHAPTER 9 SC B-3.2 Summarize the basic aerobic & anaerobic processes of cellular respiration & interpret the equation.
Introduction to Animal Cells
CELLULAR RESPIRATION BIOLOGY IB/ SL Option C.3.
Essential Knowledge 2.A.2: Organisms capture and store free energy for use in biological processes.
Aerobic Respiration Only occur in the presence of oxygen Two stages
BY. 1. WHAT IS MITOCHONDRIA? 1. WHAT IS MITOCHONDRIA? 2.STRUCTURE OF MITOCHONDRION 2.STRUCTURE OF MITOCHONDRION 3.THE OUTER MEMBRANE 3.THE OUTER MEMBRANE.
MITOCHONDRIA (Powerhouse of the Cell). Mitochondria (singular, mitochondrion) – are typically tubular or rod-shaped organelles found in the cytoplasm.
AP Biology Cellular Respiration Electron Transport Chain.
Glucose to ATP. Mitochondria are important organelles in the cell that contain enzymes and proteins that help in processing carbohydrates and fats obtained.
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.
Chemiosmotic mechanism of oxidative phosphorylation Active transport carrier proteins set up gradients which are then used to synthesize ATP ATP synthase.
8.1 Cellular Respiration October 5, State that oxidation involves the loss of electrons from an element, whereas reduction involves the gain.
CHAPTER 7: CELLULAR RESPIRATION. CELLULAR RESPIRATION Process where cells make ATP by breaking down glucose.
Aim: What is the electron transport chain?
Cellular Respiration AP Biology. The Equation C 6 H 12 O 6 + 6O 2  6CO 2 + 6H ATP C 6 H 12 O 6 = glucose 6O 2 = oxygen gas 6CO 2 = carbon dioxide.
The Mitochondria Auriel Edwards Medical Terminology Pre Med 1.
Structure and function of mitochondria
Cellular Respiration Topic 8.2 pt 2.
Respiration tutorial Catherine Haworth. Use of ATP Cells need a supply of ATP molecules to act as an immediate energy source for many processes such as:
How is life as we know it powered?
Creating more electron carriers
Mitochondria.
Cellular Respiration Electron Transport Chain
Mitochondria -Mitochondria are the “power-house” of the cells.
ULTRASTRUCTURE OF MITOCHONDRIA
Cellular Respiration Stage 2:Oxidation of Pyruvate Stage 3: Krebs Cycle Stage 4: ETC
ETC with Oxidative Phosphorylation
Mitochondria Mitochondria are the “power-house” of the cells. They perform oxidative phosphorylation for production of energy and able to synthesize lipid.
How Cells Harvest Chemical Energy
Mitochondria The term 'mitochondrion' is derived from a Greek word 'mitos' which means 'thread' and 'chondrion' which means 'granule'. The mitochondrion.
State the stages of glycolysis where
SBI 4U: Metablic Processes
Electron Transport Chain
Lecture 5: Other Cell organelles
Cellular Respiration Stage 2:Oxidation of Pyruvate Stage 3: Krebs Cycle Stage 4: ETC
AP & Pre-AP Biology Serrano High School
Energy Generation in Mitochondria and Chloroplasts
CELL RESPIRATION The Big Picture
Lecture 8 - Mitochondria
Cellular Respiration Stage 2 & 3: Oxidation of Pyruvate Krebs Cycle or Citric Acid Cycle
Cellular Respiration.
Cellular Respiration Stage 2 & 3: Oxidation of Pyruvate Krebs Cycle
Chapter 7 Table of Contents Section 1 Glycolysis and Fermentation
Chapter 7 Cellular Respiration
5.7 Electron Transport Chain
5.4 Cellular Respiration Overview
So what is going to be used in the next stage to produce what???
……….in the mitochondria
Dalin Abu Ap Biology 1st period
Chapter 7: Cellular Respiration
Bell Work! What is Cellular respiration?.
Cellular Respiration Stage 2 & 3: Oxidation of Pyruvate Krebs Cycle
Cell organelles.
Microbial cell structure
Energy Conversion: Mitochondria and ATP Production.
Mitochondria.
Presentation transcript:

Mitochondria Tamboli Alija Z. Dept of Zoology, S.M.Joshi Collge , Hadapsar. F.Y.B.Sc

Introduction Mitochondria were first seen by kollicker in 1850 in muscles and called them ‘sarcosomes’ Flemming (1882) described these organelles as ‘filia’ Altmann (1890) observed these structures and named them ‘bioblasts’. Benda (1898)stained these organelles with crystal violet and renamed them ‘mitochondria’ Michaelis (1900) used janus green B as a vital stain to observe mitochondria in living cells.

Morphology The shape of mitochondria is highly variable ranges from short rod shape to elongate filamentous form . The size of mitochondria is variable ,they generally measures about 0.5 to 2um in diameter. Mitochondria have an average length of 3 to 4um. The number of mitochondria varies from one cell type to another. Mitochondria are not found in prokaryotes.

Structure of Mitochondria

Ultra Structure A mitochondria is enclosed by a double membrane envelope composed of lipid and protein. The two membranes are separated by a narrow fluid –filled space called the outer compartment. The outer membrane is smooth, it is more permeable to small molecules, contains some enzymes but is poorer in proteins. The inner membrane surrounds a central cavity or matrix (inner compartment) filled with a fluid. Folds of inner wall of mitochondria are called cristae.

Inner Membrane Inner membrane is the site of the e- transport chain, across which the proton pump occurs and contains ATP synthase. Inner membrane is highly folded – called cristae – increasing the surface area on which the above reactions can take place

Mitochondrial Inner Membrane The inner mitochondrial membrane is compartmentalized into numerous cristae, which expand the surface area of the inner mitochondrial membrane, enhancing its ability to generate ATP. In typical liver mitochondria, for example, the surface area, including cristae, is about five times that of the outer membrane. Mitochondria of cells which have greater demand for ATP, such as muscle cells, contain more cristae than typical liver mitochondria.

Mitochondrial Outer Membrane The outer mitochondrial membrane, which encloses the entire organelle, has a protein-to-phospholipid ratio similar to the eukaryotic plasma membrane (about 1:1 by weight). It contains numerous integral proteins called porins, which contain a relatively large internal channel (about 2-3 nm) that is permeable to all molecules of 5000 daltons or less. Larger molecules, for example most proteins, can only traverse the outer membrane by active transport.

Mitochondria Double membrane creates 2 spaces Outer membrane Matrix – large internal space Intermembrane space – between the membranes Outer membrane Inner membrane

Page 457

Chemical Composition Mitochondria consists of protein-70 percent & lipids -25 -30percent. Mitochondria contain 0.5percent of RNA & traces of DNA . Mitochondrial DNA comprises about 1 percent of total cell DNA Mitochondria contain enzymes for oxidation phosphorylation & electron transfer.

Mitochondria Produce most of a cells ATP – acetyl groups in the Kreb’s cycle producing CO2 and NADH. NADH donates the e- to the electron transport chain and becomes oxidized to NAD+ e- transfer promotes proton pump and ATP synthesis in process called oxidative phosphorylation Cells that require large amounts of energy such as the heart have large numbers of mitochondria

Mitochondria Contain their own copies of DNA and RNA along with transcription and translation system (ribosomes) Are able to regenerate themselves without the whole cell undergoing division Shape and size dependent on what the cell’s function is