Presentation is loading. Please wait.

Presentation is loading. Please wait.

Dr. Alexander Galkin Oxygen in our body: energy vs death Queen’s University Belfast School of Biological Sciences.

Published byAudrey Wilkinson Modified over 9 years ago

Similar presentations

Presentation on theme: "Dr. Alexander Galkin Oxygen in our body: energy vs death Queen’s University Belfast School of Biological Sciences."— Presentation transcript:

1 Dr. Alexander Galkin Oxygen in our body: energy vs death Queen’s University Belfast School of Biological Sciences

2 Joseph Priestley Discovery of oxygen 1774-1779 He found that a mouse kept with a plant would survive. These kinds of observations led Priestley to offer an interesting hypothesis that plants restore to the air whatever breathing animals and burning candles remove - what was later coined by Lavoisier "oxygen".

3 Energy and oxygen Sugar + O 2 CO 2 + H 2 O Plants Animals Sun Energy Body Energy

4 What is happening with oxygen? O 2 + 4e - + 4H + 2H 2 O Animals Plants Oxygen molecules are being reduced by our body into water (O 2 accept electrons) RESPIRATION Plants are able to oxidise water molecules and release O 2 (H 2 O loses electrons) PHOTOSYNTHESIS

5 Where is it happening? ~10 15 mitochondria in our body ~ 10% of the body weight Adult consumes around 380 litres of O 2 each day (top athletes can sustain 10 times greater rate) 90-99% of oxygen we breath in is consumed by mitochondria Mitochondria Cell Mitochondria contains its own DNA and probably are result of a symbiosis

6 Tracking mitochondria (red) and cytoskeleton (green) http://www.youtube.com/watch?v=N51QgkRI26I

7 How is energy generated? ATP is regarded as a universal source of energy occurring in all cell types. In animals it is produced during the degradation of foodstuff. ATP ADP + Pi  Muscle work Thinking Tissue growth DNA synthesis Cell division energy Foodstuff (Glucose, fat, proteins) work  ATP is formed and hydrolysed at a rate of around 9  10 20 molecules per second, equivalent to a turnover rate of ATP of 65 kg per day

8 Respiratory chain couples oxygen consumption with ATP synthesis Inner Membrane H+H+ Foodstuff Respiratory chain ATP- synthase H+H+ H+H+ H+H+ H+H+ H+H+ H+H+ H+H+

9 O 2 + 4e - + 4H +  2H 2 O Mitochondria are main source of energy production in a cell Most likely mitochondria are responsible for production of 90% of our ATP. Inner mitochondrial membrane ~1400m 2 but... During respiration in mitochondria oxygen undergoes 4-electron reduction:

10 Small fraction of electrons can “leak” from the respiratory chain Some of oxygen molecules can be reduced by less than 4 electrons and form “free oxygen radicals” or reactive oxygen species (ROS) – these molecules urgently want to accept or to release electrons to go to the low energy state  they are highly reactive and can interact with other molecules in a cell – proteins, DNA and membrane lipids. Reactive oxygen species (ROS) One electron reduction of molecular oxygen O 2 + 1e -  O 2  - Superoxide radical (photochemistry or biological systems) Dismutation of superoxide radical O 2  - + O 2  - + 2H +  H 2 O 2 Hydrogen peroxide (hair lightening) Transition metal ions catalyse Fenton reaction Fe 2+ + H 2 O 2  Fe 3+ + OH - +  OH Hydroxyl radicals (house bleach)

11 Sources of ROS Enzymatic = leak from mitochondria and other systems Toxic compounds (paraquat, sulfa drugs, antimalarial drugs) = these can be called “pro-oxidants” Smoking Ionising radiation and UV

12 Mitochondrial free radicals theory of ageing Why mitochondria killed us in the end? Mitochondria make ROS as a byproduct of enery metabolism ROS damage mitochondrial DNA More mutations occure Proteins encoded in mtDNA cannot perform their functions anymore Mitochondria cannot produce enough energy     Energy crisis and DEATH  

13 How to change the situation? Molecules that can scavenge ROS are called antioxidants (found in fruits and vegetables). Caloric restriction after 40 yo – the less electrons are going through the mitochondria, the less leak would happen. Physical exercises strongly stimulate natural mechanisms of ROS detoxification

14 Ugly exception: Naked rat mole Naked mole rats live ~30 years (not 3-4 years as other rodents) They are mammals but their temperature is not constant Has only 100 hairs Underground colonies are organized like an insect community around a single breeding queen and workers and soldiers.

15 Ugly exception: Naked rat mole

16 http://www.qub.ac.uk/bb/Staff/DrAGalkin/ More stuff and bioenergetics links

Download ppt "Dr. Alexander Galkin Oxygen in our body: energy vs death Queen’s University Belfast School of Biological Sciences."

Similar presentations

Photosynthesis and Respiration

Photosynthesis and Respiration
All living organisms need energy

All living organisms need energy
Healthy Mitochondria. Reactive Oxygen Species (ROS) Production Regulated by several factors Regulated by several factors ROS are formed by Oxidative Phosphorylation.

Healthy Mitochondria. Reactive Oxygen Species (ROS) Production Regulated by several factors Regulated by several factors ROS are formed by Oxidative Phosphorylation.
How is energy being obtained by the organisms in this picture?

How is energy being obtained by the organisms in this picture?
Photosynthesis & Cellular Respiration. What is Photosynthesis?

Photosynthesis & Cellular Respiration. What is Photosynthesis?
BIOLOGICAL ROLE OF OXYGEN

BIOLOGICAL ROLE OF OXYGEN
Oxidants and Aging Rolf J. Mehlhorn Lawrence Berkeley Laboratory

Oxidants and Aging Rolf J. Mehlhorn Lawrence Berkeley Laboratory
Principles of Biology By Frank H. Osborne, Ph. D. Cellular Respiration.

Principles of Biology By Frank H. Osborne, Ph. D. Cellular Respiration.
OCR 21 st Century Science Unit B4 Revision Animal and Plant cells Respiration and Photosynthesis.

OCR 21 st Century Science Unit B4 Revision Animal and Plant cells Respiration and Photosynthesis.
© 2010 Pearson Education, Inc. Lectures by Chris C. Romero, updated by Edward J. Zalisko PowerPoint ® Lectures for Campbell Essential Biology, Fourth Edition.

© 2010 Pearson Education, Inc. Lectures by Chris C. Romero, updated by Edward J. Zalisko PowerPoint ® Lectures for Campbell Essential Biology, Fourth Edition.
Cellular Respiration.

Cellular Respiration.
Cellular Respiration Pp 69 – 73 & 217 - 237.

Cellular Respiration Pp 69 – 73 &
Cellular Respiration Study Guide Answer Key.

Cellular Respiration Study Guide Answer Key.
Chapter 6 How Cells Harvest Chemical Energy

Chapter 6 How Cells Harvest Chemical Energy
Which of the following are autotrophs?

Which of the following are autotrophs?
Bioenergetics and Oxidative Phosphorylation Bioenergetics : describes the transfer and utilization of energy in biological system. Electron Transport:

Bioenergetics and Oxidative Phosphorylation Bioenergetics : describes the transfer and utilization of energy in biological system. Electron Transport:
Cellular Respiration What we do with the glucose from photosynthesis to release the energy stored in it.

Cellular Respiration What we do with the glucose from photosynthesis to release the energy stored in it.
Photosynthesis Cellular Respiration

Photosynthesis Cellular Respiration
Cellular Respiration.

Cellular Respiration.
The Electron Transport Chain & Chemiosmosis. Aerobic Respiration 1.Glycolysis: C 6 H 12 O 6  2C 3 H 4 O 3 + 2 ATP + 2 NADH 2.Krebs: 2C 3 H 4 O 3  6CO.

The Electron Transport Chain & Chemiosmosis. Aerobic Respiration 1.Glycolysis: C 6 H 12 O 6  2C 3 H 4 O ATP + 2 NADH 2.Krebs: 2C 3 H 4 O 3  6CO.

Similar presentations

Ads by Google