Feb. 3rd, 2011 B4730/5730 Plant Physiological Ecology Respiration I.

Slides:

Advertisements

Similar presentations

THE CALVIN CYCLE: REDUCING CO2TO SUGAR

Advertisements

Bioenergetics Lecture 5 summary Last time –integrating catabolic metabolism, review catabolism This time –similarities and differences.

Mitochondria Guest lecturer: Chris Moyes, Dept of Biology Contact:

Mitochondrial Respiration. Respiration Glycolysis Glycolysis Citric acid cycle/kreb’s cycle Citric acid cycle/kreb’s cycle.

Exam booklet glycolysis Calvin cycle/ light-independent stage Krebs cycle.

Biology 3A - homeostasis. The organism and its environment Organisms have needs and produce wastes They must survive in environments that may be inconstant.

 Organisms must be able to transform energy from one form to another. ◦ Autotrophs —can transform energy from sunlight into chemical energy (can make.

Plant Water Deficit Responses HORT 301 – Plant Physiology November 11, 2009 Taiz and Zeiger, Chapter 26 (p ), Web Topic 26.1 Abiotic stress – environmental.

Plant Water Deficit Responses HORT 301 – Plant Physiology

Energy and Life Chapter 6. Energy cannot be created or destroyed.

8.1 Overview of Photosynthesis Photosynthesis converts solar energy into chemical energy. Organisms that carry on photosynthesis are called autotrophs.

Let's Review CH. 6 & 7.

Photosynthesis and Cellular Respiration. Photosynthesis Definition: process in which plant cells convert the energy from sunlight into chemical energy.

Unit II Cellular Processes: Energy and Communication Learning Goal 1 Describe how growth, reproduction and maintenance of the organization of living systems.

Chapter 11 Respiration and lipid metabolism

Photosynthesis Chapter 7.

Metabolism Catabolism-Glycolysis (Kreb Cycle) Anabolism-Photosynthesis.

Feb. 1 st, 2011 B4730/5730 Plant Physiological Ecology Photosynthesis I.

AP Bio Exam Review: Cell Energy (Respiration & Photosynthesis)

Redox buffering, respiration, and fermentation

Erin Corcoran and Callie Kopp. MAJOR  Photosynthesis- Changes solar energy into chemical energy.

Chapter 9 Cellular Respiration Objectives: 1.Cellular respiration is a catabolic pathway fueled by oxidizing organic compounds like sugar 2.Glycolysis.

AP Biology Discussion Notes Monday 12/01/2014. Happy December!

Packet 6 Cellular Energy.

Let’s Review!! Respiration and Photosynthesis. What are the three products of aerobic respiration? Carbon Dioxide, Water and ATP energy.

Mehler reaction (1951): in chloroplast (PS1), O2 → H2O2

Cellular Respiration Conversion of Chemical Energy in organic compounds (foods) to chemical energy of ATP, usable by cells.

Intro. To Cellular Respiration and Redox. Big Picture Sun gives energy to plants Plants store energy as organic molecules Animals eat plants Energy eventually.

Johnson - The Living World: 3rd Ed. - All Rights Reserved - McGraw Hill Companies Energy and Life Chapter 5 Copyright © McGraw-Hill Companies Permission.

Obtaining Nutrients I.We need plants to fulfill life processes such as digestion, breathing, blinking, etc.

Biology 1308, Chapter 8, Photosynthesis Photosynthesis converts solar energy into chemical energy. Organisms that carry on photosynthesis are called autotrophs.

Photosynthesis Review Identify the chloroplast. 1. A 2.B 3.C 4.D 5.E 10.

1 ST Semester Review. What is Science Bio ChemCell Structure PhotosynCellular Respiration Cell growth and division

Chemical Reaction in Living Things  Energy Conversion  Reactants (substances needed)  Products (new substances created) Energy of Photosynthesis.

Photosynthesis Turning Light into Life. What is Photosynthesis? Autotrophs convert Sunlight  to Chemical Energy.

Living Systems Why Plants R Green Photo Stages With Oxygen More Respiration Photo & Respiration.

Plant respiration - chapter 11 The oxidation of sugars to produce usable energy (ATP), reductant (NADH), and carbon “skeletons” for biosynthesis. C 12.

Jan. 25 th, 2011 B4730/5730 Plant Physiological Ecology Photosynthesis I.

Jan. 18, 2011 B4730/5730 Plant Physiological Ecology Subcellular Processes II.

Introduction to Cell Respiration chp 7 Life is Work!!!

AP Biology Cellular Respiration Overview Part 1. Process of Cellular Respiration.

Who Wants To Be A Science Expert? With your host, Ms. Beth Walker.

AP Biology Discussion Notes Tuesday 12/09/2014. Goals for the Day 1.Be able to describe what a photosystem is and how it works. 2.Be able to describe.

Photosynthesis Light + 6CO 2 + 6H 2 0 → C 6 H 12 O 6 + 6O 2 How does this relate to respiration?

Chapter 8 Photosynthesis *You need to write only what is in white.

An Overview of Cellular Respiration

Jan. 25th, 2011 B4730/5730 Plant Physiological Ecology

AP Bio Exam Review: Cell Energy (Respiration & Photosynthesis)

Cells! Created by Educational Technology Network

AP Bio Exam Review: Cell Energy (Respiration & Photosynthesis)

Electron Transport Chain

GRADING RUBRIC WKS: Fall Final Review.

Uncoupling proteins and non-alcoholic fatty liver disease

Topic 7.6 – HL Level Enzymes HL.

Feb. 8th, 2011 B4730/5730 Plant Physiological Ecology

Photosynthesis and Cellular Respiration Intro

Harvesting energy: photosynthesis & cellular respiration

Cellular Respiration (an overview)

Cellular Respiration.

Mitochondrial Respiration

Photosynthesis and Cellular Respiration Review

Cellular Respiration.

AP Bio Exam Review: Cell Energy (Respiration & Photosynthesis)

AP Bio Exam Review: Cell Energy (Respiration & Photosynthesis)

Photosynthesis and Respiration

Cellular Respiration.

Photosynthesis Photosynthesis Song

AP Bio Exam Review: Cell Energy (Respiration & Photosynthesis)

Presentation transcript:

Feb. 3rd, 2011 B4730/5730 Plant Physiological Ecology Respiration I

F s is steady state Fluorescence (F’) Closed circle F’ m amb CO2 Closed triangle F s amb CO2 Open circle F’ m elev CO2 Open triangle F s elev CO2

Leipner et al Env. Exp. Bot Maize

Mesophyll conductance Flux of CO 2 to stroma (C c ) limited by g s, g m and g b Recent work has shown g m to be variable and important –Low g m reduces C C underestimate V Cmax C c =C i -A/g m –Estimate g m with curve fitting Estime g m with fluorescence and A

Hedera helix; Pons et al J Exp Bot 2009

Many species; S c = surface area of chloroplasts exposed to intercellular airspace; Evans et al J Exp Bot 2009

Limitations to the Farquhar/Fluorescence model of Photosynthesis No gene expression controls –Connection to hormones, whole plant controls –Longer time scales Stomatal physiology almost a black box Scale of leaf patchiness violates homogeneity Light dynamics problematic Respiration models are crude

Autotrophic Respiration Can not describe plant growth from photosynthesis only –High N requirements for enzymes of both Total Respiration is the sum of –Maintenance –Growth –Transport All eukaryotes with mitochondria have cytochrome respiratory pathway –Inhibited by cyanide –Plants have cyanide resistant pathway that uses AOX –animal regulation before glycolysis, plants during

Autotrophic Respiration Respiration can be regulated by energy demand or substrate supply –Photosynthesis and respiration connected through chemiosmosis (AOX) Ratio of CO 2 to O 2 (respiratory quotient) varies with tissue type and substrates used –<1 more reduced substrates –>1 more reduced products

Alternative Respiration Pathway Alternative Respiration pathway (CN resistant) –Respiration production exceeds demand, reactive oxygen species (ROS) activated –Uses alternative oxidase (AOX) instead of cytochrome electron transport chain –Generates heat –Various hypotheses about regulation and purpose Uncoupling proteins (UCP) connect to photosynthesis –Uncoupling proteins relieve excess pH gradient in mitochondria –Photorespiration inhibited by loss of UCP, ROS problems

Kruse et al New Phyt 2011

Philodendron bipinnatifidum Miller et al New Phyt 2010

Alternative respiration white; Gray total respiration

Cucumis sativus; Juszcuk et al Phys Plant 2007 MSC16 mutant with lowered respiration/growth rates encoded by mitochondrial genome

Arabidopsis thaliana; Sweetlove et al PNAS 06 ucp1 mutant without uncoupling protein