Presentation is loading. Please wait.

Presentation is loading. Please wait.

Plant Mineral Nutrition: Solute Transport HORT 301 – Plant Physiology October 9, 2009 Taiz and Zeiger, Chapter 6, Web Chapter 2 (p 1-10), Web Topic 6.3.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Plant Mineral Nutrition: Solute Transport HORT 301 – Plant Physiology October 9, 2009 Taiz and Zeiger, Chapter 6, Web Chapter 2 (p 1-10), Web Topic 6.3."— Presentation transcript:

1 Plant Mineral Nutrition: Solute Transport HORT 301 – Plant Physiology October 9, 2009 Taiz and Zeiger, Chapter 6, Web Chapter 2 (p 1-10), Web Topic 6.3 paul.m.hasegawa.1@purdue.edu Mineral nutrient and solute movement (transport) across the lipid bilayer of membranes Integral membrane transport proteins

2 Net transport of molecules from high to low concentration (diffusion)

3 Chemical potential (  ) drives solute transport across membranes Concentration gradient and electrical potential Passive Active

4 Existence of a membrane potential (  E) indicates that ions accumulated differentially on sides of the membrane APOPLAST pH 5.5

5 Transformation of an electrical gradient (membrane potential) into a concentration gradient ∆E (electrical potential/membrane potential) = 2.3RT/zF log C o /C i At equilibrium 2.3RT/zF = 59 mV ∆E = 59 mV log C o /C i if C o /C i = 10, log 10 = 1 then ∆E = 59 mV x 1 Thus, a membrane potential of ~60 mV = 10-fold concentration difference

6 For a univalent anion (-, e.g. Cl - ), a membrane potential of -120 mV (inside negative) requires that [Cl - ] apoplast must be >100X relative to Cl - symplast for passive transport Divalent (Ca 2+ or SO 4 2- ) ions have 2X the electrical potential Each ion has its own electrochemical potential K + and Cl - each diffuse to net chemical steady-state Specificity is due to unique concentration activity

7 Proton (H + ) electrochemical gradient - generates membrane potential (electrical gradient) and pH (H + ) gradients Facilitate passive and secondary active transport of ions and solutes H + pumps

8 ATP and PPi – energy sources for generating H + electrochemical gradients across the plasma membrane and tonoplast Smith et al. (2009) Plant Biology

9 pH 5.5 pH 7.2 - 100/ -200 mV pH 5.5 +30 mV Intracellular distribution of essential elements due to active (solid line) or passive (dashed) transport

10 Transport Proteins – individual proteins or multi-subunit complexes (quaternary structure) Plasma membrane H + -ATPaseVacuolar H + -ATPase

11 Transport protein categories – channels, carriers and pumps

12 Raven et al. (2005) Biology of Plants Secondary active transport - symporter

13 Symporter and antiporter – secondary active transporters

14 Transport proteins at the plasma membrane Smith et al. (2009) Plant Biology

15 Tonoplast transport proteins

16

Download ppt "Plant Mineral Nutrition: Solute Transport HORT 301 – Plant Physiology October 9, 2009 Taiz and Zeiger, Chapter 6, Web Chapter 2 (p 1-10), Web Topic 6.3."

Similar presentations

TRANSPORT ACROSS CELL MEMBRANE-II

TRANSPORT ACROSS CELL MEMBRANE-II
Chp 4 Transport of Solutes and Water. Review 1- The intracellular and extracellular fluids are similar in osmotic concentration but very different in.

Chp 4 Transport of Solutes and Water. Review 1- The intracellular and extracellular fluids are similar in osmotic concentration but very different in.
Neural Signaling: The Membrane Potential Lesson 8.

Neural Signaling: The Membrane Potential Lesson 8.
Lecture 5: Membrane transport

Lecture 5: Membrane transport
Cells and Their Environment

Cells and Their Environment
Bacterial Physiology (Micr430) Lecture 2 Membrane Bioenergetics (Text Chapter: 3)

Bacterial Physiology (Micr430) Lecture 2 Membrane Bioenergetics (Text Chapter: 3)
Solute Transport HORT 301 – Plant Physiology September 15, 2008 Taiz and Zeiger, Chapter 6, Web Chapter 2 (p 1-10), Web Topic 6.3

Solute Transport HORT 301 – Plant Physiology September 15, 2008 Taiz and Zeiger, Chapter 6, Web Chapter 2 (p 1-10), Web Topic 6.3
Plant Mineral Nutrition: Solute Transport HORT 301 – Plant Physiology September 22, 2010 Taiz and Zeiger - Chapter 6, Appendix 1

Plant Mineral Nutrition: Solute Transport HORT 301 – Plant Physiology September 22, 2010 Taiz and Zeiger - Chapter 6, Appendix 1
Water Movement through Plant Cells HORT 301 – Plant Physiology

Water Movement through Plant Cells HORT 301 – Plant Physiology
Ion and Solute Transport across Plant Cell Membranes HORT 301 – Plant Physiology October 10, 2007 Taiz and Zeiger, Chapter 6, Web Chapter 2 (p 1-10), Web.

Ion and Solute Transport across Plant Cell Membranes HORT 301 – Plant Physiology October 10, 2007 Taiz and Zeiger, Chapter 6, Web Chapter 2 (p 1-10), Web.
Membrane Transport.

Membrane Transport.
Skotomorphogenesis Seed germination Genes and enzymes Embryo and Seed development Plant life cycle Photomorphogenesis Photoreceptors Phytochrome Cells.

Skotomorphogenesis Seed germination Genes and enzymes Embryo and Seed development Plant life cycle Photomorphogenesis Photoreceptors Phytochrome Cells.
Phytochrome: regulation of

Phytochrome: regulation of
Membrane transport: The set of transport proteins in the plasma membrane, or in the membrane of an intracellular organelle, determines exactly what solutes.

Membrane transport: The set of transport proteins in the plasma membrane, or in the membrane of an intracellular organelle, determines exactly what solutes.
Ion Pumps and Ion Channels CHAPTER 48 SECTION 2. Overview  All cells have membrane potential across their plasma membrane  Membrane potential is the.

Ion Pumps and Ion Channels CHAPTER 48 SECTION 2. Overview  All cells have membrane potential across their plasma membrane  Membrane potential is the.
Chapter 5 Active Transport.

Chapter 5 Active Transport.
Membrane Protein : Integral/Peripheral

Membrane Protein : Integral/Peripheral
Active Transport, Diffusion and Osmosis. Passive Transport by Diffusion Diffusion is the movement of molecules from an area of high concentration to an.

Active Transport, Diffusion and Osmosis. Passive Transport by Diffusion Diffusion is the movement of molecules from an area of high concentration to an.
Transporters and Membranes By Sushil Pal Slides made using WMS transporters lecture, Molecules.

Transporters and Membranes By Sushil Pal Slides made using WMS transporters lecture, Molecules.
Membrane Transport Chapter 6.

Membrane Transport Chapter 6.

Similar presentations

Ads by Google