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Tougher Plants: Beating Stress by Protecting Photosynthesis in Genetically Modified Plants

Tougher Plants: Beating Stress by Protecting Photosynthesis in Genetically Modified Plants. Based on a case study by R. Pals- Rylaarsdam and M.L. Tischler Department of Biological Science Benedictine University, Lisle, IL. Plants are subject to many stresses. The main stressors are:

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Tougher Plants: Beating Stress by Protecting Photosynthesis in Genetically Modified Plants

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  1. Tougher Plants:Beating Stress by Protecting Photosynthesis in Genetically Modified Plants Based on a case study by R. Pals-Rylaarsdamand M.L. Tischler Department of Biological Science Benedictine University, Lisle, IL

  2. Plants are subject to many stresses • The main stressors are: Cold Heat Salt Frost damage Heat damage Irrigation evaporation or drought Road runoff

  3. Glycinebetaine is a molecule that moderates stresses in plants

  4. Plants are subject to many stresses • The main stressors are: Cold Heat Salt Frost damage Heat damage Irrigation evaporation or drought Road runoff

  5. Plants were exposed to 3C for 7 days, then transferred to the warm greenhouse. Wild type Transgenic NB: This figure is a simulation of a figure in the original article.

  6. What does wild type mean? • Unaltered experimental group • Group showing uncontrolled or “wild” grow • Genetically altered group • Group displaying the greatest variance in an observed trait

  7. What does glycine betaine do for the leaves, flowers and fruits in cold-exposed plants?

  8. What does glycinebetaine do? Figure 3. Effects of chilling on various growth parameters. Five-week-old greenhouse-grown wild type and independent homozygous transgenic lines (L1, L5) were chilled (3°C) for 5 days, then returned to greenhouse. WT: wild type tomato plants L1-L9: different lines of transgenic plants

  9. Which photosynthesis process is most effected by ion leakage? • Whether cells can capture light • Whether the Calvin cycle will function • Whether ATP synthase will function • Whether electrons will transfer from PS II

  10. Plants are subject to many stresses • The main stressors are: Cold Heat Salt Frost damage Heat damage Irrigation evaporation or drought Road runoff

  11. Figure 4. Changes in the oxygen-producing activity of PSII determined with thylakoid membranes isolated from leaves after exposed to different temperatures 25, 30, 35, 40, 45, or 50°C in the chambers for 4 h, in wild type and transgenic plants. The values are mean + SE of three independent experiments. WT: Wild type tobacco plants and genetically modified tobacco plants

  12. Which process in photosynthesis produces O2? • PS I • PS II • ATP synthase • Light capture

  13. Make two observations from the data Figure 4. Changes in the oxygen-producing activity of PSII determined with thylakoid membranes isolated from leaves after exposed to different temperatures 25, 30, 35, 40, 45, or 50°C in the chambers for 4 h, in wild type and transgenic plants. The values are mean + SE of three independent experiments.

  14. Photosystem II Structure of Photosystem II, PDB 2AXT http://en.wikipedia.org/wiki/File:PhotosystemII.PNG

  15. Which part of the molecule goes through the membrane? • Blue box • Red oval

  16. So, the blue box is trans-membrane. The part below the blue box is associated with the membrane. Structure of Photosystem II, PDB 2AXT http://en.wikipedia.org/wiki/File:PhotosystemII.PNG

  17. Which of the following could explain why increased temperatures decrease PSII activity? • Thylakoid membranes become more permeable to ions • The chlorophyll breaks down • The peripheral proteins lose their ability to bind to the transmembraneproteins • Water cannot bind to PSII to form oxygen

  18. Plants are subject to many stresses • The main stressors are: Cold HeatSalt Frost damage Heat damage Irrigation evaporation or drought Road runoff

  19. Protein sizes are measured in kilodaltons (kDa) a: subunit of 18 kDa b: subunit of 23 kDa c: subunit of 33 kDa Make two observations

  20. Which subunit is most stable and likely to be in the membrane? • A • B • C

  21. Which subunit is least stable and likely to be a peripheral subunit? • A • B • C

  22. What does glycine betaine do to protect PSII activity? • Betaine protects peripheral proteins again dissociation due to salt • Betaine protects transmembrane proteins from dissociation due to salt • Betaine promotes dissociation of transmembrane and peripheral proteins in the thylakoids • Betaineappers to have no impact on membrane proteins of the thylakoids

  23. All the parts need to be together for photosynthesis! PS II needs to work Membrane can’t leak so ATP synthase works

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