Photosystem II: Difference between revisions

Proteopedia Page Contributors and Editors (what is this?)Proteopedia Page Contributors and Editors (what is this?)

Emily Forschler, Eran Hodis, Jaime Prilusky, Ilan Samish, David Canner, Eric Martz, Karl Oberholser, Michal Harel, Alexander Berchansky, Joel L. Sussman

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 ==Electron Transfer==
 [[Image:Chlorophyll_a.svg.png|thumb|170px|left|structure of chlorophyll ''a'']]
-<scene name='Photosystem_II/Chlorophyll_green/1'>Chlorophyll</scene> surround Photosystem II and capture energy from sunlight, exciting electrons.  Chlorophyll are highly conjugated and absorb visible light, along with accessory light harvesting pigments such as <scene name='Photosystem_II/Betacarotene/1'>beta carotene</scene>. Beta carotene absorbs visible light of other wavelengths and also protects Photosystem II by destroying reactive oxygen species that result from this photoexcitation.  [[Image:b-car.svg.png|b-car.svg.png|thumb|right|400px|structure of beta carotene]]  Electrons are passed from chlorophyll to <scene name='Photosystem_II/Pheophytin_purple/3'>pheophytin</scene>.  Pheophytin are very similar to chlorophyll except they  contain 2 H<sup>+</sup> instead of a Mg<sup>2+</sup> ion.  From the pheophytin, electrons transferred to <scene name='Photosystem_II/Quinone_pink/3'>plastoquinones</scene>, which are reduced.  Between each pair of quinones, an iron, in red, helps to transfer the electron. These plastoquinones eventually move to a plastoquinone pool which travels to another large protein subunit, cytochrome b <sub>6</sub>/ f.  Eventually these electrons reduce NADP<sup>+</sup> to NADPH.  Here the <scene name='Photosystem_II/Electron_pathway/1'>electron pathway</scene> through Photosystem II is shown, with '''<FONT COLOR="#F87217">beta-carotenes</FONT>''', '''<FONT COLOR="#571B7e">pheophytins</FONT>''', '''<FONT COLOR="#E42217">iron</FONT>''' and '''<FONT COLOR="#F535AA">plasotoquinones</FONT>'''.
+<scene name='Photosystem_II/Chlorophyll_green/3'>Chlorophyll</scene> surround Photosystem II and capture energy from sunlight, exciting electrons.  Chlorophyll are highly conjugated and absorb visible light, along with accessory light harvesting pigments such as <scene name='Photosystem_II/Betacarotene/1'>beta carotene</scene>. Beta carotene absorbs visible light of other wavelengths and also protects Photosystem II by destroying reactive oxygen species that result from this photoexcitation.  [[Image:b-car.svg.png|b-car.svg.png|thumb|right|400px|structure of beta carotene]]  Electrons are passed from chlorophyll to <scene name='Photosystem_II/Pheophytin_purple/4'>pheophytin</scene>.  Pheophytin are very similar to chlorophyll except they  contain 2 H<sup>+</sup> instead of a Mg<sup>2+</sup> ion.  From the pheophytin, electrons transferred to <scene name='Photosystem_II/Quinone_pink/4'>plastoquinones</scene>, which are reduced.  Between each pair of quinones, an iron, in red, helps to transfer the electron. These plastoquinones eventually move to a plastoquinone pool which travels to another large protein subunit, cytochrome b <sub>6</sub>/ f.  Eventually these electrons reduce NADP<sup>+</sup> to NADPH.  Here the <scene name='Photosystem_II/Electron_pathway/2'>electron pathway</scene> through Photosystem II is shown, with '''<FONT COLOR="#F87217">beta-carotenes</FONT>''', '''<FONT COLOR="#571B7e">pheophytins</FONT>''', '''<FONT COLOR="#E42217">iron</FONT>''' and '''<FONT COLOR="#F535AA">plasotoquinones</FONT>'''.
 [[Image:plastoquinone.jpg|thumb|300px|right|reduced plastoquinone]]
 ==Oxygen Evolution==

Photosystem II: Difference between revisions

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