Sandbox Reserved 494

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'''Contents'''
'''Contents'''
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[1 Background]
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1 Background
2 Photosynthesis
2 Photosynthesis
3 Electron Transfer
3 Electron Transfer
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6 Additional Resources
6 Additional Resources
7 References
7 References
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[[== '''Background''' ==]]
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[[== Background ==]]
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ATP synthase is the most
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ATP synthesis is the most prevalent chemical reaction in the biological world and ATP synthase is one of the most ubiquitous, abuntant proteins on earth. From ''Escherichia coli'' to plants and mammals, this enzyme is one of the most conserved during evolution[1].The molecular study of ATP synthase was initiated in 1960 when Efraim Racker and his colleagues reported thia isolation of soluable factor from beef heart mitochondria. ATP synthase produces ATP from adenosine diphosphate (ADP) and inorganic phosphate with the use of energy from a transmembrane proton-motive force generated by respiration or photosynthase.
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[1] ATP synthase-a marvellous

Revision as of 03:07, 1 May 2012

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This Sandbox is Reserved from 13/03/2012, through 01/06/2012 for use in the course "Proteins and Molecular Mechanisms" taught by Robert B. Rose at the North Carolina State University, Raleigh, NC USA. This reservation includes Sandbox Reserved 451 through Sandbox Reserved 500.
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For more help, look at this link: http://www.proteopedia.org/wiki/index.php/Help:Getting_Started_in_Proteopedia Contents 

1 Background
2 Photosynthesis
3 Electron Transfer
4 Oxygen Evolution
5 3D structures of photosystem II
6 Additional Resources
7 References

[[== Background ==]]

ATP synthesis is the most prevalent chemical reaction in the biological world and ATP synthase is one of the most ubiquitous, abuntant proteins on earth. From Escherichia coli to plants and mammals, this enzyme is one of the most conserved during evolution[1].The molecular study of ATP synthase was initiated in 1960 when Efraim Racker and his colleagues reported thia isolation of soluable factor from beef heart mitochondria. ATP synthase produces ATP from adenosine diphosphate (ADP) and inorganic phosphate with the use of energy from a transmembrane proton-motive force generated by respiration or photosynthase.



[1] ATP synthase-a marvellous

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