Maximizing Light Utilization Efficiency and Hydrogen Production in ...
Maximizing Light Utilization Efficiency and Hydrogen Production in ...
Maximizing Light Utilization Efficiency and Hydrogen Production in ...
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Cyanobacterial Approach<br />
Unit photosynthetic apparatus <strong>and</strong> cyanobacterial TLA organization<br />
The model shows the anticipated antenna size <strong>in</strong> TLA cyanobactaria<br />
AP-core<br />
AP<br />
AP<br />
cytosol<br />
95<br />
Chl<br />
Fx<br />
P700<br />
95<br />
Chl<br />
Fx<br />
P700<br />
Qa<br />
P680<br />
Qa<br />
P680<br />
Fx<br />
P700<br />
95<br />
Chl<br />
Fx<br />
P700<br />
95<br />
Chl<br />
Thylakoid<br />
membrane<br />
95 Chl<br />
for each PSI<br />
35 Chl<br />
for each PSII<br />
lumen<br />
Go/No-Go Decision: Present evidence at the molecular <strong>and</strong> biochemical levels to<br />
demonstrate proof-of concept <strong>and</strong> capability of gene replacement <strong>in</strong> cyanobacteria, as the<br />
method of choice for the generation of TLA mutants <strong>in</strong> these photosynthetic microorganisms.<br />
UCB-Melis 13
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