Biochem 3070 - Photosynthesis

Biochem 3070 - Photosynthesis PHOTOSYNTHESIS In 1780 Joseph Priestly discovered photosynthesis: “…plants can “restore air which has been injured by the burning of candles.” “…the air would neither extinguish a candle, nor was it all inconvenient to a mouse which I put into it.” Stryer, Biochemistry, 4th ed.

Biochem 3070 - Photosynthesis • Photosynthesis provides essentially all free energy in biological systems by converting solar energy into chemical energy. • Carbohydrates are formed from light-driven reactions that collectively appear deceptively simple: CO2 + H2O + light CnH2nOn + O2

Biochem 3070 - Photosynthesis • Photosynthesis occurs in specialized organelles called chloroplasts: Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis TEM of Chloroplast from Corn Biochemistry, Voet & Voet,, 3rd Ed

Biochem 3070 - Photosynthesis Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis • Photosynthesis consists of two sets of reactions: the LIGHT and DARK reactions. • The LIGHT-driven reactions are the primary events of photosynthesis; these occur in the thylakoid membrane. • The DARK reactions occur in the stroma.

Biochem 3070 - Photosynthesis • The light-reactions of photosynthesis generate high-energy electrons that are used to form NADPH. • On their way to NADPH, these high-energy electrons flow through a membrane-bound “electron transport” pathway, generating a proton motive potential (Δp) from which ATP is made.

Biochem 3070 - Photosynthesis

Biochem 3070 - Photosynthesis Walker, et.al, Fundamentals of Chemistry, 1st ed.

Biochem 3070 - Photosynthesis Chlorophyll a: Stryer, et.al., Biochemistry, 5th ed.

Sunlight spectrum, Chlorophyll a and Bacteriochlorophyll a Biochem 3070 - Photosynthesis

Biochem 3070 - Photosynthesis Voet & Voet, Biochemistry, 3rd ed., pg 875

Biochem 3070 - Photosynthesis • Light-harvesting Pigments help absorb wavelengths of light in the region of the spectrum where chlorophyll pigments do not absorb light. • Photons absorbed by these pigments also transfer energy to chlorophyll. β-carotene helps protect plants from photochemical reactions, expecially those involving oxygen; (it serves as an “antioxidant.”)

Biochem 3070 - Photosynthesis The majority of chlorophyll molecules in a photosynthetic unit do not get involved in photosynthesis directly. Rather, they transfer their absorbed energy to a reaction center complex. C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C

Biochem 3070 - Photosynthesis Light energy absorbed by antenna chlorophyll molecules and auxillary pigments is transferred to specialized reaction centers. This energy transfer (often called “resonance energy transfer” or “exciton hopping”) is very efficient, approaching 100%!

Biochem 3070 - Photosynthesis Garrett & Grisham, Biochemistry, 3rd ed.

Biochem 3070 - Photosynthesis X-ray Structure of Photosystem II (S. elongatus) Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis X-ray Structure of Photosystem II (S. elongatus) Voet & Voet, Biochemistry, 3rd ed., pg 888

Biochem 3070 - Photosynthesis Schematic mechanism of oxygen generation in PSII: Mn cluster in the OEC Voet & Voet, Biochemistry, 3rd ed., pg 889

Biochem 3070 - Photosynthesis Herbicides that inhibit Photosystem II by blocking the transfer of electrons to QH2: Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis Electron Flow through PSII: Electron Flow through Cytochrome bf: Plastocyanin: Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis • Photosystem I: Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis Photosystem I: 700nm photon Stryer, et.al., Biochemistry, 5th ed.

Ferredoxin Structure Biochem 3070 - Photosynthesis Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis “Z-Scheme” of Photosynthesis: Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis Andre Jagendorf and Ernest Uribe’s classic experiment, showing the production of ATP from an artificially induced proton gradient across isolated chloroplasts in the absence of any light! (First Reported in 1965) Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis Stroma Lumen (Thylakoid Space)

Biochem 3070 - Photosynthesis Stroma Lumen Inner-membrane Space Matrix Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis What about CO2? CO2 + H2O + light CnH2nOn + O2

Biochem 3070 - Photosynthesis Melvin Calvin discovered the CO2 acceptor by using C-14 radioactive labeled carbon dioxide: He discovered that the reactions of CO2 fixation are almost identical to reactions of the phosphate shunt: Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis The Calvin Cycle: From light-driven reactions Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis Ribulose 1,5-bisphosphate carboxylase/oxygenase [“rubisco”]: Rubisco consitutes more than 16% of all protein in chloroplasts. It is the most abundant protein in the entire biosphere! Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis Proposed mechanism for Rubisco: Stryer, et.al., Biochemistry, 5th ed.

Biochem 3070 - Photosynthesis