Cyanide (CN) blocks transfer of H. to oxygen Jim Jones, millipedes

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Respiratory Poisons Cyanide (CN) blocks transfer of H. to oxygen Jim Jones, millipedes DNP (dinitrophenol) makes inner mt membrane leak H + short circuits oxidative phosphorylation diet pills and bug poison The catabolism of various food molecules NH 3 Where your food goes pathways for products of food catabolism. What goes in, what comes out, and where CO 2 O 2 H 2 O 1

The cycle of materials between autotrophs and heterotrophs Photoautotrophs 2

Chemoautotrophs (hydrothermal vent community) CO 2 +O 2 +4H 2 S CH 2 O+4S+3H 2 O Photosynthesis Occurs in some prokaryotes (bacteria, blue-green algae) and in the chloroplasts of eukaryote protists and plants. Light drives formation of ATP and NADPH These compounds power synthesis of carbohydrate and O 2 using CO 2 as source of C and H 2 O as source of H and O 3

In a net sense, photosynthesis is the reverse of respiration Photosynthesis 6(CO 2 ) + 6(H 2 O) + 686 kcal/mole C 6 H 12 O 6 +6(O 2 ) Respiration C 6 H 12 O 6 + 6(O 2 ) 6(CO 2 ) + 6(H 2 O) + 686 kcal/mole This is an endergonic process so it is part of a larger exergonic process. The energy for this larger process arrives as certain wavelengths of light. The chloroplast Thylakoid Stroma Thylakoids 4

Two stages of photosynthesis Light reactions in thylakoids make ATP, NADPH, O 2 Mechanisms are photooxidation, proton pumping, ATP synthase Dark reactions in stroma (Calvin cycle) use ATP and NADPH convert CO 2 into sugars 1. Light reactions make ATP, NADPH, O 2 5

1. Light reactions make ATP, NADPH, O 2 2. Calvin Cycle synthesizes carbohydrate 6

Electromagnetic energy Radiant energy - transmitted through space by electromagnetic particles/waves Particles are called 'quanta' or 'photons' Quanta have property of wavelength. Shorter wavelength = higher energy per quantum. Electromagnetic spectrum relates wavelength to forms of radiation The electromagnetic spectrum 7

Matter and radiant energy: Incoming radiant energy can be reflected (bounce off) transmitted (pass through) or it can be absorbed by electrons Radiant energy that is absorbed can cause chemical reactions via photooxidation Light & pigments. White light consists of multiple wavelengths A pigment is a molecule that absorbs some wavelengths but not all. The color of a pigment is the wavelengths that are reflected, transmitted, or emitted. 8

Why leaves are green How is light coupled to chemical reactions? An electron absorbs a photon of specific wavelength and moves to a higher energy level. It may drop back, emitting a photon = fluorescence or it may move to another atom, retaining most of the energy = photooxidation 9

Photooxidation of chlorophyll powers photosynthesis Light knocks electrons off of chlorophyll These electrons reduce other molecules They are passed from one molecule to another in an electron transport chain of redox reactions. ETC pumps protons & powers ATP synthase to make ATP The light reactions also reduce NADP + NADP + + H - NADPH The protons and electrons to reduce NADP + to NADPH are from water, leaving oxygen NADPH supplies H and electrons in the Calvin cycle to combine with CO 2 to produce carbohydrate 10

Location and structure of chlorophyll molecules in plants How a photosystem harvests light Electrons Via redox reactions 11

Electron flow during the light reactions generates ATP and NADPH A mechanical analogy for the light reactions 12

Light reactions. occur on the thylakoid membranes PII is photooxidized and reduces the ETC, powering ATP synthase to make ATP. PI is photooxidized and reduces other proteins that reduce NADP + to NADPH The electrons and H are replaced by splitting water to H + and O 2 Comparison of inner membranes in mitochondria and chloroplasts Mitochondrion Chloroplast H + H+ Matrix Intermembrane space Stroma Thylakoid space 13

Comparison of chemiosmosis in mitochondria and chloroplasts Discovery of chemiosmosis in ATP synthesis Peter Mitchell 1961 Nobel Prize 1978 14

Calvin Cycle ( dark reactions) metabolic pathway that synthesizes sugars Uses ATP, and NADPH from the light reactions. Takes place in stroma of the chloroplast Starts with CO 2 fixation incorporation of CO 2 into organic molecules. Rubisco The enzyme that catalyzes CO 2 fixation, the first reaction in the Calvin cycle. It is the most abundant protein on earth. 1/3 of chloroplast protein 15

The Calvin cycle Rubisco and photorespiration Rubisco is slow and inefficient curiously so O 2 competes with CO 2 and interferes with CO 2 fixation, inhibits photosynthesis Dry or hot conditions lead to water loss, which causes stomate closure, which leads to high O 2 and low CO 2 in the leaf, which leads to photorespiration. 16

C3 and C4 plants C3 plants use rubisco to fix CO 2,and produce 3-carbon compounds C4 plants use PEP carboxylase to fix CO 2 into a 4-carbon compound before Calvin cycle PEP carboxylase not limited by O 2 C4 plants also have special leaf anatomy to separate CO 2 fixation and Calvin cycle. C 4 leaf anatomy and the C 4 pathway CO 2 transported and concentrated into bundle sheath cells for Calvin cycle High [CO 2 ] 17

C3, C4, CAM plants Most plants are C3 e.g. rice, wheat, oats, soybeans, and potatoes At least 8,000 species are C4, including most grasses, corn, sorghum, agaves CAM plants are mainly desert-adapted succulents- cacti, etc 18

CAM plants Crassulacean Acid Metabolism Timing (rather than anatomy) separates carbon fixation from the Calvin cycle. Stomates open at night, CO 2 is fixed by PEP carboxylase into malate, which is stored in vacuoles During the day, stomates close, CO 2 is released from malate for rubisco to use C 4 and CAM photosynthesis compared 19

A review of photosynthesis 20

Aiptasia pallida Zooxanthellae (Symbiodinium) from Aiptasia Scale line units = 10 microns 21

Nematocysts Stinging organelles found in all Cnidarians Hydra tentacle cnidocyte nematocyst M. C. Barnhart 22

Aeolid nudibranchs (suborder Aeolidina) Borrowed weapons Aeolids feed on cnidarians and store the functional nematocysts at the tips of their cerata in cnidosacs Each ceras contains a branch of the digestive gland. A duct connects the cnidosac to the digestive gland. Digestive gland cnidosac Stained section of cnidosac showing nematocysts at tip 23

Solar-powered Opisthobranchs Left: sacoglossan Placida showing network of ducts containing green chloroplasts from its algal food. Right: aeolid nudibranch Pteraeolidia "farms" colonies of brown single-celled algae (zooxanthellae) in its cerata (stolen from cnidarian prey). 24

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