Sulfonates: novel electron acceptors in

... ICN Radiochemicals. Sulfoacetaldehyde was synthesized by preparing the bisulfite adduct (Kondo et al. 1971). The adduct was converted to free sulfoacetaldehyde by mixing in solution with an equimolar amount of BaCl2, removing the precipitate, and forming the free acid by column chromatography (Dowex ...

Cellular Respiration

... Chain (34 ATP) *found in most heterotrophs ...

PhotosynthesisCalving CycleON

... twice in order to make a molecule of glucose. (Actually 6 times). 1. Carbon dioxide combines with ribulose biphosphate. Ru-Bp is a pentose monosacharide with 2 ...

True or False

... Not all of the light from the Sun makes it to the surface of the Earth. ...

Mrs. Loyd Page 1 of 4 10/20/11 http

... produce ATP from determined by glucose, lactic acid genetics build-up Cells of: protists where found? muscle fungi plants animals ...

Fermentation and Cellular Respiration

... that are bound to membranes. In the case of prokaryotic cells, these membranes are cell membranes, while within most eukaryotic cells, the membranes involved are the inner folded membranes or cristae of mitochondria. The electron transport chain or system involves a series of membrane-bound proteins ...

Honors Biology Ch. 6 Cellular Respiration Notes Opening Essay

... produce ATP from determined by glucose, lactic acid genetics build-up Cells of: protists where found? muscle fungi plants animals ...

Biol 1406 notes Ch 9 8thed

...  The last cytochrome of the chain, cyt a3, passes its electrons to oxygen, which is very electronegative.  Each oxygen atom also picks up a pair of hydrogen ions from the aqueous solution to form water.  The electrons carried by FADH2 have lower free energy and are added at a lower energy level t ...

Metabolism - rci.rutgers.edu

... VI. A. ...

Organic Chemistry

... 3) Folding of folds (globular) 4) Multiple polypeptide chains together ...

Chapter 4 Photosynthesis and Cellular Respiration Worksheets

... Photosynthesis Stage I: The Light Reactions The ﬁrst stage of photosynthesis is called the light reactions. During this stage, light is absorbed and transformed to chemical energy in the bonds of NADPH and ATP. You can read about this process below. Steps of the Light Reactions The light reactions o ...

Inked Outline

... Light ...

The TCA cycle

... Acetyl CoA + 3NAD+ + 1FAD + GDP + Pi + 2H20 CoA + 2CO2 + 3NADH + 3H+ + 1FADH2 + GTP. One complete cycle yields in energy terms: 1 GTP + 3NADH + 1FADH2. (=ATP) GTP is a nucleotide and an energy source just like ATP and is equivalent to ATP. The production of GTP during the TCA cycle is referred to as ...

Exam 2 Study Guide

... b. It was broken down into amino acids and released c. It was converted to feces and eliminated from the body d. It was released as carbon dioxide and water e. It was converted to ATP, which weighs less than fat 5. How many gametes can be produced by an organism with the genotype AaBbCCDdEE? a. 4 b. ...

Lecture Presentation to accompany Principles of Life

... oxidized back to NAD+ to enable anaerobic respiration to occur NAD+ is needed for glycolysis Fermentation takes place in the ...

CMC Chapter 5

... The Atom and Unanswered Questions • Recall that in Rutherford's model, the atom’s mass is concentrated in the nucleus and electrons move around it. • The model doesn’t explain how the electrons were arranged around the nucleus. • The model doesn’t explain why negatively charged electrons aren’t pul ...

Why would someone take the vitamin niacin?

... note that a transport protein is required to move the pyruvate…why? ...

- Free Documents

... produces NADH ATP Conversion of isocitrate to oxalosuccinate produces NADH ATP Conversion of ketoglutarate to succinylCoA produces NADH ATP Conversion of succinylCoA to succinate produces GTP ATP Conversion of succinate to fumarate produces FADH ATP Conversion of malate to oxaloacetate produces NADH ...

Atom

... – Example: a hydrogen molecule (H2) • Compounds: a substance composed of two or more different types of atoms chemically combined – Example: water (H2O) • Molecular Mass: determined by adding up atomic weights of its atoms or ions – Example: NaCl (22.99 + 35.45) ...

Chemistry Standard Course of Study -- Detailed - UNCG GK-12

... Understand that energy exists in discrete units called quanta. O: Calculations of wavelengths and Describe the concepts of o an atom being “excited” above its ground energies in Bohr atom using c=f state by the addition of energy, resulting E=hc/, and E=-Rh(1/n2) in the electron(s) moving to a hig ...

Energy Generation Lecture

... glucanases ...

Nucleotides: Be able to differentiate between a purine ring and a

... Nicotinamide or a precursor, niacin, must be provided in the diet. Nicotinamide is the amide form of niacin (known as vitamin B3). In the oxidized form, NAD carries a positive charge. It is reduced to a neutral form by addition of a hydride ion. As discussed before, this hydride is added stereospeci ...

Biochemistry 2000 Sample Questions 5 Transport, Carbohydrates, Metabolism

... ∆G' = ∆G'º + RT ln ([products]/[reactants]) 0 > 13.8 kJ/mol + 2.57 kJ/mol ln ([products]/[reactants]) -5.35 > ln ([products]/[reactants]) [products]/[reactants] < 4.7 x 10-3 Provided the reactants are present at greater than 213 fold excess the reaction will proceed. (5) The chemical basis of the hi ...

DG o

...  within each group are a set of pathways  arbitrarily set start and end points for ease of learning and reference  pathways can take different forms: 1) linear - product of one reaction is substrate for another e.g. glycolysis 2) cyclic - regeneration of intermediates e.g. Krebs cycle 3) spiral - ...

Part II: Respiration

... Bacteroides amylophilus ...

< 1 ... 118 119 120 121 122 123 124 125 126 ... 286 >

Light-dependent reactions

In photosynthesis, the light-dependent reactions take place on the thylakoid membranes. The inside of the thylakoid membrane is called the lumen, and outside the thylakoid membrane is the stroma, where the light-independent reactions take place. The thylakoid membrane contains some integral membrane protein complexes that catalyze the light reactions. There are four major protein complexes in the thylakoid membrane: Photosystem II (PSII), Cytochrome b6f complex, Photosystem I (PSI), and ATP synthase. These four complexes work together to ultimately create the products ATP and NADPH.[.The two photosystems absorb light energy through pigments - primarily the chlorophylls, which are responsible for the green color of leaves. The light-dependent reactions begin in photosystem II. When a chlorophyll a molecule within the reaction center of PSII absorbs a photon, an electron in this molecule attains a higher energy level. Because this state of an electron is very unstable, the electron is transferred from one to another molecule creating a chain of redox reactions, called an electron transport chain (ETC). The electron flow goes from PSII to cytochrome b6f to PSI. In PSI, the electron gets the energy from another photon. The final electron acceptor is NADP. In oxygenic photosynthesis, the first electron donor is water, creating oxygen as a waste product. In anoxygenic photosynthesis various electron donors are used.Cytochrome b6f and ATP synthase work together to create ATP. This process is called photophosphorylation, which occurs in two different ways. In non-cyclic photophosphorylation, cytochrome b6f uses the energy of electrons from PSII to pump protons from the stroma to the lumen. The proton gradient across the thylakoid membrane creates a proton-motive force, used by ATP synthase to form ATP. In cyclic photophosphorylation, cytochrome b6f uses the energy of electrons from not only PSII but also PSI to create more ATP and to stop the production of NADPH. Cyclic phosphorylation is important to create ATP and maintain NADPH in the right proportion for the light-independent reactions.The net-reaction of all light-dependent reactions in oxygenic photosynthesis is:2H2O + 2NADP+ + 3ADP + 3Pi → O2 + 2NADPH + 3ATPThe two photosystems are protein complexes that absorb photons and are able to use this energy to create an electron transport chain. Photosystem I and II are very similar in structure and function. They use special proteins, called light-harvesting complexes, to absorb the photons with very high effectiveness. If a special pigment molecule in a photosynthetic reaction center absorbs a photon, an electron in this pigment attains the excited state and then is transferred to another molecule in the reaction center. This reaction, called photoinduced charge separation, is the start of the electron flow and is unique because it transforms light energy into chemical forms.

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Light-dependent reactions