Diagram Sodium has 11 protons and 11 neutrons in its nucleus

... (not electrons and neutrons) are positively charged particles that reside in the nucleus. 2. (not hydrogen nor covalent) bonds are formed when one atom donates an electron to another atom, whereas (not hydrogen nor ionic) bonds are formed when two atoms share a pair of electrons. 3. An (begins with ...

Unit 4.2: Photosynthesis - Sugar as Food

... Step 1: Units of sunlight, called photons, strike a molecule of chlorophyll in photosystem II of the thylakoid membrane. The light energy is absorbed by two electrons (2 e-) in the chlorophyll molecule, giving them enough energy to leave the molecule. • Step 2: At the same time, enzymes in the thyl ...

A) Choose the correct answer: B)Complete: 1) L

... (a) Uncouplers allow to proceeds respiratory chain with ATP formation. (b) Oligomycin inhibit site I of ATP production. (c) Rotenone is a specific site inhibitor for electron transport system. (d) Calcium injection inhibit ATP synthase enzyme. 5) The end products of anaerobic bacteria effect on pyru ...

Harvesting Energy

... inner mitochondrial membrane. These complexes, together called the electron transport chain, use the donated energy from the electron carriers to pump protons into the intermembrane space, forming a concentration gradient of protons across the membrane. The protons flow down their concentration grad ...

Cell Respiration notes

... dispose of 2-C that came from oxaloacetate, which are released as CO2.  Substrate-level phos. of ADP occurs to form ATP.  A 4-C molecule called succinate forms. – Step 4 and 5  Oxaloacetate gets regenerated from maltate, and FAD and NAD+ are reduced to FADH2 and NADH, respectively.  Oxaloacetate ...

H +

...  pumps the protons  builds the gradient  drives the flow of protons ADP + Pi through ATP synthase  bonds Pi to ADP ATP  generates the ATP AP Biology … that evolution built ...

Name: Cellular Respiration Study Guide Helpful Hints!! 1. The

... 3. What are the products of the Electron Transport Chain? ATP 4. Describe how the Electron Transport Chain and Krebs Cycle are related. The ETC needs electrons to be transported by NADH and FADH 5. Explain the functions of electrons, hydrogen ions, and oxygen in the ETC. Electrons are passed down th ...

Lecture 27

... Internal conversion-electronic energy is converted to heat (molecular motion). Occurs very rapidly (<10-11s) and molecules returned to ground state. Excitation energy of a chlorophyll molecule that abs a shortwavelength band (2nd excited state) is no different than if photon was absorbed in its less ...

Chapter 1 Art Slides - Cal State LA

... Energy, Electrons, and Carbon ...

First of all, do you know any methods to check

... Error in AES: analysis: < 15%, Error within a few % can be achieved with better standards and calibration. Take care Sensitivities Si for peak to peak height of differentiated Auger peak different from the one for original Auger peak(with background subtraction) ...

MULTIPLE CHOICE. Choose the one alternative that best

... 30. The enzyme directly responsible for almost all carbon fixation on Earth is A. Rubisco B. PEP carboxylase C. ATP synthase D. Phophofructokinase E. Ligase 31. In C4 plants, C4 and C3 pathways occur at different _________, whereas in CAM plants, CAM and C3 pathways occur at different ___________. A ...

Photosynthesis

... Light Reactions (Cont.) ...

Bauman Chapter 1 Answers to Critical Thinking Questions

... transferase/hydrolase; step 6 enzyme is another oxidoreductase; step 7 enzyme is an isomerase; step 8 enzyme is an oxidoreductase. Fat biosynthesis enzymes: G3P to DHAP is catalyzed by an isomerase; DHAP to glycerol is catalyzed by a transferase; fatty acids are synthesized from acetyl-CoA by oxidor ...

Honors Bio – Key concepts for final

... o Electrons occupy energy levels that have a maximum occupancy o Further away from the nucleus  higher energy level.  What happens when an electron moves from one level to another? o Electrons absorb and release energy all the time o It takes energy for an electron to go to a higher energy level o ...

AEROBIC RESPIRATION

... located on the membranes of the cristae of the mitochondria. The membranes contain a series of proteins, which are involved in the electron transport chain. Electrons are supplied in the form of reduced NAD and reduced FAD, which pass from the Krebs cycle in the matrix to the cristae. Electrons are ...

Photosynthesis and Cellular Respiration Review

... What is the name of the pigment found in the thylakoids in cholorplasts that absorbs light energy and is responsible for the green color of plants? ...

Chapter outline

... Energy comes in many forms and can easily change from one form to another. C. To perform processes, cells must use energy. They store this energy in molecular bonds; it is called chemical energy. D. When molecular bonds are broken, energy is released which can be used to power various reactions. E. ...

Part A: Multiple Choice (10 marks- Knowledge) - OISE-IS

... 4. Mature red blood cells do not have any mitochondria, yet they live for weeks. Predict which respiratory process might occur in red blood cells and explain your prediction. What metabolic products would you expect to find in red blood cells that would support your prediction? (2 marks) ...

Chapter 9 – Cellular Respiration and Fermentation

... The components of the electron transport chain reside in the inner membrane of the mitochondrion for eukaryotic cells. It is mainly comprised of protein complexes and various prosthetic groups (Figure 9.13). Initially, NADH has its electron removed at the first component. As the electron travels dow ...

Fun with Photosynthesis

... Plants are amazing because they can make their own food. While we are running out to get a sandwich, the trees around us are photosynthesizing to make their own sugars. How on Earth do they do that? Sunlight is pure energy, but it cannot be directly eaten or stored. Photosynthesis is the process by ...

Cellular Respiration (Chapter 8) Outline The Killers Are Coming

... 8.5 Anaerobic Routes of ATP Formation A. Anaerobic pathways operate when oxygen is absent (or limited); pyruvate from glycolysis is metabolized to produce molecules other than acetyl-CoA. ...

Questions and answers from course Environmental microbiology on

... activate ammonia to hydroxylamine. This need of molecular oxygen is not reflected in the overall stoichiometry. ...

Solutions for Biochemistry Unit Exam

... Briefly describe how the transfer of electrons from one protein to another in the electron transport chain results in the production of ATP. As the electrons pass from one protein to another, H+ ions pass across the membrane to form a charge and concentration gradient . H+ ions of the gradient flow ...

AP Biology - gwbiology

... a. Where does the C “go” that is removed? It becomes CO2, which is then exhaled from the body. ...

CELLULAR RESPIRATION STATIONS

... c, a water-soluble electron carrier located within the intermembrane space. The two other electrons passed across the protein quinone, which is reduced to quinol. ...

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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