CH395 G Exam 3 Fall 2004 - Multiple Choice 1. Which of the

... The patient develops vomiting and diarrhea shortly after milk ingestion. A lactose tolerance test is administered. The patient ingests a standard amount of lactose, and the glucose and galactose concentrations in blood plasma are measured at intervals. In lactose-tolerant individuals the levels incr ...

Oxidative Phosphorylation

... Oxidative Phosphorylation • H+ transport results in an electrochemical gradient • Proton motive force: energy released by flow of H+ down its gradient is used for ATP synthesis • ATP synthase: H+ channel that couples energy from H+ flow with ATP synthesis ...

BENCHMARK SC.912.L.1 CO2 + H2O + Energy =→ C6H12O6 + O2

... Students will identify the reactants, products and/or the basic function of photosynthesis. Students will explain how the products of photosynthesis are used as reactants for cellular respiration and vice versa. ...

Biology 1406 Exam 2

... Which have been oxidized and which reduced? Which have lost energy and which have gained energy? What two processes combine to form the oxidative phosphorylation pathway? List 3 reactants that go into oxidative phosphorylation and 3 products that come out. Which have been oxidized and which reduced? ...

Membrane Structure and Transport

... • Capable of physically changing their shape to carry large molecules across the membrane ...

Biology 1407 - Ranger College

... Which have been oxidized and which reduced? Which have lost energy and which have gained energy? What two processes combine to form the oxidative phosphorylation pathway? List 3 reactants that go into oxidative phosphorylation and 3 products that come out. Which have been oxidized and which reduced? ...

Cells Every organism is made up of a cell or many cells Humans have

... • Double membrane organelle – has both an outer membrane and an inner folded membrane • Contains its own DNA separate from the nucleus • Folded internal membrane called CRISTAE • Cristae provide additional surface area for reactions to take place • Filled with a fluid matrix ...

Plasma Membrane Discussion

... drag molecules through the lipid bilayer and release them on the opposite side. ...

Unit 5 Cellular Energy

... but most energy originally comes from the sun. Plants are able to capture the sun’s energy and use it to produce glucose,________. This C6H12Ooccurs ...

SPA Receptor Binding Study Design

... bead addition, T0 addition, or delayed addition. Pre-coupling affords the measure of “on” and “off” rates for receptor binding. The T0 addition format involves sequential addition of test samples, radio-ligand, membrane and bead as separate additions. The coupling of membrane to beads occurs simulta ...

Independent Practice

... 7) How does cotransport allow the diffusion of molecules up their concentration gradient. Give a real life example of cotransport. 8) What’s the difference between exocytosis and endocytosis? What are the three main types of endocytosis? Independent Practice Membrane Structure and Function ...

Topic 21: COMMUNICATION BETWEEN CELLS

... negatively charged (anions) organic molecules which are not present on the outside. 1. membrane is more permeable to K+ than Na+ 2. K+ flows out down its concentration gradient 3. As it flows out, the inside becomes negatively charged because of anions left behind 4. The Na+-K+ ATPase (pump) maintai ...

Slide 1

... Where Cb is the concentration of bound molecule (PL), Cf is the concentration of free molecule in solution (P). Binding Isotherms are typically analyzed by measuring either the amount of the free ligand in solution or that bound to the bilayer and knowing the total concentration of lipid. An express ...

Chapter6summaryHO

... NADH and FADH2 are used to move protons across the membrane to generate a proton motive force. This is used to make ATP. The metabolic pathways are linked to the PMF by NADH and FADH2. The energy is still ultimately originating from the organic molecules (i.e. glucose). NOTE that NADPH is used in bi ...

The Working Cell

... • 1. ATP synthesis is coupled to the electron transport system. • 2. Peter Mitchell received the 1978 Nobel Prize for his chemiosmotic theory of ATP production. • 3. In both mitochondria and chloroplasts, carriers of electron transport systems are located within a membrane. • 4. H+ ions (protons) co ...

Biochemistry I, Spring Term 2000 - Third Exam

... Both involve the generation of ATP. In the first case the ’high’ energy potential of on compound is directly transferred to ADP to generate ATP. In the other, the energy is stored in a proton gradient, which is then used to generate ATP. B6 (10 pts): Choose one of the following compounds: NADH, NAD+ ...

Name CELLULAR RESPIRATION Let`s take a look back

... – Produces burning feeling in muscle cells – Occurs when body is worked to the point that more oxygen is being used than taken in – Produces __________________________________________________________ ...

Cell Respiration

... Now...why did we collect all those H’s??? ...

chapter_4_2007

... – A small bag with a large bag stuffed inside. – Larger internal bag is folded into cristae.  Cristae contain proteins for cellular respiration. – Releases the energy from food – Requires oxygen – Uses the energy to make ATP (See Ch.6) ...

الشريحة 1

... recognized, except in the area where vesicles bud off. (By D. G. Robinson, Heidelberg.) ...

Krebs Cycle - WordPress.com

... Stage 3: Electron Transport/Respiratory Chain transport releases the energy Electron your cells need to make the most of their ATP The molecules of electron transport chains are built into the inner membranes of mitochondria The chain functions as a chemical machine that uses energy released by ...

MCB Lecture 3 – ER and Golgi

... Once the Polypeptide Chain is shuttled into the ER through the translocon, what protein helps it fold correctly? o BiP – Binding Protein What enzyme in the ER Lumen cleaves the N-Terminal Signal from the Polypeptide chain as it enters the lumen? o Signal Peptidase What is needed for a Single-Pass Tr ...

Chapter 9 Study Guide

... b. It involves the redox reactions of the electron transport chain c. It involves an ATP Synthase located in the inner mitochondrial membrane. d. It uses oxygen as the initial electron doner. e. It depends on chemiosmosis. ______17. The major reason that Glycolysis is not as energy-productive as res ...

Metabolic Energy - Metabolism Foundation

... Metabolic Energy for Dummies: A quick look at Cellular Metabolism (Energetics) ...

Slide 1

... – Ribosomes: composed of proteins and RNA; bacterial ribosomes have a different size and structure than those in eukaryotes – DNA, RNA, and the Genetic Code: bacterial chromosome a simple ring of DNA; in eukaryotes, DNA is packaged with proteins – Other molecules / structures: membrane proteins (ex. ...

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Thylakoid

A thylakoid is a membrane-bound compartment inside chloroplasts and cyanobacteria. They are the site of the light-dependent reactions of photosynthesis. Thylakoids consist of a thylakoid membrane surrounding a thylakoid lumen. Chloroplast thylakoids frequently form stacks of disks referred to as grana (singular: granum). Grana are connected by intergranal or stroma thylakoids, which join granum stacks together as a single functional compartment.

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Thylakoid