Metabolism

... It is a series of protein/prosthetic group carriers that pass electrons from one to the other. Electrons are donated to the ETS by NADH and FADH2 As a pair of electrons is passed from carrier to carrier, energy is released and is used to form ATP At the end of the electron transport chain, oxyge ...

Photosynthesis Jeopardy

... Pores where most water loss occurs on a plant ...

Respiration, Chapter 8

... down to oxygen Chemiosmosis: energy coupling mechanism ATP synthase: produces ATP by using the H+ gradient (proton-motive force) pumped into the inner membrane space from the electron transport chain; this enzyme harnesses the flow of H+ back into the matrix to phosphorylate ADP to ATP (oxidative ph ...

Rapid Screening of Antibodies against Membrane Proteins using a

... have not been widely used for antibody screening against membrane protein targets, such as GPCRs and ion channels, because of the inherent difficulties of manipulating membrane proteins within microfluidic devices. Integral Molecular‘s Lipoparticle technology enables rapid biosensor screening of ant ...

Topic One: Cell Membrane - Red Hook Central Schools

... Cell Wall: rigid structure around the outside of plant cells to give them structure and support. Chloroplast: site of photosynthesis, makes sugar molecules using sunlight, water and carbon ...

How do you think materials move in and out of the cell?

... internal balance  Selective permeability: allows some materials to pass through membrane while rejecting others. ...

A New Subunit of Cytochrome b6f Complex Undergoes Reversible

... in vivo have shown that state I corresponds to a low phosphorylation of the peripheral antenna proteins that are mainly associated with PSII, with the photosynthetic apparatus being set for a linear electron flow from PSII to PSI aimed at carbon fixation; in state II, the peripheral antenna proteins ...

Bio-261-chapter-3

... • The outer membrane is unlike any other membrane. The outside leaflet consists of Lipopolysaccharides instead of phospholipids. ...

Cell Structure

... • Semi-permeable or selectively permeable – Some things can move across and some cannot, depending on the molecule: size, charge, etc. – One familiar semi-permeable membrane is the membrane of an egg – allows water to pass but not large protein or sugar molecules ...

2 395G Exam 3 11 Dec 2002 First calculate ∆E

... 4. a. Briefly summarize the mechanism by which light energy is converted to chemical energy in the light reactions of photosynthesis. (Just outline the fundamental processes involved.) Light absorption by PSI and PSII causes excitation of an electron to its singlet state. Electron is ejected and it ...

Chapter 6 ENZYME SUBSTRATE REACTANTS PRODUCTS

... The light reactions and Calvin cycle are linked by these two molecules. ATP and NADPH These include a reaction center containing chlorophyll and an electron transport chain. Photosystem This is the key light capturing pigment.chlorophyll Photosystems I and II are located in this portion of the chlor ...

Photosynthesis

...  Chlorophyll a is the main photosynthetic pigment  Accessory pigments, such as chlorophyll b, broaden the spectrum used for photosynthesis  Accessory pigments called carotenoids absorb excessive light that would damage chlorophyll ...

Aida.Membranes

... 7. Why is membrane sidedness an important concept in cell biology? Membrane sidedness refers to the two sides of the membrane being different, based on the lipid direction. It’s important because it’s associated with endocytosis and exocytosis and explains how particles end up on the inside or outs ...

Biology 123 Dr. Raut`s Class Session 6

... though water is polar, it is small enough that it can diffuse across the membrane on its own; however, this is too slow for the cell to rely on alone, and they often are aided by aquaporins, which are an example of a channel protein. Facilitated diffusion: molecules diffuse passively across the memb ...

6. Respiration - WordPress.com

... The pH in the intermembrane space is lower than in the mitochondrial matrix and is lower in the thylakoid spaces than in the stroma. Protons can lower the pH of a solution, thus showing that protons are of higher concentration in the intermembrane spaces. When isolated chloroplasts are illuminated, ...

Medical Application of Membrane in Drug Delivery Syestem

... • The drug release is controlled by transport of the drug across a membrane. • The transport is dependent on the drug diffusivity through the membrane and the thickness of the membrane • The membrane can be porous or non-porous and biodegradable or not. ...

Cell Membranes Osmosis and Diffusion

... higher concentration of solute than another. • Isotonic Solution - both solutions have same concentrations of solute. ...

A13-Cell Membrane and Transport

... Types of Cell Transport • Passive Transport- this type of transport requires NO energy because particles travel from where they are highly concentrated to a low concentrated area. They travel DOWN the concentration gradient. HI ...

electron transport chain

... back from the intermembrane space to the matrix. Most protons move back to the matrix through ATP synthase. ATP synthase is a membrane-bound enzyme that uses the energy of the proton gradient to synthesize ATP from ADP + Pi. theoretical energy yields ...

facebook Chlory Plastid

... Activities: capturing light energy in exchange for free energy, using my very own ribosomes to synthesize enzymes from amino acids, basking in the sun ...

Ch 9 Power Point - Cellular Respiration

... • All energy can be traced back to the sun. • Energy flows in as sunlight and leaves as heat. Chem elements are recycled. ...

Chp 4 Cell Energy

... – energy from NADH is used to split pyruvate into an alcohol and carbon dioxide – NADH is changed back into NAD+ – NAD+ is recycled to glycolysis ...

9700/04 - StudyGuide.PK

... (a) Describe the importance of ATP in cells, giving two examples of processes in which it is used. ...

Cell Energy Study Guide

... 17. What is the role of chemiosmosis in photosynthesis? Explain this process. At which point is it used? 18. What is the role of the photosystems, the electron transport chain, & ATP synthase? Where are they found? 19. What product(s) come out of light reactions? Calvin cycle? 20. Why can’t Calvin c ...

BUBBLES!!

... 3. Can one bubble divide to become several bubbles? 4. Can several bubbles merge to become one bubble? 5. Can a drop of water pass through a bubble without popping the bubble? 6. A bubble is a lipid monolayer – draw a diagram of a segment of a bubble using this symbol for a lipid ...

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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