Exam 2 Practice - Nicholls State University

... thylakoid membranes and the pH in the stroma of chloroplasts during the light reactions of photosynthesis, what would you find? a. the pH would be higher in the stroma b. the pH would be lower in the stroma c. the pH of both spaces would be the same 33. Which statement about the Calvin cycle is NOT ...

Cellular Metabolism

... across the inner membrane space creating a proton motive gradient – This gradient is utilized along with oxygen that has entered the mitochondrial matrix to power a rotary ATP synthase transmembrane protein complex – The “spent” electrons are picked up by oxygen ...

BIOLOGY CH9PPTOL NAME______________________

... What are the roles of the electron transport chains? During photosynthesis, 1 electron transport chain provides energy to make ATP, the other provides energy to make NADPH. ELECTRON TRANSPORT CHAINS- The Light Reactions Step 1: Electrons excited by light leave the chlorophyll. An enzyme called Hydro ...

22. Think of two different proteins: both are enzymes. a) What

... c) For each of the processes, tell which of the following compounds is produced (net): ADP, ATP, NAD, NADH Glycolysis=ATP, NADH Citrus acid cycle= NADH, ATP Oxidative phosphorylation= ATP, NAD d) At the end of a complete round of all 3 processes above, which of the following compounds has the cell n ...

Sorting Activities in Plant Cells

... Protein Targeting to Vacuoles Like most soluble secretory proteins, vacuolar proteins are synthesized with an N-terminal signal sequence that causes the ribosome to bind to the membrane of the endoplasmic reticulum and to push the nascent proteins into its lumen (Fig. 3). Analysis of precursors for ...

Cellular Respiration

... The Krebs cycle completes the oxidation of glucose, generating many NADH and FADH2 molecules • The Krebs cycle is a series of redox reactions in which enzymes strip away electrons and H+ ...

Membrane Fusion

... LPC ...

powerpoint 24 Aug

...  Tertiary structure is extremely important to the functioning of amylase. The tertiary structure is formed by the whole peptide chain (protein) folding and coiling around itself. This forms the active site (binding site) of the enzyme. The enzyme is held in a specific configuration (tertiary struct ...

Membrane and Action Potentials

...  Basically any change in the membrane potential is considered a graded potential… some changes aren’t strong enough to elicit an AP while others are. It just depends on whether or not they reach the threshold. o If they do reach the threshold then the graded potential turns into an action potential ...

In This Issue - The Journal of Cell Biology

... When RCC1’s tail gets between it and chromatin, it gets a little help from its partner, Ran, to move the tail aside, according to Hao and Macara. RCC1 is a chromatin-binding protein essential for chromosome condensation, mitosis, and nuclear envelope assembly, and is also the only known exchange fac ...

Biology 177-201B

...  The two photosystems and photosynthetic electron transport  CO2 fixation: the dark reactions of the Calvin cycle Lodish et al., pp. 511-529. Lecture 15. Protein targeting to the endoplasmic reticulum I. February 5.  How proteins are targeted to specific locations in the cell  An overview of the ...

Slide 1

... makes such a gradient. ...

doc Syllabus 201

...  The respiratory chain and the TCA cycle  Redox couples: electron donor acceptor pairs  An electron transfer chain: successive and oxidation of redox couples  Standard redox potentials: ranking the reducing power of redox couples Readings: Lodish et al., pp. 59-60; pp. 499-500. Berg et al., pp. ...

Lipid modification of proteins and its relevance to protein targeting

... (Resh and Ling, 1990). Further studies will be required to confirm these observations, but the intriguing possibility exists that specificity may be generated by a synergistic recognition of myristate and nearby peptide sequences. The myristate itself may interact directly with another protein rathe ...

doc BIOL210syllabus

...  The two photosystems and photosynthetic electron transport  CO2 fixation: the dark reactions of the Calvin cycle Lodish et al., pp. 511-529. Lecture 15. Protein targeting to the endoplasmic reticulum I. February 5.  How proteins are targeted to specific locations in the cell  An overview of the ...

Ch. 9 Cellular Respiration

...  Electrons are shuttled through a series of carriers (membrane proteins) that allows for release of energy to be in small (usable) ...

Honors Guided Notes

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

Chapter 7

... • If oxygen is available, the pyruvic acid will move into the mitochondria and aerobic respiration will begin. • 4 ATP molecules are produced. Two are used to break apart the next glucose molecule and keep glycolysis going. • This leaves a net yield of 2 ATP molecules for use by the cell. • Two NAD+ ...

Bostik`s Moisture Vapor Protection

... 2. Create a Noise Reduction Barrier over the Substrate, Peace Noise reduction 3. Establish an Anti-fracture Membrane that can bridge Subfloor cracks up to 1/8`` prior to or after installation Contains a Bostik Blockade antimicrobial agent providing built-in protection to inhibit the growth of bacter ...

Photosynthesis - Kania´s Science Page

... Energy that is stored in ATP is released by breaking the chemical bond between the second and third phosphates. ...

RESPIRATION: SYNTHESIS OF ATP

... plants make lactic or malic acid and tolerate these better. ! Most animals make lactic acid, but the acid hurts; goldfish make EtOH and excrete it. ...

Signal sequence peptides at an air-water interface

... the processing in vitro of preproteins in a concentrationdependent manner (Austen & Ridd, 1981; Austen et al., 1984). The other peptide investigated was the putative signal sequence contained within ovalbumin (Tabe et al., 1984). This peptide has recently been isolated as a tryptic fragment from ova ...

lecture 02b

... • Electrons (H atoms) given up by NADH at the membrane, energy released slowly during e- transport and used to establish a proton (H+) gradient across the membrane – Energy now in the form of a proton gradient which can do work. – Electrons combine with oxygen to produce water, take e- away. ...

Electron Transport Chain, Oxidative phosphorylation and Pentose

... 1. Write down the different forms of energy at various steps in the oxidative phosphorylation i.e. NADH oxidation coupled to ATP generation. Chemical energy –to-- electrochemical gradient (electrical energy) –to-- kinetic energy (rotation of the shaft) –to-- chemical energy (ATP) 2. How many Co-enzy ...

Cube Biotech

... The rho1D4 epitope and antibody pair was characterized in the 1980ꞌs and used to purify bovine rhodopsin expressed in monkey kidney cells by coupling the antibody to Sepharose® beads.(1,2) Since then, the rho1D4 system (tag, antibody-coupled affinity matrix, eluent peptide) has been used to study a ...

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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