Chapter 2: The Molecules of Cells

... ► Non-competitive (allosteric)  E + S +I ↔ no or reduced ES ↔E + no product or reduced product EX. Feedback Inhibition ...

Topic 2: Molecular biology (21 hours)

... • Many metabolic pathways have been described enzyme-catalysed reactions. following a series of carefully controlled and repeated • Enzymes lower the activation energy of the chemical experiments. To what degree can looking at component reactions that they catalyse. parts give us knowledge of the wh ...

Chapter 1 - TeacherWeb

... Cellular respiration – name four phases, starting reactants/ending products of each phase, location of each process, general understanding of each process, number of ATP & product at each stage produced by 1 glucose molecule Role of NAD+, FAD, Coenzyme A Similarities and differences between aerobic ...

Exam I Cell and Molecular Biology September 26, 2007 This exam

... enzymatic activities. These include an RNA polymerase (DNA primase) that synthesizes short segments of RNA, called primers, which are base paired to the DNA template. The 3´-OH ends of these RNA primers serve as initiation sites for the actual DNA polymerase activity. Obviously, DNA primase can synt ...

Document

... Energy flows from the sun to plants, which lose energy directly or indirectly to other organisms Overall energy flows in one direction and entropy increases as at each step energy is lost Producers builds complex molecules from simpler building blocks using the energy of the ...

Ch. 5 Molecules of Life – Test Study Guide Carbohydrates, Fats

... -What are the monomers of each? How does the molecule progress to become a polymer? -How does dehydration synthesis work to the build a polymer of each group? -What kind of bond / elements are involved with each type of bond to make a polymer? -How does hydrolysis work to break down the polymer of e ...

Chapter 10 Enzymes - Angelo State University

Macromolecules and the Molecules of Life

... between structures and functions in living cells. • b. Explain how enzymes function as catalysts • c. Identify the function of the four major macromolecules (i.e., carbohydrates, proteins, lipids, nucleic acids). ...

8/27 Organic Chemistry

... • Protein structure is generally stable • Strong structure/function relationship is dependent on the 3D shape of the protein ...

Cellular Energy and Enzymatic Function

... ionic bonds. ...

Notes

... •Bind at some other point on the enzyme molecule, which still changes the shape of the active site so enzyme-substrate complex cannot be formed. http://www.stolaf.edu/people/giannini/flashanimat/enzymes/allosteric.swf ...

Library construction - Center for Bioinformatics and

... 3. Contains a multiple cloning site (MCS) 4. Easy to be isolated from the host cell. ...

Compounds for Life

... Chemical changes- a new chemical is formed Evidence of chemical changes can include: -bubbles forming when substances are added/mixed, a color change, burning/fire Examples: Rust forming on metal, Silver tarnishing (changing colors), Burning a pile of wood, Cooking bread and seeing it rise ...

Metabolism: the chemical reactions of a cell

... reduced (number gets lower) from +4 to -4. ...

Chapter 10 Enzymes - Angelo State University

... allowing it to achieve equilibrium more rapidly. ...

Supramolecular Factories Inspired by Processive Enzymes

... A vital feature of the efficiency for DNA replication is the ability to replicate many unique DNA strands simultaneously. Likewise, DTS also has the ability to synthesize multiple products in a single solution, as the chemical sequences of individual products are dependent on individual DNA template ...

Chapter Nineteen

... ► Hydrolases catalyze the breaking of bonds with addition of water. The digestion of carbohydrates and proteins by hydrolysis requires these enzymes. ...

Molecular Biology-restrection enzyme

... Molecular Scissors and Glue zThere are 200’s of restriction enzymes, each one with a different recognition site – These enzymes are ‘molecular scissors’ and can be used to specifically cut long DNA strands into smaller pieces ...

Prescott`s Microbiology, 9th Edition Chapter 10 –Introduction to

... Figure 10.2 Which reaction would release heat? Explain your answer. Exergonic reactions have a negative delta G, and will have a positive change in enthalpy, and thus release heat. Figure 10.6 Why would energy be required to move electrons “up” the tower, from water to nitrate, for example? Looking ...

Chapter 5

Biology Unit 2

...  CODED FOR BY DNA! ...

6.12 Class PPT Biodiversity lab day 2

unit 2 – the chemistry of life

... 8. List the three main kinds of cellular work. Explain in general terms how cells obtain the energy to do cellular work. 9. Describe the structure of ATP and identify the major class of macromolecules to which ATP belongs. 10. Explain how ATP performs cellular work. Enzymes are Catalytic Proteins 11 ...

New vistas in anti-retroviral HIV drug design

... hydrogen-bonding interactions, which play a key role in how effectively a drug binds to its target. Researchers used neutron crystallography to probe the structure of HIV-1 protease in complex with the clinical inhibitor darunavir, allowing details of the hydrogen-bonding interactions in the active ...

1 - Wsfcs

... determining its shape. Many proteins consist of two or more amino acid chains held together by __________________ bonds. If the __________________ of amino acids were to change, the protein might fold differently and not be able to carry out its __________________ in the cell. 31. With your partner, ...

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Enzyme

Enzymes /ˈɛnzaɪmz/ are macromolecular biological catalysts. Enzymes accelerate, or catalyze, chemical reactions. The molecules at the beginning of the process are called substrates and the enzyme converts these into different molecules, called products. Almost all metabolic processes in the cell need enzymes in order to occur at rates fast enough to sustain life. The set of enzymes made in a cell determines which metabolic pathways occur in that cell. The study of enzymes is called enzymology.Enzymes are known to catalyze more than 5,000 biochemical reaction types. Most enzymes are proteins, although a few are catalytic RNA molecules. Enzymes' specificity comes from their unique three-dimensional structures.Like all catalysts, enzymes increase the rate of a reaction by lowering its activation energy. Some enzymes can make their conversion of substrate to product occur many millions of times faster. An extreme example is orotidine 5'-phosphate decarboxylase, which allows a reaction that would otherwise take millions of years to occur in milliseconds. Chemically, enzymes are like any catalyst and are not consumed in chemical reactions, nor do they alter the equilibrium of a reaction. Enzymes differ from most other catalysts by being much more specific. Enzyme activity can be affected by other molecules: inhibitors are molecules that decrease enzyme activity, and activators are molecules that increase activity. Many drugs and poisons are enzyme inhibitors. An enzyme's activity decreases markedly outside its optimal temperature and pH.Some enzymes are used commercially, for example, in the synthesis of antibiotics. Some household products use enzymes to speed up chemical reactions: enzymes in biological washing powders break down protein, starch or fat stains on clothes, and enzymes in meat tenderizer break down proteins into smaller molecules, making the meat easier to chew.

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Enzyme