Macromolecules Worksheet - High School Science Help
... ____________________ 1. This measures the hydrogen ion level of a solution. ____________________ 2. What kind of solution contains more hydrogen ions than hydroxide ions? ____________________ 3. This is the name for a compound with many sugar subunits linked together. ____________________ 4. What ar ...
... ____________________ 1. This measures the hydrogen ion level of a solution. ____________________ 2. What kind of solution contains more hydrogen ions than hydroxide ions? ____________________ 3. This is the name for a compound with many sugar subunits linked together. ____________________ 4. What ar ...
CHAPTER 1 - Portal UniMAP
... • Such enzyme inhibition may be REVERSED only by using chelating agents such as EDTA and citrate. It is easily DISSOCIATED from the enzyme after binding. ...
... • Such enzyme inhibition may be REVERSED only by using chelating agents such as EDTA and citrate. It is easily DISSOCIATED from the enzyme after binding. ...
Macromolecules Notes
... ____________________ 1. This measures the hydrogen ion level of a solution. ____________________ 2. What kind of solution contains more hydrogen ions than hydroxide ions? ____________________ 3. This is the name for a compound with many sugar subunits linked together. ____________________ 4. What ar ...
... ____________________ 1. This measures the hydrogen ion level of a solution. ____________________ 2. What kind of solution contains more hydrogen ions than hydroxide ions? ____________________ 3. This is the name for a compound with many sugar subunits linked together. ____________________ 4. What ar ...
Enzyme
... • Many enzymes are conjugated proteins that require nonprotein portions known as cofactors. • Some cofactors are metal ions, others are nonprotein organic molecules called coenzymes. • An enzyme may require a metal-ion, a coenzyme, or both to function. ...
... • Many enzymes are conjugated proteins that require nonprotein portions known as cofactors. • Some cofactors are metal ions, others are nonprotein organic molecules called coenzymes. • An enzyme may require a metal-ion, a coenzyme, or both to function. ...
Macromolecule Notes
... Activation energy- energy needed to get a reaction started -If the activation energy cannot be reached there will not be a reaction ...
... Activation energy- energy needed to get a reaction started -If the activation energy cannot be reached there will not be a reaction ...
Unit 3 Review Sheet – Biochemistry
... and a polysaccharide is made of many monosaccharides What are some examples of each of the 4 macromolecules? 1. Carbohydrate Glucose, fructose (mono); sucrose (di); starch, glycogen (poly) ...
... and a polysaccharide is made of many monosaccharides What are some examples of each of the 4 macromolecules? 1. Carbohydrate Glucose, fructose (mono); sucrose (di); starch, glycogen (poly) ...
Unit 1 PPT 3 (2biii-iv Binding and conformation)
... • Other proteins have binding sites that are specific to particular sequences of doublestranded DNA and when bound to can either stimulate or inhibit initiation of transcription. • lac Operon • Transcription animation ...
... • Other proteins have binding sites that are specific to particular sequences of doublestranded DNA and when bound to can either stimulate or inhibit initiation of transcription. • lac Operon • Transcription animation ...
File
... small intestine during digestion is about 8. The graph below shows how pH affects the enzyme activity of four different enzymes, A, B, C, and D. ...
... small intestine during digestion is about 8. The graph below shows how pH affects the enzyme activity of four different enzymes, A, B, C, and D. ...
Document
... The product of one reaction becomes the starting material, or substrate, for the next. Each pathway includes one or more enzymes that have a greater effect on the rate of the overall sequence. These regulatory enzymes exhibit increased or decreased catalytic activity in response to certain signals. ...
... The product of one reaction becomes the starting material, or substrate, for the next. Each pathway includes one or more enzymes that have a greater effect on the rate of the overall sequence. These regulatory enzymes exhibit increased or decreased catalytic activity in response to certain signals. ...
0495116572_102919
... • Functionality depends on protein & prosthetic group or coenzyme • Specificity • Maximum velocity (Vmax) - enzyme velocity at substrate saturation • Km (Michaelis constant) - concentration of substrate when reaction is at 1/2 of maximum velocity 2009 Cengage-Wadsworth ...
... • Functionality depends on protein & prosthetic group or coenzyme • Specificity • Maximum velocity (Vmax) - enzyme velocity at substrate saturation • Km (Michaelis constant) - concentration of substrate when reaction is at 1/2 of maximum velocity 2009 Cengage-Wadsworth ...
NAME:
... Gelatin is a protein made from collagen. Proteins are a basic type of matter that make up all living things. Collagen is a structural protein found in all animals, that helps give animals their structure, or shape. Collagen can be found in many parts of your body, including your skin, bones, muscles ...
... Gelatin is a protein made from collagen. Proteins are a basic type of matter that make up all living things. Collagen is a structural protein found in all animals, that helps give animals their structure, or shape. Collagen can be found in many parts of your body, including your skin, bones, muscles ...
How Enzymes Are Named - Our biological products and solutions
... protein, they are catalysts. This means that by their mere presence, and without being consumed in the process, enzymes can speed up chemical processes that would otherwise run very slowly, if at all.; Enzymes are specific Contrary to inorganic catalysts such as acids, bases, metals and metal oxides ...
... protein, they are catalysts. This means that by their mere presence, and without being consumed in the process, enzymes can speed up chemical processes that would otherwise run very slowly, if at all.; Enzymes are specific Contrary to inorganic catalysts such as acids, bases, metals and metal oxides ...
Lecture 016-
... How does it work? Variety of mechanisms to lower activation energy & speed up reaction ...
... How does it work? Variety of mechanisms to lower activation energy & speed up reaction ...
Ch. 5 Enzyme Review
... b. to lower the energy of the activation of a reaction c. to change the direction of thermodynamic equilibrium d. to change endergonic into exergonic reactions e. to allow substrates to move more freely in solution 9. If the tertiary structure of an enzyme is changed _____. a. its substrate may not ...
... b. to lower the energy of the activation of a reaction c. to change the direction of thermodynamic equilibrium d. to change endergonic into exergonic reactions e. to allow substrates to move more freely in solution 9. If the tertiary structure of an enzyme is changed _____. a. its substrate may not ...
bonds form when water is removed to hold acids together.
... 24. Chains of amino acids make ________________________ which can join together to make a _____________________. 25. _______________ bonds form when water is removed to hold ______________ acids together. Nucleic acids carry the genetic information in a cell. DNA or deoxyribose nucleic acid contains ...
... 24. Chains of amino acids make ________________________ which can join together to make a _____________________. 25. _______________ bonds form when water is removed to hold ______________ acids together. Nucleic acids carry the genetic information in a cell. DNA or deoxyribose nucleic acid contains ...
Document
... a. Neither enzyme is likely to be a human enzyme; b. Enzyme A is more likely to be a human enzyme; c. Enzyme B is more likely to be a human enzyme; d. Both enzymes are likely to be human enzymes. (4) At which temperatures might enzymes A and B both work? a. Above 40°C; b. Below 50°C; c. Above 50°C a ...
... a. Neither enzyme is likely to be a human enzyme; b. Enzyme A is more likely to be a human enzyme; c. Enzyme B is more likely to be a human enzyme; d. Both enzymes are likely to be human enzymes. (4) At which temperatures might enzymes A and B both work? a. Above 40°C; b. Below 50°C; c. Above 50°C a ...
Food Enzymes: Friend or Foe? A Great Teaching Topic
... Enzymes in the Food Industry - Friend or Foe? What are enzymes? What controls the action of enzymes? Why are enzymes important in the ...
... Enzymes in the Food Industry - Friend or Foe? What are enzymes? What controls the action of enzymes? Why are enzymes important in the ...
File
... alanine, be specific. Think “R-Group” (you will have to look this up). Cysteine’s R-group is CH2-SH while Alanine is CH3 14. Diagram the joining of 2 amino acids together through dehydration synthesis to form a dipeptide with a peptide bond. Highlight the peptide bond. ...
... alanine, be specific. Think “R-Group” (you will have to look this up). Cysteine’s R-group is CH2-SH while Alanine is CH3 14. Diagram the joining of 2 amino acids together through dehydration synthesis to form a dipeptide with a peptide bond. Highlight the peptide bond. ...
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.