Ecology
... a type of biochemical that does not dissolve in water including fats and steroids; lipids stove energy and make up cell membranes ...
... a type of biochemical that does not dissolve in water including fats and steroids; lipids stove energy and make up cell membranes ...
syllabus - Wofford
... Section I – Course Introduction – Amino Acids, Peptides, Proteins – Enzymes In this section, you will need to learn the structures of the amino acids. It isn’t so difficult, because you really only need to remember the R groups. Amino acid structures are important for your understanding protein stru ...
... Section I – Course Introduction – Amino Acids, Peptides, Proteins – Enzymes In this section, you will need to learn the structures of the amino acids. It isn’t so difficult, because you really only need to remember the R groups. Amino acid structures are important for your understanding protein stru ...
Chapter 3 Chemistry of Life Modern Biology Textbook Holt
... Distinguish 3 types of carbohydrates-monosaccharides, disaccharides and polysaccharides. Explain how enzymes are a type of protein ande catalyze chemical reactions. Identify the monomers and polymers carbohydrates, proteins, lipids and nucleic acids. Describe the induced fit model of enzyme action. ...
... Distinguish 3 types of carbohydrates-monosaccharides, disaccharides and polysaccharides. Explain how enzymes are a type of protein ande catalyze chemical reactions. Identify the monomers and polymers carbohydrates, proteins, lipids and nucleic acids. Describe the induced fit model of enzyme action. ...
Document
... Monosaccharides – single sugar units, the monomers of carbohydrates. Primary source of energy for cells, some can be structural. Glucose is the main source of energy for cells Disaccharides – two sugar units. Nutritional molecules for plants and in milk for offspring. Sucrose is the main source of n ...
... Monosaccharides – single sugar units, the monomers of carbohydrates. Primary source of energy for cells, some can be structural. Glucose is the main source of energy for cells Disaccharides – two sugar units. Nutritional molecules for plants and in milk for offspring. Sucrose is the main source of n ...
Review Problems week 11 plus any problems left over from last week
... 9) Inhibition of a key enzyme activity by the end product of a biosynthetic pathway is known as what? 10) Why is it useful to have multiple isozymes of enzymes that comprise common pathways to multiple amino acids? 11) Partial inhibition of a key enzyme activity by multiple compounds derived from an ...
... 9) Inhibition of a key enzyme activity by the end product of a biosynthetic pathway is known as what? 10) Why is it useful to have multiple isozymes of enzymes that comprise common pathways to multiple amino acids? 11) Partial inhibition of a key enzyme activity by multiple compounds derived from an ...
outlines
... Triacylglycerides converted to fatty acids and glycerol by hormone-sensitive lipases -Activated by glucagon and epinephrine in response to fasting, exercise, or stress -lipases activated in a cAMP-dependent pathway via phosphorylation -Glycerol transported to liver for glycolysis or gluconeogenesis ...
... Triacylglycerides converted to fatty acids and glycerol by hormone-sensitive lipases -Activated by glucagon and epinephrine in response to fasting, exercise, or stress -lipases activated in a cAMP-dependent pathway via phosphorylation -Glycerol transported to liver for glycolysis or gluconeogenesis ...
Test Your Knowledge – Chapter 3 Name
... 4. A major characteristic that all lipids have in common is a. they are all made of fatty acids and glycerol. b. they all contain nitrogen. c. none of them is very high in energy content. d. they are all acidic when mixed with water. e. they don’t dissolve well in water. 5. A flower’s color is deter ...
... 4. A major characteristic that all lipids have in common is a. they are all made of fatty acids and glycerol. b. they all contain nitrogen. c. none of them is very high in energy content. d. they are all acidic when mixed with water. e. they don’t dissolve well in water. 5. A flower’s color is deter ...
Lipids (lec 1, 2, 3)..
... Steps of transport: 1) acyl group is transferred from acylCoA into carnitine by CAT-1 to give acyl carnitine and free CoA which remains in cytoplasm. 2) Acyl carnitine is transported into mitochondria by the help of Carnitine acylcarnitine translocase. 3) CAT-2 catalyses the transfer of acyl group f ...
... Steps of transport: 1) acyl group is transferred from acylCoA into carnitine by CAT-1 to give acyl carnitine and free CoA which remains in cytoplasm. 2) Acyl carnitine is transported into mitochondria by the help of Carnitine acylcarnitine translocase. 3) CAT-2 catalyses the transfer of acyl group f ...
Assignment No: One (1) Student details: Chebo
... These structures are held in place by hydrogen bonds. Protein chains may fold into a globular shape. This is the tertiary structure of a protein. These globular proteins include enzymes and immunoglobins. The structures are held in place by hydrogen bonds, disulfide bridges and ionic bonds. The prec ...
... These structures are held in place by hydrogen bonds. Protein chains may fold into a globular shape. This is the tertiary structure of a protein. These globular proteins include enzymes and immunoglobins. The structures are held in place by hydrogen bonds, disulfide bridges and ionic bonds. The prec ...
第八章
... *synthesis of phospholipids. *synthesis of lipoprotein. *synthesis of ketone body. *degradation of fatty acid. *degradation of phospholipids. *removal of phospholipids and cholesterol from blood. *lengthening and shortening of fatty acids. *saturating and desaturating of fatty acids. *control of dep ...
... *synthesis of phospholipids. *synthesis of lipoprotein. *synthesis of ketone body. *degradation of fatty acid. *degradation of phospholipids. *removal of phospholipids and cholesterol from blood. *lengthening and shortening of fatty acids. *saturating and desaturating of fatty acids. *control of dep ...
Macs Notes
... that BREAK DOWN molecules.) Water is used during the process. Why? b/c now you have to break up one or more of the covalent links. This leaves unhappy atoms with electrons that need to be shared. So... ...water breaks up into –H and –OH and attaches to make each side happy. In the body these r ...
... that BREAK DOWN molecules.) Water is used during the process. Why? b/c now you have to break up one or more of the covalent links. This leaves unhappy atoms with electrons that need to be shared. So... ...water breaks up into –H and –OH and attaches to make each side happy. In the body these r ...
Biomolecules
... extra layer for warmth if its cold It also protects your brain in case your head gets hit, absorbing the impact Examples: Fats Oils and Wax ...
... extra layer for warmth if its cold It also protects your brain in case your head gets hit, absorbing the impact Examples: Fats Oils and Wax ...
POWERPOINT NOTES SHEET 2.3 Carbon Compounds
... Lipids are a large and varied group of biological molecules. Lipids are made mostly from _________________ and _______________________ atoms and are generally not ...
... Lipids are a large and varied group of biological molecules. Lipids are made mostly from _________________ and _______________________ atoms and are generally not ...
幻灯片 1
... mitochondria where they are converted to acetyl CoA, which is oxidized by the citric acid cycle. b-hydroxybutyrate is converted to acetoacetate in a reaction catalyzed by an isozyme of bhydroxybutyrate dehydrogenase that is distinct from the liver enzyme. Acetoacetate reacts with succinyl CoA to for ...
... mitochondria where they are converted to acetyl CoA, which is oxidized by the citric acid cycle. b-hydroxybutyrate is converted to acetoacetate in a reaction catalyzed by an isozyme of bhydroxybutyrate dehydrogenase that is distinct from the liver enzyme. Acetoacetate reacts with succinyl CoA to for ...
question bank acids, bases and salts
... is a sugar How will you identify them? You have only turmeric indicator. 4. How neutralization reaction is useful in soil treatment and in indigestion. ...
... is a sugar How will you identify them? You have only turmeric indicator. 4. How neutralization reaction is useful in soil treatment and in indigestion. ...
Organic Biomolecules Fill in Notes 2016
... antibodies in your immune system contractile proteins in your muscles ENZYMES – help speed up chemical reactions by reducing activation energy ...
... antibodies in your immune system contractile proteins in your muscles ENZYMES – help speed up chemical reactions by reducing activation energy ...
Biochemistry - Fort Thomas Independent Schools
... Enzymes special proteins that are biological catalyst lock & key fit with enzyme & substrate substrate – is the substance that binds to enzyme substrate changes enzyme does not ...
... Enzymes special proteins that are biological catalyst lock & key fit with enzyme & substrate substrate – is the substance that binds to enzyme substrate changes enzyme does not ...
Organic chemistry ppt
... Protein Structure • 2 or more amino acids joined by peptide bond –Hence the other name for a protein: polypeptide chain ...
... Protein Structure • 2 or more amino acids joined by peptide bond –Hence the other name for a protein: polypeptide chain ...
LIPID METABOLISM
... Glucose undergoes glycolysis forming pyruvic acid, which enters the mitochondria where it undergoes oxidation decarboxylation to form acetyl-CoA ...
... Glucose undergoes glycolysis forming pyruvic acid, which enters the mitochondria where it undergoes oxidation decarboxylation to form acetyl-CoA ...
Biochemistry Test Review Cards
... stored in the liver and muscles of animals in the form of Glycogen ...
... stored in the liver and muscles of animals in the form of Glycogen ...
... carbon to carbon bonds is double or triple. 12. What are proteins? macromolecules containing carbon, hydrogen, oxygen and nitrogen; usually made of more than one polypeptide chain. 13. What are amino acids? building blocks (monomers) of proteins; twenty kinds 14. What are Reactants? Substances that ...
Fatty acid synthesis
Fatty acid synthesis is the creation of fatty acids from acetyl-CoA and malonyl-CoA precursors through action of enzymes called fatty acid synthases. It is an important part of the lipogenesis process, which – together with glycolysis – functions to create fats from blood sugar in living organisms.