Biomolecule Activities Objectives 1. Describe the structure and
... Create a concept map that answers the objectives and uses all of the vocabulary words listed below. All connectors must be labeled with why you made the connections you did. Make sure you are making connections between concepts, not just writing definitions. Typically a concept map goes from general ...
... Create a concept map that answers the objectives and uses all of the vocabulary words listed below. All connectors must be labeled with why you made the connections you did. Make sure you are making connections between concepts, not just writing definitions. Typically a concept map goes from general ...
Metabolic Processes
... y The CoA can be used many times and changed to oxaloactic acid. The cycle repeats as long that pyruvic acid is supplied. y The citric acid has 3 important consequences: y 1. One ATP is produced for each citric acid molecule in the cycle. y 2. For each citric acid molecule, eight hydrogen atoms wit ...
... y The CoA can be used many times and changed to oxaloactic acid. The cycle repeats as long that pyruvic acid is supplied. y The citric acid has 3 important consequences: y 1. One ATP is produced for each citric acid molecule in the cycle. y 2. For each citric acid molecule, eight hydrogen atoms wit ...
Slides - gserianne.com
... • Breakdown of proteins regulates the amount of a given protein that exists at any time. • Each protein has unique lifetime, but the lifetimes of different proteins varies tremendously. • Proteins with short life-spans, that are misfolded, or that become oxidized must be destroyed and recycled by th ...
... • Breakdown of proteins regulates the amount of a given protein that exists at any time. • Each protein has unique lifetime, but the lifetimes of different proteins varies tremendously. • Proteins with short life-spans, that are misfolded, or that become oxidized must be destroyed and recycled by th ...
the chemistry of life - Fall River Public Schools
... Atoms are held together by chemical bonds to form molecules. A covalent bond occurs when valence electrons are shared by two atoms. o Nonpolar covalent bonds occur when the electrons being shared are shared equally between the two atoms. Examples: O ≡ O, H – H. o Atoms vary in their electronegativit ...
... Atoms are held together by chemical bonds to form molecules. A covalent bond occurs when valence electrons are shared by two atoms. o Nonpolar covalent bonds occur when the electrons being shared are shared equally between the two atoms. Examples: O ≡ O, H – H. o Atoms vary in their electronegativit ...
Chapter 2
... First cells would have been autonomous, membrane-bound units capable of selfreplication requiring: Nucleic Acids This causes a biological paradox. How could nucleic acids appear without the enzymes to synthesize them? How could enzymes exist without nucleic acids to ...
... First cells would have been autonomous, membrane-bound units capable of selfreplication requiring: Nucleic Acids This causes a biological paradox. How could nucleic acids appear without the enzymes to synthesize them? How could enzymes exist without nucleic acids to ...
2.21 Amino Acids.docx
... 2.21 Amino Acids Similar to carbohydrates, proteins contain carbon (C), hydrogen (H), and oxygen (O). However, unlike carbohydrates (and lipids) proteins also contain nitrogen (N). Proteins are made up of smaller units called amino acids. This name amino acid signifies that each contains an amino (N ...
... 2.21 Amino Acids Similar to carbohydrates, proteins contain carbon (C), hydrogen (H), and oxygen (O). However, unlike carbohydrates (and lipids) proteins also contain nitrogen (N). Proteins are made up of smaller units called amino acids. This name amino acid signifies that each contains an amino (N ...
Biochemistry
... __________ chemical properties than the original elements Compound composition given in chemical formula – Examples: ______________ ...
... __________ chemical properties than the original elements Compound composition given in chemical formula – Examples: ______________ ...
Cellular Respiration notes
... • Proteins, carbohydrates, lipids can all be used to convert to ATP but at different rates • Lipids give long term large amounts of energy • carbs give short term quick energy • Proteins give the least amount of useable energy, so body usually stores it instead of converting it ...
... • Proteins, carbohydrates, lipids can all be used to convert to ATP but at different rates • Lipids give long term large amounts of energy • carbs give short term quick energy • Proteins give the least amount of useable energy, so body usually stores it instead of converting it ...
You Light Up My Life
... synthesis (mainly in liver and muscle) • Glycogen is the main storage polysaccharide in animals ...
... synthesis (mainly in liver and muscle) • Glycogen is the main storage polysaccharide in animals ...
print last name first name
... (e)_________ mole(s) of ATP are produced per mole of pyruvate from the high energy substrate (f)___________________________. NADH and FADH2 are produced by the Krebs cycle and enter the electron transport chain to generate (g) __________ mole(s) of ATP per mole of FADH2 and (h)__________ mole(s) of ...
... (e)_________ mole(s) of ATP are produced per mole of pyruvate from the high energy substrate (f)___________________________. NADH and FADH2 are produced by the Krebs cycle and enter the electron transport chain to generate (g) __________ mole(s) of ATP per mole of FADH2 and (h)__________ mole(s) of ...
lecture notes-metabolism pathways-web
... Glucose to CO2, and H2O, protein to amino acids. - Anabolism: the synthesis of more complex compounds and requires energy. Synthesis of glycan (polysaccharide), DNA, RNA, and lipid. ...
... Glucose to CO2, and H2O, protein to amino acids. - Anabolism: the synthesis of more complex compounds and requires energy. Synthesis of glycan (polysaccharide), DNA, RNA, and lipid. ...
Organic Molecules Worksheet:
... Source: http://bhhs.bhusd.org/apps/download/oHo8hjyCOXjhBCW5jIrwWAqyMuu50AE2CgZLL7PoQi8go9Ng.pdf/Organic%20Molecule%20Review%20Worksheet%202010-2011.pdf ...
... Source: http://bhhs.bhusd.org/apps/download/oHo8hjyCOXjhBCW5jIrwWAqyMuu50AE2CgZLL7PoQi8go9Ng.pdf/Organic%20Molecule%20Review%20Worksheet%202010-2011.pdf ...
CB098-008.22_Biochemistry
... Organic Compound – A chemical compound containing the element carbon and usually synthesized by cells. The below macromolecules are examples of organic compounds. Macromolecules (Biomolecules) – A giant molecule in a living organism formed by the joining of smaller molecules. The major macromolecule ...
... Organic Compound – A chemical compound containing the element carbon and usually synthesized by cells. The below macromolecules are examples of organic compounds. Macromolecules (Biomolecules) – A giant molecule in a living organism formed by the joining of smaller molecules. The major macromolecule ...
Water as a Solvent
... carbon is one that has four carbon is one that has four different "groups" attached to it. The groups can be anything from a single H to functional groups to one or more other carbons. ...
... carbon is one that has four carbon is one that has four different "groups" attached to it. The groups can be anything from a single H to functional groups to one or more other carbons. ...
ISC105 General Biology I
... 2.2 Four emergent properties of water contribute to Earth’s suitability for life 2.3 Acidic and basic conditions affect living organisms 3. Carbon and the Molecular Diversity of Life 3.1 Organic chemistry is the study of carbon compounds 3.2 Carbon atoms can form diverse molecules by bonding to four ...
... 2.2 Four emergent properties of water contribute to Earth’s suitability for life 2.3 Acidic and basic conditions affect living organisms 3. Carbon and the Molecular Diversity of Life 3.1 Organic chemistry is the study of carbon compounds 3.2 Carbon atoms can form diverse molecules by bonding to four ...
AP BIO REVIEW ~ UNIT 1 BIOCHEMISTRY
... **You must be able to recognize the structures of these compounds – study the pictures! 1. CARBOHYDRATES Used by the cells of the body - in energy-producing reactions - as structural materials Classified into 3 groups according to the number of sugar (saccharide) molecules: 1) Monsaccharide: “si ...
... **You must be able to recognize the structures of these compounds – study the pictures! 1. CARBOHYDRATES Used by the cells of the body - in energy-producing reactions - as structural materials Classified into 3 groups according to the number of sugar (saccharide) molecules: 1) Monsaccharide: “si ...
Chapter 5
... • the exception among macromolecules because they do not form _____________. • Little or no affinity for water. • Why-? Mostly ______________ covalent bonds. ...
... • the exception among macromolecules because they do not form _____________. • Little or no affinity for water. • Why-? Mostly ______________ covalent bonds. ...
Biochemistry - Austin Community College
... Lactose = Glucose + Galactose Maltose = Glucose + Glucose Sucrose = Glucose + Fructose The most common disaccharide is ...
... Lactose = Glucose + Galactose Maltose = Glucose + Glucose Sucrose = Glucose + Fructose The most common disaccharide is ...
Protein Folding Lab with Balloons
... DNA codes for RNA which codes for the order of amino acids to make specific proteins. A protein’s structure determines its function. Since different amino acids have different properties, they influence the folding of the protein. Some amino acids are hydrophobic, some polar, and others ionic ( + or ...
... DNA codes for RNA which codes for the order of amino acids to make specific proteins. A protein’s structure determines its function. Since different amino acids have different properties, they influence the folding of the protein. Some amino acids are hydrophobic, some polar, and others ionic ( + or ...
BI ACE_02 .
... When the amino acids have been built up into proteins, the buffering capacity is retained. This is due to the presence of additional amino and carboxyl groups of the basic and acid residues of the protein. Hence, proteins play and important part as the buffer for cells and organisms. For instance, t ...
... When the amino acids have been built up into proteins, the buffering capacity is retained. This is due to the presence of additional amino and carboxyl groups of the basic and acid residues of the protein. Hence, proteins play and important part as the buffer for cells and organisms. For instance, t ...
biochemistry
... • Biochemistry is the study of biology at the molecular level and can, thus, be thought of as the chemistry of life or the chemistry of living organisms. • Biomolecules are usually large molecules (called macromolecules) and include carbohydrates, lipids, proteins, and nucleic acids. ...
... • Biochemistry is the study of biology at the molecular level and can, thus, be thought of as the chemistry of life or the chemistry of living organisms. • Biomolecules are usually large molecules (called macromolecules) and include carbohydrates, lipids, proteins, and nucleic acids. ...
Biology 2011-2012
... and have the OH- ion (hydroxide). Acids and bases get stronger the further away from 7 they are. Monomers are the basic building molecules of organic compounds. Polymers are made of multiple and sometimes very long chain monomers. a. Carbohydrates: Monosaccharides = single monomer; Disaccharides = 2 ...
... and have the OH- ion (hydroxide). Acids and bases get stronger the further away from 7 they are. Monomers are the basic building molecules of organic compounds. Polymers are made of multiple and sometimes very long chain monomers. a. Carbohydrates: Monosaccharides = single monomer; Disaccharides = 2 ...
Biochemistry
Biochemistry, sometimes called biological chemistry, is the study of chemical processes within and relating to living organisms. By controlling information flow through biochemical signaling and the flow of chemical energy through metabolism, biochemical processes give rise to the complexity of life. Over the last decades of the 20th century, biochemistry has become so successful at explaining living processes that now almost all areas of the life sciences from botany to medicine to genetics are engaged in biochemical research. Today, the main focus of pure biochemistry is in understanding how biological molecules give rise to the processes that occur within living cells, which in turn relates greatly to the study and understanding of whole organisms.Biochemistry is closely related to molecular biology, the study of the molecular mechanisms by which genetic information encoded in DNA is able to result in the processes of life. Depending on the exact definition of the terms used, molecular biology can be thought of as a branch of biochemistry, or biochemistry as a tool with which to investigate and study molecular biology.Much of biochemistry deals with the structures, functions and interactions of biological macromolecules, such as proteins, nucleic acids, carbohydrates and lipids, which provide the structure of cells and perform many of the functions associated with life. The chemistry of the cell also depends on the reactions of smaller molecules and ions. These can be inorganic, for example water and metal ions, or organic, for example the amino acids which are used to synthesize proteins. The mechanisms by which cells harness energy from their environment via chemical reactions are known as metabolism. The findings of biochemistry are applied primarily in medicine, nutrition, and agriculture. In medicine, biochemists investigate the causes and cures of disease. In nutrition, they study how to maintain health and study the effects of nutritional deficiencies. In agriculture, biochemists investigate soil and fertilizers, and try to discover ways to improve crop cultivation, crop storage and pest control.