... answer should discuss what stabilizes the bound cocaine, e.g. H-bonds, electrostatics, van der Waals, or the hydrophobic effect. (4 pts) ii) Describe the interaction(s) between Tyrosine32L and the bound cocaine. Your answer should discuss what stabilizes the bound cocaine, e.g. H-bonds, electrostati ...
The CENTRAL DOGMA in Biology:
... 1. Summarize the ‘Central Dogma’ of biology. 2. Describe the structure of a protein (what are the sub-components of a protein? What makes proteins different from each other? How is its final structure formed?) 3. Differentiate the places in a cell where DNA is stored in a cell and where proteins are ...
... 1. Summarize the ‘Central Dogma’ of biology. 2. Describe the structure of a protein (what are the sub-components of a protein? What makes proteins different from each other? How is its final structure formed?) 3. Differentiate the places in a cell where DNA is stored in a cell and where proteins are ...
Biology 30 Unit C 1 Mr. R. Peebles Biology 30
... Unit C – Molecular Genetics: DNA / Protein Synthesis General Outcome C3: Students will explain classical genetics at the molecular level. A. DNA • deoxyribonucleic acid • the simplest forms of life all contain DNA • it is the only molecule that we know can replicate itself • DNA makes up the genes ( ...
... Unit C – Molecular Genetics: DNA / Protein Synthesis General Outcome C3: Students will explain classical genetics at the molecular level. A. DNA • deoxyribonucleic acid • the simplest forms of life all contain DNA • it is the only molecule that we know can replicate itself • DNA makes up the genes ( ...
DNA properties.
... - Trees consist of nodes and branches, topology branching pattern. - The length of each branch represents the number of substitutions occurred between two nodes. If rate of evolution is constant, branches will have the same length ...
... - Trees consist of nodes and branches, topology branching pattern. - The length of each branch represents the number of substitutions occurred between two nodes. If rate of evolution is constant, branches will have the same length ...
N-terminal derivatization for de novo sequencing
... 7. Guanidination. Conversion of carboxy-terminal lysine residues (from tryptic digestion) to homoarginines prevents unwanted sulfonate tagging of these residues, increases their basicities and can improve the selective formation of y-series ions; and so the following procedure may be used on peptide ...
... 7. Guanidination. Conversion of carboxy-terminal lysine residues (from tryptic digestion) to homoarginines prevents unwanted sulfonate tagging of these residues, increases their basicities and can improve the selective formation of y-series ions; and so the following procedure may be used on peptide ...
Potassium Ferric Oxalate - School
... to as the Coordination Number. In the above example, the Coordination Number is six. The coordination number determines the geometry of these complexes. Typical geometries are: Coordination Number ...
... to as the Coordination Number. In the above example, the Coordination Number is six. The coordination number determines the geometry of these complexes. Typical geometries are: Coordination Number ...
AMINO ACIDS, POLYPEPTIDES, AND PROTEINS
... The designation, α, means that the amine group in common amino acids is connected to the carbon immediately adjacent to the carboxylic acid. The designation, L, means that the common amino acids all have a specific configuration around the α-carbon. The amine group is on the left when the amino acid ...
... The designation, α, means that the amine group in common amino acids is connected to the carbon immediately adjacent to the carboxylic acid. The designation, L, means that the common amino acids all have a specific configuration around the α-carbon. The amine group is on the left when the amino acid ...
Chapter 25 Amino Acids, Peptides, and Proteins
... Amino acids in which the two functional groups are separated by exactly one carbon atom are called _______ amino acids. Amino acids are coupled together by amide linkages called ____________ bonds. Relatively short chains of amino acids are called ___________. Only twenty amino acids are abundantly ...
... Amino acids in which the two functional groups are separated by exactly one carbon atom are called _______ amino acids. Amino acids are coupled together by amide linkages called ____________ bonds. Relatively short chains of amino acids are called ___________. Only twenty amino acids are abundantly ...
Lecture 26
... The number of ligands is called the coordination number) The stabilization of a metal complex by a ligand with more than one donor atom is known as the chelate effect. ...
... The number of ligands is called the coordination number) The stabilization of a metal complex by a ligand with more than one donor atom is known as the chelate effect. ...
Chemdraw B&W - Pennsylvania State University
... congregate on the hydrocarbon-like interior of a protein molecule • Also important for stabilizing a protein's tertiary structure are the formation of disulfide bridges between cysteine residues, the formation of hydrogen bonds between nearby amino acid residues, and the development of ionic attract ...
... congregate on the hydrocarbon-like interior of a protein molecule • Also important for stabilizing a protein's tertiary structure are the formation of disulfide bridges between cysteine residues, the formation of hydrogen bonds between nearby amino acid residues, and the development of ionic attract ...
Nanocomposites based on nanosized inorganic particles and
... conditions (oxygen, humidity, etc.) by coverage with a protecting polymeric skin or inclusion in a polymeric matrix1 Furthermore, the content of the inorganic moiety can be gradually changed in the polymeric matrix. Ordering in such systems also plays a role, from highly ordered super lattices to th ...
... conditions (oxygen, humidity, etc.) by coverage with a protecting polymeric skin or inclusion in a polymeric matrix1 Furthermore, the content of the inorganic moiety can be gradually changed in the polymeric matrix. Ordering in such systems also plays a role, from highly ordered super lattices to th ...
8-30-16 Macomolecule Foldable Instructions
... 1. Center and write the word MACROMOLECULE 2. List the 4 macromolecules 3. Define the term DEHYDRATION (CONDENSATION). Identify whether this type of reaction would be involved in an anabolic (building something) or catabolic (breaking something down) pathway. Then, tell whether the pathway you chose ...
... 1. Center and write the word MACROMOLECULE 2. List the 4 macromolecules 3. Define the term DEHYDRATION (CONDENSATION). Identify whether this type of reaction would be involved in an anabolic (building something) or catabolic (breaking something down) pathway. Then, tell whether the pathway you chose ...
Linkage Isomers What`s going on?
... Its structure was first elucidated by Alfred Werner in 1893. The trans isomer Pt(NH3)2Cl2 is therapeutically inactive. It is possible to distinguish between isomers based on the activity of the two Pt-Cl bonds (expected around 300 cm-1 in the IR region). The vibrational spectra of these isomers diff ...
... Its structure was first elucidated by Alfred Werner in 1893. The trans isomer Pt(NH3)2Cl2 is therapeutically inactive. It is possible to distinguish between isomers based on the activity of the two Pt-Cl bonds (expected around 300 cm-1 in the IR region). The vibrational spectra of these isomers diff ...
Organic Chemistry Notes Powerpoint
... Saturated means that all the carbon bonds are taken. They are solid at room temperature and bad for you. Unsaturated means that there is at least one double bond with the carbon. They are liquid at room temp. and are better for you. ...
... Saturated means that all the carbon bonds are taken. They are solid at room temperature and bad for you. Unsaturated means that there is at least one double bond with the carbon. They are liquid at room temp. and are better for you. ...
Aerobic and Anaerobic Respiration - SBI
... Aerobic Cellular Respiration • Glucose reacts with oxygen to form carbon dioxide, water and energy (ATP) • C6H12O6 + 6O2 6CO2 + 6H2O + energy (ATP) • For one molecule of glucose, 36 molecules of ATP are formed ...
... Aerobic Cellular Respiration • Glucose reacts with oxygen to form carbon dioxide, water and energy (ATP) • C6H12O6 + 6O2 6CO2 + 6H2O + energy (ATP) • For one molecule of glucose, 36 molecules of ATP are formed ...
Protein Molecules in Solution
... represents number of Zn++ (or Ca±±) ions bound by 1 molecule of protein; abscissa gives the logarithm of the concentration of free metal ion (in qvater) in equilibrium with the bound metal ion on the protein. in compounds such as tyrosine. On the other hand, Cu is bound more strongly to amine nitrog ...
... represents number of Zn++ (or Ca±±) ions bound by 1 molecule of protein; abscissa gives the logarithm of the concentration of free metal ion (in qvater) in equilibrium with the bound metal ion on the protein. in compounds such as tyrosine. On the other hand, Cu is bound more strongly to amine nitrog ...
Exploring a Protein Structure in the RCSB PDB: Major
... with the students. Note that there are a few PDB entries listed throughout the feature. For example, PDB entry 1igt can be linked from ...
... with the students. Note that there are a few PDB entries listed throughout the feature. For example, PDB entry 1igt can be linked from ...
Protein - HCC Learning Web
... protein denature & digest protein absorb and transport amino acids to cells protein is made (i.e. synthesized) inside cells according to DNA ...
... protein denature & digest protein absorb and transport amino acids to cells protein is made (i.e. synthesized) inside cells according to DNA ...
Cellular Respiration
... 3. Citric Acid goes through a cycle where CO2 and electron carriers are formed. 4. The 2 original pyruvic acid molecules are completely broken down into CO2 ...
... 3. Citric Acid goes through a cycle where CO2 and electron carriers are formed. 4. The 2 original pyruvic acid molecules are completely broken down into CO2 ...
Sample Exam 2
... c. across the cell membrane does not require integral proteins. d. is demonstrated by the simultaneous movement of calcium out of the cell and sodium into the cell. e. is necessary for the movement of lipids into the cell. 6. Passive transport: a. describes a molecule that moves from a region of hig ...
... c. across the cell membrane does not require integral proteins. d. is demonstrated by the simultaneous movement of calcium out of the cell and sodium into the cell. e. is necessary for the movement of lipids into the cell. 6. Passive transport: a. describes a molecule that moves from a region of hig ...
Lecture PPT
... containing specific functional groups. c, Proteins are isotopically tagged by means of enzymecatalysed incorporation of 18O from 18O water ...
... containing specific functional groups. c, Proteins are isotopically tagged by means of enzymecatalysed incorporation of 18O from 18O water ...
Chapter 23 (Section 3) Pregnancy, Birth, and Childhood (Pages 735
... c. some MATTER exists in elemental form [(e.g.) gold [Au] = not chemically REACTIVE)] *d. ELEMENTS individually or combined form everything in the universe including HUMANS *1. Human body’s most abundant ELEMENTS: carbon [C], oxygen [O], hydrogen [H], and nitrogen [N]; for teeth & BONES = calcium [C ...
... c. some MATTER exists in elemental form [(e.g.) gold [Au] = not chemically REACTIVE)] *d. ELEMENTS individually or combined form everything in the universe including HUMANS *1. Human body’s most abundant ELEMENTS: carbon [C], oxygen [O], hydrogen [H], and nitrogen [N]; for teeth & BONES = calcium [C ...
Transition metal complexes
... All chemical bonding arises from the energetically favourable (that is, low-energy) interaction between electrons on different atoms. The types of bonding are distinguished by the extent to which electron density is: Localized - ionic bonding: electrons are mainly associated with individual atoms ...
... All chemical bonding arises from the energetically favourable (that is, low-energy) interaction between electrons on different atoms. The types of bonding are distinguished by the extent to which electron density is: Localized - ionic bonding: electrons are mainly associated with individual atoms ...
Metalloprotein
Metalloprotein is a generic term for a protein that contains a metal ion cofactor. A large number of all proteins are part of this category.