Macromolecules Review_AK
... Protein- peptide bonds (type of covalent bond) Polysaccharide- covalent bond DNA or RNA- covalent bond Triglyceride- covalent bond ...
... Protein- peptide bonds (type of covalent bond) Polysaccharide- covalent bond DNA or RNA- covalent bond Triglyceride- covalent bond ...
Mass Spectrometry
... genome of the organism into proteins • Theoretically cut the proteins into peptides with the same protease (ex.Trypsin: K or R) • Calculate the absolute masses of the peptides from each protein • the masses of the peptides of the unknown protein vs the theoretical peptide masses of each protein enco ...
... genome of the organism into proteins • Theoretically cut the proteins into peptides with the same protease (ex.Trypsin: K or R) • Calculate the absolute masses of the peptides from each protein • the masses of the peptides of the unknown protein vs the theoretical peptide masses of each protein enco ...
Facts about Carbon Compounds (Pages 44-48)
... Saturated fats are formed when each carbon in the lipid’s fatty acid chain are joined by a single bond. If there is at least one double carbon-to-carbon bond, it is referred to as unsaturated. Lipids whose fatty acids contain more than one double bond are called polyunsaturated. ...
... Saturated fats are formed when each carbon in the lipid’s fatty acid chain are joined by a single bond. If there is at least one double carbon-to-carbon bond, it is referred to as unsaturated. Lipids whose fatty acids contain more than one double bond are called polyunsaturated. ...
Compare and contrast organic molecules and inorganic - bl-whs
... inorganic molecules. Organic - All contain Carbon ...
... inorganic molecules. Organic - All contain Carbon ...
Ch. 2 - Ltcconline.net
... 2. subatomic particles make up the atom. 3. Differences in elements 4. isotopes - different numbers of neutrons so mass changes E. Electron arrangement determines chemical properties of atom 1. electrons determine how an atom behaves 2. electrons vary in energy 3. electrons occur at certain energy l ...
... 2. subatomic particles make up the atom. 3. Differences in elements 4. isotopes - different numbers of neutrons so mass changes E. Electron arrangement determines chemical properties of atom 1. electrons determine how an atom behaves 2. electrons vary in energy 3. electrons occur at certain energy l ...
Dali: A Protein Structural Comparison Algorithm
... • Specific computer algorithms that have been used to accomplish this analysis, including Monte Carlo optimization. • Further applications of Dali. ...
... • Specific computer algorithms that have been used to accomplish this analysis, including Monte Carlo optimization. • Further applications of Dali. ...
Review Problems #2 (Enzyme Review, Phosphatases
... We will definitely not get through all of these, but it is useful to have them in one place. 1) Outline the chemical intermediates in the degradation of the following amino acids: Asn, Asp. What cofactor(s) play a role in this process? What other end product may be formed from Asp. What cycle does t ...
... We will definitely not get through all of these, but it is useful to have them in one place. 1) Outline the chemical intermediates in the degradation of the following amino acids: Asn, Asp. What cofactor(s) play a role in this process? What other end product may be formed from Asp. What cycle does t ...
Lh6Ch05
... 1. Reversible binding of ligands is essential – Specificity of ligands and binding sites – Ligand binding is often coupled to conformational changes, sometimes quite dramatic (Induced Fit) – In multisubunit proteins, conformational changes in one subunit can affect the others (Cooperativity) – Inter ...
... 1. Reversible binding of ligands is essential – Specificity of ligands and binding sites – Ligand binding is often coupled to conformational changes, sometimes quite dramatic (Induced Fit) – In multisubunit proteins, conformational changes in one subunit can affect the others (Cooperativity) – Inter ...
to accompany Holes` Essentials of Human Anatomy and Physiology
... Electrolytes release ions in water. Acids release hydrogen ions (H+). Bases release ions that combine with H+. Salts are formed by the reaction between an acid and a base. ...
... Electrolytes release ions in water. Acids release hydrogen ions (H+). Bases release ions that combine with H+. Salts are formed by the reaction between an acid and a base. ...
File
... * Glycerol and Three fatty acids- Saturated contains all the hydrogen atoms it possibly can. Unsaturated has one or more double bonded carbons. Function ...
... * Glycerol and Three fatty acids- Saturated contains all the hydrogen atoms it possibly can. Unsaturated has one or more double bonded carbons. Function ...
Biochemistry 2007
... of the heme group and the proximal histidine residue HisF8 in the globin chain. (b) The secondary structure of globin chains in myoglobin and hemoglobin is characterized by a series of alpha helices that are separated by random coil regions and by a complete absence of beta sheet domains. (c) As a r ...
... of the heme group and the proximal histidine residue HisF8 in the globin chain. (b) The secondary structure of globin chains in myoglobin and hemoglobin is characterized by a series of alpha helices that are separated by random coil regions and by a complete absence of beta sheet domains. (c) As a r ...
Protein Structure HW Key
... 16. Discuss how proteins are purified. Depends on the protein, but usually start with some crude source and then a centrifugation step to remove debris. After that, a couple of chromatography steps to purify. 17. What is specific activity? Briefly describe how it is determined. Activity/mg protein. ...
... 16. Discuss how proteins are purified. Depends on the protein, but usually start with some crude source and then a centrifugation step to remove debris. After that, a couple of chromatography steps to purify. 17. What is specific activity? Briefly describe how it is determined. Activity/mg protein. ...
AQA A2 CHEMISTRY TRANSITION METALS BOOKLET OF PAST
... When titanium dissolves in concentrated hydrochloric acid, the violet [Ti(H2O)4Cl2]+ ion is formed. Deduce the oxidation state and co-ordination number of titanium in this ion. Oxidation state........................................................................................................... ...
... When titanium dissolves in concentrated hydrochloric acid, the violet [Ti(H2O)4Cl2]+ ion is formed. Deduce the oxidation state and co-ordination number of titanium in this ion. Oxidation state........................................................................................................... ...
Chemistry 695C Fall 2001 Exam 1 Key
... a) the α helix predicted by Pauling and Corey was not found in myoglobin; β-pleated sheet structure was found. b) “corners” between α-helical regions invariably contained a glycine residue, which, because of its unique properties, cannot fit into the helix. c) highly polar or charged amino acid resi ...
... a) the α helix predicted by Pauling and Corey was not found in myoglobin; β-pleated sheet structure was found. b) “corners” between α-helical regions invariably contained a glycine residue, which, because of its unique properties, cannot fit into the helix. c) highly polar or charged amino acid resi ...
Protein Reading Questions Due Monday File
... a. Nonpolar side chains/Hydrophobic: b. Polar side chains/ Hydrophilic: c. Electrically charged side chains/Hydrophilic: 9. What are the bonds between amino acids in a polypeptide called AND what type of bond is it? ...
... a. Nonpolar side chains/Hydrophobic: b. Polar side chains/ Hydrophilic: c. Electrically charged side chains/Hydrophilic: 9. What are the bonds between amino acids in a polypeptide called AND what type of bond is it? ...
CHEM1611 2005-J-2 June 2005 • Complete the following table
... The radiation has sufficient energy to ionise atoms in living tissues. The free radicals thus formed are highly reactive (due to having unpaired electrons) and cause unwanted chemical reactions in the tissues. This in turn can lead to cell damage, destruction of DNA, etc. ...
... The radiation has sufficient energy to ionise atoms in living tissues. The free radicals thus formed are highly reactive (due to having unpaired electrons) and cause unwanted chemical reactions in the tissues. This in turn can lead to cell damage, destruction of DNA, etc. ...
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.