Hexose MonoPhosphate (HMP) shunt pathway
... from NADP. The NADPH is required for biosynthetic reactions that require reducing power such as fatty acid synthesis, cholesterol synthesis, drug reduction, and as a cofactor for some non-synthetic enzymatic reactions. In addition, HMP is used for the production of ribose for nucleotide and nucleic ...
... from NADP. The NADPH is required for biosynthetic reactions that require reducing power such as fatty acid synthesis, cholesterol synthesis, drug reduction, and as a cofactor for some non-synthetic enzymatic reactions. In addition, HMP is used for the production of ribose for nucleotide and nucleic ...
Kreb`s Cycle
... ATP • Most of the energy from cell respiration is converted into ATP • ATP is a substance that powers most cell activities. • Energy in phosphate bonds ...
... ATP • Most of the energy from cell respiration is converted into ATP • ATP is a substance that powers most cell activities. • Energy in phosphate bonds ...
FCH 532 Lecture 27
... (breakdown product of Met). The -SH group is derived from Met, so Cys can be considered essential. ...
... (breakdown product of Met). The -SH group is derived from Met, so Cys can be considered essential. ...
Lecture 18: Powerpoint
... The catalytic site on the large subunit catalyzes the formation of a peptide bond linking the amino acids ...
... The catalytic site on the large subunit catalyzes the formation of a peptide bond linking the amino acids ...
3. CITRIC ACID CYCLE
... Total number of ATP Produced during the complete oxidation of one molecules of glucose • One molecule of glucose is converted to 2 molecules of pyruvate by glycolysis and the pyruvate is further converted to acetyl CoA by pyruvate dehydrogenase before entering into citric acid cycle. • During this ...
... Total number of ATP Produced during the complete oxidation of one molecules of glucose • One molecule of glucose is converted to 2 molecules of pyruvate by glycolysis and the pyruvate is further converted to acetyl CoA by pyruvate dehydrogenase before entering into citric acid cycle. • During this ...
2t.7 Cellular work
... Some phosphorylated enzyme substrates are activated for subsequent reactions they would not ordinarily undergo. The process of activation often involves a coupled reaction-an energeticallyunfauorable reaction is made to occur by being linked to a reaction that is energetically ueryfauorable (uery ex ...
... Some phosphorylated enzyme substrates are activated for subsequent reactions they would not ordinarily undergo. The process of activation often involves a coupled reaction-an energeticallyunfauorable reaction is made to occur by being linked to a reaction that is energetically ueryfauorable (uery ex ...
4 ADP + 4 Pi are converted to 2 ATP to produce a net gain of 2 ATP
... can be used to do work. This is analogous to water stored behind a dam How does the cell eliminate excess H? Each hydrogen atom is composed of 1 proton and 1 electron consequently, a transfer of H atoms is essentially a transfer of electrons These electron transfer reactions are called oxidation - r ...
... can be used to do work. This is analogous to water stored behind a dam How does the cell eliminate excess H? Each hydrogen atom is composed of 1 proton and 1 electron consequently, a transfer of H atoms is essentially a transfer of electrons These electron transfer reactions are called oxidation - r ...
letters Solution structure of the DNA-binding domain of MafG
... disordered and highly mobile as indicated by the paucity of NOEs, the chemical shift index7 and 15N{1H} NOE values8 (data not shown), the structure is well defined (Fig. 2a; Table 1). MafG(1–76) consists of three α-helices, H1 (26–31), H2 (34–41) and H3 (46–61) (Fig. 2b). An N-terminal capping box o ...
... disordered and highly mobile as indicated by the paucity of NOEs, the chemical shift index7 and 15N{1H} NOE values8 (data not shown), the structure is well defined (Fig. 2a; Table 1). MafG(1–76) consists of three α-helices, H1 (26–31), H2 (34–41) and H3 (46–61) (Fig. 2b). An N-terminal capping box o ...
SECTION – A Q. 1 – Q.10 carry one mark each.
... A dominant gene B is responsible for the wild type body color of Drosophila, its recessive allele b produces black body color. A test cross of a wild type female gave 52 black and 58 wild type in the F1. If the wild type F1 females are crossed with black F1 males, what would be the expected genotypi ...
... A dominant gene B is responsible for the wild type body color of Drosophila, its recessive allele b produces black body color. A test cross of a wild type female gave 52 black and 58 wild type in the F1. If the wild type F1 females are crossed with black F1 males, what would be the expected genotypi ...
No Slide Title
... If the bonds form from overlap of 3 2p orbitals on nitrogen with the 1s orbital on each hydrogen atom, what would the molecular geometry of NH3 be? If use the 3 2p orbitals predict 90o Actual H-N-H bond angle is 107.3o ...
... If the bonds form from overlap of 3 2p orbitals on nitrogen with the 1s orbital on each hydrogen atom, what would the molecular geometry of NH3 be? If use the 3 2p orbitals predict 90o Actual H-N-H bond angle is 107.3o ...
Chapter 8
... DG = -686kcal/mol of glucose DG can be even higher than this in a cell This large amount of energy must be released in small steps rather than all at once. ...
... DG = -686kcal/mol of glucose DG can be even higher than this in a cell This large amount of energy must be released in small steps rather than all at once. ...
Biochemistry Biochemistry is the science concerned the chemical
... The formation, structure and properties of the peptide bond. Some important peptides in the human organism (glutathione, peptide hormones). The insulin synthesis. The classification of proteins according to their structure, properties and functions. The characteristics of primary, secondary, tertiar ...
... The formation, structure and properties of the peptide bond. Some important peptides in the human organism (glutathione, peptide hormones). The insulin synthesis. The classification of proteins according to their structure, properties and functions. The characteristics of primary, secondary, tertiar ...
A Gene Group Database - Research | www.stowers.org
... ATP synthesis coupled proton transport (sensu Eukaryota) phosphoinositide binding mitochondrial matrix signal transduction proteasome regulatory particle, base subcomplex (sensu Eukaryota) endopeptidase activity damaged DNA binding external side of plasma membrane mitochondrial genome maintenance pr ...
... ATP synthesis coupled proton transport (sensu Eukaryota) phosphoinositide binding mitochondrial matrix signal transduction proteasome regulatory particle, base subcomplex (sensu Eukaryota) endopeptidase activity damaged DNA binding external side of plasma membrane mitochondrial genome maintenance pr ...
Name ______ Period ______________ Date ______________
... 1. Write the formula for cellular respiration and what reactions the products come from. C6H12O6 + 6O2 6CO2 + 6H2O __glucose comes from photosynthesis (autotrophs) and eating (heterotrophs); oxygen comes from the atmosphere and is released as a waste product of photosynthesis; carbon dioxide comes ...
... 1. Write the formula for cellular respiration and what reactions the products come from. C6H12O6 + 6O2 6CO2 + 6H2O __glucose comes from photosynthesis (autotrophs) and eating (heterotrophs); oxygen comes from the atmosphere and is released as a waste product of photosynthesis; carbon dioxide comes ...
Biochemistry Biochemistry is the science concerned the chemical
... The formation, structure and properties of the peptide bond. Some important peptides in the human organism (glutathione, peptide hormones). The insulin synthesis. The classification of proteins according to their structure, properties and functions. The characteristics of primary, secondary, tertiar ...
... The formation, structure and properties of the peptide bond. Some important peptides in the human organism (glutathione, peptide hormones). The insulin synthesis. The classification of proteins according to their structure, properties and functions. The characteristics of primary, secondary, tertiar ...
ion exchange chromatography
... It is a non-denaturing technique. It can be used at all stages and scales of purification An IEX separation can be controlled by changing pH, salt concentration and/or the ion exchange media It can serve as a concentrating step. A large volume of dilute sample can be applied to a media, and the a ...
... It is a non-denaturing technique. It can be used at all stages and scales of purification An IEX separation can be controlled by changing pH, salt concentration and/or the ion exchange media It can serve as a concentrating step. A large volume of dilute sample can be applied to a media, and the a ...
Redox cycling
... Redox reactions are often propelled through chains of consecutive redox reactions, when several different redox active moieties are involved The chemical tendency to either donate or take up electrons by a molecule (or moiety) is reflected by its redox potential The differences in redox potent ...
... Redox reactions are often propelled through chains of consecutive redox reactions, when several different redox active moieties are involved The chemical tendency to either donate or take up electrons by a molecule (or moiety) is reflected by its redox potential The differences in redox potent ...
Biochemistry Biochemistry is the science concerned the chemical
... The formation, structure and properties of the peptide bond. Some important peptides in the human organism (glutathione, peptide hormones). The insulin synthesis. The classification of proteins according to their structure, properties and functions. The characteristics of primary, secondary, tertiar ...
... The formation, structure and properties of the peptide bond. Some important peptides in the human organism (glutathione, peptide hormones). The insulin synthesis. The classification of proteins according to their structure, properties and functions. The characteristics of primary, secondary, tertiar ...
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.