PlantRNA, a database for tRNAs of photosynthetic eukaryotes
... Third, mitochondria from different eukaryotic organisms either have a limited set of tRNA genes or no tRNA genes at all. To compensate this deficiency, mitochondrial import of a variable number of nucleus-encoded tRNAs has been demonstrated in several organisms (19,20). The number and identity of mit ...
... Third, mitochondria from different eukaryotic organisms either have a limited set of tRNA genes or no tRNA genes at all. To compensate this deficiency, mitochondrial import of a variable number of nucleus-encoded tRNAs has been demonstrated in several organisms (19,20). The number and identity of mit ...
INDUCIBLE INOS)
... a substrate of iNOS (PDB: 1NSI), and naproxen as an inhibitor to COX-2 (PDB: 3NT1) were conducted to ensure whether the method is valid. The amino acid residues that bind compounds produced by the re-docking process are then compared with amino acid residues that bind crystal molecules, with RMSD th ...
... a substrate of iNOS (PDB: 1NSI), and naproxen as an inhibitor to COX-2 (PDB: 3NT1) were conducted to ensure whether the method is valid. The amino acid residues that bind compounds produced by the re-docking process are then compared with amino acid residues that bind crystal molecules, with RMSD th ...
p Research Article NAGARAJA NAIK*, H. VIJAY KUMAR, ANITHA
... p-coumaric acid was synthesized by applying known method29 by converting coumarin to p-hydroxy-trans-cinnamic acid (pcoumaric acid) by shaking with dilute alkali (NaOH) and freshly precipitated mercuric oxide. p-coumaric acid amides was realized in two steps. First step, the key intermediate 3-(4-hy ...
... p-coumaric acid was synthesized by applying known method29 by converting coumarin to p-hydroxy-trans-cinnamic acid (pcoumaric acid) by shaking with dilute alkali (NaOH) and freshly precipitated mercuric oxide. p-coumaric acid amides was realized in two steps. First step, the key intermediate 3-(4-hy ...
Intrastrand Self-complementary Sequences in Bacillus subtilis DNA
... activity following thermal renaturation (68 "C) has been described (Rudner & Remeza, 1973). This DNA reassociates with unimolecular kinetics, typical of intrastrand structures. Only the slowest eluting molecules of H strand DNA show an increased transforming activity following self-annealing (Fig. 1 ...
... activity following thermal renaturation (68 "C) has been described (Rudner & Remeza, 1973). This DNA reassociates with unimolecular kinetics, typical of intrastrand structures. Only the slowest eluting molecules of H strand DNA show an increased transforming activity following self-annealing (Fig. 1 ...
DNA Base Composition, DNA-DNA Homology and Long
... (Received 18 August 1983;revised I0 October 1983) DNA base composition, DNA-DNA homology and long-chain fatty acid studies were performed on Streptococcus thermophilus and Streptococcus saliuarius. These species possess similar mol % G + C values (about 37 to 41), long-chain fatty acid profiles and ...
... (Received 18 August 1983;revised I0 October 1983) DNA base composition, DNA-DNA homology and long-chain fatty acid studies were performed on Streptococcus thermophilus and Streptococcus saliuarius. These species possess similar mol % G + C values (about 37 to 41), long-chain fatty acid profiles and ...
Artificial Photosynthesis - The Mars Homestead Project
... Calcium Magnesium Potassium Sodium Iron Phosphorus ...
... Calcium Magnesium Potassium Sodium Iron Phosphorus ...
DNA Base Composition, DNA-DNA Homology and Long
... (Received 18 August 1983;revised I0 October 1983) DNA base composition, DNA-DNA homology and long-chain fatty acid studies were performed on Streptococcus thermophilus and Streptococcus saliuarius. These species possess similar mol % G + C values (about 37 to 41), long-chain fatty acid profiles and ...
... (Received 18 August 1983;revised I0 October 1983) DNA base composition, DNA-DNA homology and long-chain fatty acid studies were performed on Streptococcus thermophilus and Streptococcus saliuarius. These species possess similar mol % G + C values (about 37 to 41), long-chain fatty acid profiles and ...
studies in the dielectric constants of fatty acids
... Effect of Elaidinization on the Dielectric Constant.-It can be seen from Table VII that the dielectric constants of the cis- and the trans-oleic acids are practically the same. In the case of ricinoleic and ricinelaidic acids however, the trans-isomer has a slightly lower dielectric constant. In eth ...
... Effect of Elaidinization on the Dielectric Constant.-It can be seen from Table VII that the dielectric constants of the cis- and the trans-oleic acids are practically the same. In the case of ricinoleic and ricinelaidic acids however, the trans-isomer has a slightly lower dielectric constant. In eth ...
AP BIOLOGY – CHAPTER 7 Cellular Respiration Outline
... C. Anabolism 1. ATP produced during catabolism drives anabolism. 2. Substrates making up pathways can be used as starting materials for synthetic reactions. 3. Molecules used for biosynthesis constitute metabolic pool. 4. Carbohydrates can result in fat synthesis: PGAL converts to glycerol, acetyl g ...
... C. Anabolism 1. ATP produced during catabolism drives anabolism. 2. Substrates making up pathways can be used as starting materials for synthetic reactions. 3. Molecules used for biosynthesis constitute metabolic pool. 4. Carbohydrates can result in fat synthesis: PGAL converts to glycerol, acetyl g ...
high quality protein wrapped
... in growth, repair and development, but also in immunity, and the health of bones, muscles, skin, and nerves (1). Amino acids are the building blocks of protein. Of the 20 or so used by the body, 9 are considered “essential” or “indispensable” – those that the human body can’t manufacture on its own ...
... in growth, repair and development, but also in immunity, and the health of bones, muscles, skin, and nerves (1). Amino acids are the building blocks of protein. Of the 20 or so used by the body, 9 are considered “essential” or “indispensable” – those that the human body can’t manufacture on its own ...
Beta Structures
... The structure of human plasma retinol-binding protein (RBP) is an upand-down b barrel. Plasma RBP is a temporary protein that binds and transports a retinol molecule (vitamin A) from the liver to dependent tissues Retinol is bound inside the barrel, between the two b sheets, such that its only hydro ...
... The structure of human plasma retinol-binding protein (RBP) is an upand-down b barrel. Plasma RBP is a temporary protein that binds and transports a retinol molecule (vitamin A) from the liver to dependent tissues Retinol is bound inside the barrel, between the two b sheets, such that its only hydro ...
abbreviations and symbols for nucleic
... Two systems are recognized, designated the 'three-letter' and the 'oneletter' system, respectively. The first (Section 2), patterned after the systems in use for amino acid and saccharide residues in polymers', is designed largely for descriptions of chemical work involving bases, nucleosides, nucle ...
... Two systems are recognized, designated the 'three-letter' and the 'oneletter' system, respectively. The first (Section 2), patterned after the systems in use for amino acid and saccharide residues in polymers', is designed largely for descriptions of chemical work involving bases, nucleosides, nucle ...
Classification of pseudo pairs between nucleotide bases and amino
... Crystal structures of nucleotide–protein complexes were extracted from the PDB (1 March 2011 release). Since the PDB contains many identical protein structures obtained in different crystallization conditions or those with amino acid mutations, proteins with >30% sequence identity were removed from ...
... Crystal structures of nucleotide–protein complexes were extracted from the PDB (1 March 2011 release). Since the PDB contains many identical protein structures obtained in different crystallization conditions or those with amino acid mutations, proteins with >30% sequence identity were removed from ...
Cloning and Characterization of Unusual Fatty Acid Desaturases
... Cloning and Characterization of Unusual Fatty Acid Desaturases from Anemone leveillei: Identification of an Acyl-Coenzyme A C20 D5-Desaturase Responsible for the Synthesis of Sciadonic Acid1 Olga Sayanova*, Richard Haslam, Monica Venegas Caleron, and Johnathan A. Napier Rothamsted Research, Harpende ...
... Cloning and Characterization of Unusual Fatty Acid Desaturases from Anemone leveillei: Identification of an Acyl-Coenzyme A C20 D5-Desaturase Responsible for the Synthesis of Sciadonic Acid1 Olga Sayanova*, Richard Haslam, Monica Venegas Caleron, and Johnathan A. Napier Rothamsted Research, Harpende ...
Fibrous Proteins
... Ehlers Danlos mostly affects Type III collagen (blood vessels) EDS can result from: ...
... Ehlers Danlos mostly affects Type III collagen (blood vessels) EDS can result from: ...
Metabolism and Nutrition
... Unsaturated fats- FA’s have some double -- in seeds, nuts, olive oil and vegetable oils Cholesterol in egg yolk, meats, organ meats, shellfish, milk ...
... Unsaturated fats- FA’s have some double -- in seeds, nuts, olive oil and vegetable oils Cholesterol in egg yolk, meats, organ meats, shellfish, milk ...
Biosynthesis
Biosynthesis (also called biogenesis or anabolism) is a multi-step, enzyme-catalyzed process where substrates are converted into more complex products in living organisms. In biosynthesis, simple compounds are modified, converted into other compounds, or joined together to form macromolecules. This process often consists of metabolic pathways. Some of these biosynthetic pathways are located within a single cellular organelle, while others involve enzymes that are located within multiple cellular organelles. Examples of these biosynthetic pathways include the production of lipid membrane components and nucleotides.The prerequisite elements for biosynthesis include: precursor compounds, chemical energy (e.g. ATP), and catalytic enzymes which may require coenzymes (e.g.NADH, NADPH). These elements create monomers, the building blocks for macromolecules. Some important biological macromolecules include: proteins, which are composed of amino acid monomers joined via peptide bonds, and DNA molecules, which are composed of nucleotides joined via phosphodiester bonds.