replicate, transcribe, translate
... DNA replication is the process cells use to make new DNA, and is semi-conservative in that each new DNA double-helix formed contains half of the DNA strand replicated. Replication as it occurs within cells requires a DNA template, energy provided by nucleoside triphosphate molecules (dNTPs and rNTPs ...
... DNA replication is the process cells use to make new DNA, and is semi-conservative in that each new DNA double-helix formed contains half of the DNA strand replicated. Replication as it occurs within cells requires a DNA template, energy provided by nucleoside triphosphate molecules (dNTPs and rNTPs ...
Functions
... pressure, and thus regulate the exchange of water and solutes within the animal and human body. Minerals serve as structural constituents of soft tissues. Minerals are essential for the transmission of nerve impulses and muscle contraction. Minerals play a vital role in the acid-base equilibrium of ...
... pressure, and thus regulate the exchange of water and solutes within the animal and human body. Minerals serve as structural constituents of soft tissues. Minerals are essential for the transmission of nerve impulses and muscle contraction. Minerals play a vital role in the acid-base equilibrium of ...
24_Test - Ventura College
... Which of the following is not true of metal-ion catalysis? A. It can make a reaction center more susceptible to ...
... Which of the following is not true of metal-ion catalysis? A. It can make a reaction center more susceptible to ...
File
... used as carbon skeletons for synthesis of amino acids and other molecules; or converted to sucrose, which can be transported out of the leaf to another part of the plant When glucose accumulates, it is linked to form starch, a ...
... used as carbon skeletons for synthesis of amino acids and other molecules; or converted to sucrose, which can be transported out of the leaf to another part of the plant When glucose accumulates, it is linked to form starch, a ...
Oxidative Phosphorylation
... is the sum of all chemical changes occurring in a cell , tissue or the body It is composed of pathways Pathway is a multistep sequence of reactions in which the product of one reaction serves as the substrate of the subsequent reaction Each reaction is catalyzed by a specific enzyme (may be with hel ...
... is the sum of all chemical changes occurring in a cell , tissue or the body It is composed of pathways Pathway is a multistep sequence of reactions in which the product of one reaction serves as the substrate of the subsequent reaction Each reaction is catalyzed by a specific enzyme (may be with hel ...
Toxicant Disposition and Metabolism
... – bone for divalent cations resembling calcium; active transport using calcium transporter; e.g., lead. ...
... – bone for divalent cations resembling calcium; active transport using calcium transporter; e.g., lead. ...
Citric Acid Cycle 1
... 1. The net effect of the eight steps of the citric acid cycle is to A) completely oxidize an acetyl group to carbon dioxide. B) convert pyruvate to Acetyl CoA. C) produce a citrate molecule D) produce 8 ATP for every pass through the cycle. E) More than one of the above 2. The order of prosthetic gr ...
... 1. The net effect of the eight steps of the citric acid cycle is to A) completely oxidize an acetyl group to carbon dioxide. B) convert pyruvate to Acetyl CoA. C) produce a citrate molecule D) produce 8 ATP for every pass through the cycle. E) More than one of the above 2. The order of prosthetic gr ...
Citric Acid Cycle 1 - Indiana University
... 1. The net effect of the eight steps of the citric acid cycle is to A) completely oxidize an acetyl group to carbon dioxide. B) convert pyruvate to Acetyl CoA. C) produce a citrate molecule D) produce 8 ATP for every pass through the cycle. E) More than one of the above 2. The order of prosthetic g ...
... 1. The net effect of the eight steps of the citric acid cycle is to A) completely oxidize an acetyl group to carbon dioxide. B) convert pyruvate to Acetyl CoA. C) produce a citrate molecule D) produce 8 ATP for every pass through the cycle. E) More than one of the above 2. The order of prosthetic g ...
MINERALS AND TRACE ELEMENTS - Univerzita Karlova. Prague
... Food iron is predominantly in the ferric state. In the stomach, where the pH is less than 4, Fe3+ can dissociate and react with low-molecular weight compounds such fructose, ascorbic acid, citric acid, amino acids to form ferric complexes soluble in neutral pH of intestine fluid. A protein DMT1 (di ...
... Food iron is predominantly in the ferric state. In the stomach, where the pH is less than 4, Fe3+ can dissociate and react with low-molecular weight compounds such fructose, ascorbic acid, citric acid, amino acids to form ferric complexes soluble in neutral pH of intestine fluid. A protein DMT1 (di ...
MoleculesofLifenoanim 3
... 3. Detect environmental changes 4. Change rate of a reaction 5. Control genes 6. Cell communication 7. Trigger changes inside cell 8. Carry molecules from place to place 9. Stockpile building materials 10. Can move parts of a cell or animal ...
... 3. Detect environmental changes 4. Change rate of a reaction 5. Control genes 6. Cell communication 7. Trigger changes inside cell 8. Carry molecules from place to place 9. Stockpile building materials 10. Can move parts of a cell or animal ...
Biochemistry PP
... form polymers is called Dehydration synthesis (removing water, putting together) – For each bond, a water molecule needs to be pulled out to join the 2 monomers together. – It is a building up process, going from simple to more complex ...
... form polymers is called Dehydration synthesis (removing water, putting together) – For each bond, a water molecule needs to be pulled out to join the 2 monomers together. – It is a building up process, going from simple to more complex ...
Enzyme Activities Associated with Carbohydrate
... seen, but such blastospores did not form germ tubes. Thus enzyme activity at 4 h is of particular interest in relation to the maximal production of germ tubes at this time. Enzyme activities. These have been determined in both growth forms at 3, 4, 5 , 10, 14 and 18 h after inoculation and in the ce ...
... seen, but such blastospores did not form germ tubes. Thus enzyme activity at 4 h is of particular interest in relation to the maximal production of germ tubes at this time. Enzyme activities. These have been determined in both growth forms at 3, 4, 5 , 10, 14 and 18 h after inoculation and in the ce ...
Exam Review two KEY
... B. Light is captured in the head region of the chlorophyll C. Chlorophyll absorbs light at all wavelengths of the visible spectrum D. The tail region of chlorophyll has no known function 43. Where does the Calvin cycle take place? A. Thylakoid membrane B. Cytoplasm C. Stroma D. Granum 44. The replic ...
... B. Light is captured in the head region of the chlorophyll C. Chlorophyll absorbs light at all wavelengths of the visible spectrum D. The tail region of chlorophyll has no known function 43. Where does the Calvin cycle take place? A. Thylakoid membrane B. Cytoplasm C. Stroma D. Granum 44. The replic ...
Biotechnology
... Recognize and cut at specific places along the DNA molecule called restriction sites. Each different restriction enzyme has its own type of site. Restriction site is a 4 or 6 base pair sequence that is a palindrome. A DNA palidrome is a sequence in which the “top strand read from left to right is th ...
... Recognize and cut at specific places along the DNA molecule called restriction sites. Each different restriction enzyme has its own type of site. Restriction site is a 4 or 6 base pair sequence that is a palindrome. A DNA palidrome is a sequence in which the “top strand read from left to right is th ...
Biochemistry I, Spring Term 2001 - Third Exam:
... C2. (15 pts) Answer ONE of the following three questions. i) In biosynthetic and degradative pathways, several steps are similar, often catalyzed by the same enzyme. Other steps are different, catalyzed by one or more different enzymes. As an example of the latter, pick one such step in either glyco ...
... C2. (15 pts) Answer ONE of the following three questions. i) In biosynthetic and degradative pathways, several steps are similar, often catalyzed by the same enzyme. Other steps are different, catalyzed by one or more different enzymes. As an example of the latter, pick one such step in either glyco ...
Cellular_Respiration_overviewap
... Remember that for every glucose molecule, the Krebs happens twice, because two acetylCoA’s are produced from one glucose molecule and that ATP generation is via substrate level phosphorylation. Below is the general reaction per one glucose molecule: 2 acetylCoA + 2 oxaloacetate 2 oxaloacetate + 2A ...
... Remember that for every glucose molecule, the Krebs happens twice, because two acetylCoA’s are produced from one glucose molecule and that ATP generation is via substrate level phosphorylation. Below is the general reaction per one glucose molecule: 2 acetylCoA + 2 oxaloacetate 2 oxaloacetate + 2A ...
Ch 5 The Working Cell
... Increased concentration of substrate helps it outcompete inhibitor Many toxins / poisons act as competitive inhibitors ...
... Increased concentration of substrate helps it outcompete inhibitor Many toxins / poisons act as competitive inhibitors ...
The X-ray Crystal Structures of Human
... (of which there are two isozymes, ␣-PMM1 and ␣-PPM2). Here we report the x-ray crystal structures of human ␣-PMM1 in the open conformation, with and without the bound substrate, ␣-D-mannose 1-phosphate. ␣-PMM1, like most haloalkanoic acid dehalogenase superfamily (HADSF) members, consists of two dom ...
... (of which there are two isozymes, ␣-PMM1 and ␣-PPM2). Here we report the x-ray crystal structures of human ␣-PMM1 in the open conformation, with and without the bound substrate, ␣-D-mannose 1-phosphate. ␣-PMM1, like most haloalkanoic acid dehalogenase superfamily (HADSF) members, consists of two dom ...
AP Chemistry Rates of Reaction
... The Rate Law and the Mechanism The mechanism of a reaction cannot be observed directly...it is proposed to explain experimental observations...like a detective's proposal to explain a crime from clues left behind...a number can be postulated, and they may be accepted, but it is understood that ...
... The Rate Law and the Mechanism The mechanism of a reaction cannot be observed directly...it is proposed to explain experimental observations...like a detective's proposal to explain a crime from clues left behind...a number can be postulated, and they may be accepted, but it is understood that ...
Enzyme
Enzymes /ˈɛnzaɪmz/ are macromolecular biological catalysts. Enzymes accelerate, or catalyze, chemical reactions. The molecules at the beginning of the process are called substrates and the enzyme converts these into different molecules, called products. Almost all metabolic processes in the cell need enzymes in order to occur at rates fast enough to sustain life. The set of enzymes made in a cell determines which metabolic pathways occur in that cell. The study of enzymes is called enzymology.Enzymes are known to catalyze more than 5,000 biochemical reaction types. Most enzymes are proteins, although a few are catalytic RNA molecules. Enzymes' specificity comes from their unique three-dimensional structures.Like all catalysts, enzymes increase the rate of a reaction by lowering its activation energy. Some enzymes can make their conversion of substrate to product occur many millions of times faster. An extreme example is orotidine 5'-phosphate decarboxylase, which allows a reaction that would otherwise take millions of years to occur in milliseconds. Chemically, enzymes are like any catalyst and are not consumed in chemical reactions, nor do they alter the equilibrium of a reaction. Enzymes differ from most other catalysts by being much more specific. Enzyme activity can be affected by other molecules: inhibitors are molecules that decrease enzyme activity, and activators are molecules that increase activity. Many drugs and poisons are enzyme inhibitors. An enzyme's activity decreases markedly outside its optimal temperature and pH.Some enzymes are used commercially, for example, in the synthesis of antibiotics. Some household products use enzymes to speed up chemical reactions: enzymes in biological washing powders break down protein, starch or fat stains on clothes, and enzymes in meat tenderizer break down proteins into smaller molecules, making the meat easier to chew.