Final Exam Review Packet (Scary, Isn`t It?) Date: Time: Room
... 6. pH scale- What does it go from and how much is each step? ________________0-14; 7 is neutral; above 7= Base (alkaline); below 7= Acid ___ MACROMOLECULES 3. name the building blocks as well as any special properties of the following: a. Carbohydrates- Carbon:Hydrogen:Oxygen (1:2:1 ratio); energy s ...
... 6. pH scale- What does it go from and how much is each step? ________________0-14; 7 is neutral; above 7= Base (alkaline); below 7= Acid ___ MACROMOLECULES 3. name the building blocks as well as any special properties of the following: a. Carbohydrates- Carbon:Hydrogen:Oxygen (1:2:1 ratio); energy s ...
Note 17 - South Tuen Mun Government Secondary School
... Making bread [alcohol fermentation to make carbon dioxide that produces pores in the bread soft] Making yoghurt [lactic acid fermentation produces lactic acid to give the sour taste of the food] ...
... Making bread [alcohol fermentation to make carbon dioxide that produces pores in the bread soft] Making yoghurt [lactic acid fermentation produces lactic acid to give the sour taste of the food] ...
Script
... This makes a water molecule polar, in that the oxygen end of the molecule has more electrons (a negative charge), while the hydrogen end has a slightly more positive end (as the electrons are found there less frequently). Having both a positive and negative end, water thus acts like an electromagnet ...
... This makes a water molecule polar, in that the oxygen end of the molecule has more electrons (a negative charge), while the hydrogen end has a slightly more positive end (as the electrons are found there less frequently). Having both a positive and negative end, water thus acts like an electromagnet ...
Student________________ Biochemistry I Homework III Due 10/13
... dissociation of the ES complex. Km is unique for each substrate/enzyme pair and can be viewed very loosely as reflecting the affinity of enzyme for substrate. Affinity will not change if you have 1 µM or 2 µM or 5 µM… enzyme concentration. ...
... dissociation of the ES complex. Km is unique for each substrate/enzyme pair and can be viewed very loosely as reflecting the affinity of enzyme for substrate. Affinity will not change if you have 1 µM or 2 µM or 5 µM… enzyme concentration. ...
Standard EPS Shell Presentation
... elements Almost all the molecules that make up plants and animals are constructed around carbon. The chemistry of carbon is so important it has its own name, organic chemistry. ...
... elements Almost all the molecules that make up plants and animals are constructed around carbon. The chemistry of carbon is so important it has its own name, organic chemistry. ...
11/6/11 10:49 PM Metabolism Poster Questions: Answer the
... ancestral and more derived pathways. Since evolution frequently re-uses old structures in new ways, are there any pathways that seem related? 1. Glycolysis and fermentation (need each other) 2. photosynthesis 3. respiration 4. fatty acid metabolism 50. Compare the inner mitochondrial membrane with t ...
... ancestral and more derived pathways. Since evolution frequently re-uses old structures in new ways, are there any pathways that seem related? 1. Glycolysis and fermentation (need each other) 2. photosynthesis 3. respiration 4. fatty acid metabolism 50. Compare the inner mitochondrial membrane with t ...
Midterm Practice Test
... 51) What is the purpose of Photosynthesis? 52) What is the overall equation for photosynthesis? How is it different from that of cellular respiration? 53) What products are made specifically in the light dependent reactions of photosynthesis and why are they necessary? 54) What molecule is most resp ...
... 51) What is the purpose of Photosynthesis? 52) What is the overall equation for photosynthesis? How is it different from that of cellular respiration? 53) What products are made specifically in the light dependent reactions of photosynthesis and why are they necessary? 54) What molecule is most resp ...
File - singhscience
... A diploid gametes combine to produce a diploid zygote B diploid gametes combine to produce a haploid zygote C haploid gametes combine to produce a diploid zygote D haploid gametes combine to produce a haploid zygote (ii) Genetically different organisms contain different DNA codes that produce differ ...
... A diploid gametes combine to produce a diploid zygote B diploid gametes combine to produce a haploid zygote C haploid gametes combine to produce a diploid zygote D haploid gametes combine to produce a haploid zygote (ii) Genetically different organisms contain different DNA codes that produce differ ...
Complete breakdown of Glucose:
... COPY! This figure won’t be on the exam, I promise! But you still need to know what goes in and what comes out ...
... COPY! This figure won’t be on the exam, I promise! But you still need to know what goes in and what comes out ...
Ch 19 reading guide
... 19. Inhibition of isocitrate DH leads to a buildup of _________________, which acts as an inhibitor of the ____________________ pathway. 20. To understand the citric acid cycle, you must realize that, in addition to its role in the production of ATP, it also provides ________________________________ ...
... 19. Inhibition of isocitrate DH leads to a buildup of _________________, which acts as an inhibitor of the ____________________ pathway. 20. To understand the citric acid cycle, you must realize that, in addition to its role in the production of ATP, it also provides ________________________________ ...
Instructions for Preparation of “BRM
... towards neighbouring tissue is desirable as well [1]. The dental adhesive systems are composed of various methacrylate monomers and an initiating systems; the latter may be either a photoinitiator in light-cured systems or peroxide/tertiary amine in chemically-cured ones. Marine organisms such as th ...
... towards neighbouring tissue is desirable as well [1]. The dental adhesive systems are composed of various methacrylate monomers and an initiating systems; the latter may be either a photoinitiator in light-cured systems or peroxide/tertiary amine in chemically-cured ones. Marine organisms such as th ...
File
... In mammals, some tissues depend almost completely on glucose for their metabolic energy. Glucose from the blood is the sole or major fuel source for: • Human brain and nervous system - Brain requires 120 g/day, more than half that is stored as glycogen in muscles and liver. ...
... In mammals, some tissues depend almost completely on glucose for their metabolic energy. Glucose from the blood is the sole or major fuel source for: • Human brain and nervous system - Brain requires 120 g/day, more than half that is stored as glycogen in muscles and liver. ...
Chapter 5
... chemically modifies molecule as it is brought into cell best known system: transports a variety of phosphoenolpyruvate: sugar phosphotransferase system (PTS) • sugars while phosphorylating them using ...
... chemically modifies molecule as it is brought into cell best known system: transports a variety of phosphoenolpyruvate: sugar phosphotransferase system (PTS) • sugars while phosphorylating them using ...
Microbiology - Chapter 7 & 8
... Most any biomolecule can be used for energy; we will focus on the “catabolism” of glucose (a monosaccharide) and later show how the others are involved (lipids, AA, etc) ...
... Most any biomolecule can be used for energy; we will focus on the “catabolism” of glucose (a monosaccharide) and later show how the others are involved (lipids, AA, etc) ...
Lecture 1 - Microbiology Intro
... DNA formation • Chargaff's Law: [A] = [T], and [G] = [C] (for any DNA) ONLY combination possible, G does NOT bond to itself, A or T – ONLY C !! • Purine –pyrimidine pairs! ...
... DNA formation • Chargaff's Law: [A] = [T], and [G] = [C] (for any DNA) ONLY combination possible, G does NOT bond to itself, A or T – ONLY C !! • Purine –pyrimidine pairs! ...
Mathematics Semester 1 Study Guide
... What are the six most important elements for organisms? What is a covalent bond? What are organic compounds? Which two elements must be contained in all organic compounds? 7. What is metabolism? 8. What are polymers and how are they made? 9. What is a condensation or dehydration synthesis reaction? ...
... What are the six most important elements for organisms? What is a covalent bond? What are organic compounds? Which two elements must be contained in all organic compounds? 7. What is metabolism? 8. What are polymers and how are they made? 9. What is a condensation or dehydration synthesis reaction? ...
How do cells regulate the speed of reactions?
... - occurs in mitochondria (of eukaryotes) - pyruvic acid is oxidized - one C atom is removed & leaves as CO2 - coenzyme A is added to modified ...
... - occurs in mitochondria (of eukaryotes) - pyruvic acid is oxidized - one C atom is removed & leaves as CO2 - coenzyme A is added to modified ...
Proteins
... Complex organic molecules made up of amino acid subunits 20* different kinds of amino acids. Each has a 1 and 3 letter abbreviation. http://www.indstate.edu/thcme/mwking/amino-acids.html for complete list of chemical structures and abbreviations. Proteins are often enzymes that catalyze reactions. A ...
... Complex organic molecules made up of amino acid subunits 20* different kinds of amino acids. Each has a 1 and 3 letter abbreviation. http://www.indstate.edu/thcme/mwking/amino-acids.html for complete list of chemical structures and abbreviations. Proteins are often enzymes that catalyze reactions. A ...
CELL METABOLISM
... 1. First ATP bonds are broken, so that we are left with ADP + Pi, which releases energy; however, most of the energy stays with the broken-off phosphate, which we can then bond to the molecule that needs the energy. The process of adding a phosphate is phosphorylation. 2. The ADP molecule can then d ...
... 1. First ATP bonds are broken, so that we are left with ADP + Pi, which releases energy; however, most of the energy stays with the broken-off phosphate, which we can then bond to the molecule that needs the energy. The process of adding a phosphate is phosphorylation. 2. The ADP molecule can then d ...
Mitochondrial Energy Metabolism:
... by release of glucose from the liver (glycogen) • As we run out of glycogen we maintain the blood glucose level by making glucose from amino acids (protein) and other compounds • The energy to make glucose comes from burning fatty acids, which also generates ketones that are used as an alternative ...
... by release of glucose from the liver (glycogen) • As we run out of glycogen we maintain the blood glucose level by making glucose from amino acids (protein) and other compounds • The energy to make glucose comes from burning fatty acids, which also generates ketones that are used as an alternative ...
Chapter 24 - Metabolism
... amounts of energy from one molecule to another Cell's entire amount of ATP is recycled approximately every minute ATP is NOT for long term energy storage • too reactive in the cell • other molecules available for energy storage (neutral fats, glycogen, creatine phosphate, etc.) ...
... amounts of energy from one molecule to another Cell's entire amount of ATP is recycled approximately every minute ATP is NOT for long term energy storage • too reactive in the cell • other molecules available for energy storage (neutral fats, glycogen, creatine phosphate, etc.) ...
Hello Ladies, Welcome to AP Biology! I am excited to help guide you la
... A complete molecule of DNA is double stranded (composed of two complimentary strands) and twists into a double helix, as shown: ...
... A complete molecule of DNA is double stranded (composed of two complimentary strands) and twists into a double helix, as shown: ...
Biochemistry
Biochemistry, sometimes called biological chemistry, is the study of chemical processes within and relating to living organisms. By controlling information flow through biochemical signaling and the flow of chemical energy through metabolism, biochemical processes give rise to the complexity of life. Over the last decades of the 20th century, biochemistry has become so successful at explaining living processes that now almost all areas of the life sciences from botany to medicine to genetics are engaged in biochemical research. Today, the main focus of pure biochemistry is in understanding how biological molecules give rise to the processes that occur within living cells, which in turn relates greatly to the study and understanding of whole organisms.Biochemistry is closely related to molecular biology, the study of the molecular mechanisms by which genetic information encoded in DNA is able to result in the processes of life. Depending on the exact definition of the terms used, molecular biology can be thought of as a branch of biochemistry, or biochemistry as a tool with which to investigate and study molecular biology.Much of biochemistry deals with the structures, functions and interactions of biological macromolecules, such as proteins, nucleic acids, carbohydrates and lipids, which provide the structure of cells and perform many of the functions associated with life. The chemistry of the cell also depends on the reactions of smaller molecules and ions. These can be inorganic, for example water and metal ions, or organic, for example the amino acids which are used to synthesize proteins. The mechanisms by which cells harness energy from their environment via chemical reactions are known as metabolism. The findings of biochemistry are applied primarily in medicine, nutrition, and agriculture. In medicine, biochemists investigate the causes and cures of disease. In nutrition, they study how to maintain health and study the effects of nutritional deficiencies. In agriculture, biochemists investigate soil and fertilizers, and try to discover ways to improve crop cultivation, crop storage and pest control.