Mathew Sebastian Biology 303 Term Paper Schlank: a gene that

... (Figure 2A shows that the TAG and FA levels were reduced to a different extent that still correlates well with the expression of schlank. The FAs and TAGs were separated using TLC with n-hexene/diethylether/glacial acetic acid (70:30:1.) Table 1 shows the reduced levels as well. These numbers are al ...

Organic Compounds

... • Hydrophobic (held together by non-polar covalent bonds) • Contains MORE energy-rich C-H bonds than carbs • Types include: neutral fats, phospholipids, steroids, carotenoids, waxes – Neutral fats: most abundant type of lipid 3 Fatty Acids + glycerol • Simplest lipid = fatty acid ...

Chemistry of Life Review Sheet Key

... hydrogen bond- formed between hydrogen of 1 molecule and negative end (usually oxygen) of another molecule. dehydration synthesis - a condensation reaction is a chemical reaction in which two molecules or moieties combine to form one single molecule, together with the loss of a small molecule. When ...

Cellular Respiration NOTES

... fermentation (or ANaerobic) respiration. Regardless of the organism (bacteria to human), all organisms use glycolysis as an initial step. Remember, glycolysis results in a net gain of 2 ATP (useful) and 2 NADH (without oxygen, not very useful) and the pyruvate molecules. So, in order to recycle the ...

Chemistry Option B: Human Biochemistry

... B.8.3 Explain the double helical structure of DNA. nucleotides are linked together to form polynucleotides by  the nucleotides condense/form a phosphodiester bond;  between the C3 of the sugar and a neighbouring phosphate group; bases form a part of nucleotide in DNA by  bases are covalently bon ...

Topic 2 Molecular Biology

... • Water has high specific heat – This means water can absorb or give off a great deal of heat without changing __________ very much. • Water helps to stabilize our temperature. • Water also has a high heat of_____________, meaning it absorbs a lot of heat when it ...

METABOLISM I. Introduction. - metabolism: all chemical reactions

... atoms from substrate molecules, passing them on to electron acceptors. - two major electron acceptors are NAD+ and FAD. - the bulk of energy (ATP) from glucose oxidation results from use of NADH+H+/FADH2 to set up a hydrogen ion gradient used to drive ATP synthesis. - glucose oxidation: C2 H12 O6 +6 ...

Enzymes - TeacherWeb

... An acid releases a hydrogen ion (H+) when it dissolves; bases take them up pH scale from 0-14  Pure water neutral: pH7  Acids:<7  Bases: >7 ...

Respiration Test Study Guide

... Date ___________________ ...

Micro 071023

...  Metabolism in Primitive Organisms ...

BHS 150.1 – Course I Date: 10/18/12, 1st hour Notetaker: Laurel

... Q1 Aerobic glycolysis Someone without contacts, or normally while awake, do aerobic glycolysis (full oxygen) Krebs’s cycle, ETC, ATP produced Enzymes need to know: those that make GTP, NADH, FADH2 Nutrition involved: niacin, pyruvate dehydrogenase, isocitrate, ketoglutarate dehydrogenase need thiami ...

biology 422 - TeacherWeb

... 11. What type of molecule is NAD+ and what is its role? 12. What, if any, changes occur in the pathway of glycolysis in the absence of oxygen? 13. How does fermentation allow glycolysis to occur when oxygen is not present? ...

WEB

... Understand hormonal regulation of fatty acid mobilization Understand how fats provide energy to the brain ...

File - Pi Beta Philes!

... b. The body breaks down it own proteins, giving no priority to tissues such as heart or liver over muscle c. There is a specific storage protein, found in the liver, which will be broken down initially before other proteins are broken down d. There is a special area of the cell, called the amino aci ...

Aims of lecture

... 1. Increased risk of heart disease 2. Increased risk of Type 2 diabetes ...

Ch. 7 Cellular Respiration

... 2. The 6 carbon molecule that is formed is split into two three carbon molecules of PGAL. The 2 PGAL molecules are oxidized (each loses an electron) These electrons combine with NAD+ to form a new high energy compound called NADH (similar to NADP+) 3. The 4 phosphate groups that were added are now r ...

Ads by Google

... Although some cells are highly dependent on glycolysis for the generation of ATP, the amount of ATP generated per glucose molecule is actually quite small. Under anaerobic conditions, the metabolism of each glucose molecule yields only two ATPs. In contrast, the complete aerobic metabolism of glucos ...

File

... 7a) Role of ATP Cellular respiration is a series of metabolic pathways that releases energy from food and generates a high energy compound called adenosine triphosphate (ATP) ATP is composed of adenosine and three inorganic phosphate (Pi) groups Energy is released from ATP when the bond attached to ...

Plant Respiration

... pathways and are withdrawn from it as and when necessary; ATP is utilised as and when needed; enzymatic rates are controlled by multiple means. Yet, it is useful to do this exercise to appreciate the beauty and efficiency of the living system in extraction and storing energy. Hence, there can be a n ...

101 -- 2006

... a) the entropy of the universe is constantly increasing. b) for every action there is an equal and opposite reaction. c) every energy transfer requires activation energy from the environment. d) the total amount of energy in the universe is conserved or constant. e) energy can be transferred or tran ...

ergogenic aids: boon or bane to mankind?

... from Greek word - ergon (tending to increase work power).Ergogenic aids means any potential means of improving energy production and utilization which produce enhancement in physical performance. As nutritional technology advanced, scientists have been able to synthesize and manufacture all known nu ...

Yeast Nutrition and Fermentation Progression

...  See dynamic changes in concentrations in juice during fermentation, role in metabolism and growth not clear ...

Document

... • Maintenance of high energy bond • Acetyl CoA product is made • Lipoamide still reduced—not catalytically viable at this point ...

Chemistry of Life Answers 1. Differentiate between an ionic and

... 1. Differentiate between an ionic and covalent bond. Provide an example for each. • Ionic: occurs between metals and non-metals, e.g., NaCl • Covalent: occurs between two non-metals; stronger than ionic, e.g., H20 2. Define the term electronegativity. What does a large electronegativity number repre ...

NSCC NTR150 Ch07A Metabolism

... plant cells can take carbon dioxide (CO2) from the air and water (H2O) from the ground and convert it into a carbohydrate, usually glucose (C6H12O6) • The “waste product” of this process is oxygen (O2) • The chemical bonds in the glucose contain the energy absorbed from the light ...

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Basal metabolic rate

Basal metabolic rate (BMR) is the minimal rate of energy expenditure per unit time by endothermic animals at rest. (McNab, B. K. 1997). On the Utility of Uniformity in the Definition of Basal Rate of Metabolism. Physiol. Zool. Vol.70; Metabolism refers to the processes that the body needs to function. Basal Metabolic Rate is the amount of energy expressed in calories that a person needs to keep the body functioning at rest. Some of those processes are breathing, blood circulation, controlling body temperature, cell growth, brain and nerve function, and contraction of muscles. Basal metabolic rate (BMR) affects the rate that a person burns calories and ultimately whether you maintain, gain, or lose weight. Your basal metabolic rate accounts for about 60 to 75% of the calories you burn every day. It is influenced by several factors.

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Basal metabolic rate