BIO 212 SI Kukday--Energetics (2) Review 2/7
... Dr. Kukday’s “Can You?” Questions (Highlighted ones are addressed in this worksheet, you will need to address the ones that aren’t highlighted on your own time): Paralysis Case: 1.) Can you identify types of enzyme regulation (emphasis on feedback inhibition)? 2.) Can you predict the consequences o ...
... Dr. Kukday’s “Can You?” Questions (Highlighted ones are addressed in this worksheet, you will need to address the ones that aren’t highlighted on your own time): Paralysis Case: 1.) Can you identify types of enzyme regulation (emphasis on feedback inhibition)? 2.) Can you predict the consequences o ...
Photosynthesis and Respiration Notes
... • Convert pyruvate to lactic acid • Muscles produce lactic acid when not enough O2 • Produced by microorganisms – Produce food such as yogurt, cheese, sour cream ...
... • Convert pyruvate to lactic acid • Muscles produce lactic acid when not enough O2 • Produced by microorganisms – Produce food such as yogurt, cheese, sour cream ...
B-3
... ♦ Most of the energy storing ATP molecules is formed during this part of the cycle. ♦ The electron transport chain is a series of chemical reactions ending with hydrogen combining with oxygen to form water. Carbon dioxide is released as a waste product as it is formed in several stages of the Krebs ...
... ♦ Most of the energy storing ATP molecules is formed during this part of the cycle. ♦ The electron transport chain is a series of chemical reactions ending with hydrogen combining with oxygen to form water. Carbon dioxide is released as a waste product as it is formed in several stages of the Krebs ...
Biology
... • Two organisms compete for a limited resource. Both organisms are adversely affected. ...
... • Two organisms compete for a limited resource. Both organisms are adversely affected. ...
Electron Transport and Oxidative Phosphorylation
... Oxidative Phosphorylation The NADH and FADH2 formed in glycolysis, fatty acid oxidation, and the citric acid cycle are energy-rich molecules. because each contains a pair of electrons having a high transfer potential. ...
... Oxidative Phosphorylation The NADH and FADH2 formed in glycolysis, fatty acid oxidation, and the citric acid cycle are energy-rich molecules. because each contains a pair of electrons having a high transfer potential. ...
Chapter 6
... acids and alcohols other than glycerol. Cholesterolis a steroid found in most animal tissues. Itplays a role in the buildup of fatty depositsin arteries. Lipids have an extreme importance in many life activities. They are components of cell membranes along with other cell structures. Lipids also pro ...
... acids and alcohols other than glycerol. Cholesterolis a steroid found in most animal tissues. Itplays a role in the buildup of fatty depositsin arteries. Lipids have an extreme importance in many life activities. They are components of cell membranes along with other cell structures. Lipids also pro ...
Test Review - TeacherWeb
... d. Density dependent factors, density independent factors e. Photosynthesis, Cellular respiration (know the reactants and products of both processes) f. Nitrogen fixation, Nitrification, Denitrification g. Primary succession, secondary succession 4. Short answer h. Explain why decomposers important ...
... d. Density dependent factors, density independent factors e. Photosynthesis, Cellular respiration (know the reactants and products of both processes) f. Nitrogen fixation, Nitrification, Denitrification g. Primary succession, secondary succession 4. Short answer h. Explain why decomposers important ...
Unit 2 Study Guide: Ecology Which process in the carbon cycle
... 16. During strenuous exercise, body temperature increases. The body responds to the increase in temperature by sweating, which helps to reduce the body temperature. Which is demonstrated in this situation? A. Excretion B. Metabolism C. Homeostasis D. Synthesis 17. What is the function of autotrophs ...
... 16. During strenuous exercise, body temperature increases. The body responds to the increase in temperature by sweating, which helps to reduce the body temperature. Which is demonstrated in this situation? A. Excretion B. Metabolism C. Homeostasis D. Synthesis 17. What is the function of autotrophs ...
ch3b_SP13x
... • Anabolic: synthesis from simple to complex – Consume raw materials and chemical energy stored in NADPH and ATP – Divergent: small set of molecules assembled into a diversity of products ...
... • Anabolic: synthesis from simple to complex – Consume raw materials and chemical energy stored in NADPH and ATP – Divergent: small set of molecules assembled into a diversity of products ...
Ecology is the study of the interaction s among living things and
... organisms as well as the climate, soil, water, rocks and other nonliving things in a given area ...
... organisms as well as the climate, soil, water, rocks and other nonliving things in a given area ...
Ecology is the study of the interaction s among living things and
... organisms as well as the climate, soil, water, rocks and other nonliving things in a given area ...
... organisms as well as the climate, soil, water, rocks and other nonliving things in a given area ...
Bacteria PowerPoint - Effingham County Schools
... into a mass 4000 times the mass of earth in just 48 ...
... into a mass 4000 times the mass of earth in just 48 ...
AP Biology Study Guide Exam 2
... The H+ ions then are combined with O2 and those electrons that are floating around to create H2O. ...
... The H+ ions then are combined with O2 and those electrons that are floating around to create H2O. ...
Principles of Ecology
... = role a species plays in a community ◦The space, food, and other conditions an organism requires ◦How a species uses and affects its environment ...
... = role a species plays in a community ◦The space, food, and other conditions an organism requires ◦How a species uses and affects its environment ...
Chemistry Review - Woodlawn School Wiki
... and treated with an excess of aqueous barium chloride, resulting in the precipitation of all the sulfate ions as barium sulfate. The precipitate was collected, dried, and found to weigh 2.33 g. Determine the atomic mass of M, and identify M. (Hints: What is charge on M? Make M a variable in a calcul ...
... and treated with an excess of aqueous barium chloride, resulting in the precipitation of all the sulfate ions as barium sulfate. The precipitate was collected, dried, and found to weigh 2.33 g. Determine the atomic mass of M, and identify M. (Hints: What is charge on M? Make M a variable in a calcul ...
I. Cellular Respiration – complex process in which cells make ATP
... d) the energy lost is used to pump the protons to the other side of the membrane e) this causes 34 ATP to form from ADP & phosphate ...
... d) the energy lost is used to pump the protons to the other side of the membrane e) this causes 34 ATP to form from ADP & phosphate ...
The Five Kingdoms - Biology Innovation
... The five kingdom proposal was introduced by Robert Whittaker in 1968 as a way to categorise all organisms. Living organisms are divided into five kingdoms: • Prokaryotae • Protoctista • Fungi • Plantae • Animalia ...
... The five kingdom proposal was introduced by Robert Whittaker in 1968 as a way to categorise all organisms. Living organisms are divided into five kingdoms: • Prokaryotae • Protoctista • Fungi • Plantae • Animalia ...
Vzájemné vztahy organism* vp*írod
... Relations between individuals of one species intraspecific Relations between individuals of different species - interspecific ...
... Relations between individuals of one species intraspecific Relations between individuals of different species - interspecific ...
Cellular Respiration
... a sport, and to study this book. This energy is directly supplied by _____, which is (are) produced in the process of cellular respiration. ...
... a sport, and to study this book. This energy is directly supplied by _____, which is (are) produced in the process of cellular respiration. ...
Ecology in One Page - Lakewood City School District
... processes, and as waste heat) and stores the rest. Since some of your energy is used up, it is not available for the next organism in the food chain. In fact, each level looses about 10% of the energy as waste heat. This means that each level of the food chain has less energy stored than the one bel ...
... processes, and as waste heat) and stores the rest. Since some of your energy is used up, it is not available for the next organism in the food chain. In fact, each level looses about 10% of the energy as waste heat. This means that each level of the food chain has less energy stored than the one bel ...
Cellular Respiration
... Stage 3: Electron Transport • Electron transport releases the energy your cells need to make the most of their ATP • The molecules of electron transport chains are built into the inner membranes of mitochondria – The chain functions as a chemical machine that uses energy released by the “fall” of e ...
... Stage 3: Electron Transport • Electron transport releases the energy your cells need to make the most of their ATP • The molecules of electron transport chains are built into the inner membranes of mitochondria – The chain functions as a chemical machine that uses energy released by the “fall” of e ...
Microbial metabolism
Microbial metabolism is the means by which a microbe obtains the energy and nutrients (e.g. carbon) it needs to live and reproduce. Microbes use many different types of metabolic strategies and species can often be differentiated from each other based on metabolic characteristics. The specific metabolic properties of a microbe are the major factors in determining that microbe’s ecological niche, and often allow for that microbe to be useful in industrial processes or responsible for biogeochemical cycles.== Types of microbial metabolism ==All microbial metabolisms can be arranged according to three principles:1. How the organism obtains carbon for synthesising cell mass: autotrophic – carbon is obtained from carbon dioxide (CO2) heterotrophic – carbon is obtained from organic compounds mixotrophic – carbon is obtained from both organic compounds and by fixing carbon dioxide2. How the organism obtains reducing equivalents used either in energy conservation or in biosynthetic reactions: lithotrophic – reducing equivalents are obtained from inorganic compounds organotrophic – reducing equivalents are obtained from organic compounds3. How the organism obtains energy for living and growing: chemotrophic – energy is obtained from external chemical compounds phototrophic – energy is obtained from lightIn practice, these terms are almost freely combined. Typical examples are as follows: chemolithoautotrophs obtain energy from the oxidation of inorganic compounds and carbon from the fixation of carbon dioxide. Examples: Nitrifying bacteria, Sulfur-oxidizing bacteria, Iron-oxidizing bacteria, Knallgas-bacteria photolithoautotrophs obtain energy from light and carbon from the fixation of carbon dioxide, using reducing equivalents from inorganic compounds. Examples: Cyanobacteria (water (H2O) as reducing equivalent donor), Chlorobiaceae, Chromatiaceae (hydrogen sulfide (H2S) as reducing equivalent donor), Chloroflexus (hydrogen (H2) as reducing equivalent donor) chemolithoheterotrophs obtain energy from the oxidation of inorganic compounds, but cannot fix carbon dioxide (CO2). Examples: some Thiobacilus, some Beggiatoa, some Nitrobacter spp., Wolinella (with H2 as reducing equivalent donor), some Knallgas-bacteria, some sulfate-reducing bacteria chemoorganoheterotrophs obtain energy, carbon, and reducing equivalents for biosynthetic reactions from organic compounds. Examples: most bacteria, e. g. Escherichia coli, Bacillus spp., Actinobacteria photoorganoheterotrophs obtain energy from light, carbon and reducing equivalents for biosynthetic reactions from organic compounds. Some species are strictly heterotrophic, many others can also fix carbon dioxide and are mixotrophic. Examples: Rhodobacter, Rhodopseudomonas, Rhodospirillum, Rhodomicrobium, Rhodocyclus, Heliobacterium, Chloroflexus (alternatively to photolithoautotrophy with hydrogen)