photosynthesis-and-cellular-respiration-worksheet

... cycled back to oxaloacetate as redox reactions produce NADH andFADH2, ATP is formed by substrate-level phosphorylation, and CO2 is released NADH (from glycolysis and Kreb’s) and FADH2 (from Kreb’s) transfer electrons to carrier molecules in mitochondrial membrane. In a series of redox reactions, H+ ...

Cellular Respiration Chapter 9

... In your group: See if you can write the chemical equation for respiration (inputs and outputs) What is the organelle in cells that is “releasing” energy during respiration? What primary molecule is energy being “released” from? How is the sun indirectly involved in respiration? ...

NCIMB Bacterial and Fungal Identification Services

... species level match we also use the more ...

File - Mrs Jones A

... heart, and muscles when starting a dive Diving mammals—including whales, seals and otters, have more haemoglobin/myoglobin (oxygen store) in their muscles. Haemoglobin has a higher affinity for oxygen Respiration: large supplies of NAD, so more glycolysis, less build up of lactate; more pH buffers ...

Ecology - Wappingers Central School

... • As biodiversity increases, there is an increase the ecosystem becomes more stable. • it provides for more genetic variation among species. • The more diversity a species has, the higher chance that some will survive when the environment changes, keeping the species alive. ...

AP Biology Notes Outline Chapter 9: Cellular Respiration Cellular R

... o Because fermentation does not require oxygen, it is said to be anaerobic  The 2 main types of fermentation are: o alcoholic fermentation o lactic acid fermentation  Fermentation – aside from the original 2 ATP’s made during glycolysis, the only energy produced is that which is in the bonds of… o ...

Electron transport chain-2

... • E´º in volts is measured by a responsive electrode placed in solution containing both the electron donor and its conjugate electron acceptor at standard conditions. ...

Energy Systems For Fat Loss

Sulfur Cycle

... plants and animals - known as consumers - carbon dioxide reenters the air through respiration, as food molecules are broken down for energy and CO2 gas is emitted. The carbon that is absorbed from the atmosphere by plants and animals can take several paths before reentering the air as carbon dioxide ...

A.) There are three different categories of cellular poisons that affect

... – The trick is to oxidize the NADH without passing its electrons through the electron transport chain to oxygen ...

What Is A Free Radical? - The International Dermal Institute

... outermost shell is full, the atom is stable and tends not to engage in chemical reactions. When, however, the outermost shell is not full, the atom is unstable. It will try and stabilize itself by either gaining or losing an electron to either fill or empty its outermost shell. Or it will share its ...

Respiration - Indian River Research and Education Center

... – Without a constant energy supply, organisms would disorganize and die – Living organisms are never at equilibrium ...

Cellular Respiration Power Point

... – As in alcoholic fermentation, NAD+ is recycled • Lactic acid fermentation is used to make cheese and yogurt ...

Name: Date: ______ Class

... 29.Population density is defined as A. an approximation of a number, based on reasonable assumptions. B. the number of individuals of a population in a specific area. C. the number of individuals moving into a population. D. the smallest level of ecological organization. ...

macromolecule packet

... make up cell membranes. Lipids also serve as waxy coverings (cuticle) on plants, pigments (chlorophyll), and steroids. Lipids have more carbon and hydrogen atoms than oxygen atoms. Fats are made of a glycerol (alcohol) and three fatty acid chains. This subunit is called a triglyceride. Color the gly ...

Chapter 9. Cellular Respiration Oxidation of Pyruvate Krebs Cycle

... 3 step oxidation process releases 1 CO2 (count the carbons!) reduces NAD → NADH (stores energy) produces acetyl CoA ...

Chapter 9. Cellular Respiration Kreb`s Cycle

... 3 step oxidation process releases 1 CO2 (count the carbons!) reduces NAD  NADH (stores energy) produces acetyl CoA ...

Document

... Nitrogenase Dialogue Where do we find Nitrogenase? Nitrogenase is present in certain bacterial species referred to a diazotrophs. The legumes (peas, beans, alfalfa, etc.) have root nodules infested with the nitrogen fixing bacteria, Rhizobium. Free living bacteria such as azobacter vinelandii can a ...

PPT

... – α-hemolysis: greenish hue, partial breakdown of red blood cells – β-hemolysis: clearing, breaks down red blood cells and hemoglobin completely – γ-hemolysis: no hemolysins ...

Lecture 11 - AP Chem Solutions

LECT 29 NitrogFix

... Nitrogenase Dialogue Where do we find Nitrogenase? Nitrogenase is present in certain bacterial species referred to a diazotrophs. The legumes (peas, beans, alfalfa, etc.) have root nodules infested with the nitrogen fixing bacteria, Rhizobium. Free living bacteria such as azobacter vinelandii can a ...

Isolation and characterization of an anaerobic benzoate

... Spore-forming sulfate-reducing bacteria (SRB) were enriched selectively from various khds of aerobic soils with fatty acids as the sole carbon and energy source. A Gram-negative motile rodshaped bacterium, which produced gas vacuoles 'during sporulation was isolated. It degraded alcohols, aromatic a ...

Outline

... • Most ocean species are benthic because of greater environmental variability compared to pelagic environments Adaptations of organisms to the marine environment • The marine environment presents many challenges to organisms because seawater: – Is dense enough to support organisms – Has high viscosi ...

3/14 Cellular Respiration

... the liver. Can be an alternative outcome instead of going through glycolysis to get pyruvic acid.  Lipids are good for storing energy, proteins not so much.  Glucose energy can be stored as a lipid, instead of going through the Krebs cycle and electron transport.  Proteins aren’t good for storage ...

Population Ecology & Food Web 6c. Students know

... ecosystem are determined by the relative rates of birth, immigration, emigration, and death. 6d. Students know how water, carbon, and nitrogen cycle between abiotic resources and organic matter in the ecosystem and how oxygen cycles through photosynthesis and respiration. 6e.Students know a vital pa ...

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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)

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Microbial metabolism