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Karteikarten von sophietevans, aktualisiert more than 1 year ago
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| Frage | Antworten |
| What is the difference between anaerobic respiration and fermentation? | Anaerobic respiration consists of both substrate-level phosphorylation (glycolysis and the Krebs cycle) and the electron transport chain and yields a great deal of energy by uses NO3 or SO4 as a terminal electronc acceptor - whereas fermentation also occurs in the absence of oxygen by only substrate-level phosphorylation and yields a lot less energy. |
| What is a facultative anaerobe? | An organism that can grow in aerobic and anaerobic conditions. |
| What is an obligate aerobe? | An organism that needs an O2 environment in order to grow. |
| What is an obligate anaerobe? | An organism that finds an O2 environment toxic e.g. Pseudomonas aeruginosa, or some enteric bacteria. |
| What is a lithotroph? | An organism that uses reduced inorganic substances as its electron source. |
| What is an organotroph? | An organism that extracts electrons or hydrogen from organic compounds. |
| What is a mixotroph? | An organism which relies on inorganic ENERGY sources and organic CARBON sources. |
| What is a photolithotrophic autotroph? | An organism that uses light energy and CO2 as a carbon source. |
| What is a chemoorganotrophic heterotroph? | An organism that uses organic compounds as sources of energy, hydrogen, electrons and carbon for biosynthesis. This is typically the same nutrient for all 4 and includes almost all pathogenic microbial species. |
| What is a photoorganotrophic heterotroph? | A photosynthetic organism that uses light energy and organic matter as both their electron donor and carbon source. |
| What is a chemolithotrophic autotroph? | An organism that oxidises reduced inorganic compounds (e.g. Fe, N, S) to derive both energy and electrons for biosynthesis; CO2 is the carbon source. |
| What is a chemolithotrophic heterotroph? | An organism that oxidises reduced inorganic compounds to derive both energy and electrons from photosynthesis and derives its carbon from organic sources. |
| Can microorganisms belong to more than one nutritional type? | Most species tend to only belong to one nutritional class but some show great metabolic flexibility in response to environmental changes, such as purple non-sulphur bacteria acting as photoorganotrophic heterotrophs in anaerobic conditions and oxidising organic molecules and functioning chemotrophically at normal O2 levels. |
| What are the two processes by which bacteria can obtain energy? | Respiration and fermentation. |
| Which elements do microbial cells predominately consist of? | H, O, C, N, P and S. |
| Which bacteria can use N2 as a nitrogen source? | Nitrogen fixing bacteria such as Rhizobium species. |
| Which microorganisms can assimilate organic compounds (such as amino acids, sugars, nitrogen bases, aromatic compounds etc) and use them to make new cell material? | Bacteria. |
| Name two organic forms of nitrogen. | NH3, NO3-. |
| What is phosphorus required for? | Synthesis of nucleic acids and phospholipids. |
| What is sulphur required for and which inorganic forms is it found it? | Sulphur is required for the disulphide bonds in the amino acids methionine and cysteine and in vitamins such as thiamin and biotin. It is generally found as SO4- or HS-. |
| Microorganisms in which habitat are more likely to require sodium for growth? | Marine microorganisms. |
| What is a siderophore? | A molecule, which may be a peptide, or phenolic or an ester, among many other forms, which is a strong chelate of ferric (Fe3+) or ferrous (Fe2+) iron and binds to it and transports it into the cell. |
| How is a siderophore used? | It is excreted into the environment and then transported back into the cell once it has bound to iron. It is reduced inside the cell if Fe3+ has been bound and the siderophore is recycled back out into the environment. |
| Name a species that requires a large amount of iron and suggest where it might find it in the human body. | Haemophylis influenzae requires a lot of Fe2+ and can sequester it from the haem groups of haemoglobin in erythrocytes. |
| Name a species that can live in taps with only water, calcium and magnesium and requires very little iron. | Pseudomonas aeruginosa. |
| Name a species that uses no detectable iron and seems to use Mn2+ in place of it. | Borrelia burgdorferii. |
| What might iron be used for in a microbe cell? | In cytochromes and Fe-S compounds in the electron transport chain. |
| What do 'growth factors' consist of in microbial nutrition? | Vitamins, amino acids, purines and pyrimidines. |
| Name some genii of lactic acid bacteria which are renowned for their vitamin requirements exceeding that of humans. | Lactobacillus, Leuconostoc and Streptococcus. |
| What is an autotroph? Give examples of autotrophic microorganisms. | An organism that can fix CO2, by reducing it and incorporating it into organic molecules. Cyanobacteria and algae can do this. |
| What is a heterotroph? Give examples of heterotrophic organisms. | Heterotrophs are organisms that cannot expend the energy to reduce CO2 and so rely on the presence of reduced, complex, pre-formed molecules for a supply of carbon. These usually come from other organisms and tend to be a source of both carbon and energy. Methylotrophic bacteria and actinomycetes are heterotrophs. |
| What is a prototroph? | An organism requiring the same nutrients as more of the naturally occurring members of its species. |
| What is an auxotroph? | An organise that has mutated so that it cannot synthesis a molecule essential for growth and reproduction that must then obtain it or a precursor of it, and that differs from most naturally occurring members of its species. |
| What is a phototroph? | An organism that uses light as its energy source. |
| What is a chemotroph? | An organism that obtains energy from the oxidation of organic or inorganic chemical compounds. |
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