BIOL 238 Review 2009

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This page provides review questions for BIOL 238 (Spring 2009). Answers may be posted by students.

Chapter 17, 18

Chapter 19

Chapter 20

Chapter 21

Chapter 22

1. What are the common gases besides CO2 that contribute to global warming? What is the chemical basis for how these gases trap solar radiation as heat?



2. In the last fifty years, most of the wetlands off the coast of Louisiana have been destroyed. Is this destruction responsible for the increased run-off and pollutants in the Gulf of Mexico, as well as the notorious dead zone there Can dead zones ever be fully revived? What are the methods that used that cause the price of restoration to be $1 billion dollars per year?



3. It is interesting that the ocean's microbial communities could be responsible for over half of the biological uptake of atmospheric carbon. How soluble is CO2 is in water? Is it more soluble than oxygen gas in water?



4. How exactly is ammonium nitrate addition related to higher CO2 efflux in wetlands?



5. Iron is limiting in oceans because the iron in the benthos, where it’s abundant, is inaccessible because it’s far away. In the benthic environment then, is iron not limiting because the microbes can access the sediment? What is typically limiting instead?



6. Can you explain the Haber process of artificial nitrogen fixation?



7. What exactly is the process in which nitrous oxide gas builds up?



8. If Mars had an atmosphere, would life exist on Mars?



Chapter 23

1. What's the point of breeding a gnotobiotic animal? A gnotobiotic animal is an animal that satisfies one of two rules. It is either entirely germ-free, or all of the microbial species that colonize it are known. These animals are used to demonstrate the usefulness of commensal organisms to the host by showing how organisms that lack such commensal organisms are negatively affected. Gnotobiotic organisms often show signs of poorly developed immune systems, low cardiac output, and thin intestinal walls. Furthermore, these are typically more susceptible to being infected by pathogens.



2. What makes it possible for a body's cells to withstand fever while the same temperature is fatal to certain bacteria?



3. How do defensins tell the difference between “good” bacteria and pathogens?



4. What are the benefits of an acidic skin? Of an acidic vaginal tract?



5. How are mast cells involved in immune response other than being differentiated with other immune cells?



6. Why do you think gnotobiotic animals have a lower cardiac output?



7. Why does an infection site heat up during vasodilation?



8. How do interferons work? How do they connect with the adaptive immune system?



9. Explain the difference between the innate and adaptive immune systems--and explain how they interconnect.



Species to know for Test 3

For each species, state one or two broader categories of organism (such as gram-positive endospore-forming bacteria), the type of genome, type(s) of metabolism, habitat, and disease caused (if any).

Aeromonas hydrophila

Broader Categories: Gram-negative, anaerobic
Genome: Genes that contribute to its toxicity are cytotoxic enterotoxin gene (act), heat labile enterotoxins (Alt), and heat-stable cytotonic enterotoxins (Ast).
Metabolism: Heterotrophic, ferments glucose, digests gelatin, hemoglobin, and elastin.
Habitat: Exists in aerobic and anaerobic environments: aquatic environments, fish guts, food, human bloodstream and organs.
Disease: Causes many diseases in fish and amphibians, since it exists in aquatic environments. Can cause disease in humans, such as septiticemia, meningitis, pneumonia, and gastroenteritis.

Anabaena sp.


Broader Categories: Barrel-shaped cells. Filamentous cyanobacteria (blue-green algae) found as plankton.
Genome: 1 circular chromosome with 5368 protein-coding regions and 6 plasmids (from sequenced PCC 7120 strain).
Metabolism: Photoautotrophic, perform oxygenic photosynthesis. Form heterocysts (specialized nitrogen-fixing cells that convert nitrogen to ammonia) during nitrogen starvation.
Habitat: Freshwater and damp soil. Form symbiotic relationships with certain plants.
Disease: Produce neurotoxins, such as anatoxins (neuromuscular poisons), that are harmful to wildlife and farm animals.

Aquifex sp.

Broader categories: gram-negative, generally rod-shaped, thermophilic, non spore forming, aerobe. Genome: Densely packed genome with overlapping genes. No introns or splicing proteins. Genome is about 1/3 the size of that of E. coli. Metabolism: Autotrophic chemolithotrophs that fix carbon from the environment and draw energy from inorganic chemical sources. Uses oxygen as terminal electron acceptor when it oxidizes hydrogen to form water “aquifex=water forming.” They can also use sulfur or thiosulfate to produce H2S instead of water. Some aquifcales aren’t aerobic, however, and reduce nitrogen instead of oxygen. In this case the reaction ends with H2. Habitat: Near volcanoes or hot springs Diseases Caused: None

Aspergillus sp.

Broader Categories: Over 185 species of this genus Genome: Largely incomplete Metabolism: Highly aerobic. Pathogenic species obtain nutrients from host, while non-pathogenic species obtain nutrients from soil, wood, and plant detritus. Habitat: Grow as molds in oxygen-rich environments and carbon-sources. Some species are capable of living in nutrient-depleted environments as well. Disease: About 20 species are pathogenic in humans and animals. Aspergillus fumigatus and Aspergillus flavus cause invasive pulmonary aspergillosis and is often fatal.

Bacillus anthracis

Broader Categories: Gram-positive, rod-shaped, form endo-spores and biofilms
Genome: 1 circular chromosome with over 5 million b.p. 2 circular plasmids: pxO1 and pxO2. These plasmids encode main virulent factors.
Metabolism: Facultative anaerobe and must grow in medium with essential nutrients including C and N sources. Upon nutrient deprivation, endospores form (requires oxygen to form) and can live in inhospitable envrionments for many years. Can grow into vegetative cells in aqueous environment with adequate nutrients.
Habitat: Live in soils world-wide and is the main habitat.
Disease: Anthrax disease. Infectious endospores harm host by germinating for vegetative growth. During growth the bacteria produce toxins in the body of humans and animals. The slime capsule enables it to resist phagocytosis. 3 main forms of the disease: cutaneous, pulmonary, and gastrointestinal. Can cause death in 2-48 hours.

Bacillus subtilis

Broader Categories: Gram-positive, rod-shaped, form stress-resistant endospores Genome: 1 circular chromosome with 4100 genes coding for proteins. Metabolism: Can grow in aerobic and anaerobic conditions. Uses fermentation and nitrate ammonification to make ATP in the absence of oxygen. Habitat: Soil and vegetation at mesophilic temperatures. Disease: Non-pathogenic. Responsible for spoilage of food, since contamination often results in decomposition, but it rarely causes food-poisoning.

Bacillus thuringiensis

Broader Categories: Gram-positive, spore-forming, rod-shaped Genome: 1 circular chromosome with 5.2-5.8 Megabases. Contains many plasmids. Metabolism: Facultative anaerobe (makes ATP by aerobic respiration if oxygen is present, but can switch to fermentation). Habitat: Soil. It is used in 90% of pesticides. Fends off insects by producing crystal proteins (Cry proteins). Disease: Species-specific, non-pathogenic to humans, making it an environmentally-friendly insecticide. Cry toxin grows and sporulates in alkaline gut o finsect, which aids in its ability to infect the insect gut. The gut breaks down and the insect eventually dies.

Bacteroides thetaiotaomicron

Broader Categories: Gram-negative, anaerobic, human-bacterial symbiosis model Genome: 1 circular chromosome made of d.s. DNA, consists of 4776 proein-coding genes, 90% of which are essential in the binding and import of various polysaccharides. Metabolism: Starch (all 3 forms) is primary carbohydrate used as its source of C and Energy. Polysaccharides bind to the cell surface before undergoing hydrolysis. Habitat: Adult intestine-allows humans to degrade plant polysaccharides Disease: Serious infections include intra-abdominal sepsis and bacteremia. It is resistant to many antimicrobial agents.

Borrelia burgdorferi

Broader Categories: Sprial-shaped with 2 flagella Genome: A linear chromosome with 910,725 b.p. with 853 genes. 17 linear and circular plasmids. Metabolism: Require specific nutritional requirements making it difficult to culture in vitro. Habitat: Live extracellularly and adapts to various host animals (tick, rodents, birds) by regulating various lipoproteins on thier surface. Disease: Lyme disease and recurring fever.

Chlamydia sp.

Broader Categories: Gram-negative, aerobic, coccoid or rod-shaped Genome: C. trachomatis-1,042,519 b.p. with 894 protein-coding sequences (70 genes are not homologous to sequences on the C. pneumoniae genome). C. pneumoniae- 1,230,230 b.p. (186 genes are not homologous to sequences on the C. trachomatis genome) Metabolism: Cannot synthesize its own ATP, so they cannot be grown on artificial medium and require growing cells to remain viable. Habitat: C. trachomatis-human host cells, C. suis- swine host cells, C. muridarum- mice and hamster host cells. Infectious elementary body form induces endocytosis upon contact with host cell. Once inside, the elementary body germinates to vegetative form, and divides every 2-3 hrs. It then reverts back to the elementary form and is released by the cell through exocytosis. Disease: C. trahomatis causes chlamydia and is the most common STD in the world. C. pneumoniae causes pneumonia and bronchitis

Clostridium botulinum

Broader Categories: Gram-positive, rod-shaped, anaerobic, spore-former Genome: Genome size of 4039 kbp, which is larger than most Gram-positive genomes, indicating the extra genomic requirements needed for sporulation and pathogenic toxin production Metabolism: Lie dormant in very adverse environments. Spores can begin to grow in favorable conditions: non-halophilic salinity and anaerobic conditions. Grows at mesophilic temps. Habitat: Soils and improperly canned food products Disease: A-G subtypes produce different botulin toxin- al except C and D subtypes are human pathogens. The toxin prevents propagation of action potentials to the muscle fibers- causing paralysis by inhibiting muscle contraction. Fatalities usually occur due to asphyxiation

Chloroflexus sp.

Corynebacterium diphtheriae

Escherichia coli

Broader Categories: Gram-negative, rod-shaped, aerobic Genome: 1 circular chromosome, (4300 coding sequences) with 1800 known proteins. Some contain circular plasmid. Metabolism: Facultative anaerobe. Uses mixed-acid fermentation in anaerobic conditions. Growth driven by aerobic or anaerobic respiration using a large variety of redox pairs: oxidation of pyruvic acid, formic acid, hydrogen, and amino acids and reduction of oxygen, nitrate, dimethyl sulfoxide, trimethylamine N-oxide. Habitat: Lower intestines of human and mammals, where it aids in digestion processes: vitamin K production, food breakdown and absorption Disease: E. coli O157:H7 (enterohemorrhagic strain) causes food poisoning- leading to bloody diarrhea and kidney failure due to its production of Shiga-like toxin. Also can cause urinary tract infections by ascending infections of the urethra.

Geobacter metallireducens

Broader Categories: Gram-negative, rod-shaped, possesses flagella, and pili Genome: 1 circular chromosome encoding 3621 genes. Plasmid encodes 13 genes, 1 of which is addiction module toxin (gives resistance to bacteria and another encoding plasmid stabilization system protein (allows bacteria to adapt to new environmental conditions) Metabolism: First organism with the ability to oxidize organic compounds and metals (iron, radioactive metals like Uranium, and petroleum compounds) into environmentally benign carbon dioxide while using iron oxide and other available metals an electron acceptors. Habitat: anaerobic conditions in soils and aquatic sediments Disease: Non-pathogenic

Pseudomonas aeruginosa

Broader categories: Gram-negative, rod-shaped, does not produce spores. Habitat: due to its capability to synthesize arginine, P. aeruginosa proliferates in anaerobic conditions. It can be found in environments such as soil, water, humans, animals, plants, sewage, and hospitals. Metabolism: Aerobic respiration. P. aeruginosa can metabolize on hundreds of other things besides arginine, and can respire on nitrate (although it does much better on O2).Genome: a single and supercoiled circular chromosome in the cytoplasm. Disease(s) caused: Causes disease in immuno-compromised patients, such as those with cystic fibrosis, cancer, or AIDS. It further weakens the patient, allowing the patient to become more susceptible to other diseases. Usually this kills the patient. P. aeruginosa forms biofilms in the lung of cystic fibrosis patients; it is the major cause of death in these individuals.

Broader Categories: Gram-negative, rod-shaped, and contains 1 flagella Genome: It contains a 5.2 to 7 million base pairs and a single, supercoiled circular chromosome in the cytoplasm with many plasmids contributing to its pathogenicity. Metabolism: Facultative aerobe, with its preferred metabolism being aerobic respiration by transferring electrons from glucose to oxygen. Habitat: Ubiquitous in that it can live in both human and inanimate environments. This is possible mainly because of the vast array of enzymes that allow uptake of diverse forms of nutrients. Pathogenicity: Disease-causing agent to immuno-compromised individuals (cystic fibrosis patients) or indivuals in a trauma (burn victims). It tends to form biofilms and cause tissue damage through its virulence factors.

Halobacterium sp.

Broader categories: rod-shaped, halophilic, candidate for life on Mars. Genome: 1 large chromosome and 2 plasmids (3 circular replicons). Metabolism: aerobic, but not glucose degradation. Habitat: highly saline lakes. Disease: non-pathogenic

Helicobacter pylori

Lactobacillus sp.

Lactococcus sp.

Broader categories: spherical, gram positive. Genome: 1 circular chromosome with 2, 365, 589 bp, where 86 % of the genome code for protein, 1.4 % for RNA, and 12.6 % for noncoding region. 64.2 % of the genes code for known functional proteins, and 20.1 % of the genes for known protein with unknown function. Metabolism: aerobic or anaerobic, often use lactic acid fermentation. Habitat: plant surfaces, digestive tract of cows. Disease: non-pathogenic.

Leptospira

Methanococcus sp.

Broader categories: gram-negative, cocci-shaped, archaea domain, thermophilic and mesophilic. Genome: 1 circular chromosome with 1 large extra-chromosomal element and 1 small extra-chromosomal element. Metabolism: autotrophic, anaerobic, reduces carbon dioxide with hydrogen gas to generate methane. Habitat: can grow up to pressures of 200 atm, temperature ranges between 48-94 degrees C, with optimal growth at 85 degrees C. Disease: non-pathogenic.

Mycobacterium tuberculosis

Mycoplasma pneumoniae sp.

Broader categories: spherical without a cell wall, highly pathogenic--osmotic instability. Genome: 1 small circular chromosome. Metabolism: major nutrients come from mucosal epithelial cells of the host, many proposed metabolic pathways. Habitat: not found in the environment but can be cultured in medium-rich agar. Disease: highly pathogenic; parasitizes epithelial cells in the respiratory tract.

Nitrospira sp.

Paramecium sp.

Broader categories: Eukaryotic ciliated unicellular organisms. Genome: Linear. Metabolism: Paramecium eject trichocyts to help capture their prey. They commonly eat bacteria, yeasts, algae, and small protozoa. Paramecium are also heterotrophs. Habitat: Aquatic environments, usually in stagnant warm water. Some Paramecium species form symbiotic relationships with green algae or bacteria. The bacteria/algae live in the cytoplasm of the Paramecium and perform photosynthesis. Disease: Non-pathogenic


Plasmodium falciparum

Broader Categories: Protazoan parasite Genome: It contains a 23-megabase nuclear genome consisting of 14 chromosomes, encoding about 5,300 genes, and is the most A/T rich genome sequenced to date Metabolism: Uses intracellular hemoglobin as a food source. Anaerobic glycolisis with pyruvate being converted to lactate. Habitat: Requires both human and mosquito hosts Pathogenicity: Causative agent of malaria

Prochlorococcus sp.

Broader Categories: Single-celled cyanobacteria Genome: It is about 1.67 Mega-base pairs long with 1,694 predicted protein-coding regions Metabolism: photoautotrophic Habitat: Oceans Pathogenicity: Non-pathogenic

Rhodobacter sp.

Broader categories: quorum-sensing bacteria, flagella motility. Genome: unique complexities-2 chromosomes, 1 large and 1 small, circular chromosomes. Metabolism: photosynthesis mostly, also capable of lithotrophy, aerobic, and anaerobic respiration pathways. Habitat: aquatic and marine environments. Disease: non-pathogenic.
Which photosystem does it use? Does it conduct phototrophy anaerobically, or in the presence of oxygen?

Rhodopseudomonas sp.

Rhodospirillum rubrum
Which photosystem does it use?
Rickettsia sp.

Saccharomyces cerevesiae

Salmonella enterica

Serratia marcescens

Broader Categories: Gram-negative, rod-shaped, motile, of the family Enterobacteriaceae. Genome: Singular circular chromosome. Few plasmids Metabolism: Facultative anaerobe, but uses primarily fermentation to obtain Energy. Nitrate is usually the final electron acceptor. Habitat: Found in diverse environments from water and soil to plants and animals. One of the most common contaminant on laboratory Petri dishes. Pathogenicity: A wide variety of diseases can result mainly in immuno-compromised individuals, such as bacteremia, meningitis, urinary tract infections, osteomyelitis, ocular infections, and endocarditis. It is resistant to penicillin and ampicillin, due to R-factors on plasmids encoding genes involved in antibiotic resistance and is able to produce biofilms.

Sinorhizobium meliloti

Staphylococcus epidermidis

Broader Categories: Gram positive, spherical, arrange in grape-like clusters, resistant to all penicillins and methicillin. Genome: The chromosome length is 2,616,530 bp and contains a few plasmids, depending on the strain. Metabolism: Facultative anaerobe that can grow by aerobic respiration or by fermentation. Most strains can reduce nitrate. Habitat: The skin and in mucous membranes of animals. Has the ability to produce slime and biofilms, which enable it to grow on biomedical devices. Pathogenicity: The primary virulence factor is its ability to form biofilms. With the increased use of intravascular catheters, the rate of infection has increased. It is more resistant to antibiotics that most other species.

Staphylococcus aureus

Broader categories: gram positive, spherical, immobile. Genome: 1 circular genome, resistance for antibiotics are encoded by a transposon. Metabolism: EMP and Pentose-Phosphate pathways. Lactate is the end product of anaerobic glucose metabolism. Acetate and carbon dioxide are the end products of aerobic metabolism. Habitat: skin, mucous membranes of animals. Disease: skin infections, invasive diseases, toxic shock syndrome (TSS).

Streptococcus sp.

Broader Categories: Gram positive, spherical, can be found in chains or in pairs, immobile. Genome: 1 circular chromosome. Metabolism: Many species of Streptococcus are facultative anaerobes, while others are obligate anaerobes. Habitat: Part of normal animal flora. Can become pathogenic and infect humans and other animals. They often imitate aspects of their host organism to avoid being detected. Disease: Can cause step throat, necrotizing fasciitis, scarlet fever, rheumatic fever, postpartum fever, and streptococcal toxic shock syndrome. Some species of Streptococcus can cause pneumonia.

Streptomyces sp.

Vibrio cholerae

Broader Categories: Gram-negative, bent rod shaped, one polar flagellum. Genome: Two circular chromosomes. Metabolism: Fermentative and respiratory. Habitat: Aquatic environments. Disease: Responsible for cholera in humans, which is characterized by diarrhea and vomiting leading to dehydration. The bacteria secrete a toxin that ultimately causes an increase in cyclic AMP levels that stimulates ion transport in the cells lining the intestine. This is followed by water leaving the intestinal cells to compensate for the change in osmolarity.

Vibrio fischeri

Broader Categories: Rod shaped, gram-negative. Genome: Two circular chromosomes with 2,284,050 bp and a plasmid. The lux operon controls bioluminescence. Metabolism: Heterotrophic. Habitat: Found in marine environments in a symbiotic relationship or as free-living. It can also be parasitic and saprophytic. Often found in the Hawaiian squid, Euprymna scolopes, where the bacteria bioluminesce in the light organ. The squid protects the bacteria from predators and provides nutrients, while the bacteria’s light eliminates the squid’s shadow, protecting it from predators. Disease: Other Vibrio species can cause human infections.