Term
|
Definition
Examined cork slices through his rudimentary microscope and described "cella." |
|
|
Term
|
Definition
Produced a microscope with 300X magnification, which allowed him to visualize for the first time "animalcules." |
|
|
Term
Francesco Redi disputes Spontaneous Generation |
|
Definition
In the open jar, maggots appeared on the meat. In the covered jaw, no maggots appeared. |
|
|
Term
John Needham's experiment that disputed Redi's claim |
|
Definition
He boiled tubes of chicken broth for a few minutes, each sealed with corks. |
|
|
Term
Lazzaro Spallanzani's experiment that disputed Needham's work |
|
Definition
He boiled seeds and water in several sealed flasks for 45 minutes. Some of the flasks were left open to the air, while others were covered loosely with cork stoppers. |
|
|
Term
He put spontaneous generation to rest |
|
Definition
|
|
Term
|
Definition
Showed that a disease of silkworms was caused by a fungus |
|
|
Term
|
Definition
Demonstrated that the great Potato Blight of Ireland was caused by a water mold |
|
|
Term
|
Definition
Showed that smut and rust fungi caused cereal crop diseases |
|
|
Term
|
Definition
Provided indirect evidence that microorganisms were the causal agents of disease (Germ Theory of Disease), developed a system of antiseptic surgery designed to prevent microorganisms from entering wounds as well as methods for treating instruments and surgical dressing, his patients has fewer postoperative infections. Instructed carboxylic acid to clean instruments and even hands. |
|
|
Term
|
Definition
Demonstrated protection against cholera disease in chickens. Developed protection for anthrax. Showed that the pebrine disease of silk worms was caused by a protozoan. Proposes that germs cause infectious disease = germ theory of disease |
|
|
Term
|
Definition
Formalizes standards to identify germs causing infectious diseases; anthrax & tuberculosis. Proof of the germ theory. Development was Koch's Postulates. |
|
|
Term
Koch's laboratory developments |
|
Definition
Development of solid growth media (agar). Pure cultures made disease ID possible |
|
|
Term
Demonstration of Koch's Postulates |
|
Definition
Took healthy host and injected with microorganisms of dead animals. |
|
|
Term
|
Definition
Used a vaccination procedure to protect individuals from smallpox. This preceded the work establishing the role of microorganismal disease. |
|
|
Term
|
Definition
Discovered that incubation of cultures for long intervals between transfers caused pathogens to lose their ability to cause disease. |
|
|
Term
Pasteur & how coworkers (1885) |
|
Definition
Developed vaccines for chicken cholera, anthrax & rabies |
|
|
Term
Emil von Behring and Shibasaburo Kitasato |
|
Definition
Developed antitoxins for microbial toxins, diphtheria and tetanus. Evidence for humoral immunity. |
|
|
Term
|
Definition
Discovered bacteria-engulfing, phagocytis cells in the blood. Evidence for cellular immunity. |
|
|
Term
|
Definition
Demonstrated that alcohol fermentations and other fermentations were the result of microbial activity. Developed the process of pasteurization to preserve wine during storage. |
|
|
Term
Sergei Winogradsky & Martinus Beijerinck |
|
Definition
Studied soil microorganisms and discovered numerous intersting metabolic processes (nitogren fixation). Pioneered the use of enrichment cultures and selective media. |
|
|
Term
|
Definition
Allow us to visualize "animalcules" that are micrometers in length. |
|
|
Term
|
Definition
Can visualize objects that are nanometers in length. |
|
|
Term
Challenges of microbiology |
|
Definition
Antimicrobial resistance, emerging & re-emerging infectious diseases, bioterrorism. |
|
|
Term
|
Definition
Disease-causing microorganism |
|
|
Term
|
Definition
Uses visible light to resolve objects |
|
|
Term
|
Definition
Large wavelengths have low energy and low resolution. Light energy increases the resolution. |
|
|
Term
Phase-contrast microscopy |
|
Definition
Objective lenses list the contrast on the lens. |
|
|
Term
|
Definition
Dark background, light given off by the specimen. |
|
|
Term
|
Definition
Some specimens can absorb or emit light. Using UV light source. |
|
|
Term
Differential Interference Contrast (DIC) |
|
Definition
Two beams of light passing through a specimen. Illuminates unstained, live organisms with color and 3D detail. |
|
|
Term
|
Definition
Staining procedure illuminates structures (flagella, capsules). |
|
|
Term
|
Definition
Bacteria can be distinguished by dyes. Gram-stain, acid-fast, and endospores are examples. |
|
|
Term
|
Definition
Essential first step in bacterial ID. Bacteria are classified into one of two categories based upon their finished product to these reactions. |
|
|
Term
|
Definition
Provides detailed images of cells and cell parts. TEM & SEM. |
|
|
Term
Transmission Electron Microscope (TEM) |
|
Definition
Shows structures and organelles. |
|
|
Term
Scanning Electron Microscopy (SEM) |
|
Definition
|
|
Term
Confocal Scanning Laser Microscopy |
|
Definition
Laser illuminates 3D structure lost be traditional light microscopes. |
|
|
Term
Scanning Probe Microscopy |
|
Definition
Scanning tunneling and atomic force are two examples. Both new microscopy instruments use a probe to scan the surface of the specimen. Can achieve molecular resolution. |
|
|
Term
|
Definition
Cocci - round, helical - spiral & bacilli - rod. |
|
|
Term
|
Definition
|
|
Term
|
Definition
|
|
Term
|
Definition
Organisms that are variable in shape |
|
|
Term
The Cell Membrane of Prokaryotes |
|
Definition
AKA the inner/plasma/cytoplasmic membrane; located at the boundary of cell's internal compartment. Selectively permeable barrier. Some molecules are allowed to pass into or out of the cell. Transport systems aid in movement of molecules. Location of crucial metabolic processes. Detection of and reponses to chemicals in surroundings with the aid of special receptor molecules in the membrane. |
|
|
Term
Plasma Membrane Composition |
|
Definition
Amphipathic - lipid bilayer in which proteins float. Polar ends - interact with water, hydrophilic; nonpolar ends - insoluble to water, hydrophobic. |
|
|
Term
|
Definition
Loosely associated with the membrane and easily removed |
|
|
Term
|
Definition
Embedded within the membrane and not easily removed |
|
|
Term
Hopanoids, sterol-like molecules |
|
Definition
Eukaryotes contain sterols, like cholesterol |
|
|
Term
Plasma membrane infoldings |
|
Definition
Observed in many photosynthetic bacteria and in prokaryotes with high respiratory activity |
|
|
Term
|
Definition
Contains internal structures (nucleiod, ribosomes, and inclusion bodies). Lacks organelles bound by unit membranes. Composed largely of water. Is a mjor part of the protoplasm (the plasma membrane + everything within). |
|
|
Term
|
Definition
The nucleoid represents a subcompartment containing the DNA chromosome. Usually a closed, circular, double-stranded DNA molecule. Usually one DNA molecule per cell. Looped and coiled extensively, nucleoid proteins probably aid in folding. |
|
|
Term
|
Definition
USually small, closed circular DNA molecules. Exist and replicate independently of chromosome. Have relatively few genes present (genes on plasmids are not essential to host but may confer selective advantage). |
|
|
Term
Classification of plasmids |
|
Definition
Based on their mode of existence, spread & function |
|
|
Term
|
Definition
Complex structures consisting of protein and RNA. Prokaryotic ribosomes - 70S. Sites of protein synthesis. |
|
|
Term
|
Definition
Functions include roles in cell division, protein localization and determination of cell shape |
|
|
Term
|
Definition
Granules of organic or inorganic material that are stockpiled by the cell for future use (glycogen, poly-B-hydroxybutyrate, polyphosphate, sulfur). Some are enclosed by a single-layered membrane. |
|
|
Term
|
Definition
Aquatic bacteria use these to float on the water's surface. |
|
|
Term
|
Definition
Contain crystals of magnetite or greigite, allowing cells to respond to magnetic fields |
|
|
Term
|
Definition
Provices characteristic shape to cell, protects the cell from osmotic lysis, may also contribute to pathogenicity. |
|
|
Term
|
Definition
Can occur when cells are in hypotonic solutions. Movement of water into cell causes swelling and lysis due to osmotic pressure. |
|
|
Term
|
Definition
Lysozyme breaks the bond between N-acetylglucosamine and N-acetylmuramic acid. Penicillin inhibits peptidoglycan synthesis. |
|
|
Term
Gram-positive bacteria cell walls |
|
Definition
Cell walls composed primarily of peptidoglycan (meshlike polymer composed of identical subunits of N-acetylglucosamine and N-acetylmuramic acid and several different amino acids). Contain large amounts of teichoic acids. Some have a layer of proteins on surface of peptidoglycan. |
|
|
Term
|
Definition
Thicker periplasmic space. Thinner peptidoglycan within the periplasmic space. More enzymes in PS and coming into. Outer membrane composed of lipopolysaccharies. |
|
|
Term
|
Definition
Sites of direct contact (possibly true memrbane fusions) between plasma membrane and outer membrane. Substances may move directly into cell through these. |
|
|
Term
Lipoploysaccharides (LPS) |
|
Definition
Protection from host defenses (O antigen). Contributes to negative charge on cell surface (core polysaccharide). Helps stabilize outer membrane structure (Lipid A) to form a permeability barrier. Can act as an endotoxin (Lipid A). |
|
|
Term
Outer membrane of bacteria |
|
Definition
More permable than plasma membrane due to presence of porin proteins and transporter proteins. |
|
|
Term
|
Definition
Form channels through which small molecules can pass. |
|
|
Term
|
Definition
Less selectivity, don't diffuse as easily, more sensitive to antibiotics. |
|
|
Term
|
Definition
Stronger, more selective, LPS produces TSS, more vulnerable. |
|
|
Term
|
Definition
Layer of material laying outside of the cell wall. Usually composed of polysaccharides, well organized and not easily removed from cell. |
|
|
Term
|
Definition
Layers of material laying outside the cell wall. Similar to capsules except diffuse, unorganized and esily removed. Thinner & roped around the organism. |
|
|
Term
|
Definition
Layer of material lying outside the cell wall. Regularly structured layer of protein or glycoprotein. |
|
|
Term
|
Definition
Capsules, slime layers & S-layers |
|
|
Term
|
Definition
Protection from host defenses (phagocytosis), protection from harsh environmental conditions, attachment to surface. Protection from viral infections or predation by bacteria. Protection from chemicals in environment. Facilitate motility of gliding bacteria. Protection against osmotic lysis (S-layers). |
|
|
Term
Functions of the Cell Wall |
|
Definition
Provides characteristic shape of cell, protects the cell from osmotic lysis, may also contribute to pathogenicity. |
|
|
Term
|
Definition
Lies between the plasma membrane and cell wall. More pronounced in gram-negative bacteria. It may constitute 20-40% of the cell volume with many enzymes. |
|
|
Term
|
Definition
Enzymes secreted by bacteria through the periplasm. |
|
|
Term
|
Definition
Outer membrane lies outside the thin peptidoglycan layer. Braun's lipoproteins connect outer membrane peptidoglycan. |
|
|
Term
|
Definition
Exhibit flexing and spinning movements of axial filaments hiwch are composed of periplasmic flagella |
|
|
Term
|
Definition
Short, intermittent jerky motions using fimbriae. Occurs when cells are in contact with each other. |
|
|
Term
|
Definition
Cells coast along solid surfaces. Variety of mechanisms exists to propel cells. This is movement used mostly by stationary organisms. |
|
|
Term
|
Definition
Movement towards a chemical attractant of away from a chemical repellent. Concentrations of chemical attractants and chemical repellents detected by chemoreceptors in the surfaces of cells. |
|
|
Term
|
Definition
Formed by some bacteria, usually gram-positive. They are dormant and highly resistant to numerous environmental conditions (heat, radiation, chemicals, desiccation). |
|
|
Term
What makes an endospore so resistant? |
|
Definition
Calcium complexed with dpipcolinic acid, small acid-soluble DNA-binding proteins (SASPs), dehydrated core, spore coat, and DNA repair enzymes. |
|
|
Term
|
Definition
Also called endospore formation of sporulation. Normally commences when growth ceases because of lack of nutrients. Complex multistage process. |
|
|
Term
Steps for a dormant spore to transform to an active vegetative cell... |
|
Definition
Activation (prepare spores for germination, often results from treatments like heating), germination (spore swelling, rupture or absorption of spore coat, loss of resistance to heat and other stresses, increased metabolic activity), and outgrowth (emergence of vegetative cell). |
|
|
Term
|
Definition
Short, thin, hair-like proteinaceous appendages. Up to 1,000 per cell. Mediate attachment to surfaces. Some (type IV) required for twitching motility or gliding motility that occurs in some bacteria. |
|
|
Term
|
Definition
Similar to fimbriae except longer, thicker, and less numerous (1-10 per cell). Required for mating. |
|
|
Term
|
Definition
Conjugation pii - aid in transfer of DNA between bacteria. |
|
|
Term
|
Definition
Long appendages extending from the cell surface used for motility. Contain helical filament, a hook, and a basal body. |
|
|
Term
|
Definition
|
|
Term
|
Definition
Flagellun at end of the cell |
|
|
Term
|
Definition
One flagellum at each end of cell |
|
|
Term
|
Definition
Cluster of flagella at one or both ends |
|
|
Term
|
Definition
Flagellum spread over the entire surface of the cell |
|
|
Term
|
Definition
It rotates like a propeller -- in general, counterclockwise rotation causes forward motion (run) and clockwise rotation disrupts run and causes a tumble |
|
|
Term
|
Definition
Protozoa, fungi, parasitic worms |
|
|
Term
Eukaryotic cell structure |
|
Definition
Membrane-delimited nuclei, membrane-bound organelles that perform specific functions, more structurally complex than a prokaryotic cell, generally larger than a prokaryotic cell |
|
|
Term
|
Definition
The fluid mosaic model is based on eukaryotic membranes. Major membrane lipids include phosphoglycerides, sphingolipis, and cholesterol. Contains microdomains called lipid rafts. |
|
|
Term
|
Definition
Enriched for certain lipids and proteins. They participate in a variety of cell processes such as cell movement and transduction. |
|
|
Term
|
Definition
The many organelles of eukaryotic cells lie in the cytoplasmic matrix. |
|
|
Term
|
Definition
Vast network of interconnected filaments, within the cytoplasmic matrix (microfilaments, microtubules and intermediate filaments). |
|
|
Term
Cytoskeletal filaments role |
|
Definition
In cell shape and cell movement |
|
|
Term
|
Definition
Minute protein filaments, 4 to 7 nm in diameter. They are composed of actin protein. They are scattered within cytoplasmic matrix or organized into networks and parallel arrays. They are involved in cell motion and shape changes. |
|
|
Term
|
Definition
Shaped like thin cylinders, around 25 nm in diameter. They are composed of alpha- and beta-tubulin. They help maintain cell shape. They are involved with microfilaments in cell movements. They participate in intracellular transport processes. They are more concerned with structure and shape and transport of molecules to the nucleus. |
|
|
Term
|
Definition
Heterogenous elements on the cytoskeleton. They are around 10 nm in diameter. Their role in the cell is unclear. Studies in animals have shown that some form a nuclear lamina and others help link cells together to form tissues. |
|
|
Term
The endoplasmic reticulum |
|
Definition
Irregular network of branching and fusing membranous tubules and flattened sacs, called cisternae. Smooth or rough. They transport proteins, lipids, and other materials within the cell. It is the major site of synthesis of some proteins that it transports. It is the major site of cell membrane synthesis. |
|
|
Term
Rough endoplasmic reticulum |
|
Definition
Ribosomes are attached, and the synthesis of secreted proteins by the endoplasmic reticulum-associated ribosomes. |
|
|
Term
Smooth endoplasmic reticulum |
|
Definition
Devoid of ribosomes, and the synthesis of some proteins that it transports |
|
|
Term
|
Definition
Membranous organelle made of cisternae stacked on each other. Involved in modification, packaging, and secretion of materials. |
|
|
Term
|
Definition
|
|
Term
|
Definition
Involved in intracellular digestion. Contains hydrolases, enzymes which hydrolyze molecules and function best under slightly acidic conditions. They maintain an acidic environment by pumping protons into their interior. |
|
|
Term
|
Definition
Membrane-bound structure that houses genetic material of eukaryotic cell |
|
|
Term
|
Definition
Chromatin and nuclear envelope |
|
|
Term
|
Definition
Dense fibrous material within the nucleus. It contains DNA and it condenses to form chromosomes during cell division. |
|
|
Term
|
Definition
Double membrane structure that delimits nucleus. It is penetrated by nuclear pores. These pores allow materials to be transported into and out of nucleus. |
|
|
Term
|
Definition
Not membrane-enclosed. Important in ribosome synthesis -- it directs the synthesis and processing of rRNA, and it directs assembly of rRNA and ribosomal proteins to form ribosomes. |
|
|
Term
|
Definition
80S in size - 60S + 40S subunits
They may be attached to ER or free in cytoplasmic matrix. Proteins made on ribosomes of ER are often secreted or inserted into ER membrane as integral membrane proteins. Free ribosomes synthesize nonsecretory and nonmembrane proteins (some proteins are inserted into organelles). |
|
|
Term
|
Definition
Site of tricarboxylic acid cycle activity (TCA). Site where ATP is genreated by electron transport and oxidative phosphorylation. |
|
|
Term
|
Definition
Outer membrane, inner membrane and matrix |
|
|
Term
Mitochondrial outer membrane |
|
Definition
Contains porins similar to the outer membrane of gram-negative bacteria. |
|
|
Term
Mitochondrial inner membrane |
|
Definition
Highly folded to form cristae. The location of enzymes and electron carriers for electron and oxidative phosphorylation = energy production. |
|
|
Term
|
Definition
Contains ribosomes, mitochondrial DNA, and large calcium phosphate granules. Contains enzymes of the tricarboxylic acid cycle and enzymes involved in catabolism of fatty acids. |
|
|
Term
|
Definition
Type of plastid - pigment-containing organelles observed in plants and algae. They are the site of photosynthetic reactions. The have stroma. |
|
|
Term
|
Definition
Contains DNA, ribosomes, lipid droplets, starch granules, and thylakoids. |
|
|
Term
|
Definition
Site of light reactions (trapping of light energy to generate ATP, NADPH, and oxygen). |
|
|
Term
External eukaryotic cell covering |
|
Definition
|
|
Term
External eukayotic cell wall |
|
Definition
Rigid variable make-up with algae (cellulose and pectin), diatomes (silica) and fungi (chitin, cellulose, and glucan). |
|
|
Term
|
Definition
Relatively rigid layer of components just beneath the plasma membrane. They are common in protozoe. Tey are not as strong or rigid as cell wall. They provide characteristic shape to cell. |
|
|
Term
Cilia and Flagella in Eukaryotes |
|
Definition
Cilia are 5-20 micrometeres long and beat with two phases (working like oars). Flagella is 100-200 micrometers long and they move in an undulationg fashion. |
|
|
Term
|
Definition
|
|
Term
Molecular unity of Prokaryotes and Eukaryotes |
|
Definition
Same basic chemical composition, same genetic code and same metabolic processes. |
|
|
Term
|
Definition
Contractile, secretory, and food vacuoles exist in the cytoplasm (divided into endo- and ectoplasm). The cytoplasm is surrounded by plasmalemma. Food is captured by a cytosome, dugested, and expelled by the cytoproct. Mobile - cilia/flagella. |
|
|
Term
|
Definition
Pyrenoids synthesize and store starch; often associated with chloroplast of photosynthetic protists. Hydrogensomes release molecular H2 as a by-product of energy generation under anaerboic conditions. |
|
|
Term
|
Definition
Exist in two forms; feeding (trophozoite) and dormant (cyst) |
|
|
Term
|
Definition
Protects again environmental changes, site of nuclear reorganization and cell division, means of heat transfer, stay for long periods of time, helps prevent desiccation, more stable and resistant forms. |
|
|
Term
|
Definition
Some can reproduce in both of the folling ways; asexually (binary fission - genetic idential progeny from replicated genomic material) or sexually (sexual conjugation - genetically variable progeny). |
|
|
Term
|
Definition
Two cell body types (thallus) - Yeast (unicellular oval) and mold (multicellular filamentous hyphae). They possess nuecli and organelles. Their cell walls are made of chitin, but contain things other than cithin. |
|
|
Term
|
Definition
Absorb nutrients; mycelia increases SA (saprobes). Optimum temperature is room temp (25oC); human pathogens (mycoses) thrive at body temperature (37oC); psychrophili fungus can grow in your fridge (4oC). They are dimorphic (two phases), prefer mildly acidic conditions and live in mutualism with plants. |
|
|
Term
|
Definition
Live off of dead animals and plants; secrete enzymes that can digest the substrate. |
|
|
Term
|
Definition
Reproduces with a sporangiospore, sexually and asexually and are common molds. |
|
|
Term
|
Definition
Reproduce by an arthrospore, sexually & asexually and are yeasts, lichens, and molds. |
|
|
Term
|
Definition
Reproduce by a conidiospore, seuxally & asexually and are edible and poisonous mushrooms, smut and rust. |
|
|
Term
|
Definition
They have imperfect reproductive structures, are strictly asexual and consist of mycotic or pathogenic fungi. |
|
|
Term
|
Definition
large, oval-shaped; form bacteria-like smooth colonies on laboratory agar. They can be dimorphicl exist in oval form of hyphae form. They can reproduce sexually and asexually or asexually only by budding. Saccaromyces species most common -- baker's yeast; alcohol production. |
|
|
Term
General properties of viruses |
|
Definition
Acellular, infectious agents. Virion - complete virus particle. Consists of more than one molecule of DNA or RNA enclosed in a coat of protein. It may even have additional layers. They cannot reproduce independent of livign cells nor carry out division as prokaryotes and eukaryotes do. They do not metabolize. |
|
|
Term
|
Definition
Viruses are host-specific & tissue-specific. Those that infect bacteria only are known as bacteriophages or just phages. Those that infect animal cells are just viruses. |
|
|
Term
|
Definition
Genome is composed of DNA or RNA. Capsid is composed of protein subunits and are immunogenic. Envelope loosely overs some viruses (dervied from its host; lipids and carbohydrates), and they may have spikes (pelpomers) which may aid in the attachment of viruses to host cells. |
|
|
Term
|
Definition
It was first erroneously thought that all viruses lacked enzymes. Not known a variety of virions have enzymes (some associatd with the envelope or capsid but more are within the capsid), and these enzymes do not provide energy or participate in metabolic processes. Enzymes can be associated with the spikes on the envelope. |
|
|
Term
Steps of Bacteriophage Replication |
|
Definition
Attachment, entry/penetrtion, biosynthesis, assembly, release. |
|
|
Term
Animal Viral Entry into Cells |
|
Definition
Can occur by fusion with the membrane, endocytosis, or enveloped endocytosis. |
|
|
Term
|
Definition
DNA of virus integrates into the host genome and becomes silent. Sometimes, new properties are given to the host of the provirus |
|
|
Term
|
Definition
Can activate later and become aggressive. Sometimes they integrate in the same spot, not allowing the cell to shut down division, leading to cancer. |
|
|
Term
|
Definition
Between the lysogenic and lytic lifestyles. |
|
|
Term
The four outcomes of viral infection |
|
Definition
Acute infections ("cold" - immedaite symptoms of viru), latent infections, chronic infections (long-term), and transformation into a malignent cell (cancer). |
|
|
Term
|
Definition
Cultivating methods - chick embryos and cell cultures. Allowed for the creation of some of the first vaccines. |
|
|
Term
|
Definition
Microscopic or macroscopic degenerative changes or abnormalities in host cells and tissues (syncytia, Negri bodies). |
|
|
Term
|
Definition
Lysis of bacteria growing confluently on agar by bacteriophage. The bacteria that lyses undergoes the lytic cycle. |
|
|
Term
Detection & ID of viral cultures |
|
Definition
Cytopathic effects, plaque formation, and electron microscopy, hemagglutination assay |
|
|
Term
|
Definition
Indirect detection; hemagglutinating titer - determining relative quantities of a virus. More dilution = more virus (beucase you don't have to dilute things that don't need it). |
|
|
Term
|
Definition
Oncoviruses cause caner. Can inactivate genes responsible for suppressing tumor formation (cell cycling, DNA monitor and repair proteins); bring oncogene to healthy cell. Viruses may cause 25% of all cancers. |
|
|
Term
|
Definition
Infectious proteins. Protein only hypothesis - abnormal PrPsc converts normal PrPc of the brain. Mad Cow disease, transmisable spongiform encephalopathies (TSEs), variant Creutzfeldt-Jakob degenerative diseases (sponge-like holes in brain tissue; loss of coordination appetite, dementia). |
|
|
Term
|
Definition
Creutzfeldt-Jakob Disease (CJD) and variant Creuzfeldt-Jakob disease (vCJD), Gertsmann-Straussler-Scheinker syndrome, fatal familial insomnia, and Kuru |
|
|
Term
|
Definition
Bovine spongiform encephalopathy (BSE), Chronic wasting disease (CWD), scrapie, transmissable mink encephalopathy, feline spongiform encephalopahty, and ungulate psongiform encephalopathy. |
|
|
Term
Production of new viruses |
|
Definition
Genetic recombination, viral mutations, environment, social conditions, specie juming, increasing deforestation, agricultural practices, and increasing animal populations |
|
|
Term
|
Definition
Those required by organisms in large amounts: C O H N S P K Ca Mg and Fe. |
|
|
Term
|
Definition
Those required by organisms in minute amounts. They are often supplied in water or in media components. Mn Zn Co Mo Ni and Cu |
|
|
Term
|
Definition
1. energy production & 2. biosynthesis of macomolecules. |
|
|
Term
|
Definition
Use organic molecules as carbon sources which often also serves as energy source. |
|
|
Term
|
Definition
Use carbon dioxide as their primary or sole source of carbon and must obtain energy from other sources. |
|
|
Term
|
Definition
Carbon source is carbon dioxide, light is the energy source, and the electron source is an inorganic electron donor |
|
|
Term
|
Definition
Organic carbon is their carbon source, light is their energy source, and organic electron donors are their electron sources. |
|
|
Term
|
Definition
Carbon dioxide is their carbon source, inorganic chemicals is their energy source, and inorganic electron donors are their soruces of electrons. |
|
|
Term
|
Definition
Organic carbon is their carbon source, inorganic chemicals is their energy source and inorganic electron donors are their electrons sources. |
|
|
Term
|
Definition
Organic carbon is their carbon source, organic chemicals (often the same as their carbon source) is their eneergy source & organic electron donors (also, often the same as their carbon source) is their electron source |
|
|
Term
|
Definition
It is a component of amino acids |
|
|
Term
Requirements of Phosphorous |
|
Definition
It is a component of phospholipids and nucleic acids |
|
|
Term
|
Definition
It is found in the amino acids cysteine and methionine. |
|
|
Term
|
Definition
Organic molecules, ammonia, nitrate via assimilatory nitrate reduction, nitrogen gas via nitrogen fixation |
|
|
Term
|
Definition
Most organisms use inorganic phosphorous, which is directly incorporated into their cells. |
|
|
Term
|
Definition
Most organisms use sulfate and reduce it by assimilatory sulfate reduction |
|
|
Term
|
Definition
Organic compounds, essential cell components (of their precursors) that the cell cannot synthesize, and they must be supplied by environment if cell is to survive and reproduce |
|
|
Term
Classes of Growth factors and their use |
|
Definition
Amino acids (needed for protein synthesis), purines & pyrimidines (needed for nucleic acid (DNA) synthesis), and vitamins (function as enzyme cofactors) |
|
|
Term
Applications of Growth Factors |
|
Definition
Many microorganisms are used to manufacture vitamins needed for human use. |
|
|
Term
Uptake of Nutrients by the Cell |
|
Definition
Some nutrients enter by passive diffusion. Most enter by facilitated diffusion, active transport and group translocation. |
|
|
Term
|
Definition
Molecules move from region of higher concentration to one of lower concentration, with rate dependent on size of the concentration gradient between the cell exterior and interior. Water, oxygen and carbon dioxide often move across membranes this way. |
|
|
Term
|
Definition
Similar to passive diffusion, movement of molecules is not energy dependent. Direction of movement is from high concentration to low concentration. Size of concentration gradient impacts rate of uptake. Use of integral membrane proteins to recognize certain molecules. Differs from passive diffusion: uses carrier molecules (permeases) that transport closely realted solutes. Smaller concentration gradient is required for significant uptake of molecules. Effetively transports glycerol, sugars & amino acids. More prominent in eukaryotic cells than in prokaryotic cells. |
|
|
Term
|
Definition
|
|
Term
Passive V Facilitated Diffusion |
|
Definition
Rate of facilitated diffusion increases more rapidly and at a lower concentration; diffusion rate in facilitated diffusion reaches a plateau when carrier protein becomes saturated. |
|
|
Term
|
Definition
Energy-dependent process (ATP or proton motive force used). Moves molecules against the concentration gradient (concentrates molcules inside the cell). Involves carrier proteins (permeases) - the carrier saturation effect is observed at high solute concentrations. |
|
|
Term
|
Definition
ATP-binding cassette transporters (consumes ATP). This is observed in bacteria, archaea, and eukaryotes. |
|
|
Term
Transport using H+/Na Gradients |
|
Definition
Proton gradient powers active transport (symport/antiport) |
|
|
Term
|
Definition
Linked transport of two substances in the same direction |
|
|
Term
|
Definition
Coupled transport of two molecules in which one molecule enters the cell as the other leaves the cell. |
|
|
Term
|
Definition
Chemically modifies molecule as it is brought into the cell. Best known system is the phosphoenolpyruvate sugar phosphotransferafe (PTS) |
|
|
Term
Phosphoenolpyruvate sugar phosphotransferase (PTS) |
|
Definition
Groups translocation system that transports a variety of sugars while phosphorylating them using phosphoenolpyruvate |
|
|
Term
|
Definition
Ferric iron is very inoluble so uptake, microorganisms use siderophores to utake, siderophore complexes with ferric ion, this complex is then transported into the cell. |
|
|
Term
|
Definition
Increase in cullular consituents that may result in: increase in cell number (when microorganismss reproduce by budding or binary fission), and an increase in cell size (coenocytic microorganisms have nuclear divisions that are not accompanied by cell divisions). Microbiologists usually study population growth rather than the growth of individual cells. |
|
|
Term
|
Definition
Cell cycle is sequence of events from fermentation of new cell through the next cell division (most bacteria divide by binary fission); two pathways function during cycle (DNA replication and partition, and cytokinesis). |
|
|
Term
|
Definition
The site at which replication beings |
|
|
Term
|
Definition
Site at which replication is terminated |
|
|
Term
|
Definition
Group of proteins needed for DNA syntehsis; parent DNA spools through this as replication occurs. Multiple occur at the same time. |
|
|
Term
|
Definition
|
|
Term
|
Definition
Cytoskeletal protein; similar to eukaryotic actin. Plays a role in cell shape and movement of chromosomes to opposite cell poles. |
|
|
Term
|
Definition
Cytoskeletel protein - similar to eukaryotic tubulin. Plays a role in Z ring formation which is essential for septation. |
|
|
Term
DNA Replication in Rapidly Growing Cells |
|
Definition
Cell cycle completed in 20 minutes (40 minutes for DNA replication, 20 minutes for septum formation and cytokinesis); look at timing - how can this happen? Second, third, and fourth round of replication can begin before first round of replication is complete. |
|
|
Term
|
Definition
Observed when microorganisms are cultivated in batch culture. Culture incubated in a closed vessel with a single bath of medium. Usually plotted as logarithm of cell number versus time. Usually has four distinct phases: log, lag, stationary, and decline. |
|
|
Term
Possible Reasons for Entry into the Stationary Phase |
|
Definition
Nutrient limitation, limited oxygen availability, toxic waste accumulation, and critical population density reached. |
|
|
Term
|
Definition
Occurs within the first few hours. No hard change in numbers, organisms are still getting adjusted to the environment. They metabolize new substrates and increase slightly in size. |
|
|
Term
|
Definition
Undergoing fission. Most cells are good and alive and active. |
|
|
Term
|
Definition
Morphological changes (endospore formation), decrease in size, protoplast shrinkage, and nucleoid condensation, production of starvation proteins, long-term survival, and increased virulence. |
|
|
Term
|
Definition
Two alternative hypothesis: cells are viable but not culturale (VBNC) so they are alive but dormant. Or programmed cell death (fraction of the population genetically programmed to die (commit suicide)). |
|
|
Term
|
Definition
AKA doubling time; time required for the population to double in size. Varies depending on species of microorganism and environmental conditions. Range is from 10 minutes for some bacteria to several days for some eukaryotic microorganisms. |
|
|
Term
|
Definition
Counting chambers (easy, inexpensive, and quick), electronic counters (micrboial suspension forced through small orifice; impacts electric current the flows through orifice), and membrane filters (cells stained with fluorescent dye are filtered through special membrane that provides background for observing cells). |
|
|
Term
|
Definition
Cell plate counting (diluted sample of bacteria is spread of solid agar surface and the numbers of organisms are determined by counting the number of colonies multiplied by the dilution factors -- results are expressed as CFU's; colon forming units) |
|
|
Term
Measurements of Cell Mass |
|
Definition
Dry weight (time consuming and not very sensitive), quantity of a particular cell constituent (protein, DNA, ATP, or chlorophyll; useful if amount of substance in each cell is constant), turbidometric measures (light scattering) is a quick, easy and sensitive. |
|
|
Term
Spectrophotometric Analysis |
|
Definition
More cells = more light scattered = less light detected. Measures how much light passes through an organism and can generate a growth curve. |
|
|
Term
|
Definition
Continual provision of nutrients, and continual removal of wastes (continuous culture of microorganisms) |
|
|
Term
Continuous Culture of Microorganisms |
|
Definition
Open system growth, maintains cells in log phase at a constant biomass concentration for extended periods, achieved using a continuous culture system. |
|
|
Term
Continuous Culture System |
|
Definition
Study of microbial growth at very low nutrient concentrations, close to those present in natural environment; study of interactions of microbes under conditions resembling those in aquatic environments. |
|
|
Term
|
Definition
Rate of incoming medium = removal of medium from vessel. As essential nutrient is in limiting quantities. Natural type of environment controls the nutrient uptake. |
|
|
Term
|
Definition
Rate at which medium flows through vessel relative to vessel size. |
|
|
Term
Dilution rate and microbial growth |
|
Definition
Cell density maintained at wide range of dilution rates and chemostate operates best at low dilution rate. |
|
|
Term
|
Definition
Regulates the flow rate of media through vessel to maintain a predetermined turbidity or cell density; dilution rate varies, no limiting reagent. Operates best at high dilution rates. Certaind density can be maintained - all cells are in the same growth state. |
|
|
Term
|
Definition
Archaea (eg) - grow under harsh conditions that would kill most other organisms. |
|
|
Term
|
Definition
Amount of water available to organisms, reduced by interaction with solute molecules (osmotic effect). A higher solute concentration has a lower water acvitiy. Reduced by adsorption to surfaces (matrix effect). |
|
|
Term
|
Definition
Grow over wide ranges of water activity. Many use compatible solutes to increase their internal osmotic concentration. Solutes that are compatible with metabolism and growth. Some have proteins and membranes that require high solute concentrtions for stability and activity. |
|
|
Term
|
Definition
Grow optimally at more than 0.2 M |
|
|
Term
|
Definition
|
|
Term
|
Definition
The negative logarithm of the hydrogen ion. |
|
|
Term
|
Definition
Growth optimum between pH 0 and 5.5 |
|
|
Term
|
Definition
Growth optimum between pH 5.5 and 8 |
|
|
Term
|
Definition
Growth optimum between pH 8 and11.5 |
|
|
Term
|
Definition
Most acidophiles maintain an internal pH near neutrality. The plasma membrane is impermable to protons. Some synthesize protins that proivde protection (acid-shock proteins). Many microorganisms change pH of their habitat by producing acidic or basic waste products (most media contain buffers to prevent growth inhibition). |
|
|
Term
|
Definition
Organisms exhibit distinct cardinal growth temperatures; minimal, maximal and optimal. |
|
|
Term
Adaptation for Thermophiles |
|
Definition
Protein structure stabilized by a variety of means; heat-stable (more H bonds, more proline & chaperones). Histone-like proteins stabilize DNA, and membrane is stabilized by variety of means (more saturated, more branched and higher molecular weight lipids. |
|
|
Term
|
Definition
Oxygen can easily be reduced to toxic products (superoxide radical O2, hydrogen peroxide H2O2, and hydroxyl radical OH); aerobes produce protective enzymes (superoxide dismutase SOD and catalase) |
|
|
Term
|
Definition
Contains SOD and catalase; has an oxic zone and an anoxic zone. Dependent on atmosphere O2 for growth. |
|
|
Term
|
Definition
Contains SOD and catalase. They prefer to have O2 but can grow without it. |
|
|
Term
|
Definition
Contains SOD, not catalase. They totally ignore the presence of O2 and grows regardless. Spread evenly throughout. Capnophilic species require CO2. |
|
|
Term
|
Definition
No SOD or catalase. They cannot tolerate oxygen and will die. |
|
|
Term
|
Definition
Contains SOD and low levels of catalase.They require a lower conentration of oxygen, and they grow just below the surface. |
|
|
Term
|
Definition
Adversely affected by increased pressure, but not as severely as nontolerant organisms. |
|
|
Term
|
Definition
Require or grow more rapidly in the presence of increased pressure (400 atm of greater) |
|
|
Term
|
Definition
Ultraviolet & ionizing radiation |
|
|
Term
Ultraviolet (UV) radiation |
|
Definition
Mutations cause death and formation of thymine dimers in DNA. DNA damage can be repaired by several repair mechanisms. |
|
|
Term
|
Definition
X-rays and gamma rays. Mutations cause death and formation of thymine dimers in DNA. DNA damage can be repaired by several repair mechanisms. |
|
|
Term
|
Definition
At high intensities generates singlet oxygen which is a powerful oxigizing reagent. Also create carotenoid pgiments (protects many light-exposed microorganisms from photo-oxidation). |
|
|
Term
Microbial Grwoth in Natural Environments |
|
Definition
Microbial environments are complex, constantly changing often contain low nutrient concentrations (oligotrophic environment) and may expose a microorganism to overlapping gradients of nutrients and environmental factors. Bacteria here have to work together to survive. |
|
|
Term
Responses to Low Nutrient Levels (oligotrophic environments) |
|
Definition
Organisms become more competitive in nutrient capture and use of available resources (some can become over aggressive). Morphological changes to increases surface area and ability to absorb nutrients. Mechanisms to sequester certain nutrients (siderophores). |
|
|
Term
|
Definition
Ubiquitous in nature; complex, slime enclosed colonies attached to surfaces; when formed on medical devices, such as implants often lead to illness/death; can form on any conditioned surface. |
|
|
Term
|
Definition
Microbes reversibly attach to conditioned surface and release polysaccharides, proteins, and DNA; additional polymers are produced as biolfilm matures; interactions occur among the attached organisms; continuous replication and growth. The polysaccharides protect all bacteria in the biofilm. |
|
|
Term
Acylhomoserine lactone (AHL) |
|
Definition
An autoinducer molecule produced by many gram-negative organisms. It's concentration present allows cells to acess population density; process called quorum sensing. |
|
|
Term
|
Definition
Cell-to-cell communication. Tell each other when to grow to produce and specific nutrients to make. AHL or other signal molecules diffuse across plasma membrane. At high concentrations, it enters the cell. Once inside the cell, it induces expression of target genes that regulate a variety of functions. Potentially contributes to bioluminescence. |
|
|
Term
|
Definition
The total of all chemical reactions in the cell, divided into two parts (catabolism, anabolism). |
|
|
Term
|
Definition
Energy-conserving reactions that also generates a ready supply of electrons (reducing power) and precursos for biosynthesis. |
|
|
Term
|
Definition
The synthesis of complex organic molecules from simpler ones. |
|
|
Term
|
Definition
Synthesis of complex molecules |
|
|
Term
|
Definition
Take up nutrients, elimination of wastes, and maintenance of ion balances. |
|
|
Term
|
Definition
Cell motility and movement of structures within cells. |
|
|
Term
First Law of Thermodynamics |
|
Definition
Energy can neither be created nor destroyed and the total energy in the universe remains constant. However, energy may be redistributed either within a system or between the system and its surroundings. |
|
|
Term
Second Law of Thermodynamics |
|
Definition
Physical and chemical processes proceed in such a way that the entropy of the universe increases to the maximum possible. |
|
|
Term
|
Definition
Amount of randomness (disorder) in a system. |
|
|
Term
Free Energy and Reactions |
|
Definition
Expresses the change in energy that can occur in chemical reactions and other processes. Used to indicate if a reaction will proceed spontaneously. |
|
|
Term
|
Definition
Free energy change; amount of energy that is available to do work |
|
|
Term
|
Definition
Change in enthalpy (heat content in calories) |
|
|
Term
|
Definition
|
|
Term
Relationship between free energy and entropy |
|
Definition
A positive delta G requires energy (endergonic reaction) and is less favorable, decreases entropy.
A negative delta G proceeds on its own (exergonic reaction) and is spontaneous, increasing entropy. |
|
|
Term
|
Definition
When the rate of the forward reaction equals that of the reverse reaction. A + B > C + D |
|
|
Term
|
Definition
Equilibrium constant, expresses the equilibrium concentrations of products and reactants to one another. K(eq) = [C][D]/[A][B] |
|
|
Term
Standard Free Energy Change |
|
Definition
Delta G naut - defined at standard conditions of concentration, pressure, temperature and pH. pH at 7 |
|
|
Term
Relationship between free energy and standard free energy |
|
Definition
K(eq) > 1 - exergonic (delta G is negative) & K(eq) < 1 - endergonic (delta G is positive) |
|
|
Term
Adenosine 5'-triphosphate |
|
Definition
ATP - energy currency of the cell |
|
|
Term
Role of ATP in metabolism |
|
Definition
Exergonic breakdown of ATP is coupled with endergonic reactions to make them more favorable. |
|
|
Term
|
Definition
ADP + Pi <- chemical work, transport work, and mechanial work <- ATP <- Aerobic respiration, anaerobic respiration, fermentation, and photosynthesis <- ADP + Pi |
|
|
Term
|
Definition
The conversion of glucose to pyruvic acid; consists of active transport, group translocation, electron transfer, conversion, catabolism and anabolism. |
|
|
Term
Oxidation-Reduction Reactions and Electron Carriers |
|
Definition
Many metabolic processes involve this and they work in conjunction with one another. Acceptor + ne- <-> donor. Electron carriers are often used to transfer electrons from an electron donor to an electron acceptor. Can result in energy release, which can be conserved and used to form ATP. |
|
|
Term
Standard Reduction Potential |
|
Definition
E naut - equilibrium constant for a redox reaction. A measure of the tendency to lose electrons. More negative = better e- donoer, more positive = better e- acceptor. |
|
|
Term
|
Definition
The greater the difference between E naut of the donor and E naut of the acceptor, the more negative delta G naut. |
|
|
Term
Electron transport chains (ETC) |
|
Definition
Also known was electron transport system (ETS); electron carriers organized into ETC with the first electron carrier having the most negative E naut. As a result, the potential energy stored in the first redox couple is released and used to form ATP. |
|
|
Term
|
Definition
NAD (nicotinamide adenine dinucleotide) & NADP (nicotinamide adenine dinucleotide phosphate). FAD (flavin adenine dinucleotide) & FMN (flavin mononucleoide, riboflavin phosphate). Coenzyme Q (CoQ - a quinone, also called ubiquinone). Cytochromes (use iron - heme - to transfer electrons). Ferredoxin proteins (use iron to transport electrons). |
|
|
Term
|
Definition
Enzymes = Have great specificity for the reaction catalyzed and the moelcules acted on. They don't bind to just any enzyme. |
|
|
Term
|
Definition
Enzymes = substance that increases the rate of a reaction without being permanently altered. |
|
|
Term
|
Definition
Enzymes = reacting molecules. |
|
|
Term
|
Definition
Enzymes = subsances formed by reaction. |
|
|
Term
Structure and classification of enzymes |
|
Definition
Some enzymes are composed of one or more polypeptides. Some enzymes are composed of one or more polypeptides and nonprotein components. |
|
|
Term
|
Definition
Apoenzymes, cofactors and holoenzymes. |
|
|
Term
|
Definition
Protein component of an enzyme |
|
|
Term
|
Definition
Nonprotein component of an enzyme (prosthetic group - firmly attached, coenzyme - loosely attached). |
|
|
Term
|
Definition
|
|
Term
|
Definition
Often as as carriers, transporting substance around the cell. They can report the conditions of the cell, they bind to other molecules and bring them to the enzyme |
|
|
Term
Mechanism of Enzyme Reactions |
|
Definition
Typical exergonic reaction = A + B -> AB++ -> C + D. |
|
|
Term
|
Definition
Resembles both the substrates and the products |
|
|
Term
|
Definition
Energy required to form transition-state complex; enzyme speeds up reaction by lowering the activation energy |
|
|
Term
How enzymes lower activation energy |
|
Definition
By increasing concentrations of substrates at the active site of the enzyme; by orienting substrates properly with respect to each other in order to form the transition-state complex. |
|
|
Term
Environmental Affect on Enzyme Activity |
|
Definition
Enzyme activity is significantly impacted by substrate concentration, pH, and temperature |
|
|
Term
|
Definition
Rate increases as [substrate] increases; no fruther increase occurs after all enzyme molecules are saturated with substrate. |
|
|
Term
Effect of pH and temperature |
|
Definition
Each enzyme has specific pH and temperature optima. Denaturation can occur. They are supported well @ specific temperature and pH |
|
|
Term
|
Definition
Loss of enzyme's sutrcture and activity when temperature and pH rise too much above optima. |
|
|
Term
|
Definition
Competitive inhibitor (directly competes with biding of substrate to active site) & noncompetitive inhibitor (binds enzyme at site other than active site; changes enzyme's shape so that is becomes less active -- allosteric enzymes) |
|
|
Term
The naure & significance of metabolic regulation |
|
Definition
Conservation of energy and material and maintenance of metabolic balance despite changes in the environment. Three major mechanisms: metabolic channeling, regulation of the amount of synthesis of a particular enzyme, and post-transcriptional regulation. |
|
|
Term
|
Definition
Differential localization of enzymes and metabolites. Compartmentatio (differential distribution of enzymes and metabolites among separate cell structures and organelles). Bacteria localize around certain parts of the cell because they don't have organelles. |
|
|
Term
Control of Enzyme Activity |
|
Definition
Allosteric regulation and covalent modification |
|
|
Term
|
Definition
Noncovalent binding of allosteric effector changes activity of enzyme. Alters the shape of the active site. |
|
|
Term
|
Definition
Covalent binding of a phosphoryl, methyl, or adenyl group changes activity of enzyme |
|
|
Term
|
Definition
Also called end product inhibition; inhibition of one or more critical enzymes in a pathway regulates entire pathway. Have pacemaker enzymes. |
|
|
Term
|
Definition
Catalyzes the slowest or rate-limiting reaction in the pathway. Ensures balanced production of a pathway end product. |
|
|
Term
|
Definition
Each end product regulated its own branch of the pathway and the initial pacemaker enzymes; isoenzymes - different enzymes that catalyze the same reaction. |
|
|
Term
|
Definition
An example of a complex behavior that is regulated by altering enzyme activity; system involves a number of enzymes and other proteins that are regulated by covalent modification; a major componnt is the phosphorelay system consisting of a sensor kinase and response regulator; modulation of th activity of the phosphorelay system determines the rotational direction of the flagella and whether the cell will run or tumble. |
|
|
Term
|
Definition
Cycling of carbon is continuous and dependent upon nutrient availability, abiotic conditions, and microbial community present. |
|
|
Term
|
Definition
Bacteria are the major players in this cycle. There is a continuous reduction of nitrogen, which is an amino acid component. |
|
|
Term
|
Definition
Most phosphorous is not readily available. Most is inorganic (released in the soil to be taken up by the plants). Phosphorous is also extremely limited in the environment. |
|
|
Term
|
Definition
Each step of this cycle is mediated by molecules to break them down. This process can also occur in soil, and not just the oceans. |
|
|
Term
|
Definition
Iron is an insoluble solid. Specific mirobes mediate the redox or iron in the presence/absence of oxygen. |
|
|
Term
|
Definition
Interactions between atmosphere, oxic water and anoxic water are critical. Biomagnification - progressive accumulation of refractile compounds. This process has mainly negative effects. |
|
|
Term
General info about Aquatic Environments |
|
Definition
They vary dramatically; surface areas and volumes, as well as locations (rivers, streams, lakes and oceans - human body - water-saturated soil). They also vary in pH, temperature, etc. |
|
|
Term
Water as a Microbial Habitat - Important physical factors |
|
Definition
Dissolved oxygen content, temperature, pH, and light penetration. |
|
|
Term
|
Definition
Oxygen solubility and diffusion rates in waters are limited. Compared to soil, waters are low oxygen diffusion rate environments. In the very deep ocean, oxygen concentration varies with depth (oxygen solubility increases with decreasing temperatures and increasing atmospheric pressures). In warm environments, oxygen may become limited a few meters below the water surface. |
|
|
Term
|
Definition
Use of CO2 by autotrophic microorganisms increases the pH of many waters. Oceans are buffered between pH 7.6 and 8.2 by the carbonate equilibrium system. |
|
|
Term
Light in Marine and Aquatic Ecosystems |
|
Definition
The penetration of light into the surface water determines the depth of the photic zone. The resultant warming of the waters can lead to the development of a thermocline. |
|
|
Term
|
Definition
Photosynthetic microbes that fix approximately half the world's carbon inhabit the upper 200-300 meters of the open ocean. A constant exchange of carbon dioxide occurs at the oxygen surface (there is also limited export of carbon to the seafloor). Organic matter escapes the photic zone and falls through depths as marine snow (composed of material that is not easily degraded, much of the material in marine snow is returned to surface water in upwelling regions). |
|
|
Term
|
Definition
Describes the transfer and recycling of nutrients between trophic levels. The ocean is the richest source of viral life. |
|
|
Term
Viruses in the Marine Environment |
|
Definition
Viruses play roles in nutrient cycling; accelerate rate at which their hosts are converted to particulate organic matter (POM) and dissolved organic matter (DOM), thereby "short-circuiting" the microbial loop. |
|
|
Term
|
Definition
Semi-enclosed coastal region where a rivr meets the sea, defined by tidal mixing between fresh- and salt-water. |
|
|
Term
|
Definition
Unlike estuaries, lack freshwater input from a single river. |
|
|
Term
Marine Systems: Estuaries and Salt Marshes |
|
Definition
Many have high levels of pulltion; can result in loss of macroscopic life; can result in harmful algal blooms such as those caused by the diatom Pseudonitzchia and dinoflagellates Alexandrium and Pfiesteria. |
|
|
Term
Benthic Marine Environments |
|
Definition
The largest microbial ecosystem is under the sea. Recent studies on ocean sediments (benthos) has revealed important information on microbial communities. Previously thought to be devoid of life, we now know that total subsurface life equals that of all terrestrial marine plants. Some of the microbes are barophilic and are able to tolerate atmospheric pressures up to 1,000 atm. |
|
|
Term
|
Definition
Recent studies indicate that active microbial communities exist in glaciers and permanently frozen lakes (Microbes have been found in the East Antarctic Ice Sheet and its underlying Lake Vostok). Streams, rivers & lakes vary in their nutrient status. |
|
|
Term
|
Definition
Eutrophic VS Oligotrophic |
|
|
Term
|
Definition
Nutrient rich, have bottom sediments rich in organic matter, may be thermally stratified. |
|
|
Term
|
Definition
Nutrient poor, remain aerobic and are oxygen-saturated, low microbial population. |
|
|
Term
|
Definition
Very complex and contains a large variety of habitats (As a result, microbial diversity in soils is greater than that found in aquatic environments). The complexity of soil as a habitat has been a challenge to our understanding of soil microbial ecology. |
|
|
Term
Formation of Different soils |
|
Definition
Soil formation is the result of combined action of weathering and colonization of geologic material by microbes. Types of soil: tropical & temperate region soil, could moist soils, desert soils, geologically heated hyperthermal soils. |
|
|
Term
Soil as an environment for microorganisms |
|
Definition
Dominated by inorganic geological material (modified by organisms to form soils); pores provide optimum environment for microbial growth (microbes present in thin water films on particle surfaces where oxygen is available); rainfall and irrigation alter ideal state (mini aquatic environments, water-logged soil, and carbon dioxide & carbon monoxide as well as other gases have modified concentrations). |
|
|
Term
Microorganisms in the Soil |
|
Definition
Bacteria, archaea, fungi and protozoa use different functional strategies to take advantage of the complex physical matrix in soil (prokaryotes on surfaces within smaller soil pores, terrestrial filamentous fungi bridge open areas between soil particles or aggregates called peds); soil populations play roles in biogeochemical cycling and the carbon, nitrogen, sulfur, iron, and manganese cycles; only small portions have been cultured. |
|
|
Term
|
Definition
Differs from that operating in the photic zone of the open ocean (plants rather than microbes account for most primary production in terrestrial environments; microbes play role in recycling the organic matter); also differs because plant-or insect-released degradative enzymes do not rapidly diffuse away. |
|
|
Term
Associations with Vascular Plants |
|
Definition
Many microbes have evolved commensalism relationships with plants, the major source of terrestrial primary production (plant is neither harmed nor helped, microbe gains some advantage). Other microbe-plant interactions are mutualistic (both are benefited; some protect plant from chewing insects); in some interactions, the microbe is a plant pathogen and harms the host. |
|
|
Term
|
Definition
Mutualistic fungus-plant associations; fungus colonize plant roots; not saprophytic; instead use photosynthetically-derived carbohydrate provided by host; provide enhanced nutrient uptake for plant. Can increase a plant's competitiveness (in wet environments they increase the availability of nutrients, especially phosphorous; in arid environments they aid in water uptake); bacteria are also associated with mycorrhizal fungi; mycorrhization helper bacteria (MHB) can also be present as symbionts. |
|
|
Term
|
Definition
Production of gases and chemicals in process of woody plant decomposition |
|
|
Term
The Three Domains of Life |
|
Definition
Carl Woese and George Fox, using the nucleotide sequence of the small subunit ribosomal RNA (SSU rRNAs), determined that all living organisms belong to one of three domains: bacteria, archaea, and eukarya. |
|
|
Term
Universal Phylogenetic Tree |
|
Definition
Based on SSU rRNA sequence from the three domains of life (evolutionary relationships based on rRNA sequence comparisons). The root of the tree suggests that the three domains have a single ancestor, but Archaea and Eukarya evolved independently of the Bacteria. |
|
|
Term
Creating Phylogenetic Trees from Molecular Data |
|
Definition
Align sequences, determine the number of positions that are different, express difference (evolutionary distance), use measure of difference to create tree (organisms clustered on relatedness, parsimony analysis -- fewest changes from ancestor to organism in question). |
|
|
Term
Anagenesis (microevolution) |
|
Definition
Small, random genetic changes over generations which slowly drive either speciation or extinction, both of which are forms of macroevolution. |
|
|
Term
|
Definition
A phenomenon caused by the slow, steady pace of evolution being periodically interrupted by rapid bursts of speciation due to adrupt environmental changes. |
|
|
Term
|
Definition
Results in microbial diversity which upon selection determines the development of new species; genetic heritable changes in Archaea and Bacteria are introduced by mutation and LGT. |
|
|
Term
|
Definition
Science of biological classification, consists of three separate but interrelated parts. Classifcation (arrangement of organisms into groups), nomenclature, and ID (determination of taxon to which an isolate belongs. |
|
|
Term
|
Definition
Groups organisms together based on mutual similarity of phenotypes. Can reveal evolutionary relationships, but not dependent on phylogenetic analysis (doesn't weight attributes); best systems compare as many attributes as possible. |
|
|
Term
Phylogenetic Classification |
|
Definition
Also called phyltic classification systems; phylogeny (evolutionary development of a species); usually bsaed on direct comparison of genetic material and gene products (this approach is widely accepted, large databases exist for rRNA sequences). |
|
|
Term
|
Definition
Type strain (wild-type) is usually one of the first strains of a species studied and is often most fully characterized but not necessarily most representative member of the species. They descended from a single, pure microbial culture. |
|
|
Term
|
Definition
Well-defined group of one ore more strains; clearly separate from other genera. |
|
|
Term
|
Definition
Collection of strains that share many stable properties and differ significantly from other groups of strains; collection of organisms that share the same sequences in their core housekeeping genes. |
|
|
Term
Classical characteristics |
|
Definition
Morphological, physiological, metabolic, ecological, and genetic. |
|
|
Term
|
Definition
Nuclei acid base composition, nucleic acid hybridization, nucleic acid fingerprinting, and amino acid sequencing. |
|
|
Term
Use of DNA sequences to determine species identity |
|
Definition
Requires analysis of genes that evolve quickly than rRNA encoding genes; multilocus sequence typing (MLST) the sequencing and comparison of 5 to 7 housekeeping gnes is done to prevent misleading results from analysis of one gene introduced by lateral gene transfer. |
|
|
Term
|
Definition
Used because of multicopies of highly conserved and repetitive DNA sequences present in most gram-negaive and some gram-positive bacteria. Uses restriction enzymes (cleavage patterns are compared); repetitive sequences amplified by PCR (amplified fragments run on agarose gel with each lane of gel corresponding to one microbial isolate - the pattern of the bands analyzed by the computer & compared in restriction fragment length polymorphism (RFLP)); in some cases allows for ID to strain level. |
|
|
Term
Bergey's Manual of Systematic Bacteriology |
|
Definition
Largely phylogenetic rather than phenetic; prokaryotes are divided between two domains and 25 phyla. |
|
|
Term
|
Definition
Yields a ribonucleic acid (RNA) copy of specific genes. |
|
|
Term
|
Definition
USes informtation in mRNA to synthesize a polypeptide (also involves activities of tRNA and rRNA). |
|
|
Term
|
Definition
The nucleic acids, DNA and RNA, are polymers of nucleotidse linked together by phosphodiester bonds. RNA and DNA differ by the nitrogenous bases they contain, the sugar they contain & whether they are single or double stranded. |
|
|
Term
|
Definition
Polymer of nucleotides; contains the bases adenine, guanine, cytosine and thymine. Sugar is deoxyribose. Molecule is usually double stranded (major and minor grooces form when the 2 strands twist around each other). |
|
|
Term
Complementary Strands of DNA |
|
Definition
Base pairing (adenine which is a purine and thymine which is a pyrimidine & guanine which is a purine and cytosine which is a pyrimidine). CG and connected by three hydrogen bonds while AT are connected by two. |
|
|
Term
|
Definition
Polymer of nucleotides. Contains the bases adenine, guanine, cytosine and uracil. Sugar is ribose. Most RNA molecules are single stranded. |
|
|
Term
|
Definition
Three different types which differ rom each other in function and in structure (mRNA, tRNA and rRNA). |
|
|
Term
Organization of DNA in cells |
|
Definition
In most bacteria, DNA is a circular double helix, further twisting results in supercoiled DNA. In bacteria, the DNA is associated with basic proteins (helps to organize DNA into a coiled chromatin-like structure). |
|
|
Term
|
Definition
Complex process involving numerous proteins which help ensure accuracy, the two stranded separate each serving as a template for synthesis of a complementary strand, synthesis is semi-conservative (each daughter cell obtains one old and one new strand). Bidirectional from a single origin of replication. |
|
|
Term
|
Definition
DNA polymerase catalyzes synthesis of complementary strand of DNA. DNA synthesis is in the 5' to 2' direction resulting with the formation of a phosphodiester bond. These enzymes require a template (directs synthesis of complementary strand), primer (DNA or RNA strand), and dNTPS (deoxyribonucleotide triphosphates). |
|
|
Term
Bacterial DNA Replication |
|
Definition
Helicases, topoisomerases and DNA polymerase III are part of the replisome. The lagging strand is synthesized in short fragments called Okazaki fragments (a new primer is needed for the synthesis of each Okazaki fragment). |
|
|
Term
Completion of Lagging Strand Synthesis |
|
Definition
DNA ligase forms a phosphodiester bond between 3'-hydroxyl of the growing strands and the 5'-phosphate of an Okazaki fragment. |
|
|
Term
|
Definition
Carried out by DNA polymerase III. Removal of mismatched base from 3' end of growing strand by exonuclease activity of enzyme. The acitivty is not 100% efficient. |
|
|
Term
Termination of Replication |
|
Definition
Replication stops when replisome reaches termination site (ter) on DNA. Catenanes form when the two circular daugher chromosomes do not separate. Topoisomerases temporarily break the DNA molecules so the strands can separate. |
|
|
Term
Rolling Circle Replcation |
|
Definition
Some small circular genomes (viruses, plasmids) are replicated by this method |
|
|
Term
|
Definition
It is the basic unit of genetic information; it is also defined as the nucleic acid sequence tht codes for polypeptide, tRNA, or rRNA. It is a linear sequence of nucleotides with a fixed start point and end point. Codons are found in mRNA and code for a single amino acid. |
|
|
Term
Genes that code for Proteins |
|
Definition
Template strand directs RNA synthesis (read in the 3' to 5' direction); promoter is located at the start of the gene (is the recognition site or RNA polymerase; functions to orient polymerase); leader sequence is transcribed into mRNA but is not translated into amino acids (shine-dalgarno sequence important for initiation of translation). |
|
|
Term
|
Definition
Begins with the DNA sequences 3'-TAC-5' (produces codon AUG, codes for N-formylmethionine, a modified amino acid used to initiate protein synthesis in bacteria; coding region ends with a stop codon that is immediately folowed by the trailer sequence which contains a terminator sequence used to stop transcription). |
|
|
Term
Importance of the Reading Frame |
|
Definition
Organiztion of codons such that they can be read to give rise to a gene product. |
|
|
Term
Genes that code for tRNA and rRNA |
|
Definition
tRNA/rRNA genes have a promoter, leader, coding, spacer, and trailer regions. These regions are removed during the maturation process. |
|
|
Term
|
Definition
RNA synthesis under the direction of DNA (RNA produced has complementary sequence to the template DNA); produces three types of RNA (mRNA carries message for protein synthesis, tRNA carries amino acid during protein syntehsis and rRNA molecules are components of ribosomes). |
|
|
Term
Transcription in Bacteria |
|
Definition
Polycistronic (polygenic) mRNA often found in Bacteria and Archaea, and contain directions for more than one polypeptide. They are catayzed by a single RNA polymerase by ATP. |
|
|
Term
Bacterial RNA Polymerases |
|
Definition
In most bacteria RNA polymeases the core enzyme is composed of 5 chains and catalyzes RNA synthesis, the sigma factor has no catalytic activity but helps the core enzyme recognize the start of the genes, and the holoenzymes = core enzyme + sigma factor). Only the holoenzyme can begin transcription. |
|
|
Term
|
Definition
Initiation, elongation and termination. |
|
|
Term
|
Definition
Only a short segment of DNA is transcribed; promoter (site where RNA polymerase binds to initiate transcription; it is not itself transcribed, has specific consensus sequence before transcription starting points and it's called the -10 (Pribnow box) and -35 sites. |
|
|
Term
|
Definition
After binding, RNA polyermase unwinds the DNA. Transcription bubble forms and moves along with the polymerase as it transcribes mRNA from template strand (within the bubble a temporary RNA:DNA hybrid is formed). |
|
|
Term
Transcription Termination |
|
Definition
Occurs when core RNA polymerase dissociates from template DNA. Two types: intrinsic and rho-dependent. |
|
|
Term
|
Definition
They come to a U-rich sequence in the transcription bubble and a stem-loop forms that causes RNA polymerase to pause. This U-rich sequence can't hold the hybrid together so termination occurs. |
|
|
Term
Rho-dependent Termination |
|
Definition
Rho is there, causes another stem loop to form and termination occurs. |
|
|
Term
|
Definition
The final step is expression of protein from encoding genes. mRNA sequence is translated into amino acid sequence of polypeptide chain (process = translation). |
|
|
Term
|
Definition
Degeneracy (up to siz different codons can code for a single amino acid), sense codons (61 that specify amino acids), and stop codons (three codons used as translation termination signals - they do not code for amino acids). |
|
|
Term
|
Definition
Loose base pairing in the 1st or 2nd position of the codon. This eliminates the need for unique RNA for each codon. |
|
|
Term
|
Definition
Synthesis of polypeptide directed by sequence of nucleotides in mRNA. Direction of synthesis - N-terminal -> C-terminal. Ribosome (site of translation, polyribosomes is a complex of mRNA with several ribosomes). |
|
|
Term
tRNA and Amino Acid Activation |
|
Definition
Attachment of amino acid to tRNA. Catalyzed by aminoacyl-tRNA synthetases. There are at least 20 of these. Each is specific for a single amino acid and for all of the tRNAs to which each may be properly attached (cognate tRNAs). |
|
|
Term
|
Definition
70S ribosomes = 30S + 50S subunits |
|
|
Term
Initiation of Protein Synthesis |
|
Definition
Initiation codon aids to position ribosome properly at the 5' ends of mRNA. |
|
|
Term
Elongation of the Polypeptide Chain |
|
Definition
Elongation Cycle (sequential addition of amino acids to growing polypeptide), consists of three phases (aminoacyl-tRNA binding, transpeptidation, and translocation); involves several elongation factors (EFs). |
|
|
Term
|
Definition
Catalyzed by peptidyl transferase. |
|
|
Term
|
Definition
Three simultaneous events -- peptidyl-tRNA moves from A site to P site, ribosoe moves down one codon & empty tRNA leaves P site. |
|
|
Term
Termination of Protein Synthesis |
|
Definition
Takes place at any one of three codons (nonsense - stop - codons UAA, UAG or UGA); release factors (RFs) air in the recognition of stop codons, 3 RFs function in prokaryotes. |
|
|
Term
|
Definition
Proteins that aid in the folding of nascent polypeptides. They protect the cells from thermal damage (heat-shock proteins) and aid in the transport of proteins across membranes. |
|
|
Term
|
Definition
Removal of part of polypeptide before folding. Inteins (removed) and exteins (kept) |
|
|
Term
Bacterial Protein Secretion |
|
Definition
Gram-positive and gram-negative bacteria have different problems secreting proteins based on the differences between the structure of their walls; for both types of cells, the major pathway for transporting proteins across the membrane is the Sec-dependent pathway; other secretion pathways exist; all protein secretion systems require energy. |
|
|
Term
|
Definition
Also called the general secretion pathway; translocates proteins from cytoplasm across or into plasma membrane; secreted proteins synthesized as preproteins having amino-terminal signal peptide (signal peptide delays protein folding chaperone proteins keep pre-proteins unfolded); secA translocates preprotein though the plasma membrane; when preprotein emerges from plasma mambrane a signal peptidase removes the signal peptide. |
|
|
Term
Protein secretion in gram-negative bacteria |
|
Definition
5 pathways = Type II and V transport proteins across outer membrane that were translocated across plasma membrane by sec-dependent pathway. Type I and III pathways are sec-independent. Type IV usually functions independently of Sec. |
|
|
Term
|
Definition
Study of molecular organization of genomies, their information content, and gene products they encode. |
|
|
Term
|
Definition
Physical nature of genomes |
|
|
Term
|
Definition
|
|
Term
|
Definition
compares genomes of different organisms |
|
|
Term
|
Definition
referred to as the chain-termination dna sequencing method; uses ddNTPS; mix single strands of DNA with primer, DNA polymerase, 4 deoxynucleotides, small amount of one ddNTP - dna synthesis occurs; random insertion of ddNTP generates DNA fragments of different lengths - four reactions carried out; each with different ddNTP - fragments in each reaction mixture separated electrophoretically - gel autoradiographed and sequence read. |
|
|
Term
whole-genomic shotgun sequencing |
|
Definition
developed in 1995 by j. craig venter and hamilton smith. four stage process: (1)library construction - generates clones of portions of genome, (2) random sequencing - determines sequences of clones, (3)fragment alignment and gap closure - uses speical software to form long stretches of sequence called contigs, (4) editing |
|
|
Term
|
Definition
analysis of genomie data using computers; generates data on genomic content, structure, and arrangement; also provides data on protein structure and function; uses annotation to determine location of genes on newly sequenced genome; further examination carried out using in silico analysis |
|
|
Term
|
Definition
process that locates genes in the genome map; identifies each open reading frame (ORF) in genome (a prokaryotic reading frame is a sequence > 100 codons that is not interrupted by a stop codon; a ribosomal binding site at the 5' end is apparent and terminator sequences at the 3' end); uses databases to assign tentative function of gene (ORF's presumed to encoe proteins are called coding sequences) |
|
|
Term
|
Definition
determination of how genome works; derived from alignment of gene sequences (paralogs are two or more genes found alike in the same genomic that likely arose from gene duplication; orthologs are two or more genes very similar in different organisms that are predicted to have the same function); involves analysis of translated amino acid sequnce of presumed genes (provides understanding of protein structure and function) -- a motif if a short pattern of amino aicds that may represent a functional unit within the protein, such as the active site of an enzyme |
|
|
Term
|
Definition
the study of the proteome - the entire collection of proteins that an organism produces. provides information about genome function not available from mRNA studies. information that determines what is actually happening in the cell is referred to as functional proteomics. proteome often analyzed by 2D gel electrophoresis. |
|
|
Term
|
Definition
once the identity and function of genes in a genome have been determined, it can determin which genes are expressed at a specific tim (at the RNA-level); spotted arrays (prepared by robotic application of limited number of DNA probes to a solid support like a chip); photolithography (commercially prepared microarrays, can contain probes for every ORF in the genome of an organism) |
|
|
Term
analysis of microarray analysis |
|
Definition
based on hybridization between the probe DNA and the targets nucleic acids, mRNA, to be analyzed. targets are labels with fluorescent dyes and then incubated with the gene chip and the unbound target is washed off. the chip is scanned with laser beams to detect fluorescence which indicates that hybridization has occurred; a vast amount of data has been generated (often presented using hierarchial cluster analysis). |
|
|
Term
|
Definition
also called metagenomics. used to learn more about diversity and metabolic potential of microbial communities. takes a census of microbial populations and can determine the presence and level of classes of genes. phylotypes (taxon characterized only by its nucleic acid sequence); finding rhodopsin-like genes and nitrogenases in marine prokaryoties is an example of an exciting discovery that requires a reassessment of oceanic/nitrogen cycling. |
|
|
Term
different methods of cloning |
|
Definition
PCR, restriction enzyme digestion of DNA, gel electrophoresis, cellular transformation |
|
|
Term
|
Definition
the rapid synthesis of many copies of a specific DNA fragment from a complex mixture of DNA and other cellular components; reaction mix contains - primers, target DNA, thermostable DNA polymerase such as Taq polymerase, each of the 4 dNTPS. in the reaction, DNA is denatured, primers anneal to the target DNA, copies of the target DNA are synthesized; pieces of DNA ranging in size from 100 to several thousand bp in length can be amplified. |
|
|
Term
|
Definition
synthesizes double-stranded DNA from RNA template; used to construct complementary DNA (cDNA) |
|
|
Term
|
Definition
bind to DNA at specific sequence called the recognition site (usually 4-8 bp long); cleave DNA at this site or a defined distance from it |
|
|
Term
|
Definition
used to separate molecules based on their charge and size; agarose or acrylamide gels can be used to separate DNA fragments; DNA is acidic, it migrates from the negative to the positive end of the gel; each fragment's migration rate is inversely proportional to the log of its molecular weight. |
|
|
Term
cloning vectors & creating DNA |
|
Definition
cloning vectors are used to provide many copies of cloned DNA (via replication in a host organism); four types of cloning vectors - plasmids, phages, cosmids & artifical chromosomes. |
|
|
Term
|
Definition
plasmids are excellent cloning vectors because they replicate autonomously and are easy to purify; some are called shuttle vectors because they can move from one host to another; often have a high copy number to facilitate production of cloned gene product |
|
|
Term
cloning vectors & recombinant DNA |
|
Definition
each type of cloning vector generally has an origin of replication, a selectable marker, a unique restriction site(s) called a multi-cloning site (MCS) or polylinker |
|
|
Term
blue-white selection of recombinant plasmids |
|
Definition
the lacZ gene produces B-galactosidase which forms blue colonies. a disruption of the gene prohibits B-gal function, forming white colonies |
|
|
Term
|
Definition
cloned genes, in the new host cell, are called heterologous genes and may not be expressed unless they are modified (recombinant gene must have a promoter that host RNA polymerase recognize, introduced eukaryotic genes must be modified to have a prokaryotic leader sequence and all introns must be removed); expression vectors are used to overcome problems with expression of recombinant genes in host cells. |
|
|
Term
genomic libraries/phenotypic rescue |
|
Definition
used when gene of interest is on a chromosome that has not been sequenced; the library is constructed by cleaving the genome and then gloning the fragments into vectors; the libraries are screened for the genes of interest in a variety of ways |
|
|
Term
inserting recombinant DNA into host cells |
|
Definition
most common hosts (E. coli and S. cerevisiae); hosts are engineered to lack restriction enzymes and RecA; DNA introduction into microbes (transformation, electroporation |
|
|
Term
|
Definition
plants can be transformed using the Ti (tumor inducing) plasmid of Agrobacterium tumefaciens; the Ti plasmid has been genetically engineered to improve its utility as a cloning vector; nonessential regions, including tumor-inducing genes, have been detected; selectable marker and multi-clonning site added. |
|
|
Term
|
Definition
hunting for new microorganisms; most major sources of microbes for use in industrial microbiology have been natural materials; hunting for industrially useful microbes in nature continues because <1% of microbes have been cultured from nature. |
|
|
Term
|
Definition
must first find suitable microbes - genetically stable, easy to maintain and grow, well suited for extraction or separation of desired product |
|
|
Term
|
Definition
for many industrial processes, microorganisms must be grown using specifically designed media under carefully controlled conditions; to industrial microbiologists fermentation means the mass culture of microorganisms; requries precise control of agitation, temperature, pH changes, and oxygenation |
|
|
Term
genetic manipulation and modifications |
|
Definition
used to produce microorganisms with ne and desirable chracteristics, such as increased yield of a product; procedures include: mutation (variety of techniques used, including site-directed and mutagenesis) - deliberately making alterations in amino acid sequence of a protein in order to generate enzymes with new or improved properties. protoplast fusion - widely used with fungi, can fuse protoplasts of different species, and an inherently mutagenuc procedure. insertion of short DNA sequences, transfer of genetic information between different organisms, modification of gene expression, and natural genetic engineering. |
|
|
Term
|
Definition
one of the newest approaches for creating new metabolic capabilities in a given microorganisms. employs forced evolution and adaptive mutations (involve use of specific environmental stresses to force microbes to mutate and adapt, thus creating microbes with new biological capabilities). in vitro evolution (starts with purified nucleic acids rather than whole organisms). high-throughput screening (HTS) enables the rapid selection of a single desirable mutant or molecule from tens of thousands of new constructed tains, molecules, or compounds. |
|
|
Term
HTS (high through-put screening) |
|
Definition
enables the rapid selection of a single desirable mutant or molecule from tens of thousands of new constructed tains, molecules, or compounds. |
|
|
Term
applications of genetic engineering |
|
Definition
in medicine (many useful proteins, gene therapy) and in agriculture (use of genetic engineers allows for the direct transfer of desirable traits to agriculturally important animals and plants). |
|
|
Term
biopolymers/biosurfactants |
|
Definition
used to modify flow characteristics of liquids and to serve as getting agents. includes dextrans and other polysaccharides. used for emulsification, increasing detergency wetting and pase dispersion, and solubilization. important in bioremediation, oil spill dispersion, and enhancing oil recovery. many have antibacterial and antifungal activity; some inactivate enveloped viruses |
|
|
Term
|
Definition
ethanol is produced by microbial fermentation of crop residues that consist of cellulose hemicellulose (these two polysaccharides are polymers of five different sugars: glucose, xylose, mannose, galactose, and arabinose. |
|
|