BIO-215: Quiz 1
Exergonic
Reactions in which energy is released. Energy is EXITING. Reactants have more energy than the products. Catabolic - hydrolysis Reaction proceeds with a net release of free energy. Ex: respiration
What experiment disproved the theory of spontaneous generation?
Redi's rotting meat experiment. Demonstrated that worms found on the rotting meat came from eggs of flies landing on meat. Experiment: placing rotting meat in jars. One jar open, another covered with gauze, and a third sealed with a lid. Result: Worms only appeared on jar that was left open. (No eggs = no worms) Conclusion: living organisms give rise to life.
Pyruvate metabolism - 2 major routes
Respiration or fermentation
Bacillus
Rod-shaped bacterium
Describe the different shapes and arrangements of prokaryotic cells and give specific examples of each.
See below.
Electron Transport Chain (ETC)
Series of electron carrier proteins that shuttle high-energy electrons during ATP-generating reactions
Vibrio
Short, curved rod
Why is lipopolysaccharide medically significant?
Signals immune system of invasion by Gram-negative bacteria
Viroid
Simpler than viruses, consisting of only a single, short piece of RNA. Causes several plant diseases.
Archaea
Single-celled prokaryotes. Similar shapes, sizes, and appearances to bacteria. Multiply by binary fission, move primarily by means of flagella, and have rigid cell walls.
Coccus
Spherical; ex: Aerococcus urinae (causes urinary tract infections and urosepsis)
The Theory of Spontaneous Generation
States that "living organisms could spontaneously arise from non-living material." AKA - Abiogenesis
Acid fast stain
The acid-fast stain is a laboratory test that determines if a sample of tissue, blood, or other body substance is infected with the bacteria that causes tuberculosis (TB) and other illnesses.Sep 11, 2019
Reduction
The addition of electrons from another substance. (More electronegative) Ex:Cl -> Cl-
Describe a typical bacterial chromosome
The bacterial chromosome is one long, single molecule of double stranded, helical, supercoiled DNA. In most bacteria, the two ends of the double-stranded DNA covalently bond together to form both a physical and genetic circle
Kinetic energy
The energy of motion.
Intermediates
The further broken down pieces of pyruvate.
Oxidation
The loss of electrons from one substance to another. (Less electronegative) Ex: Na -> Na+
Proton motive force
The potential energy stored in the form of an electrochemical gradient, generated by the pumping of hydrogen ions across biological membranes during chemiosmosis. (ETC)
Oxidative phosphorylation
The production of ATP using energy derived from the redox reactions of an electron transport chain; the third major stage of cellular respiration. Generates the most ATP.
Biogenesis
The production of living things from other living things.
Metabolism
The totality of an organism's chemical reactions. It involves both building up (anabolism) and breaking down (catabolism) of molecules.
Bioremediation
Using microorganisms to hasten decay of pollutants. Degrade PCBs, DDT, trichloroethylene, and others. Help clean up oil spills.
Coccobacillus
Very short rod
Examples of Extrachromosomal DNA
Viral DNA are an example of extrachromosomal DNA. Understanding viral genomes is very important for understanding the evolution and mutation of the virus. Some viruses, such as HIV and oncogenetic viruses, incorporate their own DNA into the genome of the host cell.
Why are microorganisms a useful model organism for study?
We could not survive without them. Ex: nitrogen fixation, oxygen production, degradation of materials, food production, biodegradation, biotechnology, genetic engineering.
Explain how Gram-positive bacteria might appear as Gram-negative
When over-decolourized by either prolonged exposure to decolourizer or using acetone alone. When cell wall gets damaged by exposure to lysozyme or cell wall acting antibiotics such as Penicillin.
Bacteria - model organism to study
Wonderful model organism because of: -Metabolism, genetics same as higher life-forms All cells composed of same elements, synthesize structures in a similar way, replicate DNA, similar metabolic pathways.
Helminths
Worms that live at the expense of a host. Cause diseases.
Differential staining
using specific stains to distinguish different types of cell.
Gram's stain - procedure.
1. Crystal violet (primary stain) 2. Iodine (mordant) 3. Alcohol (decolorized) 4. Safranin (counterstain)
What are the 3 Domains and the major characteristics of each?
Bacteria, archaea, and eukarya. Bacteria and archaea are prokaryotes; eukarya are eukaryotes
Catabolism
Breaking down. Exergonic Ex: respiration - cells break down glucose to extract its energy.
Anabolism
Building up. Endergonic Ex: photosynthesis - plants take light energy and convert it into food.
In cellular respiration, what gets oxidized and what gets reduced?
C6H12O6 + 6O2 -> 6CO2 + 6H2O Glucose is oxidized to CO2 (loss of electrons/energy). Oxygen is reduced to H2O (gain of electrons/energy).
The major criterion used in placing bacteria into 2 different groups is based on differences in which cell structure?
Cell wall
ATP
Cell's energy shuttle. P-P-P, the third P, or terminal phosphate bond will be broken via hydrolysis to release energy. ATP derives endergonic reactions by phosphorylation (gain of phosphate group); ADP -> ATP
Streptococcus
Chain
Other names for glycolysis and Krebs cycle
Citric acid cycle: Krebs cycle. Glycolysis: The cellular degradation of the simple sugar glucose to yield pyruvic acid and ATP as an energy source.
Gram-Negative Cell Wall
Color of Gram-stain: pink Representative Genera: Escherichia, Neisseria, Pseudomonas Peptidoglycan: Thin layer Teichoic acids: Absent Outer membrane: Present Lipopolysaccharide (endotoxin): Present Porin proteins: Present; allow molecules to pass through outer membrane Sensitivity to penicillin: generally less susceptible Sensitivity to lysozyme: No
Gram-Positive Cell Wall
Color of Gram-stain: purple Representative Genera: Bacillus, Staphylococcus, Streptococcus Peptidoglycan: Thick layer Teichoic acids: Present Outer membrane:Absent Lipopolysaccharide (endotoxin): Absent Porin proteins: Absent (unnecessary because there is no outer membrane) Sensitivity to penicillin: Generally more susceptible Sensitivity to lysozyme: Yes
Viruses
Consist of nucleic package with a protein coat. To multiply, they infect living cells (hosts) and then use the machinery and nutrients of the hosts to replicate. All forms of life can be affected by these. DNA and RNA
Sarcina
Cubical packets
Rod
Cylindrical; ex: Bacillus anthracis (B. anthracis), or anthrax.
Slime layer
Diffuse, irregular
Terms used to describe bacterial morphology/groupings
Diplococcus, Streptococcus, Sarcina, Staphylococcus
Endospores
Discovered by Ferdinand Cohn. Heat-resistant form of bacteria. Were present in the hay infusions used in experiments on Spontaneous Generation.
Capsule
Distinct, gelatinous The bacterial capsule is a large structure composed of a polysaccharide layer that is outside the cell envelope. Some allow bacteria to invade host immune system
Fungi
Diverse group of eukaryotes, ranging from single-celled yeasts that can reproduce by budding to multicellular filamentous molds (hyphae).
Protozoa
Diverse group of microscopic single-celled eukaryotes that live in both aquatic and terrestrial environments. Very complex and much larger than prokaryotes. Do not have a rigid cell wall; most are motile and ingest organic material as food sources.
Algae
Diverse group of photosynthetic eukaryotes. Some single-celled, others multicellular, such as such as seaweed. Contain chloroplasts (photosynthesis).
Endospore stain
Endospores staining is the type of staining to recognize the presence spore in bacterial vegetative cells. The bacterial endospores need a staining which can penetrate wall thickness of spore bacteria. A method of endospores staining is Schaeffer Fulton method that used Malachite Green.
Endergonic
Energy is consumed or absorbed. Energy is ENTERING. The products have more energy than the reactants. Consume energy to build up polymers from monomers. Ex: dehydration synthesis These reactions store chemical energy Chemical reactions that break down large. molecules that follow catabolic pathways and are called catabolism. Ex: photosynthesis
Potential energy
Energy matter possesses because of its location or structure. (Stored energy)
Extrachromosomal DNA
Extrachromosomal DNA (abbreviated ecDNA) is any DNA that is found off the chromosomes, either inside or outside the nucleus of a cell.
Plasmids
Extrachromosomal, circular, supercoiled DNA. Usually much smaller; few to several hundred genes. May share with other bacteria; antibiotic resistance can spread this way. A genetic structure in a cell that can replicate independently of the chromosomes, typically a small circular DNA strand in the cytoplasm of a bacterium or protozoan.
Movement in bacteria
Flagella and pili
Cell wall
Found only in bacteria Determines shape of bacteria Prevents the bacteria from bursting Made from peptidoglycan Is targeted by antimicrobials
Scientists involved in investigating the idea of spontaneous generation.
Francesco Redi, Louis Pasteur, and John Tyndall
Eukarya
Fungi, algae, protozoa, and helminths. Protists - algae and protozoa
Gram-positive and Gram-negative stain coloration:
Gram+ - blue Gram- - red
Staphylococcus
Grape-like clusters
Products for ETC
H2O, 38 ATP
The structures present in the hay infusions
Heat-resist microbes (endospores)
Advantage of the smaller size of prokaryotes
High surface area relative to low cell volume and more rapid growth rates.
"Animalcule" definition and was coined by...
Microscopic animals. Coined by Antony van Leeuwenhoek.
Bacteria
Most have specific shapes, commonly cylindrical, spherical, or spiral. Multiply via binary fission. (Once cell enlarges and then divides, forming two cells each equivalent to the original)
Bacteria that lack a cell wall? Biofilm
Mycoplasma species have extremely variable shape-pleomorphic
Electron carriers example
NADH, FADH2
Writing scientific name
Names of the domains are italicized with the first letter capitalized. Genus - first name, letter is always capitalized. Species - second name, not capitalized.
The system by which organisms are named is
Nomenclature
Acellular Infectious Agents
Not composed of cells, they cannot reproduce independently, and are considered non-living. Not microorganisms.
Major groups of the microbial world
Organisms (living) and Infectious agents (non-living) Know how they branch out.
Diplococcus
Pairs
Explain why penicillin kills only actively multiplying cells, whereas lysozyme kills calls in any stage of growth.
Penicillin will kill only cells that are actively synthesizing peptidoglycan (i.e. cells that are growing) because it interferes with peptidoglycan synthesis. Lysozyme breaks the bonds that join the subunits, thereby weakening the existing structure.
Molecules (macro) found in the cell wall of all bacteria
Peptidoglycan
Pili
Pili (sing, pilus) are shorter than flagella. Types that allow surface attachment termed fimbriae. Twitching motility, gliding motility involve pili. Sex pilus used to join bacteria for DNA transfer.
Fermentation
Process by which cells release energy in the absence of oxygen.
The cell types that lack a membrane-bound nucleus
Prokaryotes
Gel-like layer outside cell wall that...
Protects or allows attachment to surface. Ex: capsule or slime layer Most composed of glycocalyx (sugar shell) although some are polypeptides. Once attached, cells can grow as biofilm. Ex: dental plaque
Unique structure seen in archaea and not prokaryotes
Proteoglycan in archaea cell wall.
Pleomorphic
Bacteria that characteristically vary in their shape.
Simple staining
the use of a single stain to color a bacterial cell
Products for Glycolysis
2 ATP, 2 pyruvates, 2 NADH
Products for Krebs Cycle/Tricarboxylic Acid
2 CO2, 3 NADH, 1 FADH2, 1 ATP, various intermediates
Chemiosmosis
A process for synthesizing ATP using the energy of an electrochemical gradient and the ATP synthase enzyme.
Peptidoglycan
A protein-carbohydrate compound that makes the cell walls of bacteria rigid.
Terminal electron acceptors - all
Aerobic - oxygen Anaerobic - nitrate Fermentation - pyruvate
Anaerobic vs. aerobic respiration
Anaerobic - no oxygen, less ATP, fermentation Aerobic - oxygen, more ATP, respiration
Describe a bacterial ribosome
Are used for protein synthesis. 30S and 50S are combined to form ribosome 70S.
Prions
Infectious proteins that cause diseases called spongiform encephalopathies(reflects the sponge-like appearance of the brain tissue). Misfolded version meets the normal cellular protein, it forces the normal protein to also misfold. Misfolded versions bind together to form thread-like structures called fibrils. They are not able to function and eventually die, forming spaces in the brain that lead to the sponge-like appearance.
Flagella
Involved in motility Bacteria sense chemicals and move accordingly. Nutrients may attract, toxins may repel. Movement is series of runs and tumbles.
Penicillin is effective against G+ or G-?
It is effective against G+ and ineffective against G-.
Central metabolic pathway that generates most of the reducing power
Krebs Cycle
Endotoxin
LPS (Lipopolysaccharide) is called this. A toxin that is present inside a bacterial cell and is released when the cell disintegrates. Found in the cell wall of Gram-negative bacteria, which can induce inflammation and fever as an immune response in higher organisms.
ATP synthase
Large protein that uses energy from H+ ions to bind ADP and a phosphate group together to produce ATP
Spirochete
Long spiral-shaped cell with a flexible cell wall and unique mechanism of motility.
Cell wall of prokaryotes
rigid structure outside the plasma membrane, made of peptidoglycan.
