Midterm Prep Flashcards

Question

What are the types of symbiotic relationships?

Answer 1

The types of symbiotic relationships are: * Mutualism (+, +) * Commensalism (+, 0) * Parasitism (+, -) * Amensalism (-, 0)

Answer 2

Breastfeeding and birth method influence the acquisition of permanent microbiota residents.

Answer 3

Microbiota can aid in digestion, protect against pathogens, and contribute to immune function.

Answer 4

Lactobacillus helps maintain an acidic environment, preventing infections.

Answer 5

Koch's postulates are a series of criteria used to establish a causative relationship between a microbe and a disease.

Answer 6

1. The microorganism must be found in abundance in all organisms suffering from the disease but should not be found in healthy organisms. 2. The microorganism must be isolated from a diseased organism and grown in pure culture. 3. The cultured microorganism should cause disease when introduced into a healthy organism. 4. The microorganism must be re-isolated from the inoculated, diseased experimental host and identified as being identical to the original specific causative agent.

Answer 7

Koch's postulates are not useful for diseases caused by multiple pathogens or in cases where the pathogen cannot be cultured.

Answer 8

The stages of the disease cycle are: * Survival outside host * Transmission * Entry * Attachment * Colonization * Tissue damage * Portal of exit

Answer 9

Types of reservoirs include: * Human (endogenous/exogenous, symptomatic/asymptomatic) * Animal (zoonoses) * Non-living * Special (Nosocomial)

Answer 10

An example of zoonoses is rabies.

Answer 11

The top 3 types of nosocomial infections are: * Urinary tract infections * Surgical site infections * Bloodstream infections

Answer 12

Communicable diseases can be transmitted between individuals, while non-communicable diseases cannot.

Answer 13

Types of transmission include: * Contact (direct and indirect) * Vehicle (water, food, aerosols) * Vectors (mechanical and biological)

Answer 14

An example of direct contact transmission is touching an infected person.

Answer 15

Examples of vehicle transmission include: * Water * Food * Aerosols

Answer 16

The types of vectors are: * Mechanical * Biological

Answer 17

Universal precautions are measures taken to prevent the transmission of infections in healthcare settings.

Answer 18

Disease pathogenicity is measured by Infectious Dose (ID50) and Lethal Dose (LD50).

Answer 19

Virulence factors include: * Contamination numbers * Attachment to host * Avoidance of phagocytosis * Extracellular enzymes * Exotoxins * Endotoxins

Answer 20

1) incubation period 2) prodromal period 3) Illness 4) Decline 5) Convalescence ## Footnote Each stage represents a different phase in the progression of a disease.

Answer 21

-itis, -emia, -osis/iasis, -oma ## Footnote These suffixes indicate inflammation, presence of blood, abnormal condition, and tumor, respectively.

Answer 22

Acute diseases occur suddenly and are severe; chronic diseases develop slowly and persist over time. ## Footnote Examples include the flu (acute) versus diabetes (chronic).

Answer 23

Local infections are restricted to one area, systemic infections affect the entire body, and focal infections start in one area but spread elsewhere. ## Footnote An example of a local infection is a skin infection, whereas systemic infections include sepsis.

Answer 24

Primary infections are the initial infections, while secondary infections occur as a result of the primary infection. ## Footnote For example, a cold (primary) can lead to a bacterial sinus infection (secondary).

Answer 25

Environmental conditions, population density, vaccination rates, and public health measures. ## Footnote Epidemiologists investigate these factors to understand disease dynamics.

Answer 26

Cause & effect is better, as it shows direct relationships. ## Footnote Correlations can suggest relationships but do not establish causation.

Answer 27

Ethical considerations, logistical challenges, and complexity of human populations. ## Footnote Some experiments may not be feasible due to ethical concerns.

Answer 28

Centers for Disease Control and Prevention (CDC) ## Footnote Other examples include the World Health Organization (WHO).

Answer 29

A disease that must be reported to government authorities. ## Footnote Examples include measles and tuberculosis; the list varies by region due to public health priorities.

Answer 30

Mortality refers to death rates, morbidity refers to illness rates, incidence is the number of new cases, and prevalence is the total number of cases at a given time. ## Footnote These metrics help public health officials assess disease burden.

Answer 31

A graphical representation of the number of cases of a disease over time. ## Footnote It helps visualize the progression and pattern of an outbreak.

Answer 32

The cell theory states that all living organisms are composed of cells, and all cells arise from pre-existing cells.

Answer 33

Prokaryotes lack a nucleus and membrane-bound organelles, while eukaryotes have both.

Answer 34

Light microscopy, electron microscopy, and fluorescence microscopy.

Answer 35

A Glycocalyx is a gelatinous polymer surrounding a cell, including capsules, slime layers, and biofilms.

Answer 36

Flagella provide motility to bacteria and can be classified by their arrangement: monotrichous, lophotrichous, amphitrichous, and peritrichous.

Answer 37

Fimbriae are hair-like structures that help bacteria adhere to surfaces.

Answer 38

Gram-positive walls have a thick peptidoglycan layer, while Gram-negative walls have a thin peptidoglycan layer and an outer membrane.

Answer 39

Lysozyme disrupts cell walls, penicillin inhibits peptidoglycan synthesis, and mutations can affect cell integrity.

Answer 40

Passive transport is the movement of molecules across a cell membrane without energy input, including diffusion, osmosis, and facilitated transport.

Answer 41

Oxygen, carbon dioxide, and water.

Answer 42

Active transport is the movement of molecules against their concentration gradient, requiring energy.

Answer 43

Sodium ions, potassium ions, and glucose.

Answer 44

Cytoplasm is composed of 70-80% water.

Answer 45

Prokaryotic cells typically have a circular chromosome and may contain extrachromosomal plasmids.

Answer 46

70s ribosomes are the type of ribosomes found in prokaryotic cells, essential for protein synthesis.

Answer 47

Inclusions are storage sites for nutrients, while granules are dense clusters of substances within the cytoplasm.

Answer 48

Endospores are resistant structures that allow bacteria to survive extreme conditions, posing challenges in sterilization.

Answer 49

Atoms are the basic units of matter, while molecules are formed by the chemical bonding of atoms.

Answer 50

Ionic bonds, covalent bonds, and hydrogen bonds.

Answer 51

Hydrophilic substances attract water, while hydrophobic substances repel water.

Answer 52

Functional groups are specific groups of atoms within molecules that determine the characteristics and chemical reactivity of the compound.

Answer 53

-OH is a hydroxyl group.

Answer 54

-COOH is a carboxyl group.

Answer 55

Carbohydrates are organic compounds made of carbon, hydrogen, and oxygen, serving as energy sources.

Answer 56

Proteins are large molecules composed of amino acids, essential for various biological functions.

Answer 57

Lipids are hydrophobic molecules, including fats, oils, and phospholipids.

Answer 58

Nucleic acids are biomolecules, such as DNA and RNA, that carry genetic information.

Answer 59

Hydrolysis is the process of breaking down polymers into monomers by adding water.

Answer 60

Dehydration synthesis is the process of forming polymers by removing water from monomers.

Answer 61

breaks down

Answer 62

• Specificity • Catalytic efficiency • Regulation • Sensitivity to environmental conditions ## Footnote Enzymes are biological catalysts that speed up chemical reactions in cells.

Answer 63

The process of accelerating a chemical reaction by adding a catalyst, which is not consumed in the reaction. ## Footnote Enzymes act as biological catalysts, facilitating reactions in living organisms.

Answer 64

• Competitive inhibition • Non-competitive inhibition • Allosteric inhibition ## Footnote Inhibition can occur through various mechanisms that prevent the enzyme from catalyzing its reaction.

Answer 65

The process in which an enzyme loses its functional shape, rendering it inactive. ## Footnote Denaturation can be caused by changes in temperature, pH, or other environmental factors.

Answer 66

The metabolic process that builds larger molecules from smaller ones, requiring energy. ## Footnote Anabolism is part of metabolism and is crucial for growth and repair.

Answer 67

The metabolic process that breaks down larger molecules into smaller ones, releasing energy. ## Footnote Catabolism provides the energy needed for anabolic reactions.

Answer 68

The amount of energy required to break a bond between two atoms. ## Footnote Bond energy is a key concept in understanding energy transfer during chemical reactions.

Answer 69

Reduction and oxidation reactions occurring simultaneously. ## Footnote Redox reactions are critical in cellular respiration and energy transfer.

Answer 70

• NAD+ • FAD ## Footnote These carriers transport electrons during metabolic reactions, playing a vital role in energy production.

Answer 71

A process of generating ATP by transferring a phosphate group directly from a substrate to ADP. ## Footnote This occurs during glycolysis and the Krebs cycle.

Answer 72

The process of ATP generation that occurs in the electron transport chain, using energy from electrons. ## Footnote This method is highly efficient and produces the majority of ATP in aerobic respiration.

Answer 73

The breakdown of glucose into pyruvate, producing a small amount of ATP and NADH. ## Footnote Glycolysis takes place in the cytoplasm of both prokaryotes and eukaryotes.

Answer 74

A series of reactions that further oxidizes pyruvate, producing ATP, NADH, FADH2, and CO2. ## Footnote The Krebs cycle occurs in the mitochondrial matrix in eukaryotes.

Answer 75

A series of proteins in the inner mitochondrial membrane that transfer electrons and pump protons to generate ATP. ## Footnote This process is the final stage of aerobic respiration.

Answer 76

The process of producing cellular energy with oxygen as the final electron acceptor. ## Footnote The overall equation is C6H12O6 + 6O2 → 6CO2 + 6H2O + ATP.

Answer 77

Oxygen (O2) ## Footnote Oxygen plays a crucial role in accepting electrons at the end of the electron transport chain.

Answer 78

The process of producing energy without oxygen, using alternative electron acceptors. ## Footnote Anaerobic respiration can yield less energy compared to aerobic respiration.

Answer 79

• NO (Nitrate) • CO (Carbon monoxide) • SO (Sulfate) • S (Sulfur) ## Footnote These acceptors vary based on the specific anaerobic organisms involved.

Answer 80

A metabolic process that converts sugars to acids, gases, or alcohol in the absence of oxygen. ## Footnote Fermentation allows for ATP production when aerobic respiration is not possible.

Answer 81

C6H12O6 → 2C2H5OH + 2CO2 + ATP ## Footnote This equation represents alcoholic fermentation, commonly utilized in brewing.

Answer 82

Organic molecules (e.g., pyruvate or acetaldehyde) ## Footnote The acceptor can vary depending on the type of fermentation.

Answer 83

The production of gases or acids as byproducts of fermentation. ## Footnote Certain microorganisms can be identified based on their fermentation profiles.

Answer 84

• Carbohydrates (hydrolysis) • Lipids (B oxidation) • Proteins (deamination) ## Footnote These substrates can be utilized for energy production when glucose is not available.

Answer 85

A prion is a misfolded protein that can induce other proteins to misfold, leading to neurodegenerative diseases.

Answer 86

Animals are multicellular, eukaryotic organisms that are heterotrophic and typically have nervous and muscular systems.

Answer 87

B) Photosynthetic

Answer 88

The cell wall provides structural support and protection, and is primarily made of cellulose.

Answer 89

Fungi commonly reproduce through spores.

Answer 90

Prokaryotic and eukaryotic.

Answer 91

An infectious particle.

Answer 92

Prokaryotic.

Answer 93

They have membrane-bound organelles.

Answer 94

Cellular pathogens (prokaryotic and eukaryotic).

Answer 95

Prokaryotic pathogens.

Answer 96

They cannot reproduce independently and require a host.

Answer 97

Prokaryotic cells do not have a nucleus, while eukaryotic cells do.

Answer 98

Escherichia coli (E. coli).

Answer 99

B) Complex organelles.

Answer 100

Eukaryotic pathogens.

Answer 101

They often have a cell wall.

Answer 102

DNA or RNA.

Answer 103

B) Larger size.

Answer 104

To provide structure and protection.

Answer 105

Both prokaryotic and eukaryotic pathogens.

Answer 106

Louis Pasteur

Answer 107

Alexander Fleming

Answer 108

Anton van Leeuwenhoek

Answer 109

The smallpox vaccine

Answer 110

A) Louis Pasteur

Answer 111

Aseptic techniques

Answer 112

Edward Jenner

Answer 113

Pure culture techniques

Answer 114

A subspecies is a taxonomic category that ranks below species, representing a population of organisms that are genetically distinct and adapted to specific environments.

Answer 115

morphological or behavioral

Answer 116

A) Canis lupus familiaris

Answer 117

Variants are typically minor genetic differences within a species that do not warrant classification as a subspecies.

Answer 118

Diffusion is the movement of particles from an area of higher concentration to an area of lower concentration.

Answer 119

transport proteins

Answer 120

B) It requires energy

Answer 121

Facilitated diffusion requires specific transport proteins, while diffusion does not.

Answer 122

Innate immunity ## Footnote Includes defenses such as skin, phagocytes, and complement systems.

Answer 123

Prevents phagocytosis ## Footnote The capsule acts as a virulence factor, aiding in evasion of the immune response.

Answer 124

Endotoxin in Gram-negatives ## Footnote Lipid A is a component of the outer membrane of Gram-negative bacteria, contributing to their pathogenicity.

Answer 125

Rabies ## Footnote Rabies virus is commonly spread through bites from infected animals.

Answer 126

IgM ## Footnote IgM is typically the first antibody to respond to an infection, indicating early immune response.

Answer 127

Prion disease ## Footnote Creutzfeldt-Jakob disease is caused by prions, which are misfolded proteins that induce abnormal folding of normal cellular proteins.

Answer 128

Plasmodium ## Footnote Plasmodium is a genus of parasitic protozoa, and several species are responsible for malaria in humans.

Answer 129

Helicobacter pylori ## Footnote Helicobacter pylori is a gram-negative bacterium that colonizes the stomach lining and is linked to the development of peptic ulcers.

Answer 130

Retrovirus ## Footnote HIV (Human Immunodeficiency Virus) is a member of the Retroviridae family, characterized by its ability to reverse transcribe RNA into DNA.

Answer 131

Coccidioidomycosis ## Footnote Coccidioidomycosis, also known as Valley fever, is caused by inhaling spores from the Coccidioides fungus.

Answer 132

Mycolic acid in Mycobacterium ## Footnote The Ziehl-Neelsen stain is specifically used to identify acid-fast bacteria, which have a waxy cell wall containing mycolic acid.

Answer 133

Gel electrophoresis ## Footnote Gel electrophoresis is a method used to separate nucleic acids or proteins based on their size and charge.

Answer 134

PCR ## Footnote PCR (Polymerase Chain Reaction) is a widely used method to make millions of copies of a specific DNA segment.

Answer 135

Precipitation, flocculation, and agglutination ## Footnote This refers to the various reactions where antigens and antibodies interact, leading to visible aggregates or precipitates.

Answer 136

Lactic acid fermentation ## Footnote This process involves the conversion of sugars into lactic acid by bacteria, which gives yogurt its characteristic flavor and texture.

Answer 137

Live attenuated ## Footnote Examples include the MMR vaccine, which protects against measles, mumps, and rubella.

Answer 138

Breaks transmission chain ## Footnote This concept is known as herd immunity, which helps protect those who are not immune.

Answer 139

Microbes digest organic matter in sewage ## Footnote This process helps in cleaning up contaminated environments by using microorganisms to break down pollutants.

Answer 140

Maximum safety laboratory ## Footnote BSL-4 labs are designed to work with high-risk pathogens like Ebola and smallpox, requiring the highest level of containment.

Answer 141

Acid-fast bacilli, respiratory disease ## Footnote Mycobacterium tuberculosis is known for causing tuberculosis, primarily affecting the lungs.

Answer 142

Growth only at the bottom where no oxygen is present ## Footnote Obligate anaerobes cannot survive in the presence of oxygen and rely on fermentation or anaerobic respiration.

Answer 143

Overgrowth after antibiotic therapy ## Footnote Clostridioides difficile can lead to antibiotic-associated diarrhea and colitis.

Answer 144

Vector-borne (Ixodes tick) ## Footnote Lyme disease is transmitted through the bite of infected Ixodes ticks.

Answer 145

Hospital-acquired ## Footnote Nosocomial infections are infections that patients acquire while receiving treatment for other conditions within a healthcare setting.

Answer 146

Smallest infectious agent, only protein ## Footnote Prions are misfolded proteins that can cause neurodegenerative diseases.

Answer 147

DNA transfer and attachment ## Footnote Pili are hair-like structures that facilitate adhesion to surfaces and genetic exchange through conjugation.

Answer 148

Differentiates based on cell wall structure ## Footnote The Gram stain is a crucial laboratory technique used to classify bacteria into Gram-positive and Gram-negative.

Answer 149

Synthesize RNA from a DNA template ## Footnote RNA polymerase is essential for transcription in cellular processes.

Answer 150

Requires oxygen for growth ## Footnote Obligate aerobes must have oxygen to survive and grow, utilizing it for cellular respiration.

Answer 151

Acid-fast bacilli, respiratory disease ## Footnote Mycobacterium tuberculosis is known for causing tuberculosis, primarily affecting the lungs.

Answer 152

Growth only at the bottom where no oxygen is present ## Footnote Obligate anaerobes cannot survive in the presence of oxygen and rely on fermentation or anaerobic respiration.

Answer 153

Overgrowth after antibiotic therapy ## Footnote Clostridioides difficile can lead to antibiotic-associated diarrhea and colitis.

Answer 154

Vector-borne (Ixodes tick) ## Footnote Lyme disease is transmitted through the bite of infected Ixodes ticks.

Answer 155

Hospital-acquired ## Footnote Nosocomial infections are infections that patients acquire while receiving treatment for other conditions within a healthcare setting.

Answer 156

Smallest infectious agent, only protein ## Footnote Prions are misfolded proteins that can cause neurodegenerative diseases.

Answer 157

DNA transfer and attachment ## Footnote Pili are hair-like structures that facilitate adhesion to surfaces and genetic exchange through conjugation.

Answer 158

Differentiates based on cell wall structure ## Footnote The Gram stain is a crucial laboratory technique used to classify bacteria into Gram-positive and Gram-negative.

Answer 159

Synthesize RNA from a DNA template ## Footnote RNA polymerase is essential for transcription in cellular processes.

Answer 160

Requires oxygen for growth ## Footnote Obligate aerobes must have oxygen to survive and grow, utilizing it for cellular respiration.

Answer 161

Prion ## Footnote Prions are misfolded proteins that can cause disease.

Answer 162

Pili ## Footnote Pili are hair-like structures that facilitate conjugation and adhesion.

Answer 163

Gram stain ## Footnote The Gram stain categorizes bacteria into Gram-positive and Gram-negative.

Answer 164

Synthesize RNA from a DNA template ## Footnote RNA polymerase is essential for transcription.

Answer 165

Obligate aerobe ## Footnote Obligate aerobes cannot survive without oxygen.

Answer 166

Transposon ## Footnote Transposons can move within and between genomes.

Answer 167

Inserting pores in membranes (MAC complex) ## Footnote The Membrane Attack Complex (MAC) disrupts the integrity of bacterial membranes.

Answer 168

Human papillomavirus (HPV) ## Footnote Certain strains of HPV are high-risk for cervical cancer.

Answer 169

1980 ## Footnote Smallpox is the first disease to be eradicated globally through vaccination.

Answer 170

Antonie van Leeuwenhoek ## Footnote He was the first to observe and describe microorganisms using a microscope.

Midterm Prep Flashcards

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