Cellular and Molecular Biology and Genetics

Question 1

Ribosomes are:

Answer 1

The sites for cellular protein sythesis in either rough ER or cytoplasm

Question 2

Activities occurring in cytosol include:

Answer 2

Ribosomal protein synthesis
Intermediary metabolism
Glycogen storage

Question 3

Why do O2 and CO2 diffuse easily through the cell membrane?

Answer 3

They’re small size allows them to move through cell membrane

Question 4

Why are glucose and H+ unable to diffuse through the cell membrane passively?

Answer 4

Glucose molecules are too large to diffuse through the membrane. H+ cannot moving against an opposing charge. Both need a transporter across the cell membrane.

Question 5

The plasma membrane is composed primarily of:

Answer 5

Amphipathic molecules hydrophobic (inner, tails) and hydrophillic (outer, heads)

Question 6

Define passive transport

Answer 6

Movement with a gradient; from high concentration to low concentration. Examples: Diffusion, Filtration, and Osmosis

Question 7

Define active transport

Answer 7

Transport requiring and energy source, often ATP. Examples: Na-K pump and Ca channel pump

Question 8

Which mode of cellular transport can move substances against the concentration gradient?

Answer 8

Active transport

Question 9

Describe facilitated diffusion

Answer 9

Diffusion that requires carrier proteins which provide a tunnel for hydrophillic molecules to move through. No energy is requires for this mode of transport.

Question 10

Hypertonic solutions affect the cell how?

Answer 10

Hypertonic describes a situation where there is a high concentration of solute outside of the cell which causes water to move out the cell.

Question 11

Hypotonic solutions affect the cell how?

Answer 11

Hypotonic describes a situation where this is a low concentration of solute outside of the cell so the water moves into the cell.

Question 12

For a cell to engage in active transport processes it requires:

Answer 12

An expenditure of energy
Appropriate fuel
ATP

Question 13

Give an example of bulk transport:

Answer 13

Endocytosis and exocytosis

Question 14

Give three examples of active transport:

Answer 14

Bulk transport
Na-K pump
Ca pump

Question 15

Hypercholesterolemia occurs due to defects in which type of cellular transport?

Answer 15

Bulk transport. Problem with endocytosis; the cell is unable to take in the cholesterol from the blood causing high levels of cholesterol in the circulating blood volume.

Question 16

What does the Nernst Equation calculate?

Answer 16

It quantifies the membrane potential by calculating the equilibrium potential for an ion based on the charge of the ion and its concentration gradient across the membrane.

Question 17

What happens when a cell reaches it’s membrane potential?

Answer 17

Voltage gated channels open and the Na+ ions move into the cell, making it more positive (depolarization)

Question 18

What happens during repolarization of a cell?

Answer 18

Na+ gates close and K+ voltage gates open causing K+ to move out of the cell making it more negative

Question 19

What happens during hyperpolarization of a cell?

Answer 19

The cell becomes too negative because the K+ channels releasing positive ions into the extracellular fluid are slow to close. Once K+ channels close the cell settles at its resting membrane potential.

Question 20

Name the three types of cellular communication.

Answer 20

1. Gap Junction (protein channels)
2. Direct Contact (plasma mem bound molecules)
3. Signaling by secreted molecules (over longer distances)

Question 21

Give some examples of ligands that bind with membrane receptors:

Answer 21

Hormones
Neurotransmitters
Infectious bacteria
Infectious virus
Antigens
Drugs
Metabolites

Question 22

Name the three major types of cell surface receptor proteins.

Answer 22

1. Ion channel linked receptors (ligand-gated channels.
2. Enzyme linked receptors
3. G-protein linked receptors

Question 23

What are the 2 major second messenger pathways activated following the binding of a G-protein?

Answer 23

cAMP and Ca

Question 24

What is normal fluid homeostasis?

Answer 24

Equilibrium between hydrostatic and osmotic pressure (Starling forces)

Question 25

Name the three main etiologies of edema.

Answer 25

1. Decreased capillary oncotic pressure (caused by decreased production of plasma protiens ie-malnutrition or cirrhosis)
2. Increased tissue oncotic pressure (leading to decreased transport of capillary filter protein causing lymph obstruction and decreased absorption of interstitial fluid)
3. Increased capillary hydrostatic pressure (seen in venous obstruction, Na+ retention, and heart failure)

Question 26

Define hydrostatic pressure.

Answer 26

Mechanical force of water pushing against the cellular membrane. (**outward push)

Question 27

Define oncotic pressure.

Answer 27

A form of osmotic pressure exerted by proteins in the blood that pulls water into the circulatory system (**inward pull)

Question 28

Describe hyponatremia, its etiology, and clinical manifestation.

Answer 28

Too little Na+ in the circulating blood (too much water/dilute). Examples of are SIADH; too much ADH causes the secretion of Na+ and the retention of water. s/s: CNS dysfunction

Question 29

Describe hypernatremia, its etiology, and clinical manifestations.

Answer 29

Too much Na+ in the blood volume (too little water/concentrated). Occurs with a gain of more salt than water or loss of more water than salt (severe dehydration). s/s: CNS dysfunction.

Question 30

Describe hypokalemia, its etiology, and clinical manifestations.

Answer 30

Low levels of K+ in the plasma. Caused by decreased K intake, shift of K+ from ECF into the cells, increased K+ (diarrhea or diuretics), increased aldosterone. Causes hyperpolarization=less excitable.. s/s: muscle weakness.

Question 31

Describe hypekalemia, its etiology, and clinical manifestations.

Answer 31

High levels of K+ in the plasma. From increased K+ intake, K+ shift from cell to ECF, decreased K excretion. Causes hypopolarization=more excitable. s/s: muscle dysfunction

Question 32

Describe hypocalcemia, its etiology, and clinical manifestations.

Answer 32

Decreased bound Ca+ in the blood d/t binding to other plasma proteins or organic ions such as citrate (anticoagulant found in blood products). s/s: muscle excitability d/t decreased threshold potential. Trousseau (BP cuff causing spasm)and Chvostek signs (facial twitch

Question 33

Describe hypercalcemia, its etiology, and clinical manifestations.

Answer 33

Increased bound Ca+ in the blood. Causes an increased in threshold potential of the cells. s/s: muscle weakness, lethargy.

Question 34

Describe hypomagnesia, its etiology, and clinical manifestations.

Answer 34

Decreased bound Mag in blood. Causes by chronic alcoholism. Often cause hypokalemia, must correct K+levels to correct Mag levels. s/s: because Mag depresses the release of acetylcholine a decrease in it will cause increased neuromuscular excitability- Trousseau and Chvostek signs.

Question 35

Describe hypermagnesia, its etiology, and clinical manifestations.

Answer 35

Increased Mag in the blood. s/s: Acetylcholine is more depressed causing depressed neuromuscular function. Lethargy

Question 36

Describe hypophosphatemia, its etiology, and clinical manifestations.

Answer 36

Decreased phosphate in the plasma. s/s: decreased body functions d/t phosphate being a major component of ATP

Question 37

Describe hyperphosphatemia, its etiology, and clinical manifestations.

Answer 37

Increased levels of phosphate in the plasma. Seen in chronic kidney disease which impedes the excretion of phophate and creates calcium phosphate salts s/s: calcium phosphate salts cause aching joints and hypocalcemia=muscle excitability.

Question 38

What are four themes of cell injury?

Answer 38

1. ATP depletion (cells swell d/t increased NaCl)
2. Free radicals and ROS
3. Increased intracellular Ca
4. Defect in the plasma membrane

Question 39

What is the difference between apoptosis and necrosis?

Answer 39

Apoptosis is organized cell death and necrosis is disorganized, unplanned cell death resulting in the release of toxins and triggers an inflammatory response.

Question 40

What is dysplasia?

Answer 40

Abnormal cells that are not pre-cancerous.

Question 41

What is metaplasia?

Answer 41

Change of cell from one type to another, normal or abnormal.

Question 42

How does DNA result in a protein?

Answer 42

DNA creates RNA via transcription and then through translation RNA creates a protein.

Question 43

Define a gene.

Answer 43

The functional and physical unit of heredity passed from part to offspring. Genes are pieces of DNA and most genes contain the info for making a specific protein.

Question 44

What is deletion?

Answer 44

Loss of a piece of DNA from a chromosome.

Question 45

What is duplication?

Answer 45

Production of one or more copies of any piece of DNA, including a gene or even an entire chromosome.

Question 46

What is insertion?

Answer 46

When a DNA sequence is inserted into a gene disrupting normal structure and function of that gene.

Question 47

What is translocation?

Answer 47

Breakage and removal of a large segment of DNA from one chromosome, followed by the segment’s attachment to a different chromosome.

Question 48

What are the four types of necrosis?

Answer 48

1. Coagulative (most common- ischemic cellular injury leading to loss of pl. mem.’s ability to maintain gradient=influx of Ca ions and mitochondrial dysfunction resulting in pl. mem degradation)
2. Liquefactive (dissolution of dead cells occurs quickly and an area of lysosomal enzymes and dissolved tissues for an abscess or cyst- may be seen in the brain d/t bacterial infection)
3. Fat (death of adipose tissues usu. d/t pancreatitis or trauma
4. Caseous (damaged lung tissue d/t tuberculosis)

Question 49

What happens in autosomal recessive inheritance?

Answer 49

Two copies of a disease allele are required for an individual to be susceptible to expressing the phenotype. Ex- Cystic fibrosis, albinism, phenylketonuria

Question 50

What is autosomal dominant inheritance?

Answer 50

Only one copy of a disease allele is necessary for an individual to be susceptible to expressing the phenotype. Ex-Marfans and Huntingtons

Question 51

What is the difference between homozygous and heterozygous chromosomes?

Answer 51

Homozygous chromosomes have two dominant or two recessive alleles. Heterozygous chromosomes have one dominant and one recessive allele (Ex- an autosomal dominant trait is expressed the same if it is homozygous or heterozygous)

Question 52

X-linked recessive inheritance:

Answer 52

Both males and females can be affected although males are typically more affected because they only carry one copy of genes found on the X chromosome. Ex-hemophilia

Question 53

Sex linked chromosome disorders include:

Answer 53

Klinefelter (extra X chromosome=more feminine males)
Turner syndrome (monosomy X=only one X chromosome resulting in a female phenotype. Webbed neck, short stature, wide chest, heart defects, lymphedema at birth, failure to dev. sec. sexual characteristics)
Multiple X Femalesand Double Y Males (extra copies of chromosomes. Females may have abnormal menstruation and males may be taller)

Question 54

Non-disjunction syndromes:

Answer 54

Occur when homologous chromosomes fail to seperate during meiosis or mitosis.
Ex- Trisomy 21, Trisomy 18(Edward syn), Trisomy 13 (Patau)

Question 55

Deletion disorders include:

Answer 55

Cri du Chat which is a deletion of part of chromosome 5 (characterized by laryngeal abnormalities=cat crying as infants)