CH 1 The Cell in Health and Illness

Question 1

Disease is initiated at what level?

Answer 1

The cellular level

Question 2

Organelles

Answer 2

Specialized intracellular structures that carry out specific tasks to sustain life

Question 3

Cells functions:

Answer 3

• internal processes vital for the body’s normal physiological function
• sense and respond to external environment and freely exchange materials and energy with surroundings
• ensure homeostasis

Question 4

Plasma membrane is

Answer 4

cells barrier separating extracellular and intracellular environments and protection of organelles from injury. Made of phospholipid bilayer containing proteins and cholsterol.

Question 5

Cytoplasm

Answer 5

Gel-like colloidal internal fluid environment containing ions, proteins, carbohydrates, and lipids that suspends cellular organisms inside the cell

Question 6

DNA

Answer 6

Deoxyribonucleic acid

Question 7

Nucleus

Answer 7

contains genetic material that ultimately regulates cellular activity

Question 8

Disease arises most commonly from

Answer 8

dysfunction of one or more cellular organelles, proteins, or biochemical processes

Question 9

Plasma membrane permeability

Answer 9

SEMIpermeable

• extracellular fluid, intracellular fluid, ions, and other molecules diffuse back and forth.
• core lipid region remains impermeable to water but allows lipid soluble substances like oxygen and carbon dioxide to diffuse across

Question 10

Plasma membrane proteins

Answer 10

some include ion channels for exchange with extracellular environment

Question 11

Cellular edema

Answer 11

when excess fluid enters the cells internal environment and causes swelling.
Disrupts organelle function

Question 12

Cellular dehydration

Answer 12

cellular fluid leaks out of the cell pores, causing shrinkage.
Disrupts organelle function

Question 13

Glycoproteins

Answer 13

Carbohydrates attached to plasma membrane proteins

surface markers also called antigens

Question 14

Antigens

Answer 14

glycoproteins that identify cells as a part of the body’s own tissues. Ex: blood cells have A, B, O antigens.

Question 15

Cellular ion concentration (Na+/K+)

Answer 15

Optimal cell function requites Sodium (Na+) concentration to be higher OUTSIDE the cell and potassium (K+) to be higher INSIDE the cell.

Question 16

PLasma membrane solubility to Na+/K+

Answer 16

More soluble to K+ (potassium) ions

Question 17

Active transport by Na+/K+

Answer 17

uses adenine triphosphate (ATP) to move pump sodium and potassium in opposite directions across plasma membrane.

For every three sodium out, two potassium are pumped in.

Question 18

Sodium-Potassium pump responsibilities

Answer 18

Maintaining resting potential and cell fluid volume

-in animals responsible for 1/2 of cells energy expenditure

Question 19

Na+/K+ can by pharmacologically altered

Answer 19

True. Ex: cardiac glycosides slow don pump and keep more calcium in heart muscle cells to strengthen muscle contraction

Question 20

Mitochondria

Answer 20

Cells energy producers (the powerhouse of the cell)

Question 21

Mitochondria main function

Answer 21

to convert organic nutrients into cell energy in the form of ATP

Question 22

Aerobic metabolism

Answer 22

the process, requiring oxygen, to produce energy in the form of ATP

Question 23

Cell hypoxia

Answer 23

When no oxygen is available for the cells

Question 24

Anaerobic metabolism

Answer 24

Non-oxygen metabolism, also called glycolysis, when glucose is used to create energy.

Question 25

of ATP produced by aerobic metabolism

Answer 25

34 net yield

Question 26

of ATP produced by anaerobic metabolism

Answer 26

Net energy yield of 2 ATP + pyruvic acid

Question 27

Pyruvic acid converted into what does what

Answer 27

acetyl-coenzyme A triggering the Krebs or citric acid cycle

Question 28

Krebs cycle

Answer 28

also known as the citric acid cycle, with oxygen, mitochondria produce 34 ATP

Question 29

Pyruvic acid in cellular hypoxia

Answer 29

converted to lactic acid, noxious to cells causing muscle pain

Question 30

Mitochondria are the only organelles that have their own DNA? T/F?

Answer 30

True

Question 31

Exercise stimulates formation of increased numbers of mitochondria in muscle cells, because of this:

Answer 31

the muscle uses more oxygen and yields more energy

Question 32

Geneticists use what to study maternal hereditary lineage?

Answer 32

Mitochondrial DNA

Question 33

Free radicals

Answer 33

also called reactive oxygen species that mutate mitochondrial DNA

Question 34

Lysosomes

Answer 34

small, membrane-enclosed organelles with an internal environment more acidic than the rest of the cell. Contain digestive enzymes

Question 35

Lysosome digestive enzymes

Answer 35

lysozyme, proteases, and lipases that degrade ingested foreign substances and cellular debris

Question 36

Autolysis

Answer 36

when a cell dies lysosomes release digestive enzymes to destroy cell part

Question 37

Heterolysis

Answer 37

When lysosomes are used to digest foreign matter ingested by macrophages

Question 38

Macrophages

Answer 38

major defensive defensive white blood cells, contain a large number of lysosomes

Question 39

Macrophages action and reliance

Answer 39

engulf and ingest foreign substances invading the body and rely on lysosomal enzymes to digest the material

Question 40

Lysosomal enzyme lacking causes

Answer 40

harmful accumulation of non-degraded substances like certain types of lipids

Question 41

Proteasomes and peroxisomes

Answer 41

organelles with digestive enzymes similar to lysosomes

Question 42

Proteasomes action

Answer 42

enzymatically degrade polypeptide chains and proteins

Question 43

peroxisomes actions

Answer 43

break down long-chain fatty acids and free radicals

Question 44

Adrenoleukodystrophy

Answer 44

disorder of dysfunctional peroxisomes in which long chain fatty acids accumulate in the nervous system causing deterioration eventually leading to dementia, paralysis, and death

Question 45

Cachexia

Answer 45

wasting of body mass

Question 46

Endoplasmic Reticulum

Answer 46

network of tubules in the cell that act as the transport system. Two types: smooth and rough ER

Question 47

Smooth Endoplasmic Reticulum

Answer 47

location of lipid production, including corticosteroids, oils, and phospholipids

Question 48

Rough Endoplasmic Reticulum

Answer 48

tubular network with attached ribosomes that synthesize proteins

Question 49

Diseases that suggest endoplasmic reticulum stress related pathogenesis

Answer 49

• neurodegenerative diseases
• cancer
• obesity
• athersclerosis

Question 50

Ribosomes

Answer 50

small, spherical organelles composed of ribosomal ribonucleic acid (rRNA)
-“protein factories”

Question 51

Ribosomal proteins destination

Answer 51

parts of the cell, enzymes, or exported protein secretions

Question 52

mRNA

Answer 52

messenger RNA from the nucleus acts as a blueprint for the construction of proteins

Question 53

tRNA

Answer 53

transfer RNA, plays a key role in the assembly of proteins

Question 54

During severe hypoxic states, ribosomal protein synthesis ceases. T/F?

Answer 54

True

Question 55

Golgi Apparatus

Answer 55

processes, packages, and secretes proteins and hormones

Question 56

Prehormone to prohormone

Answer 56

initial protein is manufactured in the ribosome containing a single peptide.
-It is transferred to the endoplasmic reticulum, during the transfer the single peptide is removed and it is now prohormone to be moved to Golgi apparatus to be converted to an actual hormone to be secreted by endocrine glands.

Question 57

Secretory Vesicles

Answer 57

formed by the endoplasmic reticulum-golgi apparatus system and store substances that are secreted by cells before their release. Secretory vesicles release content into extracellular space from cells periphery

Question 58

Microtubules

Answer 58

hollow filaments composed of protein subunits: tubulin. Constantly being formed, broken down, and reformed.

Question 59

Structures Microtubules Make

Answer 59

• cell division centrioles and mitotic spindle
• pathway for secretory vesicles
• movement of neurotransmitters down an axon to synapse

Question 60

Cilia

Answer 60

tubular projections containing microtubules,

Question 61

Cilia Action

Answer 61

propels substances along the outside of cells

Question 62

Microfilaments

Answer 62

solid, flexible fibers also referred to as actin filaments

Question 63

Microfilament Action

Answer 63

help change cell shape. Seen in amoeboid movements of macrophages and contraction of muscles

Question 64

Key Proteins in Muscle Contraction

Answer 64

Actin and Myosin

Question 65

Actin and myosin action in contraction

Answer 65

one end of actin filament elongates while the other end contracts

Question 66

Nucleus

Answer 66

cells mastermind, contains DNA, regulates cell structure and function

Question 67

DNA

Answer 67

double-stranded helical chain containing variable sequences of nucleotides

Question 68

Nucleotide

Answer 68

Nitrogenous bases and a phosphate bound pentose (5 carbon sugar) called deoxyribose

Question 69

Purine Bases

Answer 69

Adenine and Guanine

Question 70

Pyrimidine Bases

Answer 70

Thymine and Cytosine

Question 71

DNA molecule ladder

Answer 71

phosphate-pentose backbone,

purine -pyrimidine base pair steps

Question 72

DNA Base Pairing

Answer 72

Adenine to Thymine

Guanine to Cytosine

Question 73

Chromatin

Answer 73

in the nucleus, the DNA is folded on itself

Question 74

DNA Replication - Basic

Answer 74

DNA polymerase uncoils and splits into two separate strand templates, new pairing begins, each pair forms hydrogen bond to form along the original strand. In the end there are two identical strands

Question 75

Transcription

Answer 75

Occurs in the nucleus.
Two strands separate, one strand synthesizes RNA, RNA strand copies information from main DNA strand then leaves the nucleus

Question 76

RNA types

Answer 76

mRNA - Messenger RNA
tRNA -Transfer RNA
rRNA - Ribosomal RNA

Question 77

Base Pairs in RNA

Answer 77

Adenine to Uracil

Guanine to Cytosine

Question 78

Translation

Answer 78

happens in the ribosome

ribosomes interpret mRNA to manufacture proteins. tRNA gathers and joins the exact amino acids to creat the protein

Question 79

Codon

Answer 79

three nitrogenous bases instruction to one amino acid. Interpreted by ribosomes