Unit 1

Question 1

studies the form and structure of the body; microscopic or gross

Answer 1

anatomy

Question 2

examines structures, specimens examined under microscope; cytology or histology

Answer 2

microscopic anatomy

Question 3

study of cells and all of their internal structures; type of microscopic anatomy

Answer 3

cytology

Question 4

study of tissues; type of microscopic anatomy

Answer 4

histology

Question 5

investigates structures visible to the unaided eye, specimens dissected for examination; divisions include systemic, regional, comparative

Answer 5

gross anatomy (or macroscopic anatomy)

Question 6

studies the anatomy of each body; type of gross anatomy

Answer 6

systemic anatomy

Question 7

examines the structures in a body region; type of gross anatomy

Answer 7

regional anatomy

Question 8

examines anatomical similarities and differences in different species; type of gross anatomy

Answer 8

comparative anatomy

Question 9

examines how the body functions/works

Answer 9

physiology

Question 10

properties common to all organisms:

Answer 10

1. organization
2. metabolism
3. grown and development
4. responsiveness
5. regulation
6. reproduction

Question 11

all organisms exhibit complex structure and order

Answer 11

organization

Question 12

the sum of all chemical reactions found in the body (anabolic- small to large or catabolic- large to small)

Answer 12

metabolism

Question 13

organisms assimilate from the environment

Answer 13

growth and development

Question 14

ability to sense and react (foundation of homeostasis)

Answer 14

responsiveness

Question 15

“steady state”, ability to adjust

Answer 15

regulation

Question 16

produce new cells

Answer 16

reproduction

Question 17

levels of organization:

Answer 17

1. atom/molecule
2. chemical level
3. cellular level
4. tissue level
5. organ level
6. organ system
7. human

Question 18

upright stance, feet parallel and flat on the floor, upper limbs at the sides of the body, palms face anteriorly (towards the front), head is level, eyes look forward

Answer 18

anatomic position

Question 19

actual cut or slice of the body

Answer 19

section

Question 20

imaginary flat surface of the body

Answer 20

plane

Question 21

head, neck, and trunk; forms the main vertical axis of the body

Answer 21

axial region

Question 22

upper and lower limbs

Answer 22

appendicular region

Question 23

the ability of an organism to maintain consistent internal environment in response to changing internal or external conditions

Answer 23

homeostasis

Question 24

components of homeostatic system:

Answer 24

1. receptor detects stimulus
2. control center interprets (nervous system, endocrine response)
3. effector brings

Question 25

changes in a variable that is regulated (temperature, stretch in muscle)

Answer 25

stimulus

Question 26

structure that detects the stimulus (sensory neurons in the skin, stretch receptors in muscle)

Answer 26

receptor

Question 27

integrates input and initiates change through the effector (usually the brain or endocrine gland)

Answer 27

control center

Question 28

structure (muscle or gland) brings about a change of the stimulus

Answer 28

effector

Question 29

controls most processes of the body, variable fluctuates within a normal range around a set point, resting action is in the opposite direction of the stimulus
-example: temperature regulation

Answer 29

negative feedback

Question 30

occurs much less frequently, stimulus reinforced to continue moving variable in same direction until a climatic event occurs then the body returns to homeostasis
-examples: breastfeeding, blood clotting, labor

Answer 30

positive feedback

Question 31

study of the molecules that compose living organisms; carbohydrates, fats, protein, and nucleic acids

Answer 31

biochemistry

Question 32

atomic number

Answer 32

proton and neutron number

Question 33

negative charged atom located outside of the nucleus

Answer 33

electron

Question 34

positive charged atom located inside the nucleus

Answer 34

proton

Question 35

neutral atom located inside the nucleus

Answer 35

neutron

Question 36

atoms tend to lose, gain or share electrons to complete the outer shell

Answer 36

octect rule

Question 37

stable associations between two or more elements combined in a fixed ratio; ionic or molecular (covalent)

Answer 37

chemical compounds

Question 38

structures composed of ions help together in a lattice by ionic bonds; like a static shield that links them together

Answer 38

ionic compounds

Question 39

charged particle with unequal number of protons and electrons; has a negative or positive net charge due to a loss or gain of one or more elements

Answer 39

ion

Question 40

two or more atoms united by a chemical bond

Answer 40

covalent compounds

Question 41

transfer of electrons from one atom to another

Answer 41

ionization

Question 42

particle that gains electrons (net negative charge)
-examples: fluoride ion, chloride ion, hydroxide ion

Answer 42

anion

Question 43

particle that loses electrons (net positive charge)
-examples: hydrogen ion, sodium ion, potassium ion

Answer 43

cation

Question 44

substances that ionize in water and form solutions capable of conducting electric current
-important in chemic reactivity, osmotic effects, electrical excitability of nerve and muscle

Answer 44

electrolytes

Question 45

indicates number and type of atom

Answer 45

molecular formula

Question 46

indicates number and type of atom, indicates arrangement of atoms within the molecules

Answer 46

structural formula

Question 47

sharing of electrons, occurs when both atoms require electrons, occurs with atoms with 4 to 7 electrons in the outer shell, 96% of elements formed in the human body using: hydrogen, oxygen, nitrogen, carbon

Answer 47

covalent bond

Question 48

relative attraction of each atom for electrons; determines how electrons are shared in covalent bonds

Answer 48

electronegativity

Question 49

two atoms of the same element have equal attraction for electrons

Answer 49

nonpolar covalent bonds

Question 50

multiple atoms have unequal attraction for electrons

Answer 50

polar covalent bonds

Question 51

proton donor (releases H+ ions in water), releases more H+; 1-6 on scale

Answer 51

acid

Question 52

proton acceptor (accepts H+ ions), releases OH-; 8-14 on scale

Answer 52

base

Question 53

substance that causes a resistance to a change in pH

Answer 53

buffer

Question 54

potential of hydrogen

Answer 54

pH

Question 55

large organic molecules synthesized by the body; always contain carbon and hydrogen (some also have nitrogen, phosphorus, or sulfur)

Answer 55

biological macromolecules

Question 56

identical repetitive subunits

Answer 56

monomers

Question 57

joined to form small to large macromolecules

Answer 57

polymers

Question 58

single unit; glucose, galactose and fructose

Answer 58

monosaccharide (carbohydrate)

Question 59

sugar made of two monosaccharide; sucrose, lactose, and maltose

Answer 59

disaccharide (carbohydrate)

Question 60

long chains of monosaccharides (at least 50); glycogen

Answer 60

polysaccharides

Question 61

chains of 4-24 carbon atoms with carboxyl group on one end and methyl group on the other, saturated

Answer 61

fatty acid (lipid)

Question 62

three fatty acid chains and glycerol molecule; more double bonds=polyunsaturdated

Answer 62

triglyceride (lipid)

Question 63

polymer of amino acids

Answer 63

protein

Question 64

biological catalyst, proteins facilitate chemical reactions; increase rate of reaction without being consumed and reduce activation energy, highly specific

Answer 64

enzyme

Question 65

unique 3 dimensional structure in protein chain, very specific; permits only a single substrate to bind and helps catalyze only one specific reaction

Answer 65

active site

Question 66

the amount of energy needed to destabilize the bonds of a molecule, moves the reaction over an “energy hill”, helps keep substrates close to they can for a product

Answer 66

activation energy

Question 67

inhibitor and substrate “compete” for active site, overcome by increasing substrate concentration

Answer 67

competitive inhibitor

Question 68

inhibitor bind to site other than active site=allosteric site, causes enzymes to change shape, renders active site unreceptive

Answer 68

non competitive inhibitor

Question 69

surrounds cells and defines boundaries, made of proteins and lipids
-functions: protects the cell from its external environment, mediates cellular transport, transmits cellular signals

Answer 69

plasma (cell) membrane

Question 70

fluid that makes up cytoplasm, aka intracellular fluid; contains water, proteins, carbs, lipids

Answer 70

cytosol

Question 71

contains organelles, cytoskeleton, inclusions, and cytosol

Answer 71

cytoplasm

Question 72

temporarily stored chemical substances; pigments, protein crystals, glycogen, fat droplets
-2 kinds: stored products or foreign bodies

Answer 72

inclusions

Question 73

hydrophilic (water loving) head and hydrophobic (water hating) tail; contains two different regions

Answer 73

amphipathic

Question 74

inserted into membrane to provide membrane with fluidity support

Answer 74

cholesterol

Question 75

sugar protein structures embedded in membrane

Answer 75

glycolipid and glycoprotein

Question 76

inserted with membrane

Answer 76

integral proteins

Question 77

attached to internal or external regions of the membrane

Answer 77

peripheral proteins

Question 78

primary structures of the cell:

Answer 78

1. plasma membrane
2. cytoplasm
3. nucleus

Question 79

binds to chemical messengers such as hormones sent by other cells

Answer 79

receptor

Question 80

constantly open and allows solutes to pass into and out of the cell

Answer 80

channel

Question 81

gate that opens and closes to allow solutes through only at certain times

Answer 81

gated channel

Question 82

glycoprotein acting as a cell identity marker distinguishing the body’s own cells from foreign cells

Answer 82

cell identity marker

Question 83

cell adhesion molecule that binds one cell to another

Answer 83

cell adhesion molecule

Question 84

measurement of how much something changes as you move from one region to another

Answer 84

gradient

Question 85

measurement of how much the concentration of something changes as you move form one region to another (high to low)

Answer 85

concentration gradient

Question 86

net movement of a substance form an area of greater concentration to an area of lesser concentration

Answer 86

diffusion

Question 87

no energy needed as long as there is a concentration gradient (high to low); can be active or passive

Answer 87

simple diffusion

Question 88

channel needed, passive process that moves down the gradient

Answer 88

facilitated diffusion

Question 89

any liquid media

Answer 89

solvent

Question 90

stuff you dump into solvent

Answer 90

solute

Question 91

solvent and solute

Answer 91

solution

Question 92

movement of water not solute, passive movement of water through selectively permeable membrane, differences in water concentration on either side of a membrane

Answer 92

osmosis

Question 93

ability of a solution to change the volume or pressure of a cell by osmosis; isotonic, hypotonic, or hypertonic

Answer 93

tonicity

Question 94

interstitial fluid is the same concentration as cytosol; no net movement

Answer 94

isotonic solution

Question 95

interstitial fluid is less concentrated than cytosol; water enters cell (nears hemolysis)

Answer 95

hypotonic solution

Question 96

interstitial fluid is more concentrated than cytosol; water leaves the cell (undergoing crenation)

Answer 96

hypertonic solution

Question 97

movement of solute against its concentration gradient, requires energy

Answer 97

active transport

Question 98

uses energy directly from breakdown of ATP, changes proteins shape and movement across the membrane

Answer 98

primary active transport

Question 99

finger like projections that increase surface area, important in process of absorption

Answer 99

microvilli

Question 100

intermediate size, create currents and trap debris

Answer 100

cilia

Question 101

works like motorized tail, can propel cell through environment

Answer 101

flagellum

Question 102

1. structure support and organization of cell: maintains cell shape, stabilizes cell junction, organizes organelles
2. cell division: separates chromosomes during cell division, splits cell into two daughter cells
3. movement: facilitates cytoplasmic streaming, involved in the movement of vesicles within a cell, muscle contraction

Answer 102

cytoskeleton (non membrane bound)

Question 103

specialized subunits, usually within a cell that has a specific function

Answer 103

organelle

Question 104

cell organelles that enclosed within a unit membrane
-examples: endoplasmic reticulum (rough and smooth), golgi apparatus, lysosomes, peroxisomes, mitochondria,

Answer 104

membranous organelles

Question 105

type of cell organelles that lack a membrane enclosing them
-examples: ribosomes, centrosome, proteasomes, cytoskeleton,

Answer 105

nonmembranous organelles

Question 106

1. synthesis: synthesizing proteins for secretion
2. processing molecules: modifies proteins
3. organelle formation: helps form peroxisomes
4. vesicle formation: forms transport vesicles for shipping of proteins

Answer 106

rough endoplasmic reticulum (RER) (membrane bound)

Question 107

1. synthesis: site of lipid
2. processing molecules: carbohydrate metabolism
3. detoxification: detoxifies drugs, alcohol, and poisons
4. vesicle formation: forms transport vesicles for shipping

Answer 107

smooth endoplasmic reticulum (SER) (membrane bound)

Question 108

1. synthesis: forms proteoglycans
2. processing molecules: modifies and stores protein
3. organelle formation: synthesizes digestion enzymes
4. vesicle formation: forms secretory vesicles for delivering components

Answer 108

golgi apparatus (membrane bound)

Question 109

digestion: break down molecules within vesicles that enter cell by endocytosis, remove damaged organelles and cellular components and break down cellular components following cellular death

Answer 109

lysosomes (membrane bound)

Question 110

1. digestion: break down molecules with hydrogen peroxide produced during the process
2. synthesis: forms specific types of lipids

Answer 110

peroxisomes (membrane bound)

Question 111

energy harvesting: digest organic molecules to produce ATP by aerobic cellular respiration

Answer 111

mitochondria (membrane bound)

Question 112

protein synthesis:
1. bound synthesize proteins destined to be incorporated into the plasma membrane
2. free synthesize proteins for use within the cell

Answer 112

ribosomes (non membrane bound)

Question 113

1.synthesis: organize microtubules and support their growth in nondividing cells
2. cell division: direct formation of spindle fibers in dividing cells

Answer 113

centrosomes (non membrane bound)

Question 114

1. protein digestion: degrade proteins that are damaged, incorrectly folded, or no longer needed
2. quality assurance: control the quality of exported cell proteins

Answer 114

proteasomes (non membrane bound)

Question 115

membrane junction, composed of plasma membrane proteins that form strands or rows of proteins
1. seal off intercellular space and prevent substances from passing unregulated between the epithelial cells
2. prevent the mixing of membrane proteins and lipids on either side of the junction, therfore maintaining the polarity of the epithelium

Answer 115

tight junctions

Question 116

membrane junction, composed of several different proteins that bind neighboring cells
1. where protection is needed

Answer 116

desmosomes

Question 117

membrane junction, composed of integral plasma membrane proteins that form a very small fluid filled tunnel or pore that extends across a small gap between adjacent cells
1. specialized tunnels that allow for the passage of certain substances

Answer 117

gap junction

Question 118

1. cellular regulation: houses genetic material, which directs all cellular activities and regulates cellular structure
2. production: produces ribosomal subunits in nucleolus and exports them into cytoplasm for assembly into ribosomes

Answer 118

nucleus

Question 119

ribonucleic acid, copy of a gene formed from DNA in nucleus; pre mRNA is transcribed from DNA and processed to form mRNA prior to leaving the nucleus

Answer 119

transcription

Question 120

uses RNA for synthesis of protein by ribosomes in cytosol; mRNA is reading to direct tRNAs in adding amino acids and a protein molecule is formed

Answer 120

translation