A&P Test 1

Question 1

Anatomy

Answer 1

The scientific investigation of human structure and form

Question 2

Physiology

Answer 2

The scientific investigation of the function of living things

Question 3

Hooke

Answer 3

discovered cells by looking at cork

Question 4

Hippocrates (130 BC)

Answer 4

first to question that it wasn’t up to the gods or the stars, everything happens for a reason, began searching for answers.

Question 5

Galen (130 AD)

Answer 5

Roman physician of the gladiators, began perfuming dissections on other animals and writing manuals about what he saw. no challengers until 1500

Question 6

Vesalius (1500)

Answer 6

began doing dissection on humans, had to do them quickly because of no way to preserve body. Found that Galen’s manuals had some flaws because of difference between humans and monkeys. Some opposed vesalius and wanted to stick with Galen but he wrote manuals of his own and is known as the Father of Modern Anatomy

Question 7

Homeostasis

Answer 7

the bodies ability to return to internal stability, coined by Walter Cannon.

Question 8

Negative Feedback Loop

Answer 8

if body has over worked it becomes hot so stops working to cool down, then gets cold and works again to get hot. Body is constantly changing, e.g. heart rate. Speeds up when we run, slows down when we sleep but maintains its way around the average.

Question 9

Positive Feedback Loop

Answer 9

body continues to change in the same direction. e.g. birth control, baby pushes on vagina and makes it contract due to hormone release, this pushes baby out some, which releases more hormones and pushes the baby out more.

Question 10

3 factors of negative feedback loop

Answer 10

receptor - sense the change and signals it
integrator - control center
effector - takes directions from integrator and takes action to fix the problem.

Question 11

hydroxyl

Answer 11

(OH) found in sugars and alcohols

Question 12

methyl

Answer 12

(CH2) fats, oils, steroids, amino acids

Question 13

carboxyl

Answer 13

(COOH) amino acids, sugars, proteins

Question 14

Amino

Answer 14

(NH2) amino acids and proteins

Question 15

Phosphate

Answer 15

(H2PO4)

Question 16

Carbohydrates

Answer 16

CH2O is general formula, -sacchar is name, ends in -ose.
Polysaccharide is a long chain of glucose (monosaccharides) Cellulose and starch are two common carbs only difference is humans use starch because its easier to break down than cellulose (less bonds). Glucose is the most common, easiest for our bodies to use.

Question 17

3 monosaccharides

Answer 17

glucose, galatose, fructose (we can’t use fructose so we break it down into glucose.

Question 18

3 disaccharides

Answer 18

Sucrose (glucose + fructose), Lactose (glucose + galactose), Maltose (glucose + glucose)

Question 19

Conjugated Carbohydrate

Answer 19

essential to driving cellular function, glycolipids, glycoproteins, proteoglycans.

Question 20

glycolipids

Answer 20

more lipid than glucose, used in forming the cell membrane

Question 21

glycoproteins

Answer 21

more protein than glucose, forms the mucus that flows through our respiratory and digestive tracts and helps cleanse them

Question 22

Proteoglycans

Answer 22

gelatinous tissues, lubricating joints, and cell adhesion

Question 23

glycocalyx

Answer 23

carbs of the membrane like glycolipids and glycoproteins, function is to help the immune system recognize normal cells from diseased cells or foreign bodies or transplanted cells. It helps with cell adhesion, cushioning, protection

Question 24

glycogen

Answer 24

carb used for storing energy, when we eat we take in glucose, too much glucose for us to use so we store it in glycogen. Glycogen is produced in the liver and then stored in the liver and muscle cells. If we run out of run to store glycogen we turn it into triglycerides and store it in fat cells.

Question 25

6 types of lipids

Answer 25

fatty acids, glycerides, phospholipids, steroids, eioconsanoids, lipid soluble vitamins

Question 26

fatty acids

Answer 26

4-24 carbon and hydrogen molecules with a carboxyl end at one group and a methyl group at the other end. amount of carbon atoms determines function

Question 27

saturated

Answer 27

has all of the hydrogen molecules that it can hold

Question 28

unsaturated

Answer 28

has room for more hydrogen molecules, double bonded carbon somewhere in the chain

Question 29

glycerides

Answer 29

fatty acids bonded to a glycerol. Triglycerides are most common type, glycerol gives an (OH) and fatty acid gives an (H), called dehydration bond. Form of energy storage and insulation (Fat cells)

Question 30

phospholipids

Answer 30

fatty acid tails (hydrophobic), phosphate heads (hydrophilic), and attached to a function group. associated with the cell membrane

Question 31

eicosanoids

Answer 31

chemical communicators of the cell.

Question 32

leukotrienes

Answer 32

stimulate inflammation of the cells, results of allergies. Things get in that shouldn’t and the cells swell up. Allergy medicine stops the signal and cause the cell to reduce in swelling

Question 33

prostaglandins

Answer 33

send chemical signal of pain to the brain. If you take meds the meds are stopping the signal, not addressing the problem.

Question 34

steroids

Answer 34

cholesterols required for proper nervous system function. We make 85% of all of steroids, take in the other 15%, and reuse them, secreted and absorbed from small intestine.

Question 35

proteins

Answer 35

polymers of amino acids (Monomers) with a carboxyl group at one end and an amino group at the other, also have a R group that determines function.

Question 36

integrated proteins

Answer 36

proteins that reach through the entire membrane, help solutes flow through membrane.

Question 37

peptides

Answer 37

2 or more amino acids grouped together by “peptide bond”. dipeptide = 2, tripeptide = 3, 15 or more = polypeptide, 100 more = protein.

Question 38

protein structure

Answer 38

primary = chain of amino acids
scondary = alpha helix or beta pleated
tertiary = both alpha and beta, bonded through Rgroups.
quaternary = two separate chains of polypeptides working together.

Question 39

nonpolar

Answer 39

hydrophobic

Question 40

polar

Answer 40

hydrophilic

Question 41

amphilic

Answer 41

both non polar and polar combined

Question 42

protein functions

Answer 42

structure/support, communications, movement and transport, catalysis, recognition/protection, cell adhesion

Question 43

amino acids

Answer 43

20 total, R group signifies the function of the amino acid.

peptide bonds hold them together, very strong.

Question 44

enzymes

Answer 44

proteins that help with cell reactions, they bond to substrates at an activation site. The purpose is to change the conformation of the substrate to reduce the activation energy. Less energy needed for reaction to occur but get same products. affected by pH and Temp

Question 45

protein conformation

Answer 45

the 3D shape of a protein, very dynamic, always changing to help function. helps flow in and out.

Question 46

protein denaturization

Answer 46

change in the conformation of the protein which affects the proteins function. changing with pH and Temp, e.g. cooking an egg.

Question 47

protein denaturization

Answer 47

change in the conformation of the protein which affects the proteins function. changing with pH and Temp, e.g. cooking an egg.

Question 48

effect of temp and pH on proteins

Answer 48

bell curve, if too hot or cold it ill not work as well, if too acidic or basic it will not work as well.

Question 49

nucleic acids

Answer 49

found in DNA and RNA, made up of millions of nucleotides and ATP. DNA contains the codes for protein synthesis, sexual reproduction, and cell division.

Question 50

nucleotides

Answer 50

contain nitrogenous bases, sugars, and at least 1 phosphate group. ATP has 3 phosphate groups and releases energy by cleaving off one of its own phosphates.

Question 51

nitrogenous bases

Answer 51

adenine, cytosine, guanine, thymine, and uracil (RNA only)

Question 52

Cell Theory

Answer 52

everything is made up of cells, which are the smallest living things; all cells come from pre-existing cells.

Question 53

Schwann

Answer 53

botanist - all plants are made up of cells

Question 54

Schleiden

Answer 54

zoologist - all animals are also made up of cells

Question 55

Virchow

Answer 55

all cells come from pre-existing cells

Question 56

microvilli

Answer 56

finger like projections that increase surface area to help with absorption

Question 57

cilia

Answer 57

hairlike projections that help move mucus out of our respiratory and digestive tracts

Question 58

cystic fibrosous

Answer 58

chloride pumps fail to make enough saline to layer our tracts Without the saline the mucus gets stuck on cilia and clogs up our tracts. This makes breathing difficult and opens our body up for infections.

Question 59

plasma membrane

Answer 59

outer lipid bi-layer of the cell, responsible for cell shape and what travels into and out of the cell.

Question 60

flagella

Answer 60

help cells move, sperm are the only human cells with flagella

Question 61

cytoplasm

Answer 61

everything inside of the cell but outside of the nucleus, includes organelles and cytosol

Question 62

cytosol

Answer 62

fluid of the cytoplasm, where many of the chemical reactions occur.

Question 63

rough ER

Answer 63

has ribosomes attached to them for protein synthesis, also makes phospholipids for the cell membrane

Question 64

smooth ER

Answer 64

no ribosomes at all, lipid synthesis and detoxification

Question 65

golgi complex

Answer 65

modifies and packages proteins that are produced by RER, also synthesizes carbs. Packages proteins and carbs into vesicles and moves them around the cell for secretion or storage.

Question 66

vesicles

Answer 66

packages products for secretion or storage, moves the proteins or carbs from the golgi to where they are supposed to go.

Question 67

lysosomes

Answer 67

contain enzymes from digesting biological material. Helps breaks part of the cells down, old cells or dead cells.

Question 68

peroxisomes

Answer 68

contains enzymes for detoxification, also helps digest materials leftover from metabolism of cells.

Question 69

mitochondria

Answer 69

power house of the cell, responsible for producing ATP and providing energy to the cell for reactions

Question 70

centrioles

Answer 70

manufactures microtubules for cytoskeleton, basal bodies, cilia, and flagella

Question 71

cytoskeleton

Answer 71

protein filaments that are responsible for cell shape, structure, organizing organelles, and moving organelles

Question 72

nucleus

Answer 72

brain of the cell, contains all of the DNA to tell the cell what to do

Question 73

nuclear membrane

Answer 73

bilayer that controls what comes in and goes out of the nucleus

Question 74

nuclear pores

Answer 74

protein rings that are integral, reach through both sides of the membrane to allow things to come in and go out.

Question 75

nucleolus

Answer 75

produces ribosomes

Question 76

chromatin

Answer 76

loosely packed DNA floating around the nucleus.

Question 77

cytoskeleton

Answer 77

contains microfilaments, microtubules, and intermediate filaments

Question 78

microfilaments

Answer 78

actin forms a network on the cytoplasm side of the membrane, helps with supporting microvili, phospholipids, cell movement and with myosin causes muscle contractions

Question 79

microtubules

Answer 79

bundle of 13 parallel strands called protofilaments, hold everything in place and help with organelle movment

Question 80

intermediate filaments

Answer 80

holds the skin together, reduces stress on the cells

Question 81

Membrane trasnport

Answer 81

active and passive, passive is down conc. gradient from high to low. active is up gradient and requires energy from the cell to occur.

Question 82

filtration

Answer 82

(kidneys) movement of articles through selectively permeable membrane due to hydrostatic pressure

Question 83

facilitated diffusion

Answer 83

movement of particles down the conc gradient through a protein that changes its shape to allow movement, no energy is needed.

Question 84

active transport

Answer 84

solute binds to the carrier at the receptor site. ATP is needed to change the shape of the carrier so it can fit through the protein and enter the cell. ATP is needed to change the shape of the protein and so the solute can move up the conc gradient from low to high.

Question 85

uniporter

Answer 85

carries 1 solute into the cell

Question 86

symporter

Answer 86

carries 2 solutes into the cell

Question 87

antiporter

Answer 87

carriers 2 or more solutes into the cell but in different directions

Question 88

receptor mediated cytosis

Answer 88

only specific chemicals can bind to the receptor sites, once all of the receptor sites are full then the chemicals are packed into a vesicle and brought into the cell.

Question 89

transcytosis

Answer 89

uses receptor mediated cytosine to move things into the cell and exocytosis to move them out of the cell at the same time.

Question 90

endocytosis

Answer 90

3 types: phaygocytosis, pinocytosis, and recpetor mediated cytosis

Question 91

phaygocytosis

Answer 91

bringing solids into the cell through vesicles called phyagosomes

Question 92

pinocytosis

Answer 92

cell takes in extra cellular fluid by vesicles and releases it into the cell

Question 93

exocytosis

Answer 93

when things need to leave the cell, a secretion vesicle packages it up and carries to the membrane where it fuses with the membranes and then opens up to secret.

Question 94

nuclear anatomy

Answer 94

brain of the cell, surround by nuclear envelope, bilayer that acts the same as plasma membrane, controls what comes in and goes out. nuclear pores, protein rings that help move things in and out by changing their shape. Chromatin is the DNA that is floating around the nucleus, histones are proteins that the DNA wraps around.

Question 95

DNA

Answer 95

double stranded helix of a nitrogenous base, a sugar, and a phosphate. Has all of the codes for protein synthesis throughout the cell. Gives all of the commands for cellular functions

Question 96

RNA

Answer 96

smaller than DNA, needed for DNA replication so the cells can divide, three types, mRNA, rRNA, and tRNA

Question 97

mRNA

Answer 97

messenger RNA, function is to take the replicated DNA cell out of the nucleus so it can be copied

Question 98

rRNA

Answer 98

function is to read the strand of mRNA and figure out what nitrogenous bases are needed as well as what amino acids are needed to create the new protein

Question 99

tRNA

Answer 99

transfer RNA that bring the amino acid to rRNA and attaches it to form the peptide

Question 100

Mitosis

Answer 100

cell replication to take the place of dead or used up cells, constantly happening, 4 stages: prophase, metaphase, anaphase, and telophase

Question 101

prophase

Answer 101

DNA has condensed into chromosomes and replicated into chromatids, spindle fibers begin to form.

Question 102

metaphase

Answer 102

chromatids begin to line up in the center of the cell, spindle fibers run from the centrioles to the centromeres of chromatids.