Cellular and Membrane

Question 1

What does the term cell cycle refer to?

Answer 1

It refers to the events that somatic cells which include all of the cells in our bodies, except the reproductive cells go through from the moment they are formed until the moment they divide into two identical, daughter cells

Question 2

How long does a cell cycle last?

Answer 2

It varies in length, depending on the type of cell for rapidly dividing cells like skin cells it takes less than a day or as for other cells like liver cells it can last year’s

Question 3

What are the two phases of the cell cycle?

Answer 3

Interphase in mitosis

Question 4

What happens during interphase in the cell cycle?

Answer 4

It is the longest part of the cell cycle, and it is a state of preparation during which the cell carries out its cell functions, grows and replicate its DNA to prepare for mitosis

Question 5

What happens during mitosis in the cell cycle?

Answer 5

This is when the cell divides into two daughter cells, and separates the replicated DNA into two distinct nuclei, and the separation of the daughter cells into two distinct cells called cytokinesis

Question 6

What are the four sub phases of mitosis?

Answer 6

Prophase, metaphase, anaphase and telophase, then immediately followed by cytokinesis

Question 7

What does the G0 phase represent?

Answer 7

A phase outside the cell cycle, because while the cells are living, they are neither dividing nor preparing to divide

Question 8

What is hyperplasia?

Answer 8

Refers to the process were cells in an organ or tissue increase in number

Question 9

What is hypertrophy?

Answer 9

It is when these cells in an organ or tissue increase in size

Question 10

What is an example of physiologic hypertrophy?

Answer 10

It is like lifting a 10 pound sack of potatoes, which puts a bigger functional demand on your skeletal muscles in response, the muscle cells produce more proteins or myofilaments and get larger in size, allowing the biceps as a whole to generate more force as a result, your muscle also becomes bigger and tougher

Question 11

What is an example of pathologic hypertrophy?

Answer 11

It is when the heart undergoes hypertrophy to deal with high blood pressure or hypertension and hypertension. The heart has to pump blood against a higher resistance, and cardiac myocytes, once again, adapt by increasing the synthesis of myofilaments, causing individual cells to get bigger.

Question 12

Does hyperplasia occur in relatively permanent cells like cardiac nerve and adult skeletal muscle tissue?

Answer 12

No hyperplasia doesn’t occur in relatively permanent tissues without stem cells like cardiac nerve and adult, skeletal muscle tissue

Question 13

What are two types of hyperplasia and in what tissues or organs does each typically occur?

Answer 13

Compensatory, hyperplasia and hormonal hyperplasia.

Compensatory hyperplasia occurs in organs that regenerate like the skin lining of the intestines, the liver and bone marrow hormonal hyperplasia occurs in organs that are regulated by hormones like organs in the endocrine and reproductive system

Question 14

What is an example of physiologic hyperplasia?

Answer 14

When an enlargement of the female breast during pregnancy

Question 15

What is an example of pathologic hyperplasia?

Answer 15

Having excessive hormonal stimulation for example, if there is an overproduction of estrogen by an ovarian tumor, it can lead to excessive endometrial growth, also called endometrial hyperplasia

Question 16

Is hyperplasia synonymous with cancer

Answer 16

No, but hyperplasia is sometimes associated with cancer. Normally hyperplasia is an adaptive response to stress, so it’s tightly regulated process meaning the tissues don’t grow out of control that’s different from cancer where there’s uncontrolled cell division however, as cells divide in hyperplasia some can mutate and that’s how hyperplasia can result in dysplasia, and eventually into cancerous malignancy

Question 17

What is the definition of atrophy in the body?

Answer 17

Reduction in the size of a cell organ or tissue after it has attain normal, mature growth, or either a decrease in cell number or cell size

Question 18

What is apoptosis?

Answer 18

Controlled type of cell death

Question 19

Is muscle atrophy reversible?

Answer 19

Yes, except for very extreme situations

Question 20

What is aplasia?

Answer 20

No development of a tissue or organ during embryogenesis

Question 21

Defined the term hypoplasia

Answer 21

Under development or formation of a tissue or organ during embryogenesis

Question 22

What is metaplasia?

Answer 22

When a mature, differentiated cell type is replaced by another mature, differentiated cell type often this happens because there’s an environmental stressor that the new cell type is better suited to handle

Question 23

Is metaplasia reversible

Answer 23

Yes

Question 24

What is dysplasia?

Answer 24

The tissue develops a large number of immature cells that have weird shapes typically due to chronic environmental stressors

Question 25

Which type of cellular adaptation is most likely to develop into cancer

Answer 25

Dysplasia

Question 26

What are stem cells?

Answer 26

Non-differentiated, non-specialized cells of the body found in blastocysts that can become any type of body cell

Question 27

What are transcription factors?

Answer 27

They are typically proteins that determine which area of the DNA code will get transcribed into mRNA, which then can eventually be used to make specific proteins that can impact what the cell will look like and what a cell will do

Question 28

What are somatic stem cells?

Answer 28

Non-embryonic stem cells that are found in cells in the body like muscle skin, liver and bone marrow

Question 29

Which type of stem cell can differentiate into more cell types?

Answer 29

Embryonic stem cells

Question 30

What is selective permeability of the cell membrane?

Answer 30

It helps regulate what comes in or out of the cell

Question 31

What are the two types of transport across the cell membrane and how are they different?

Answer 31

Passive transport, which requires no energy and active transport, which requires energy in the form of adenosine triphosphate

Question 32

What are the three types of passive transport?

Answer 32

Diffusion, facilitated, diffusion and osmosis

Question 33

What is diffusion?

Answer 33

It helps small nonpolar molecules like oxygen and carbon dioxide move across the membrane from an area of high concentration to low concentration down the concentration gradient

Question 34

When does diffusion stop?

Answer 34

When there are equal concentrations of the molecules on both sides of the cell membrane

Question 35

What is meant by the term concentration gradient

Answer 35

The difference in concentration of a molecule between the intracellular fluid and extracellular fluid

Question 36

What is facilitated diffusion?

Answer 36

It helps larger molecules and polar molecules move across the membrane, using transport proteins, like channels and carrier proteins

Question 37

What is the difference between channels and carrier transport proteins?

Answer 37

Channels are not very specific and they can open or close to allow water and small polar molecules like ions that is dissolved in it to pass through carrier proteins are very specific. They have special binding sites that only allow certain molecules to bind to them, and they also have gates at both ends, which opens sequentially.

Question 38

What is osmosis?

Answer 38

It describes the movement of water across the cell membrane. It’s a special case of facilitated diffusion, because water uses channels called aquaporins to move across the membrane.

Question 39

What drives osmosis?

Answer 39

It is driven by osmotic pressure, which is a force, determined by the difference in solutes between the two sides, osmotic pressure, drives water from the hypotonic side, or the one with lower concentration of solutes to the hypertonic side, or the one with a higher concentration of solutes

Question 40

How are molecules transport against a concentration gradient

Answer 40

Active transport across the cell membrane, which requires energy

Question 41

What are the two kinds of active transport and how are they different?

Answer 41

Primary and secondary active transport, primary active transport directly uses ATP as fuel, and it’s done by enzymes, called ATPase. secondary active transport, does not directly require ATP, but uses an electrochemical gradient

Question 42

How does the sodium potassium pump work?

Answer 42

For each ATP molecule, it pumps three ions of sodium out of the cell while at the same time pumping two ions of potassium into the cell. The resulting difference in concentrations of ions on either side of the membrane creates a concentration gradient, but since ions also carry electrical charges it’s considered an electrochemical gradient, and the cell can use this in secondary active transport.

Question 43

What is endocytosis?

Answer 43

A form of boat transport, where the cell membrane invaginate and pulls in something from the outside

Question 44

What is exocytosis?

Answer 44

A form of bulk transport were a vesicle from within the cell pushes something out of the cell

Question 45

When is equilibrium reach during the process of osmosis

Answer 45

When the net movement of water across the membrane is zero

Question 46

If the concentration of solute in solutions, a and B, on either side of the membrane is the same what is the tonicity of these solutions to one another?

Answer 46

A and B are isotonic to each other

Question 47

If the concentration of solute in solution a is higher than the solution b, what is the tonicity of these solutions to one another

Answer 47

Solution a is hypertonic to solution b and solution b is hypotonic solution a

Question 48

If the concentration of solute in solution a is higher than the solution b, what is the expected direction of water molecule movement

Answer 48

Since solution a is hypertonic to solution b its osmotic pressure increases, and we expect to see a bigger net migration of water molecules to solution a until the concentration of the solutes is equal on both sides

Question 49

What is endocytosis?

Answer 49

A form of boat transport that cells used to engulf extracellular material that uses energy from adenosine triphosphate

Question 50

What is exocytosis?

Answer 50

A form of bulk transport that cells used to expel material into the extracellular space that uses energy from adenosine triphosphate

Question 51

What are the three types of endocytosis?

Answer 51

Phagocytosis pinocytosis and receptor mediated endocytosis

Question 52

What is phagocytosis?

Answer 52

A type of endocytosis, where cells eat, debris, bacteria, and dead cells to bring them into the cell, forming a phagosome

Question 53

What is pinocytosis?

Answer 53

A type of endocytosis, where cells drink the cell membrane invaginate’s to form a small cup around the portions of extracellular, fluid and solutes that are dissolved in it then the edges of the cup come together, forming a vesicle

Question 54

Where in the cell does exocytosis begin?

Answer 54

In an organelle called the Golgi apparatus

Question 55

What is the process of exocytosis?

Answer 55

In the Golgi apparatus, the proteins, lipids, and hormones that are generated in the rough Endo plasmic, reticulum and smooth Endo plasmic reticulum are packaged into a vesicle that can be moved around the cell using the cytoskeleton. The vesicle moves towards the cell surface, fuses with the cell membrane and ruptures on its external side, spilling its contents into the extracellular space

Question 56

What are the two major fluid compartments in the body?

Answer 56

Intracellular fluid and extracellular fluid

Question 57

How much is the average percent of total body water weight in humans?

Answer 57

60% of body weight on average

Question 58

What is the breakdown of total body water in intracellular and extracellular fluid?

Answer 58

2/3 or 40% of body weight is intracellular fluid the other 1/3 or 20% of body weight is extracellular fluid. This is also known as the 60 40 20 rule.

Question 59

What are the two subdivisions of extracellular fluid?

Answer 59

Interstitial, fluid and plasma

Question 60

What is interstitial fluid?

Answer 60

Fluid surrounding the cell

Question 61

What is plasma?

Answer 61

Fluid that circulates within blood vessels

Question 62

What is osmolarity and how is it measured?

Answer 62

The concentration of a solution it is measured as the number of particles of solute per liter of solution

Question 63

If the osmolarity of a specific solute in the ECF is higher than the ICF what is likely to happen

Answer 63

Water will flow in the direction of more solutes to lower the concentration and maintain the balance through osmosis

Question 64

Regarding ECF concentration, what does the term iso osmotic disturbance mean?

Answer 64

There is no change in ECF osmolarity

Question 65

Regarding ECF concentration, what does the term hyperosmotic disturbance mean?

Answer 65

There is an increase in ECF osmolarity

Question 66

Regarding ECF concentration, what does the term hypoosmotic disturbance mean?

Answer 66

There is a decrease in ECF osmolarity

Question 67

What establishes a cells resting membrane potential

Answer 67

Differences in ion concentration, and charge on each side of the cell membrane and permeability across the membrane

Question 68

In general, what ions do we expect to see a higher concentration of outside the cell in the ECF

Answer 68

Sodium chloride and calcium

Question 69

In general, what ions do we expect to see a higher concentration of inside the cell in the ICF

Answer 69

Potassium and a variety of negatively charged anions

Question 70

Which ion can get across the cell membrane through leak channels?

Answer 70

Potassium

Question 71

What is the electrostatic gradient in the cell membrane?

Answer 71

The difference in charge across the cell membrane that acts as a driving force to cause a molecule to move across the membrane

Question 72

What does the equilibrium potential for an ion represent?

Answer 72

The point when an ion moving across the membrane due to the concentration gradient equals the ion, moving the other way into the cell due to the electrostatic gradient. This is also called the Nernst potential.

Question 73

What is the equilibrium potential of an ion dependent on?

Answer 73

The equilibrium potential of an ion is dependent on two things, the concentration gradient for the ion and the cell being permeable to that ion

Question 74

What does the Nernst equation tell us?

Answer 74

It tells us the equilibrium potential for each ion

Question 75

Based on the difference in membrane permeability to different ions, the cells membrane resting potential is generally closest to which ions equilibrium potential

Answer 75

Potassium the membrane is much more permeable to potassium, so the resting membrane potential is generally closest to the equilibrium potential of potassium

Question 76

What is homeostasis?

Answer 76

The processes working to maintain the body’s internal stability within normal limits even with changes to the external environment

Question 77

What is the primary mechanism to maintain homeostasis?

Answer 77

Negative feedback, the body senses, change, and activates mechanisms that negate or reverse it

Question 78

What is an example of negative feedback system to maintain homeostasis

Answer 78

Control of body temperature with an increase in body, temperature due to exercise or outside heat the brain acts as a control center and senses. The body temperature is above a setpoint and activates effectors to decrease the body temperature via vasodilation and or sweating when body temperature is returned to normal. The brain receives a negative feedback signal to stop decreasing body temperature.

Question 79

How does a positive feedback system work to maintain homeostasis?

Answer 79

Positive feedback is a self amplifying cycle, in which a physiological change leads to an even greater change in the same direction

Question 80

What is an example of a positive feedback system to maintain homeostasis?

Answer 80

Breast feeding a baby suckling on the mothers nipple activates McCanna receptors in the nipple which sends signals to the brain to release hormones to stimulate muscle contraction in milk ejection. There is no mechanism for suppression of the response. It just continues to build until the suckling stops.

Question 81

What is the cell membrane made from?

Answer 81

A double layer of phospholipid molecules

Question 82

Which part of the phospholipid membrane is hydrophilic? What is it made from and which way is it oriented?

Answer 82

The head negatively charged phosphate, oriented outwards

Question 83

Which part of the phospholipid membrane is hydrophobic? What is it made from and which way is it oriented?

Answer 83

The tail, 2 fatty acids, and oriented in words

Question 84

Can oxygen easily pass through the semi permeable phospholipid cell membrane

Answer 84

Yes

Question 85

Can carbon dioxide easily pass through the semi permeable phospholipid membrane

Answer 85

Yes

Question 86

Can glucose easily pass through the semi permeable Phospho, lipid membrane

Answer 86

No

Question 87

What is the function of protein channels in the phospholipid bilayer?

Answer 87

To allow water and specific ions, like sodium and potassium to come in and out of the cell

Question 88

What is the cytoskeleton made from?

Answer 88

Proteins like microfilaments, microtubules and intermediate filaments

Question 89

What are the functions of the cytoskeleton?

Answer 89

To provide structural stability and allow the cell to change shape. This is helpful for muscle contraction, cell division, and cell movement.

Question 90

What makes up the cytoplasm?

Answer 90

The cytosol and cell organelles

Question 91

What is intracellular fluid called?

Answer 91

Cytosol

Question 92

Which organelle is highly specialized in houses genetic material

Answer 92

The nucleus

Question 93

What is a gene?

Answer 93

It contains DNA that determines the characteristics of the cells, proteins and intracellular enzymes that control cytoplasmic and nuclear activities and also controls and promotes cell reproduction

Question 94

What is DNA?

Answer 94

A long tightly coiled molecule with some parts that code for genes connected by other parts that don’t code for genes

Question 95

What is a chromosome?

Answer 95

A folded and tightly packed form of DNA made of chromatin

Question 96

What is the name of the process that turns DNA into RNA?

Answer 96

Transcription

Question 97

What are ribosomes made of and what is their function?

Answer 97

They are formed by the nucleolus in the nucleus they convert mRNA into a string of amino acids, which form proteins

Question 98

What is the process where are ribosomes convert mRNA into amino acids and then into proteins

Answer 98

Translation

Question 99

What does a stop codon do?

Answer 99

It is located on the mRNA strand, and tells the ribosome to stop building the protein during translation

Question 100

What organelle does the ribosome attach to during protein synthesis?

Answer 100

The rough endoplasmic reticulum

Question 101

What is the function of the smooth endoplasmic reticulum?

Answer 101

It is responsible for lipid synthesis, detoxification in liver cells, steroid hormone synthesis in glandular tissues

Question 102

What is the function of the Golgi apparatus?

Answer 102

It takes the proteins, lipids and hormones generated in the rough ER and smooth ER and packages them into vesicles that are distributed around the cell

Question 103

Which type of vesicles are packaged in the Golgi apparatus

Answer 103

Transport vesicles that move within the cell and secretory vesicles that move molecules out of the cell through exocytosis

Question 104

What is the function of a lysosome?

Answer 104

It is a membrane bound organelle filled with enzymes that help breakdown other molecules or organelles within the cell

Question 105

What is the function of the mitochondria in a cell?

Answer 105

It is the powerhouse of the cell. These membrane bound. Organelles are involved with generating energy in the form of ATP to fuel cellular functions.

Question 106

What is glycolysis?

Answer 106

A metabolic pathway that Cleaves, the six carbon glucose into 2 halves which are three carbon molecules called pyruvate

Question 107

What is aerobic respiration?

Answer 107

A metabolic process that occurs when pyruvate created from glucose through glycolysis enters the mitochondria and goes through the citric acid or Krebs cycle and the electron transport chain to produce ATP this process produces about 32 molecules of ATP for every single glucose molecule

Question 108

What is beta oxidation?

Answer 108

When the mitochondria uses fatty acids rather than glucose as a source of energy

Question 109

What are the main roles of the cell membrane?

Answer 109

To define what’s inside the intracellular space, and what’s outside the extra cellular space, and to regulate what comes in or out of the cell

Question 110

What is another name for the cell membrane?

Answer 110

Plasma membrane

Question 111

What is the cell membrane made of?

Answer 111

A bilayer of phospholipid molecules with a negatively charged phosphate head a tail made of two fatty acids, and a skeleton made of glycerol

Question 112

Is the head of the phospholipid molecule that makes up the phospholipid bi layer hydrophobic or hydrophilic?

Answer 112

Hydrophilic it likes water

Question 113

Is the tale of the phospholipid molecule that makes up the phospholipid bi layer, hydrophobic or hydrophilic

Answer 113

Hydrophobic it does not like water

Question 114

Is the tale of the phospholipid molecule that makes up the phospholipid bilayer Lipo phobic or lipophilic

Answer 114

Lipophilic it loves fats

Question 115

In the phospholipid by layer, where are the head and tails oriented?

Answer 115

The hydrophobic tails are oriented in words where there are no water molecules, and the hydrophilic heads are oriented outwards in contact with water molecules

Question 116

What does the term semi permeable in reference to the cell membrane mean?

Answer 116

The membrane allows some molecules to pass through but not others. This is mostly based on the molecule size polarity and charge.

Question 117

Are small and nonpolar molecules like oxygen or carbon dioxide, able to pass through the cell membrane if so, do they pass through quickly or slowly?

Answer 117

Yes, they can diffuse through the membrane quickly

Question 118

Are small and polar molecules like water able to pass through the cell membrane? If so, did they pass through quickly or slowly?

Answer 118

Yes, they can diffuse through the membrane, but it happens relatively slowly

Question 119

Our large and nonpolar molecules such as retinol able to pass through the cell membrane if so, did they pass through quickly or slowly?

Answer 119

Yes, they can cross the cell membrane since they are nonpolar, but slowly because the molecule is so large

Question 120

Are large in polar molecules, such as glucose able to pass through the cell membrane if so, did they pass through quickly or slowly?

Answer 120

They are unlikely to pass the cell membrane on their own

Question 121

Are highly polar ions like sodium potassium, and chloride or molecules that possess a charge like amino acids able to pass through the cell membrane if so, do they pass through quickly or slowly

Answer 121

They cannot pass through the cell membrane on their own

Question 122

What is the function of cholesterol in the cell membrane?

Answer 122

It makes the cell membrane fluid and durable at different temperatures

Question 123

What is the function of transport proteins in the cell membrane?

Answer 123

They help move molecules that can’t freely diffuse across the membrane to get in and out of the cell

Question 124

What are the two types of transport proteins?

Answer 124

Channels and carriers

Question 125

What is the function of channel proteins?

Answer 125

They are transport proteins that open to form sort of a tunnel through the membrane through which water and ions can flow right through

Question 126

What is a channel protein that allows water to flow into and out of the cell membrane?

Answer 126

An aquaporin channel proteins

Question 127

What is the function of carrier transport proteins?

Answer 127

They are very specific they have special binding sites that only allow certain molecules to bind to them, and they have gates at both ends, which open sequentially

Question 128

As an example of a carrier protein, how does the glucose transporter called GLUT4 work to get glucose into the cell

Answer 128

The GLUT4 transporter is open to the outside and waits for a glucose molecule when a glucose molecule binds to a site within the transporter the outer gate closes, and the inner gate opens the glucose than unbind’s and enters the cell. Then the transporter resets and waits for the next glucose molecule.

Question 129

How do ATPases function as transport proteins?

Answer 129

These transport proteins, essentially enzymes, use the energy from ATP to actively pump various ions in or out of the cell against their concentration gradient that gives them their name these ATPases push ions from the side, with a low concentration over to the side with a high concentration

Question 130

What is the function of cell adhesion molecules in the cell membrane?

Answer 130

They are integral transmembrane proteins, that anchor the cell in place by attaching it to other cells

Question 131

What is the function of cell surface receptors?

Answer 131

They receive input from the outside and transmit it to the inside of the cell. The input is usually some thing that other cells produce like hormones, cytokines, or growth factors.

Question 132

What type of carbohydrates can be bound to proteins or lipids in the cell membranes? What are their functions?

Answer 132

Caleco proteins are carbohydrates bound to proteins in the cell membrane and glycolipids are bound to lipids in the cell membrane. These glycoproteins and glycolipids are unique to each cell and helps cells recognize one another.

Question 133

What is an example of glycoproteins and glycolipids in the cell membrane functioning for cell recognition?

Answer 133

An example is with immune cells, distinguishing normal cells from invading pathogens based on the glycoproteins and glycolipids on the cell surface

Question 134

What is the function of the extra cellular matrix?

Answer 134

It forms the environment surrounding the cells and help provide structure and function to the tissues that are made from lots of cells together

Question 135

What are the different tissue types?

Answer 135

Epithelial, connective, muscular and nervous

Question 136

What are the three major molecules that make up the extracellular matrix?

Answer 136

Adhesive proteins, structural proteins, and proteoglycans

Question 137

What is the function of adhesive proteins in the extracellular matrix?

Answer 137

They helped us stick the individual cells together and organize the tissue into any structure cells. Use adhesive proteins to anchor themselves to other cells and two molecules in the ECM adhesive proteins. Also help communicate messages from the ECM to the cell.

Question 138

What is the function of structural proteins in the ECM?

Answer 138

Structural, proteins gift, tissues, their tensile and compressive strength. Examples are collagen’s elastin’s and keratin’s.

Question 139

What is the most common type of structural proteins in the human body?

Answer 139

Collagen

Question 140

What are important characteristics of collagen?

Answer 140

It is the most common type of structural protein in the body it resists tension, and it can also stretch

Question 141

What are the four most common types of collagen?

Answer 141

Types I, II, III, and IV

Question 142

Where is type one collagen found in the body

Answer 142

It is found in the bones, skin and tendons

Question 143

Where is type to college in found in the body

Answer 143

It is found in cartilage

Question 144

Where is type three collagen found in the body

Answer 144

In reticulin, a type of fiber found in the liver and the lymphatic system and blood vessels

Question 145

Where is type four collagen found in the body

Answer 145

It is found in the basement membrane, Essentia protein that separates different types of cells like nerve cells from muscle cells

Question 146

Which type of structural protein allows connective tissues, to regain their original shape after stretching

Answer 146

Alaston

Question 147

Where is elastin found in the body

Answer 147

In ligaments blood vessels, skin, and lungs

Question 148

Which type of structural proteins, tough, and found in hair and nails in the body

Answer 148

Keratin

Question 149

What is the function of proteoglycans in the ECM?

Answer 149

Proteoglycans and water together form a gel like substance that hydrates and cushions the cells and it’s the main reason that it’s so abundant in cartilage

Question 150

What is the cytoskeleton?

Answer 150

A network of proteins within the cell

Question 151

What is the function of the cytoskeleton?

Answer 151

It gives each cell its shape, an anchor cell organelles in place. It also can change shape to allow the cell to move. Contract divide or pull in or push out molecules.

Question 152

What three protein filaments make up the cytoskeleton

Answer 152

Actin filaments (microfilaments), intermediate filaments, and microtubules

Question 153

What is the function of actin filaments?

Answer 153

To connect to one another to form a network located just below the cell membrane actin filaments slide closer together and further apart, allowing the cell to change shape during muscle contraction

Question 154

What is another name for Actin?

Answer 154

Microfilaments

Question 155

Which types of cells have lots of actin in myosin

Answer 155

Muscle cells

Question 156

How do actin and myosin work together to cause muscle contractions?

Answer 156

Myosin filaments bind to actin filaments, and that’s what allows the actin to slide closer together and farther apart, which makes the muscle cells shrink and stretch during muscle contraction and relaxation

Question 157

What is the role of actin filaments in mitosis?

Answer 157

At the end of mitosis, the cell has two sets of chromosomes that each sit in their own nucleus, a ring of actin filaments then forms around the center of the cell between the two nuclei this ring uses the sliding movement of Actin and myosin to help constrict, or squeeze the cell so that it pinches off into two new cells

Question 158

What is the function of microtubules?

Answer 158

Microtubules help with intracellular transport, taking vesicles to and from the cell membrane and cellular organelles microtubules also play a role in cell division and help with cell movement

Question 159

Place the cytoskeleton proteins in order from smallest to largest

Answer 159

Actin
Intermediate filaments
Microtubules

Question 160

What is the function of intermediate filaments?

Answer 160

They fasten various organelles like the nucleus in place within the cell intermediate filaments also help anchor cells to neighboring cells through cell to cell junctions and help anchor the cells to their surrounding environment in the ECM