Cell Structure

Question 1

What is the function of flagella?

Answer 1

Allow cells to move, eukaryotic flagella have a 9+2 structure and are called undulipodia, prokaryotic flagella don’t have the 9+2 arrangement
- The 9+2 arrangement is also the arrangement in cilia

Question 2

What is the function of a slime capsule?

Answer 2

Provides an extra layer to protect the cell and helps it stick to surfaces

Question 3

What is the function of a plasma membrane?

Answer 3

To regulate the passage of molecules in and out of the cytoplasm

Question 4

What is the function of pili?

Answer 4

Pili are small hairlike projections found on bacteria that allow the bacteria to adhere to host cells or each other allowing the passage of plasmid DNA from one cell to another

Question 5

What is the function of ribosomes?

Answer 5

To synthesise proteins

Question 6

What is a DNA plasmid?

Answer 6

Loops of DNA that can be shared between cells that often carry immunities

Question 7

What is nucleoid DNA?

Answer 7

The prokaryotic equivalent of a nucleus

Question 8

What is the Golgi body and what is its function?

Answer 8

A membrane bound organelle that is made up of membrane bound sacs. Its function is to process and bundle lipids as they are synthesised in the cell. The Golgi body also modifies and packages proteins

Question 9

What is the function of the rough ER?

Answer 9

Rough ER is studded with many ribosomes that are essential for the process of protein synthesis. The rough ER is also essential for the transportation of proteins to the Golgi body

Question 10

What is the function of the smooth ER?

Answer 10

The smooth Er acts as a storage organelle, it’s also important in the creation and storage of lipids and steroids

Question 11

What are the functions of the cytoskeleton?

Answer 11

Structure, motion, transport and chromosome division

Question 12

What proteins make up the cytoskeleton?

Answer 12

Thick microtubules, thin microfilaments, intermediate filaments

Question 13

How are objects moved along the cytoskeleton?

Answer 13

Microtubule motor proteins move up and down the cytoskeleton carrying vesicles full of other proteins to different areas of the cell, or for transport out of the cell (kinesin carries the the vesicle along the microtubule motor protein)

Question 14

How do flagella move?

Answer 14

Flagella move in a wave or whip-like motion, eukaryotic flagella depend on ATP for energy

Question 15

How do cilia move?

Answer 15

Cilia move in a rowing motion, they are driven by motor proteins

Question 16

Describe the process of a protein being made and secreted

Answer 16

• The gene that has the coded instructions for a protein is transcribed into a length of mRNA
• Many copies of this mRNA are made and they pass out of the nuclear pores to the ribosomes
• Ribosomes translate the mRNA and produce the protein
• The protein travels through the rough ER and is packaged into a vesicle so it can travel to the Golgi body
• The Golgi body modifies the protein (usually by adding carbohydrate chains)
• The processed proteins are then packaged into vesicles and travel to the plasma membranes
• The membrane of the vesicle is made of the same phospholipids as the plasma membranes
• The vesicle fuses with the plasma membrane and the protein contents are released outside of the cell by exocytosis

Question 17

What is the function of the mitochondria?

Answer 17

• Site of ATP production during aerobic respiration
• They are self replicating so if the cell needs more energy, more can be made
• They are abundant in cells where much metabolic activity takes place

Question 18

What is the function of a chloroplast?

Answer 18

• Site of photosynthesis

- Chlorophyll that is contained in chloroplasts traps light energy which helps to make ATP

Question 19

What is the function of a lysosme?

Answer 19

• Contains digestive enzymes and separates enzymes from the rest of the cell
• The digestive enzymes are used to digest worn out organelles, engulfed viruses or bacteria and food particles

Question 20

What is the function of the vacuole?

Answer 20

• Mainly used for storage

- Help to keep cell rigid

Question 21

What is the function of the cell wall?

Answer 21

• To support the cell

Question 22

What is the function of cilia?

Answer 22

• To move mucus that contains trapped molecules such as dust
• Nearly all cells in the body have one cilium that acts as an antenna that contains receptors and allows the cell to detect signals about its immediate environment
• Help cells move by moving in a rowing motion driven by motor proteins

Question 23

What is the function of undulipodia?

Answer 23

• Enables spermatozoon to move

- Enables cells to move

Question 24

What is the function of a centriole?

Answer 24

• They form spindle fibres that separate chromosomes during cell division
• Assist in the formation of cilia and undulipodia

Question 25

How are centrioles involved in the production of cilia and undulipodia?

Answer 25

• Before cilia form, the centrioles multiply and line up beneath the plasma membrane
• Microtubules then sprout outwards from each centriole, forming either cilia or undulipodia
• The first component of cilium to be formed is the basal body which is identical in structure to a centriole

Question 26

What is resolution?

Answer 26

The shortest distance between two points on a specimen that can be distinguished by the observer as separate entities

Question 27

What is the equation for magnification?

Answer 27

• Image size / actual size

- Magnification means how many times bigger an image is than the actual size

Question 28

What is the equation for the length of one eyepiece division?

Answer 28

• 1 epu = length of stage micrometer (um) / number of epu taken to make up the stage micrometer
• If the stage micrometer is 4 times bigger than the eyepiece graticule and the stage micrometer is 1000um then the length of one epu is 1000/400 because the eyepiece graticule has 100 divisions. 100 x 4 = 400
• Each division of the stage micrometer is equal to 10um and the stage micrometer has 100 divisions so therefore the length of the stage micrometer is 1mm or 1000um

Question 29

What is active transport?

Answer 29

• Active transport is a process used to move substances against their concentration gradient
• Active transport needs more energy than just the kinetic energy if the molecules, this energy is provided by the hydrolysis of ATP
• Cells may need to accumulate more of a particular ion than they would be able to by simple or facilitated diffusion alone
• Requires a carrier protein

Question 30

What are the main functions of carrier proteins?

Answer 30

• They have a region which enables them to combine reversibly with certain solute molecules or ions
• They have a region that enables them to act as enzymes when this region of the carrier protein binds to a molecule of ATP and allows the hydrolysis of this molecule
• The energy from ATP helps the carrier protein change its conformation (shape) and in doing so, it carries the ion from one side of the cell to the other

Question 31

What is bulk transport?

Answer 31

• Some cells need to transport large molecules and particles that are too large to pass through the plasma membrane
• Requires ATP
• They do this by bulk transport, there are two main types of bulk transport: endocytosis and exocytosis

Question 32

What is endocytosis?

Answer 32

• Endocytosis is the process that allows large particles to be brought into a cell (they don’t pass through the plasma membrane)
• Instead a segment of the plasma membrane surrounds and encloses the molecule into a vesicle, it can now be brought into the cell
• ATP is required as it’s an active process

Question 33

What is phagocytosis?

Answer 33

Phagocytosis is when solid matter is ingested by a cell

Question 34

What is pinocytosis?

Answer 34

When cells ingest liquid matter

Question 35

What is exocytosis?

Answer 35

• Exocytosis is the process that allows large molecules to be exported out of cells
• A secretory vesicle containing the large molecule is moved towards the plasma membrane and it fuses with the plasma membrane, the contents of the vesicle is then released outside of the cell
• ATP is needed to fuse the membranes together as well as for moving the vesicles

Question 36

What is a cell?

Answer 36

The smallest single unit of life

Question 37

What is a tissue?

Answer 37

A group of similar cells carrying out a specific function

Question 38

What is an organ?

Answer 38

A collection of tissues that work together to carry out a specific function

Question 39

What are the 4 types of animal tissue?

Answer 39

• Epithelial
• Connective
• Muscle
• Nervous

Question 40

What are the 3 types of plant tissue?

Answer 40

• Epidermal
• Vascular
• Meristematic

Question 41

What is magnification?

Answer 41

The number of times larger an image appears compared with the size of the object

Question 42

What are the advantages of using optical microscopes?

Answer 42

• Relatively cheap
• Easy to use
• Portable
• Able to be used to study whole living specimens

Question 43

Do optical microscopes use visible light?

Answer 43

Yes, they use visible light which has a wavelength of between 400 and 700nm

Question 44

What do objects that are closer than 200nm together appear as when observed under a light microscope?

Answer 44

They appear to be one object as the beam of light produced by the light microscopes can’t fit between the two objects

Question 45

What does the rack stop do on a microscope?

Answer 45

It stops the stage and microscope slide from getting too close to the objective lenses

Question 46

What is a photomicrograph?

Answer 46

A photograph of an image seen using an optical microscope

Question 47

What is an electron micrograph?

Answer 47

A photograph of an image seen using an electron micrograph

Question 48

What are organelles?

Answer 48

Small structures inside cells each of which have a speciic function

Question 49

What are laser scanning microscopes?

Answer 49

• Microscopes that use laser light to scan an object and assemble the pixel information into one image on a computer screen
• The images are high resolution
• These images have depth selectivity so you can focus on structures at different depths

Question 50

What are confocal microscopes used for?

Answer 50

They are used in the medical profession and also in many branches of biological research

Question 51

What is an electron microscope?

Answer 51

• An electron microscope uses a beam of fast travelling electrons with a wavelength of about 0.004nm meaning that electron microscopes have a much greater resolution than optical microscopes
• Electrons are fired from a cathode and focused by magnets onto a screen or photographic plate

Question 52

What are stains?

Answer 52

Stains are coloured chemicals that bind to molecules in or on the specimen, making the specimen easy to see

Question 53

What does acetic orcein do?

Answer 53

Binds to DNA and stains chromosomes dark red

Question 54

What is methylene blue?

Answer 54

An all purpose stain

Question 55

What does eosin stain?

Answer 55

Cytoplasm

Question 56

What does Sudan red stain?

Answer 56

Lipids

Question 57

What does iodine in potassium iodide solution stain?

Answer 57

It stains cellulose in plant cell walls yellow and stains starch granules blue/black

Question 58

How are slides of specimens prepared?

Answer 58

• The specimens are dehydrated
• They are then embedded in wax to prevent distortion during slicing
• A special instrument is used to make very thin slices called sections, these are stained and mounted in a special chemical to preserve them

Question 59

What is the function of the nucleus?

Answer 59

Contains the cell’s DNA

Question 60

What is the function of the nucleolus?

Answer 60

Makes RNA and ribosomes

Question 61

What is the function of the nuclear envelope?

Answer 61

Surrounds the nucleus

Question 62

What is kinesin?

Answer 62

Kinesin is a protein that carries vesicles along a microtubule motor protein

Question 63

How do cells move?

Answer 63

In eukaryotic cells, some microtubules extend out from the centrioles that have lined up beneath the plasma membrane. They form flagella (undulipodia) or cilia. Both of these structures are made out of nine pairs of fused microtubules arranged into a circle with 2 central unfused microtubules

Question 64

Why do lipid tails repel polar molecules?

Answer 64

They are non-polar which means they’re hydrophobic (water is polar and polar and non-polar molecules repel each other)

Question 65

What adaptations do certain types of prokaryotic cells have?

Answer 65

• A protective waxy capsule surrounding their cell wall
• Small loops of DNA called plasmids, as well as the large loop of DNA
• Pili, which are hair-like projections that enable bacterial cells to adhere to host cells or one another, allowing the passage for plasmid DNA from one cell to another
• Flagella, long whip-like projections that enable the prokaryotic cells to move, the structure of these flagella is different to that of a eukaryotic undulipodia

Question 66

How are prokaryotic cells similar to eukaryotic cells?

Answer 66

• They both have a plasma membrane
• They both have a cytoplasm
• They both have ribosomes for assembling amino acids into proteins
• They both have DNA and RNA

Question 67

How are prokaryotic cells different to eukaryotic cells?

Answer 67

• Prokaryotic cells are much smaller
• Prokaryotic cells have a much less well-developed cytoskeleton with no centrioles
• No nucleus
• No membrane bound organelles such as, Golgi body, endoplasmic reticulum, lysosomes, mitochondria, chloroplasts
• Have a peptidoglycan cell wall and not a cellulose cell wall