topic 1.2- ultrastructure of cells

Question 1

what is the maximum resolution of a light microscope?

Answer 1

0.2 micrometers (μm)

Question 2

what is the maximum resolution of an electron microscope?

Answer 2

0.001 micrometers (μm)

Question 3

why does an electron have a much higher resolution than a light microscope?

Answer 3

beams of electrons have a much shorter wavelength.

Question 4

explain how light microscopes work

Answer 4

light passes through the specimen, which filters out certain wavelengths of light

Question 5

explain how an electron microscope works

Answer 5

electrons pass through the specimen and get absorbed.

Question 6

define resolution

Answer 6

making the separate parts of an object distinguishable

Question 7

state the two main differences between prokaryotes and eukaryotes

Answer 7

• prokaryotes have a simple cell structure that is not compartmentalised; eukaryotes have a compartmentalised cell structure
• eukaryotes have a nucleus bounded by a nuclear envelope consisting of a double membrane; prokaryotes do not have a nucleus

Question 8

what do prokaryotes always have that eukaryotes only sometimes have?

Answer 8

a cell wall

Question 9

give the three functions of a cell wall

Answer 9

• protects cell
• maintains cell shape
• prevents cell from bursting

Question 10

in prokaryotes, the cell wall contains ——–

Answer 10

peptidoglycan

Question 11

what is the size of prokaryotic ribosomes?

Answer 11

70S

Question 12

what does the unit ‘S’ stand for?

Answer 12

Svedberg units

Question 13

why does the DNA (or nucleoid) in prokaryotes appear lighter on electron micrographs?

Answer 13

it is not associated with proteins

Question 14

list all the features of a prokaryotic cell that should be drawn.

Answer 14

• cell wall
• cytoplasm
• pili
• flagella
• plasma membrane
• 70S ribosomes
• nucleoid (with naked DNA)

Question 15

what is the function of the flagella and pili?

Answer 15

• flagella are mainly responsible for motility (sensitive to temperature, chemicals and metals)
• pili are mainly responsible for attachment during conjugation and motility

Question 16

give 4 advantages of a cell being compartmentalised

Answer 16

• enzymes/substrates for a process can be more concentrated than if they were spread throughout cytoplasm
• substances that could cause damage to cell can be kept inside membrane of an organelle (eg digestive enzymes of a lysosome)
• conditions such as pH can be maintained at ideal for a particular process (may be different to optimum levels for cells)
• organelles with their contents can be moved around within the cell.

Question 17

list the features of eukaryotic cells that should be drawn

Answer 17

• plasma membrane
• cytoplasm
• 80S ribosomes
• nucleus
• mitochondria
  (- rough endoplasmic reticulum)
  (- Golgi apparatus)
  (- lysosomes)
  (- chloroplast)
  (- vacuoles and vesicles)
  (- microtubules and centrioles)
  (- cilia and flagella)

Question 18

describe the nucleus in eukaryotic cells

Answer 18

• nuclear envelope: a double membrane with pores
• contains nucleolus, where ribosomes are made
• contains chromosomes, consisting of DNA associated with histone proteins, and chromatin (uncoiled chromosomes)
• where transcription occurs (DNA-> mRNA)

Question 19

describe the rough endoplasmic reticulum (rER) in eukaryotic cells

Answer 19

• consists of cisternae (flattened membrane sacs)
• 80S ribosomes attached to outside of cisternae
• rER synthesises proteins for secretion/cell membrane from the cell

Question 20

describe the ribosomes in eukaryotic cells

Answer 20

• not surrounded by a membrane
• 80S
• synthesise proteins and release it to work in the cytoplasm

Question 21

describe the Golgi apparatus in a eukaryotic cell

Answer 21

• consists of cisternae (flattened membrane stacks)
• processes proteins brought in vesicles from the rER
• most are then carried in vesicles to plasma membrane for secretion

Question 22

describe how the cisternae in the Golgi differ from the cisternae in rER

Answer 22

• not as long
• often curved
• do not have attached ribosomes
• many vesicles nearby

Question 23

describe the lysosomes in eukaryotic cells

Answer 23

• approximately spherical with a single membrane
• formed from Golgi vesicles
• contain high concentrations of protein and digestive enzymes which are used to break down ingested food/organelles/whole cell

Question 24

describe the mitochondrion in eukaryotic cells

Answer 24

• surrounded by a double membrane
• inner membrane invaginated to form structures called cristae
• contains matrix (fluid)
• produce ATP by aerobic respiration
• fat digested here if it is being used as an energy source
• contains own DNA

Question 25

describe the chloroplast in eukaryotic cells

Answer 25

• surrounded by double membrane
• contains stacks of thylakoids (flattened stacks of membrane)
• produce glucose and other organic compounds by photosynthesis, starch grains present if photosynthesising quickly
• contains own DNA

Question 26

describe vacuoles and vesicles in eukaryotic cells

Answer 26

• consist of single membrane with fluid inside
• vacuoles; store waste products/food/necessary molecules
• vesicles are smaller vacuoles; transport materials

Question 27

name the three organelles that contain their own DNA

Answer 27

• nucleus
• chloroplasts
• mitochondria

Question 28

describe microtubules and centrioles in eukaryotic cells

Answer 28

• microtubules are small cylindrical fibres
• move chromosomes during cell division, act as transport routes through cell, hold organelles in place, spindle fibres in mitosis
• centrioles consist of two groups of nine triple microtubules
• form an anchor point for microtubules during cell division

Question 29

describe cilia and flagella in eukaryotic cells

Answer 29

• both are microtubules covered in membrane
• cilia are shorter, flagella are longer
• cilia move things along the surface of the cell
• flagella move the cell

Question 30

how do prokaryotes divide?

Answer 30

by binary fission

Question 31

describe binary fission

Answer 31

1. single circular chromosome is replicated
2. the two copies of the chromosome move to opposite ends of the cell
3. the cytoplasm and cell divide
4. each of the daughter cells contains one copy of the chromosome so they are genetically identical

Question 32

function of exocrine gland cells of the pancreas

Answer 32

secrete digestive enzymes into a duct that carries them to the small intestine where they digest foods

Question 33

structure of exocrine gland cells of the pancreas

Answer 33

organelles needed to synthesise proteins in large quantities; process them to make them ready for secretion, transport them to the plasma membrane and release them.
- plasma membrane
- mitochondrion
- nucleus
- rER
- Golgi
- vesicles
- lysosomes

Question 34

function of palisade mesophyll cells of the leaf

Answer 34

photosynthesis- producing organic compounds from CO2 and other inorganic compounds, using light energy.

Question 35

structure of palisade mesophyll cell of the leaf

Answer 35

• cell wall
• plasma membrane
• chloroplasts
• mitochondrion
• vacuole
• nucleus