A-level : Cell Structure

Question 1

What organelles do bacteria and plant cells have in common?

Answer 1

Cytoplasm, cell wall, cell membrane and ribosomes

Question 2

What does membrane bound mean?

Answer 2

A component that is surrounded by one or more lipid-bilayer membrane that creates a distinct separate component within the cell

Question 3

What’s the pilli and where do find it?

Answer 3

It’s a fluffy outer layer on SOME prokaryotic cells.
It’s used for the exchange of plasmids and to be able to stick to the host cells

Question 4

What’s the slime capsule and where do u find it

Answer 4

On the outer layer of SOME prokaryotic cells
It makes it harder to detect by the immune system and stops desiccation (drying out)

Question 5

How is DNA stored in prokaryotic cells?

Answer 5

In a free floating ‘naked’ circular loop of DNA
Also can be found in plasmids in SOME cells

Question 6

What’s the cell wall of prokaryotic cells made of

Answer 6

Murein

Question 7

What’s the flagellum

Answer 7

Allows for prokaryotic cells to swim (not on all)

Question 8

What size are the ribosome in prokaryotic cells?

Answer 8

70s - very small, smaller than eukaryotics 80s

Question 9

What’s the cell walls of eukaryotic cells made of

Answer 9

Plants - cellulose

Fungi - chitin

Question 10

What size are ribosome in eukaryotic cells?

Answer 10

80s

Question 11

What’s the structure and function of the nucleus?

Answer 11

STRUCTURE: Surrounded by a double membrane called the nuclear envelope. The nuclear envelope has pores. The nucleolus does not have a membrane around it, it contains RNA. Also contains chromatin

FUNCTION: Is the control center of the cell, stores the organisms genomes, transmits genetic information and provides the instructions for protein synthesis.

Question 12

What’s the double membrane surrounding a nucleus called?

Answer 12

The nuclear envelope, this contains pores.

Question 13

What’s chromatin?
How does it change between when the cell is not dividing and when it is?

Answer 13

The genetic material consisting of DNA wound around histone proteins.
When the cell is not dividing, chromatin spreads out/extends. Whereas when the cell is about to divide, chromatin condenses and coils tightly into chromosomes.
These make us nearly all the organisms genome.

Question 14

What’s the nucleolus?

Answer 14

Where ribosomes are made

Question 15

At some point why does the inner and outer layer of the nucleus envelope fuse?

Answer 15

In some points of the nuclear envelope the inner and outer membrane fuse that allows dissolved substances and ribosomes to pass through. The pores also allow larger substances such as mRNA to leave the nucleus, also some other substances such as steroid hormones.

Question 16

What’s the function and structure of a cell membrane?

Answer 16

STRUCTURE: Is a flexible barrier made of a phospholipid bilayer with embedded proteins and other molecules.

FUNCTION: Regulates the in/out movement of molecules through the cell membrane. Also aids with cell signaling and communication

Question 17

What’s the function of the phospholipid bilayer in cell membranes?

Answer 17

Each phospholipid molecule has a hydrophilic (water-loving) head and a hydrophobic (water-fearing) tail. The hydrophobic tails face inwards, away from the aqueous environment, forming a barrier to water-soluble substance.

Question 18

What’s the function of embedded proteins in cell membranes?

Answer 18

Channel and Carrier Proteins: facilitate the transport of specific molecules across the membrane.
Receptor proteins: bind to signaling molecules like hormones, triggering cellular responses.

Question 19

What’s the function and structure of a cell wall?

Answer 19

STRUCTURE: On the outer layer of the plasma membrane. Made of cellulose in plant cells whereas in fungal cells its made of chitin. It is permeable so that stuff can pass though. In a cellulose wall it’s made of bundles of cellulose fibers.

FUNCTION: Holds the shape of the cell, contains mechanical protection to the cell and prevents bursting if an abundance of water enters the cell

Question 20

What’s the function and structure of ribosomes?

Answer 20

STRUCTURE: Small spherical organelles, about 20nm in diameter. Made of ribosomal RNA. Produced in the nucleolus, as two separate subunits which pass through the nuclear envelope and into the cell cytoplasm in which they combine. Some remain free in the cytoplasm whereas some attach to the endoplasmic reticulum. (RER)

FUNCTION: Bind to the exterior of the RER, mainly for synthesizing proteins that will be exported outside the cell. Free enzymes in the cytoplasm (sometimes in bundles) are primary the site of assembly of proteins that will be used inside the cell.

Question 21

What’s the function and structure of the rough endoplasmic reticulum?

Answer 21

STRUCTURE: A system of membranes, containing fluid filled cavities (cisternae) that are continuous with the nuclear membrane.
Coated in ribosomes

FUNCTION: Is the intracellular transport system: the cisternae form channels for transporting substances from one area of the cell to the other. Also provides a large surface area for ribosomes which assemble amino acids into proteins. These proteins then actively pass through the membrane of the cisternae and are transported to the Golgi apparatus for modification and packaging.

Question 22

What’s the function and structure of the smooth endoplasmic reticulum?

Answer 22

STRUCTURE: A system of membranes, containing fluid filled cavities (cisternae) that are continuous with the nuclear membrane. NO ribosomes on the surface. Contains enzymes

FUNCTION: These enzymes catalyze reactions involved in lipid metabolism such as:
-synthesis of cholesterol
-synthesis of lipids/phospholipids needed by the cell
-synthesis of steroid hormones
It is also involved with absorption, synthesis and transport of lipids (from the gut)

Question 23

What’s the structure and function of the golgi apparatus?

Answer 23

STRUCTURE: Consists of a stack of membrane-bound flattened sacs. Secretory vesicles bring material to and from the golgi apparatus.

FUNCTION: Where proteins are modified for example by: adding sugar molecules to make glycoproteins, adding lipid molecules to make lipoproteins, being folded into their 3d shape.
They are then packaged into vesicles that are pinched off and then stored in the cell or moved to the plasma membrane which are either incorporated into the plasma membrane or exported outside the cell

Question 24

What’s the function and structure of the cytoplasm?

Answer 24

STRUCTURE: A jelly like substance that fills cells, has substances within it.

FUNCTION: The site of many chemical reactions and contains many substances (such as ribosomes)

Question 25

What’s the function and structure of mitochondria?

Answer 25

STRUCTURE: Spherical and rod-shaped, they are surrounded by a double membrane. Filled with fluid filled cavities that are highly folded and are considered a “matrix” FUNCTION: The site of ATP (energy currency) production during aerobic respiration. They are self replicating, so more can be made if the cells energy needs increase. Has an abundance of cells where metabolic activity takes place, for example in liver cells and at synapses between neurones where neurotransmitter is synthesized and released.

Question 26

What does intra mean

Answer 26

Within

Question 27

What does inter mean

Answer 27

Between

Question 28

Whats cisternae?

Answer 28

Flattened folds of membrane

Question 29

What's the structure and function of chloroplasts?

Answer 29

STRUCTURE: Larger organelles 4-10 micrometers long, found in plant cells and in some protoctists. Surrounded by a double membrane. The inner membrane is continuous of stacks of flattened membrane sacs called thylakoids, which contains chlorophyll. Each stack or pile or thylakoids is called a granum. The fluid filled matrix is called the stroma. Also contains loops of DNA and starch grains FUNCTION: The site of photosynthesis. The first stage of photosynthesis when light energy is trapped by chlorophyll and used to make ATP, occurs in the grana. Water is also split to supply hydrogen ions. The second stage, when hydrogen reduces carbon dioxide, using energy from ATP, to make carbohydrates, occurs in the stroma. Chloroplasts are abundant in leaf cells, particularly the palisade mesophyll layer.

Question 30

What's the structure and function of vacuole?

Answer 30

STRUCTURE: Surrounded by a membrane called the tonoplast, and contains fluid FUNCTION: Only plant cells have a large permanent vacuole, filled with water and solutes to maintain cell stability, because when full it pushes against the cell wall making it turgid. When all of the plants cells are turgid then it helps to hold the overall plants shape, especially in non-woody plants.

Question 31

What's the structure and function of lysosomes?

Answer 31

STRUCTURE: These are small bags, formed from the Golgi apparatus. Each is surrounded by a single membrane. Contain powerful hydrolytic enzymes. Abundant in phagocytic cells such as neutrophils and macrophages that can ingest and digest invading pathogens such as bacteria. FUNCTION: Lysosomes keep the powerful hydrolytic enzymes separate from the rest of the cells. Can engulf old organelles and foreign matter, digest them and return the digested components to the cell for reuse.

Question 32

What's the structure and function of centrioles?

Answer 32

STRUCTURE: Consists of 2 bundles of microtubules at right angles to each other. The microtubules are made of tubulin protein subunits, and are arranged to form a cylinder. FUNCTION: Before a cell divides, the spindle, made of threads of tubulin, forms from centrioles. Chromosomes attach to the middle part of the spindle and motor proteins walk along the tubulin threads, pulling the chromosomes to opposite ends of the cell. Centrioles are involved in the formation of cilia and undulipodia. Centrioles are usually absent from higher cells of plants but may be present in some unicellular green algae.

Question 33

What's the structure and function of cilia and undulipodia?

Answer 33

STRUCTURE: Protrusion from the cell and are surrounded by the cell surface membrane. Each contains microtubules. They are formed from centrioles FUNCTION: The epithelial cells lining your airways each have many hundreds of cilia that beat and move the band of mucus. Nearly all cell types in the body have one cilium that acts as an antenna. it contains receptors and allows the cell to detect signals about its immediate environment. The only type of human cell to have an undulipodium (a longer cilia) is a spermatozoon. The undulipodium enables the spermatozoon to move.

Question 34

What's the structure and function of the cytoskeleton?

Answer 34

STRUCTURE: A network of protein structures within the the cytoplasm consisting of: rod-like microfilaments (made of actin) and microtubules (made of tubulin) The cytoskeletal motor proteins, myosins, kinesins and dyneins, are molecular motors. They are also enzymes and have a site that binds to and allows hydrolysis of ATP as their energy source FUNCTION: The protein microfilaments within the cytoplasm stabilize and hold mechanical strength of the cells shape and allows cell movement. Microtubules also provide shape and support to cells, and help substances and organelles move through the cytoplasm within a cell.

Question 35

Whats ATP?

Answer 35

(adenosine triphosphate) is the primary energy-carrying molecule used by cells to power biological processes

Question 36

How do microtubules in the cytoskeleton help to move substances and organelles through the cell?

Answer 36

They form the track along which motor proteins (dynein and kinesin) walk and drag organelles to from one part of the cell to the other. They form the spindle before a cell divides, these spindle threads enable chromosomes to be moved within the cell. Microtubules also make up cilia, undulipodia and centriholes.

Question 37

What are intermediate filaments?

Answer 37

They're made of a variety of proteins. They: - Anchor the nucleus within the cytoplasm -Extend between cells in some tissues, between special junctions, enabling cell-cell signaling and allowing cells to adhere to a basement membrane, therefore stabilizing tissues

Question 38

What's hydrolysis?

Answer 38

Hydrolysis is a chemical reaction where a water molecule is added to break a covalent bond, breaking down larger molecules (polymers) into smaller units (monomers)

Question 39

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

Answer 39

Before the cilia form, the centriole multiply and line up beneath the cell surface membrane Microtubules then sprout outwards from each centriole, forming cilium or undulipodium

Question 40

Whats the 2 main components of the cytoskeleton

Answer 40

Microfilaments and Microtubules

Question 41

Whats the roles of the cyctoskeleton

Answer 41

Provides mechanical strength Holds organelles in place Role in cell division - form spindle fibres Maintains cell stability

Question 42

Where is mRNA made?

Answer 42

In the nucleus, goes out through the pores. It must be produced as the nucleus is too big to exit the nucleus

Question 43

How do proteins move around the cell?

Answer 43

Through motor proteins carrying them in veiscles along the cytoskeleton

Question 44

Explain step by step protein synthesis

Answer 44

-The nucleolus synthesisers ribosomes for protein synthesis in the RER - mRNA is manufactured as a copy of the protein gene instruction. mRNA exits the nuclear envelope through pores. -mRNA attaches to the ribosome on the RER and produces protein -These proteins are "pinched off" into vesicles to travel toward the golgi apparatus - They enter through the golgis cis face where proteins processed and packaged, ready for release. - Theyre once again "pinched off" and taken out the trans face, theyre then carried alone the cytoskeleton by motor proteins. The vesicles then fuses with the plasma membrane which opens and releases protein molecules. (Exocytosis)

Question 45

Whats a SEM?

Answer 45

Scanning Electron Microscope - a technique that uses a focused beam of electrons to scan a sample's surface, producing high-resolution images that are 3D and black and white.

Question 46

Whats a TEM?

Answer 46

Transmission Electron Microscope - A type of microsopoe that passes a beam of electrons through a sample to produce a 2D black and white image of the inside of a cell. Only shows one cross section. It has the highest possible magnification and resolution.

Question 47

Whats the name for using multiple stains to distinguish different parts of a specimen?

Answer 47

Differential staining

Question 48

What angle and why should you place a cover slip?

Answer 48

45 degrees - to reduce the chances of air bubbles

Question 49

Why use a stain?

Answer 49

To enhance contrast so its easier to distinguish between tissues,organelles etc

Question 50

What can you change when looking at a microscope and what cant you? (m+r)

Answer 50

You can change magnification - cahnging the objective lenses and adjusting focusing knobs You cant change the resolution, you can only buy a higher resolution microscope

Question 51

What are biological membranes composed of?

Answer 51

A bilayer of phospholipids with embeded cholesterol and free to move proteins (channels,antigens,carriers,enzymse and receptors). There are also glycoproteins and glycolipids on the surface. Together known as glycocalyx.

Question 52

What do the head and tails look like in a biological membrane

Answer 52

The tails face inward as theyre hydrophobic and can therefore not access water.

Question 53

What are phospholipids composed of?

Answer 53

Glycerol, 2 fatty acids and a phosphate group

Question 54

How many molecules thick are the phospholipids?

Answer 54

2

Question 55

Whats the cell walls of plants, fungi and bacteria made of?

Answer 55

Plants - Cellulose Fungi - Chitin Bacteria - Peptidoglycan

Question 56

What's the function of biological membranes?

Answer 56

- They serve as a barrier between the inside and outside of the membrane - Organelle membranes seperate cell components to the cyctoplasm. - Holds enzymes and other ocmponents in place of some metabolic pathways - A site of chemical reactions -Controls what substances go in and out the cell as it has a partially permeable membrane - Has receptor signals to detect cells

Question 57

Who proposed the fluid mosaic model?

Answer 57

Singer and Nicholson

Question 58

What’s the structure and role of cholesterol in biological membranes?

Answer 58

STRUCTURE:Between the phospholipids, can span across the entire membrane or just a small part. FUNCTION: Regulates membrane fluidity. When cold the cholesterol between the heads keeps the phospholipids at a distance so they don’t freeze. When hot the cholesterol between the tails holds the bilayer together and therefore stabilises it. They also increase impermeability of the membrane and therefore stabilising and strengthening the cell

Question 59

What’s the structure and function of proteins in biological membrane?

Answer 59

STRUCTURE: There’s a variety of protein structures. When attached to the outside they’re known as extrusive or peripheral. When across the entire membrane they’re known as transmembrane or transport proteins. When inside they’re known as intrusive or integral proteins. 2 transport proteins next to eachother are known as a channel protein. FUNCTION: Allows things to pass through their channels. Allow substances to attach at their binding sites.

Question 60

What’s the structure and function of the glycocalyx?

Answer 60

STRUCTURE: They’re external components containing carbohydrate chains. Certain substances allow them to bind to the cells surface. The glycoproteins are proteins and carbohydrate chains whereas the glycolipids are lipids and carbohydrate chains. FUNCTION: They’re receptors of three main types: 1. Signalling of hormones and neurotransmitters. 2. Endocytosis 3. Cell adhesion and stabilisation. And cell markers/ antigens for cell recognition

Question 61

What’s the function and structure of phospholipids?

Answer 61

STRUCTURE: Head is a phosphate group, non-polar and hydrophilic. The tail is a fatty acid which is polar and hydrophobic. Together they make a bilayer in biological membranes with the tails facing inwards. FUNCTION: Barrier between the inside and outside. It also stops water-soluble substances from passing through such as sugar and proteins

Question 62

Why does membrane permeability increase as temperature increases?

Answer 62

Proteins (as the hydrogen + ionic bonds are broken) cytoskeleton and enzymes will begin to denature and therefore increase the permeability of the membrane. Furthermore there will be more kinetic energy and therefore more membrane fluidity, leaving areas where there may be pigment leakage. Cholesterol can again stabilise the membrane and reduces this increase. Infolding,cell signalling, enzymic reactions an also be affected by changes in fluidity.

Question 63

Is saturated a double or single bond?

Answer 63

Single

Question 64

What happens to membrane structure when temperature is decreased?

Answer 64

The saturated fatty acids become fluid and permeable. If however there are more unsaturated fatty acids in a membrane then they counteract this because as they become compressed the cholesterol in their tails push adjacent phospholipids away. Therefore this helps to maintain the fluidity as cholesterols presence stops the phospholipids from packing too closely together

Question 65

How do solvents affect membranes

Answer 65

A solvent will dissolve lipids, therefore increasing the membranes permeability.

Question 66

What 3 ways can things move across a cells membrane?

Answer 66

Diffusion (passive) Facilitated diffusion (passive) Active transport (requires active transport)

Question 67

What’s diffusion

Answer 67

The movement of particles from a high to low concentration across a partially permeable membrane. It does not require ATP

Question 68

Factors effecting the rate of diffusion

Answer 68

Temperature Surface area: Volume ratio Concentration gradient Diffusional Distance Size of diffusing particle (smaller=lighter=quicker)

Question 69

When will diffusion “stop”

Answer 69

When there is no net diffusion - There’s no overall direction which all the particles are moving in. The particles will move around back and forth potentially but not in one direction.

Question 70

What does simple diffusion move across? And why

Answer 70

Lipid soluble molecules Eg: steroid hormones Small molecules eg: CO2 BECAUSE they’re lipid soluble so can dissolve in the bilayer and diffuse across it. They’re small and can fit between the gaps in the phospholipid molecules

Question 71

What does facilitated diffusion (carrier/channel) move across? And why

Answer 71

Channel proteins: Hydrophilic channels for ions and water Carrier proteins: Large glucose molecules - because the carrier proteins will move and change shapes to facilitate the shape and size of the molecule. Therefore the glucose moves through carrier proteins as they’re large and carrier proteins are the only ones who will facilitate it. Attach to transmembrane carrier proteins which will bind to one on one side and then bind on the other.

Question 72

Whats the symbol and units of water potential?

Answer 72

A trident and its units are kilopascals (kPa)

Question 73

What’s the water potential of pure water?

Answer 73

0

Question 74

If you increase the concentration of salt in a glass of pure water, what happens to the water potential?

Answer 74

The water potential will decrease as the amount of solute dissolved increases. The water molecules no longer become free to move, as they become associated with the solute particles in solution.

Question 75

Whats osmosis

Answer 75

The movement of free water molecules across a partially permeable membrane, from a region of high water potential to a region of lower water potential, until the water potentials on both sides of the membrane are equal.

Question 76

What’s turgidity?

Answer 76

When a plant cell has a high internal water potential, therefore leading it to appear “full” Although it does not burst as its cell wall holds its structure.

Question 77

Whats plasmolysis?

Answer 77

When a plant cell has an extremely low internal water potential leading the cell membrane to pull away from the cell wall as water leaves.

Question 78

Whats haemolysis?

Answer 78

When an animal cell has a very high water potential internally, leading it to burst open.

Question 79

Whats crenation?

Answer 79

When an animal cell has a low water potential internally leading it to shrink and appear wrinkled.

Question 80

Whats exocytosis ?

Answer 80

How large molecules are exported out of cells by a vesicle containing them moves towards and then fuses to the plasma membrane. This requires ATP to move the vesicle and fuse to the membrane.

Question 81

How much ATP is used when a motor protein moves along the cytoskeleton whilst dragging its cargo?

Answer 81

Every step the motor protein takes a molecule of ATP is hydrolysed.

Question 82

Whats hypotonic,isotonic and hypertonic?

Answer 82

Hypotonic - Causes lysis - Higher water potential outside the cell Isotonic - Dynamic equilibrium Hypertonic - Causes crenation - Lower water potential outside the cell

Question 83

Whats water potential

Answer 83

The tendency of free water molecules to diffuse from one region to another. Given with the trident symbol and the unit KPa

Question 84

Whats active transport?

Answer 84

Active transport is the movement of molecules/ions into or out of a cell from a region of lower concentration to a region of high concentration using ATP and carrier proteins.

Question 85

Whats endocytosis

Answer 85

Things entering a cell

Question 86

Whats exotycosis

Answer 86

Things exiting a cell

Question 87

Whats phagocytosis

Answer 87

Engulfing of something

Question 88

Whats pinocytosis

Answer 88

The engulfing of liquid/drinking. For example a cell engulfing extra-cellular fluid

Question 89

Does endo and exo cytosis require energy

Answer 89

Yes it does as theres energy required to form and move vesicles.

Question 90

Explain active transport

Answer 90

1. Molecule binds to a carrier protein, on one side of the membrane 2. ATP is hydrolysed to produce ADP and P. 3. The phosphate binds to the carrier protein on the other side of the membrane causing the carrier protein to change shape. 4. The molecule travels through the newly opened channel 5. The ADP and P then recombine to ATP 6. The carrier protein returns to its original shape

Question 91

Describe the pathway that a protein takes after translation

Answer 91

Transport vesicles move it along the RER Modification takes place at the golgi apparatus Theyre packaged into secretory vesicles and moved along the cytoskeleton by motor proteins. Vesicle fuses to the cell membrane surface and is secreted through exocytosis