1.1 (Introduction to Cells)

Question 1

Calculate magnification formula

Answer 1

Scale bar label

Question 2

What does the cell theory state?

Answer 2

• All living things are composed of cells (or cell products)
• The cell is the smallest unit of life
• Cells only arise from pre-existing cells

Question 3

Cell theory exception: striated muscle

Answer 3

• Challenges idea that a cell has one nucleus
• Muscle cells have more than one nucleus per cell
• Muscle Cells called fibres can be very long (300mm)
• Surrounded by a single plasma membrane but they are multi-nucleated (many nuclei)
• Does not conform to the standard view of a small single nuclei within a cell

Question 4

Cell theory exception: aseptate fungal hyphae

Answer 4

• Challenges the idea that a cell is a single unit.
• Very large with many nuclei and a continuous cytoplasm
• Tubular system of hyphae form dense networks called mycelium
• Multi-nucleated
• Cell walls composed of chitin
• Cytoplasm is continuous along the hyphae with no end cell wall or membrane

Question 5

Cell theory exception: giant algae

Answer 5

• Single-celled organism challenges the idea that cells must be simple in structure and small in size
• Gigantic in size (5 – 100mm)
• Complex in form, consists of three anatomical parts:
  Bottom rhizoid (that resembles a set of short roots)
  Long stalk
  Top umbrella of branches that may fuse into a cap
• Single nucleus is located in the rhizoid

Question 6

Functions of life.

Answer 6

• Metabolism - web of all the enzyme-catalysed reactions in a cell or organism, e.g. respiration
• Response - living things can respond to and interact with the environment
• Homeostasis - maintenance and regulation of internal cell conditions, e.g. water and pH
• Growth - living things can grow or change size / shape
• Excretion – the removal of metabolic waste
• Reproduction - living things produce offspring, either sexually or asexually
• Nutrition – feeding by either the synthesis of organic molecules (e.g. photosynthesis) or the absorption of organic matter

Question 7

SA:Vol ratio

Answer 7

Larger SA;Vol ratio means the cell can act more efficiently: for every unit of volume that requires nutrients or produces waste, there is more membrane to serve it

Question 8

How do organisms maximise SA:Vol ratio?

Answer 8

• Cells divide
• Cells compartilise
• Organelles are made of membranes
• Some organs fold up
• Alveoli in lungs
• Roots are long and branched with root hairs

Question 9

What are emergent properties?

Answer 9

Emergent properties arise from the interaction of component parts. The whole is greater than the sum of its parts.

Question 10

Specialised cells.

Answer 10

• In humans 220 distinct highly specialised cell types have been recognised
• All specialised cells and the organs constructed from them have developed as a result of differentiation

Question 11

Stem cells.

Answer 11

Unspecialised cells that can:

• Continuously divide and replicate
• Have the capacity to differentiate into specialised cell types

Question 12

Define totipotent, pluripotent, multipotent and unipotent.

Answer 12

• Totipotent:
  Can differentiate into any type of cell.
• Pluripotent:
  Can differentiate into many types of cell.
• Multipotent:
  Can differentiate into a few closely-related types of cell.
• Unipotent:
  Can regenerate but can only differentiate into their associated cell type

Question 13

Stargardt’s macular dystrophy

Answer 13

Problem:
- Affects one in 10 000 children
- Recessive genetic condition
- Mutation causes an active transport protein on photoreceptor cells to malfunction
- Photoreceptor cells degenerate
- Production of a dysfunctional protein that cannot perform energy transport
- Causes progressive, eventually total loss of sight
Treatment:
- Embryonic stem cells treated to differentiate and become retinal cells
- Retinal cells injected into retina, attach to retina and become functional

Question 14

Leukemia

Answer 14

Problem:
Cancer of blood or bone marrow, resulting in abnormally high levels of poorly functioning white blood cells
Treatment:
- Hematopetic stem cells (HSCs) are harvested from bone marrow, peripheral blood or umbilical cord blood
- Chemotherapy and radiotherapy used to destroy diseased white blood cells
- New white blood cells need to be replaced with healthy cells
- HSCs transported back into the bone marrow
- HSCs differentiate to form new healthy white blood cells