1.3 Membrane structure

Outline how the amphipathic properties of phospholipids play a role in membrane structure.

Outline how the amphipathic properties of phospholipids play a role in membrane structure.

Outline how the amphipathic properties of phospholipids play a role in membrane structure.

The Davson-Danielli model of membrane structure was proposed in the 1930s. When electron micrographs of membranes were first produced, they were used as evidence for this model. The micrograph shows two adjacent membranes (indicated with arrows).

[Source: DENNIS KUNKEL MICROSCOPY/SCIENCE PHOTO LIBRARY.]

Explain how the appearance of membranes in electron micrographs was used as evidence to support the Davson-Danielli model.

The Davson-Danielli model of membrane structure was proposed in the 1930s. When electron micrographs of membranes were first produced, they were used as evidence for this model. The micrograph shows two adjacent membranes (indicated with arrows).

[Source: DENNIS KUNKEL MICROSCOPY/SCIENCE PHOTO LIBRARY.]

Explain how the appearance of membranes in electron micrographs was used as evidence to support the Davson-Danielli model.

The Davson-Danielli model of membrane structure was proposed in the 1930s. When electron micrographs of membranes were first produced, they were used as evidence for this model. The micrograph shows two adjacent membranes (indicated with arrows).

[Source: DENNIS KUNKEL MICROSCOPY/SCIENCE PHOTO LIBRARY.]

Explain how the appearance of membranes in electron micrographs was used as evidence to support the Davson-Danielli model.

Which feature(s) allow(s) transport of glucose in blood plasma?

I. It is hydrophobic.

II. It is polar.

III. Its solubility is low at 37 °C.

A. I only

B. II only

C. I and II only

D. II and III only

Draw a labelled diagram to show the fluid mosaic model of the plasma membrane.

Which feature(s) allow(s) transport of glucose in blood plasma?

I. It is hydrophobic.

II. It is polar.

III. Its solubility is low at 37 °C.

A. I only

B. II only

C. I and II only

D. II and III only

Draw a labelled diagram to show the fluid mosaic model of the plasma membrane.

Draw a labelled diagram to show the fluid mosaic model of the plasma membrane.

Draw a labelled diagram to show the fluid mosaic model of the plasma membrane.

Using the scale bar, calculate the magnification of the image.

Using the scale bar, calculate the magnification of the image.

Using the scale bar, calculate the magnification of the image.

Draw a labelled diagram to show the fluid mosaic model of the plasma membrane.

Draw a labelled diagram to show the fluid mosaic model of the plasma membrane.

Label the model B diagram to show a phospholipid.

Label the model B diagram to show a phospholipid.

Label the model B diagram to show a phospholipid.

Label the model A diagram to show a region of protein.

Label the model A diagram to show a region of protein.

Label the model A diagram to show a region of protein.

Scenedesmus is a microscopic, unicellular green alga. However, it often exists as multicellular colonies of cells.

[Source: www.mikro-foto.de 2010. Scenedesmus, a green algae. [image online] Available at:
https://commons.wikimedia.org/wiki/File:Mikrofoto.de-alge2.jpg [Accessed 13 January 2023]. Source adapted.]

The magnification of the image is 500×. What is the length of one cell?

A.  10 nm

B.  50 μm

C.  20 μm

D.  10 mm

Scenedesmus is a microscopic, unicellular green alga. However, it often exists as multicellular colonies of cells.

[Source: www.mikro-foto.de 2010. Scenedesmus, a green algae. [image online] Available at:
https://commons.wikimedia.org/wiki/File:Mikrofoto.de-alge2.jpg [Accessed 13 January 2023]. Source adapted.]

The magnification of the image is 500×. What is the length of one cell?

A.  10 nm

B.  50 μm

C.  20 μm

D.  10 mm

Draw an annotated diagram of the fluid mosaic model of membrane structure.

Draw an annotated diagram of the fluid mosaic model of membrane structure.

Draw an annotated diagram of the fluid mosaic model of membrane structure.

Outline how the amphipathic properties of phospholipids play a role in membrane structure.

The Davson–Danielli model of membrane structure proposed that membranes were composed of a phospholipid bilayer that lies between two layers of globular proteins, as shown in this diagram.

[Source: Cornell, B. 2016. https://ib.bioninja.com.au/standard-level/topic-1-cell-biology/13-membrane-structure/membrane-models.html]

What evidence supported this model?

A. An electron micrograph that showed two dark lines with a lighter band in between

B. Freeze-fracture electron microscopy

C. Evidence that all membranes are identical

D. The hydrophobic regions of protein would be in contact with water

Outline how the amphipathic properties of phospholipids play a role in membrane structure.

Outline how the amphipathic properties of phospholipids play a role in membrane structure.

The image shows part of a mammalian cell.

[Source: Louisa Howard, Katherine Connollly - Dartmouth Electron Microscope Facility. Available at:
https://en.wikipedia.org/wiki/File:Microvilli.jpg.] 

What is the specialized function of this mammalian cell?

A. Locomotion

B. Absorption

C. Reception of stimuli

D. Gas exchange

The Davson–Danielli model of membrane structure proposed that membranes were composed of a phospholipid bilayer that lies between two layers of globular proteins, as shown in this diagram.

[Source: Cornell, B. 2016. https://ib.bioninja.com.au/standard-level/topic-1-cell-biology/13-membrane-structure/membrane-models.html]

What evidence supported this model?

A. An electron micrograph that showed two dark lines with a lighter band in between

B. Freeze-fracture electron microscopy

C. Evidence that all membranes are identical

D. The hydrophobic regions of protein would be in contact with water

The image shows part of a mammalian cell.

[Source: Louisa Howard, Katherine Connollly - Dartmouth Electron Microscope Facility. Available at:
https://en.wikipedia.org/wiki/File:Microvilli.jpg.] 

What is the specialized function of this mammalian cell?

A. Locomotion

B. Absorption

C. Reception of stimuli

D. Gas exchange

Outline four different processes, with examples, that allow substances to pass through the plasma membrane.

Annotate the diagram to illustrate the amphipathic nature of phospholipids.

Outline four different processes, with examples, that allow substances to pass through the plasma membrane.

Outline four different processes, with examples, that allow substances to pass through the plasma membrane.

In 1925, Gorter and Grendel carried out an experiment to study the structure of cell membranes in different mammals. The total surface area of red blood cells was measured in a sample and compared to the surface area formed by a single layer of lipid extracted from cell membranes and floated on water.

Which diagram best illustrates Gorter and Grendel’s conclusion drawn from this experiment?

[Source: Gorter, E. and Grendel, F., 1925. On bimolecular layers of lipoids on the chromocytes of the blood. Journal of Experimental Medicine 41(4), pp. 439–443.]

Annotate the diagram to illustrate the amphipathic nature of phospholipids.

In 1925, Gorter and Grendel carried out an experiment to study the structure of cell membranes in different mammals. The total surface area of red blood cells was measured in a sample and compared to the surface area formed by a single layer of lipid extracted from cell membranes and floated on water.

Which diagram best illustrates Gorter and Grendel’s conclusion drawn from this experiment?

[Source: Gorter, E. and Grendel, F., 1925. On bimolecular layers of lipoids on the chromocytes of the blood. Journal of Experimental Medicine 41(4), pp. 439–443.]

Annotate the diagram to illustrate the amphipathic nature of phospholipids.