Date | November 2018 | Marks available | 1 | Reference code | 18N.1.SL.TZ0.4 |
Level | Standard level | Paper | Paper 1 | Time zone | TZ0 / no time zone |
Command term | Identify | Question number | 4 | Adapted from | N/A |
Question
What part of the plasma membrane is fluid, allowing the movement of proteins in accordance with the fluid mosaic model?
Markscheme
B
Examiners report
Syllabus sections
- 22M.1.HL.TZ2.3: Which plasma membrane is the least fluid at high temperatures?
- 21N.1.SL.TZ0.2: Which features of phospholipids give them their amphipathic properties? A. Basic phosphate...
- 16N.1.SL.TZ0.3: The cell membrane model proposed by Davson–Danielli was a phospholipid bilayer sandwiched...
- 18M.1.SL.TZ2.3: Which molecule regulates the fluidity of cell membranes? A. Phospholipid B. Cholesterol C....
- 22M.1.SL.TZ1.2: More than 90 % of cellular cholesterol is located in the cell’s plasma membrane. What is the...
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19M.3.SL.TZ2.1b.ii:
Label the model B diagram to show a phospholipid.
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22M.1.HL.TZ2.5:
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
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21N.1.SL.TZ0.1:
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
- 19N.2.SL.TZ0.5a: Draw a section of the Singer-Nicolson model of an animal cell membrane.
- 19M.3.SL.TZ2.1d: State one technological improvement, other than enzymatic digestion, that led to the...
- 17M.1.SL.TZ2.3: What is a role of cholesterol in animal cells? A. It increases body fat. B. It controls...
- 17M.1.HL.TZ1.2: Which evidence falsifies the Davson–Danielli model? I. The presence of globular proteins...
- 17M.1.SL.TZ2.27: The bacterium Neisseria gonorrhoeae causes infections related to the human reproductive...
- 17N.1.SL.TZ0.05: In the diagram, which part of the membrane structure does the molecule below form?
- 19N.2.HL.TZ0.4a.i: State the property of amphipathic phospholipids that enables them to form a bilayer.
- 17M.1.SL.TZ1.21: Cladograms can be created by comparing DNA or protein sequences. The cladogram on the left is...
- 21M.1.SL.TZ2.3: What special property of phospholipid molecules explains their ability to spontaneously...
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22M.2.SL.TZ2.4b:
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.
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22M.2.HL.TZ2.8a:
Outline four different processes, with examples, that allow substances to pass through the plasma membrane.
- 20N.2.HL.TZ0.2a.ii: State the role of cholesterol in animal cell membranes.
- 19M.3.SL.TZ1.1b: Explain how electron micrographs such as this helped to falsify the Davson–Danielli model of...
- 21M.1.SL.TZ1.6: Which statement applies to cholesterol? A. It is hydrophobic and found on the outside of the...
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20N.2.HL.TZ0.2a.i:
Outline how the amphipathic properties of phospholipids play a role in membrane structure.
- 17N.1.SL.TZ0.04: In the diagram, which structure is an intrinsic or integral protein?
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19M.3.SL.TZ1.1a:
Using the scale bar, calculate the magnification of the image.
- 17M.2.HL.TZ1.1f.ii: Suggest a reason for the greater expression of the gene for the urea transporter after an...
- 17M.2.HL.TZ1.5b: Outline four different functions of membrane proteins.
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18M.2.HL.TZ1.6a:
Draw a labelled diagram to show the fluid mosaic model of the plasma membrane.
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20N.2.SL.TZ0.3a:
Outline how the amphipathic properties of phospholipids play a role in membrane structure.
- 17M.2.SL.TZ1.1c: Estimate how much smaller drilled oysters raised in seawater at a high CO2 concentration were...
- 18M.2.HL.TZ2.5a: Discuss alternative models of membrane structure including evidence for or against each model.
- 19M.3.SL.TZ2.1a: State the scientists who proposed model A.
- 19M.3.SL.TZ1.1c: Explain how the amphipathic nature of phospholipids allows them to form bilayers.
- 19M.1.HL.TZ1.3: Which is an essential feature of the Davson–Danielli model of membrane structure? A. A...
- 19M.2.SL.TZ1.7b: Describe the functions of proteins in cell membranes.
- 19M.2.HL.TZ1.5c: Explain how hydrophobic and hydrophilic properties contribute to the arrangement of molecules...
- 19M.3.SL.TZ2.1c.i: Deduce one conclusion about the structure of the plasma membrane reached by the scientists...
- 19M.3.SL.TZ2.1c.ii: Suggest one reason for maintaining a pH of 7.5 throughout the experiment.
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18M.2.SL.TZ1.5a:
Draw a labelled diagram to show the fluid mosaic model of the plasma membrane.
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18M.2.SL.TZ2.5a:
Draw an annotated diagram of the fluid mosaic model of membrane structure.
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21M.1.SL.TZ1.3:
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
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19M.3.SL.TZ2.1b.i:
Label the model A diagram to show a region of protein.