IB DP Biology Topic 2: Molecular biology 2.8 Cell respiration Question Bank HL Paper 2

Question

The electron micrograph shows part of a cell including a mitochondrion.

                                                             

(a) Outline how the structures labelled X and Y are adapted to carry out the function of the mitochondrion.    [2]

X:

Y:

(b) Explain how ATP is generated in mitochondria by chemiosmosis.    [4]

▶️Answer/Explanation

Ans

X: large/increased SA area for ATP production/electron transport/oxidative phosphorylation/proton pumping
OR
X: small/narrow intermembrane space for generating proton gradient (rapidly/steeply);
Y: contains enzymes for Krebs cycle/link reaction;


Question

The Chinese soft-shelled turtle, Pelodiscus sinensis, lives in salt water marshes. The turtle can live under water and out of water.

These turtles have fully developed lungs and kidneys, however, many microvilli have been discovered in the mouth of P. sinensis. A study was undertaken to test the hypothesis that oxygen uptake and urea excretion can simultaneously occur in the mouth.

Initial experiments involved collecting nitrogen excretion data from P. sinensis. The turtle urinates both in water and out of water. When in water it allows waste products to be washed out of its mouth. When out of water it regularly dips its head into shallow water to wash its mouth. The table shows the mean rates of ammonia and urea excretion from the mouth and kidney over six days.

It was noted that during long periods out of water, turtles rhythmically moved their mouths to take in water from a shallow source and then discharge it. Changes in the dissolved oxygen and the quantity of accumulated urea in the rinse water discharged by the turtles were monitored over time as shown in this graph.

In order to test whether a urea transporter was present in the mouth tissues of the turtles, phloretin (a known inhibitor of membrane proteins that transport urea) was added to the water in which a further set of turtles submerged their heads. The results of that treatment are shown.

Further research was conducted to determine where mRNA expression of a urea transporter gene might be occurring in P. sinensis. Gel electrophoresis was used to analyse different tissue samples for mRNA activity.

Expression of the urea transporter gene by cells in the turtle’s mouth was assessed by measuring mRNA activity. Turtles were kept out of water for 24 hours and then injected with either a salt solution that matched the salt concentration of the turtle, dissolved ammonia or urea, followed by another 24 hours out of water.

Deduce whether the excretion of ammonia or urea changes more when a turtle emerges from water.[2]

a.

Compare and contrast the changes in urea excretion in the mouth with the changes in urea excretion in the kidney when a turtle emerges from the water.[3]

b.

Describe the trends shown by the graph for dissolved oxygen in water discharged from the mouth.[1]

c.i.

Suggest reasons for these trends in dissolved oxygen.[2]

c.ii.

Deduce with a reason whether a urea transporter is present in the mouth of P. sinensis.[2]

d.

Outline the additional evidence provided by the gel electrophoresis results shown above.[2]

e.

Identify which of these turtle groups represent the control, giving a reason for your answer.[1]

f.i.

Suggest a reason for the greater expression of the gene for the urea transporter after an injection with dissolved ammonia than an injection of urea.[2]

f.ii.

The salt marshes where these turtles live periodically dry up to small pools. Discuss the problems that this will cause for nitrogen excretion in the turtles and how their behaviour might overcome the problems.[3]

g.
▶️Answer/Explanation

Markscheme

a. urea

b. for both mouth and kidney

c. percentage change/change in μmol day−1 g−1 greater with urea/other acceptable numerical comparison

a.

a. both higher/increased on emergence from/with turtle out of water

b. both increased by 0.66 «μmol−1 g−1 when turtle emerges from water»

c. % increase is higher in kidney / kidney 940% versus mouth 73/75% / increase is higher proportionately higher in kidney / kidney x10 versus mouth nearly double/x1.73

d. urea excretion by mouth greater than kidney out of water «despite larger % increase in kidney excretion»

b.

decrease «when head is submerged» and increase when head is out of water

c.i.

a. oxygen absorbed from water/exchanged for urea when head dipped in water«so oxygen concentration decreases»

b. lungs cannot be used with head in water / can «only» be used with head out of water

c. oxygen from water «in mouth» used in «aerobic cell» respiration

d. oxygen from air dissolves in water when head out of water «so oxygen concentration increases»

c.ii.

a. urea transporter is present

b. less urea «excreted»/ lower rate «of urea excretion» / excretion almost zero when phloretin/inhibitor was present

d.

a. mRNA only in mouth and tongue/in mouth and tongue but not esophagus intestine kidney or bladder

b. bands / lines indicate mRNA for/expression of urea transporter gene

c. urea transporter gene expressed / urea transporters in mouth/tongue / not expressed/made in esophagus/intestine/kidneys/bladder

d. mRNA/transcription/gene expression/urea transporters higher in tongue/more in tongue «than mouth»

e.

salt solution is control because it does not contain a nitrogenous/excretory waste product / it matches the salt concentration of the turtle / the turtle’s body already contains salt / because the turtle lives in salt water/salt marshes / because nothing has been altered

f.i.

a. ammonia is «highly» toxic/harmful

b. ammonia is more toxic than urea/converse

c. ammonia converted to urea

d. urea concentration raised «by injecting ammonia»

e. difference between ammonia and urea «possibly» not «statistically» significant

f.ii.

Problems:

a. urea becomes more concentrated «in small pools» / lower concentration gradient «between tongue/mouth and water»

b. less water available for urine production/excretion by kidney
OR
less water in ponds for mouth rinsing/more competition for pools (to use for mouth rinsing)

Behaviour to overcome problems:

c. «still able to» dip mouth into/mouth rinse in water/pools

d. «still able to» excrete urea «though the mouth» in the small pools

e. more conversion of ammonia to urea/urea excretion rather than ammonia

f. more urea transporters/expression of urea transporter gene

g. urea excreted «in mouth/via microvilli» by active transport/using ATP

h. excretion with little/no loss of water

 

Question

a. Outline the bonding between DNA nucleotides.[2]

b.Explain how chemical bonding between water molecules makes water a valuable coolant in living organisms.[2]

c.State a word equation for anaerobic cell respiration in humans.[1]

▶️Answer/Explanation

Ans:

a.hydrogen bonds between nucleotides on opposite strands/ complementary bases/adenine and thymine and cytosine and guanine;
(reject letters instead of base names)
covalent bonds between nucleotides within strands/between sugar/deoxyribose and phosphate;

b.hydrogen bonding between water molecules;
breaking (hydrogen bonds) needs/removes energy/heat;
hydrogen bonds must break when water evaporates/yaporizes;

c. pyruvate/pyruvic acid $\rightarrow$ lactate/lactic acid;
glucose $\rightarrow$ (pyruvate/pyruvic acid) $\rightarrow$ lactate/lactic acid;
Accept correct chemical equation with formulae.

 
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