ESSENTIAL CELL BIOLOGY (LL)-TEXT
5th Edition
ISBN: 9780393680331
Author: ALBERTS
Publisher: NORTON
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Chapter 20, Problem 10Q
(a)
Summary Introduction
To predict: The given molecules that can pass through gap junctions.
Concept Introduction: Cells are interconnected and communicated through a protein channel called gap junction (in animals) and Plasmodesmata (in plants). Small molecules pass generously across the cell membrane to reach neighboring cells through these junctions. The protein channels mediate the transfer of chemical signals in the form of ions and molecules to neighboring cells. Exchange of these types of proteins is very helpful which acts as a chemical messenger to start or stop (regulate) cellular processes.
Gap junctions also function as the gateway for regulating the influx and efflux of molecules and change their structure according to block the flow of ion molecules whenever required. Gap junctions play an important role in regulating the permeability of the cell wall. Plasmodesmata are a structure that is found in the plants. They are the tiny channels or pores present in between two cells that connects them to transfer intracellular molecules with each other. They are the living bridges between cells and allow cellular communication within them by directly penetrating the primary and secondary cell wall.
(b)
Summary Introduction
To predict: The given molecules that can pass through Plasmodesmata
Concept Introduction: Cells are interconnected and communicated through a protein channel called gap junction (in animals) and Plasmodesmata (in plants). Small molecules pass generously across the cell membrane to reach neighboring cells through these junctions. The protein channels mediate the transfer of chemical signals in the form of ions and molecules to neighboring cells. Exchange of these types of proteins is very helpful which acts as a chemical messenger to start or stop (regulate) cellular processes.
Gap junctions also function as the gateway for regulating the influx and efflux of molecules and change their structure according to block the flow of ion molecules whenever required. Gap junctions play an important role in regulating the permeability of the cell wall. Plasmodesmata are a structure that is found in the plants. They are the tiny channels or pores present in between two cells that connects them to transfer intracellular molecules with each other. They are the living bridges between cells and allow cellular communication within them by directly penetrating the primary and secondary cell wall.
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9. Aerobic respiration of one lipid molecule. The lipid is composed of one glycerol molecule connected to two
fatty acid tails. One fatty acid is 12 carbons long and the other fatty acid is 18 carbons long in the figure
below. Use the information below to determine how much ATP will be produced from the glycerol part of
the lipid. Then, in part B, determine how much ATP is produced from the 2 fatty acids of the lipid. Finally
put the NADH and ATP yields together from the glycerol and fatty acids (part A and B) to determine your
total number of ATP produced per lipid. Assume no other carbon source is available.
18 carbons
fatty acids
12 carbons
9
glycerol
A. Glycerol is broken down to glyceraldehyde 3-phosphate, a glycolysis intermediate via the following
pathway shown in the figure below. Notice this process costs one ATP but generates one FADH2. Continue
generating ATP with glyceraldehyde-3-phosphate using the standard pathway and aerobic respiration.
glycerol
glycerol-3-
phosphate…
Normal dive (for diving humans)
normal
breathing
dive
normal
breathing
Oz level
CO2 level
urgent need
to breathe
Oz blackout zone
high CO2 triggers breathing
6. This diagram shows rates of oxygen depletion and carbon dioxide accumulation in the blood in
relation to the levels needed to maintain consciousness and trigger the urgent need to breathe in
diving humans.
How might the location and slope of the O₂ line differ for diving marine mammals such as
whales and dolphins?
•
How might the location and slope of the CO₂ line differ for diving marine mammals such as
whales and dolphins?
•
•
Draw in predicted lines for O2 and CO2, based on your reasoning above.
How might the location of the Urgent Need to Breathe line and the O2 Blackout Zone line
differ for diving marine mammals?
What physiological mechanisms account for each of these differences, resulting in the ability
of marine mammals to stay submerged for long periods of time?
Chapter 20 Solutions
ESSENTIAL CELL BIOLOGY (LL)-TEXT
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