Chapter 3 Cell Structures & Functions

Biology 12 Name: Cell Biology Per: Date: Chapter 3 – Cell Structures & Functions Complete using BC Biology 12, pages 62 - 107 3.1 The Cellular ...
Author: Gerard Ramsey
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Biology 12

Name:

Cell Biology

Per:

Date:

Chapter 3 – Cell Structures & Functions Complete using BC Biology 12, pages 62 - 107

3.1

The Cellular Level of Organization

pages 66 - 67

1. The macromolecules, such as carbohydrates and nucleic acids, discussed in the last chapter are not alive, yet the (a) (b) cell is alive. The cell is the and unit (c) of an organism. It is the smallest unit capable of performing all the functions necessary for 2. History of microscopy: name the scientist that made the following contributions to cell biology 1

Across 2

3. 5.

3

4

Down 1. 2. 4.

5

Concluded that all cells come from preexisting cells. Made some of the earliest microscopes.

Stated that plants are composed of cells. Stated that animals are made up of living units called cells. First used the term "cell" to refer to the honeycomb structure of cork observed in the microscope.

3. The cell theory is a basic theory of biology which states   4. Complete the following table. Cube side length

Surface Area (6s2)

Volume (l x w x h)

SA:V Ratio

1 cm 2 cm 3 cm 4 cm 5. Using the information from the table above, explain why humans are made up of trillions of small cells instead of just big one.

6. Why are there some cells that are much larger, even visible to the human eye, such as a chicken egg?

7. Give an example of a modification utilized by cells that specialize in absorption.

3.2

Eukaryotic Cells

8. All cells are surrounded by a (b) embedded with 9. Describe the composition of cytoplasm. 10. Define organelle:

pages 67 - 77 (a) (c)

consisting of a molecules.

11. Identify the organelles on the following diagram. Use Figure 3.3 on page 70 to help.

12. Match the functions of the organelles to their correct descriptions. cytoskeleton A. cellular respiration (production of energy) Golgi apparatus

B. shape of cell and movement of its parts

mitochondria

C. lipid synthesis, tasks vary depending on type of cell

nucleus

D. regulates molecule passage into and out of cells

peroxisomes

E. storage of substances

plasma membrane

F. folding, modification, and transport of proteins

ribosomes

G. processing, packaging and distribution of proteins and lipids

rough endoplasmic reticulum

H. various metabolic tasks

smooth endoplasmic reticulum I. protein synthesis vacuoles and vesicles

J. storage of genetic information; synthesis of DNA and RNAhe

Cytoskeleton

pages 77 - 80

13. Briefly describe the specific parts of the nucleus 

chromatin:



chromosomes:



nucleoplasm:



nucleolus:



nuclear envelope:

 nuclear pores: 14. Where in the cell are ribosomes found? 15. The endomembrane system consists of the:     16. How does the Golgi apparatus known whether the proteins made at the rough ER belong inside the cell or are to be transported out of the cell? 17. Name three functions of lysosomes.

18. Use Figure 3.7 on page 74 to identify the missing labels in the diagram below.

19. Where in the body do we have cells that contain high numbers of peroxisomes? 20. Contrast animal and plant cells (based on organelles or specific organelle functions). 

Unique to animal cells i. ii. iii.



Unique to plant cells i. ii. iii. 21. Plants have the process of

(a) (b)

which use solar energy to synthesize carbohydrates by . This process is described by the equation:

22. Label the chloroplast below with the terms: grana, stroma, and thylakoid

23. Many organisms carry on

which is performed within the . This process can be represented by the equation: (a)

(b)

24. Label the mitochondrion below with the terms: matrix and cristae

25. Compare the chloroplast and the mitochondria in the following table. Chloroplast A. Organelle with a double membrane B. Converts solar energy into carbohydrates C. Converts carbohydrates into ATP D. Found in plant cells E. Found in animal cells F. Smaller of the two organelles G. Contain a single circular DNA molecule and ribosomes H. Divide by splitting in two (similar to how bacteria reproduce) I. Thought to play a role in aging J. All come from the female parent

Mitochondria

3.3

The Cytoskeleton

pages 77 - 80

26. The cytoskeleton is often compared with the animal. However, the cytoskeleton is components can

and (c) , especially because its protein (d) as needed. (a)

27. The cytoskeleton contains three types of proteins. Identify them in the image below.

28. Compare the functions of each of the cytoskeleton components.  Actin filaments (microfilaments):



i. Interact with Intermediate filaments:



Microtubules:

motor molecules

i. Interact with and 29. What is the importance of the centrosome to cells? 30. Complete the table below. Use Figures 3.13 and 3.14 to help. Centrioles Microtubule pattern Cross-section drawing (make sure it is accurate)

Function

motor molecules

Cilia & Flagella

(b)

of an

3.4

Plasma Membrane Structure & Function

pages 81 - 82

31. Draw a basic cross section of a portion of a plasma membrane. Label the following items: A. carbohydrate chain D. glycoprotein G. integral protein B. cholesterol E. hydrophilic head H. peripheral protein C. glycolipid F. hydrophobic tail I. phospholipid

32. Match the following terms and descriptions. carbohydrate chain A. associated with only one side of the plasma membrane cholesterol B. span the membrane and can protrude from one or both sides glycolipid C. regulates the fluidity of the membrane glycoprotein D. can be attached to either the phospholipid heads or proteins integral protein E. protein molecule with a carbohydrate chain attached peripheral protein F. lipid molecule with a carbohydrates chain attached phospholipid G. primary component of the plasma membrane 33. Describe why the structure of the plasma membrane is described as a fluid-mosaic model.

34. Identify the FIVE types of integral proteins based on the diagrams below. Type: Function: Example:

Type: Function: Example:

Type: Function: Example:

Type: Function: Example:

Type: Function: Example:

3.5

The Permeability of the Plasma Membrane

pages 83 - 91

35. Why is the plasma membrane better referred to as selectively permeable rather than semi-permeable?

36. Energy is NOT required to transport molecules across the plasma membrane if they are…    Examples include: 37. Energy is required to transport molecules across the plasma membrane if they are…    Examples include: 38. While both involve movement from [high] to [low], what is the difference between diffusion and osmosis?

39. Compare the three states of tonicity that may affect a cell. Isotonic

Hypotonic

Hypertonic

Prefix Meaning Net movement of water (in, out or at equilibrium)

Drawing of an animal cell in a solution of this type

40. Are the following terms or descriptions related to isotonic (I), hypotonic (HO), or hypertonic (HE) solutions? A. crenation B. cytolysis C. turgor pressure D. plasmolysis E. 0.9% NaCl intravenous drip F. preserving meats by salting them G. keeping vegetables crisp by spraying them with distilled water

41. Biologically useful molecules are able to enter and exit the cell at a rapid rate because of proteins in the membrane. These proteins are believed to undergo a moves the molecule across the membrane. 42. Define the two categories of transport  facilitated: 

that

active:

43. Why are proteins involved in active transport often called “pumps”? 44. Vesicles must be used to move macromolecules across the plasma membrane. The process of moving large (a) while the process of moving substances substances out of the cell is called (b) into the cell is called . 45. Name the three ways large substances can enter a cell. Then briefly describe the process in terms of an area of the body where it occurs, or what substances are brought in this way, etc.

Description

Description

Description

Chapter 3 Review Questions 1. 3. 4. 5. 6. 7. 8.

pages 102 – 107 9. 10. 11. 12. 13. 15. 16.

17. 18. 19. 20. 21. 22. 23.

31. Only one possible answer for each (a) 32. (a) (g) (m)

(b) (h) (n)

(c) (i) (o)

35. 36. 37. 38. 40. Name all 3 45.

46. 50.

51. 52. 57. 58. Show your work

3:1 4:3 3:2

60. 61. 65. Hypotonic: 66. 67. 70.

(b)

Hypertonic:

(c) (d) (j) (p)

24. 25. 26. 27. 28. 29. 30. (d)

(e) (e) (k)

(f) (f) (l)

(g)

_

71. 72. Test tube 1 73. 74. 83. 84. 85.

Test tube 2

Test tube 3

* incorrect answer key, look at answer for #90 91.

Mark the review questions using the answer key on pages 527 – 530 Extra practice for QUIZ (will not be marked as part of this assignment). See how many of these organelles you know. Some are duplicated and there may be some that are hard to identify so just name as many as you can. A– B– C– D– E– F– G– H– I– J– KL– M– N– O– P– Q–