Cellular and Molecular Biology (10%)

Question 1

The chief site of energy production in the cell

(A) Cell wall 
(B) Cell membrane 
(C) Nucleus 
(D) Mitochondrion
(E) Ribosome

Answer 1

(D) Mitochondrion

Question 2

The site of protein synthesis in the cell

(A) Cell wall 
(B) Cell membrane 
(C) Nucleus 
(D) Mitochondrion 
(E) Ribosome

Answer 2

(E) Ribosome

Question 3

All living cells have which of the following structures?

(A) Endoplasmic reticulum
(B) Nucleus 
(C) Plasma membrane
(D) Cilia 
(E) Vacuole

Answer 3

(C) Plasma membrane

Question 4

Which of the following is true about prokaryotic cells?

(A) They are generally larger than eukaryotic cells.
(B) Their DNA is single-stranded rather than double-stranded.
(C) They have a cell wall instead of a plasma membrane.
(D) Their chromosomes are typically circular rather than linear.
(E) They are multinucleated.

Answer 4

(D) Their chromosomes are typically circular rather than linear.

Question 5

Which of the following is a type of transport across cell membranes that goes against a concentration gradient and requires an input of energy?

(A) passive diffusion 
(B) facilitated diffusion 
(C) active transport
(D) osmosis 
(E) all of the above

Answer 5

(C) active transport

Question 6

A photosynthetic eukaryotic cell typically contains

(A) chloroplasts only
(B) mitochondria only
(C) both chloroplasts and mitochondria
(D) either chloroplasts or mitochondria, but never both at once
(E) neither chloroplasts nor mitochondria

Answer 6

(C) both chloroplasts and mitochondria

Question 7

What role does the enzyme DNA helicase play in DNA replication?

(A) builds new DNA strands 
(B) stabilizes template strand 
(C) creates a RNA copy of DNA 
(D) unwinds DNA double helix 
(E) creates protein coded from RNA

Answer 7

(D) unwinds DNA double helix

Question 8

What is the correct order of the “central dogma” of biochemistry?

(A) transcription, translation, replication
(B) replication, transcription, translation
(C) translation, transcription, replication
(D) replication, translation, transcription
(E) none of the above

Answer 8

(B) replication, transcription, translation

Question 9

Which of the following occurs during anaphase I of meiosis?

(A) The sister chromatids are pulled to opposite poles of the spindle.
(B) The spindle apparatus forms.
(C) The nuclear envelope disintegrates.
(D) The centromeres replicate.
(E) The homologous pairs of chromosomes separate.

Answer 9

(E) The homologous pairs of chromosomes separate.

Question 10

Enzymes are organic macromolecules that

(A) are synthesized in the nucleus
(B) are polymers of simple sugars
(C) function as catalysts in chemical reactions
(D) function as carriers of the genetic code
(E) are polymers of identical organic bases

Answer 10

(C) function as catalysts in chemical reactions

Question 11

The smallest and most basic unit of most organisms is a

(A) Organ
(B) Liver
(C) Cell
(D) Hair

Answer 11

(C) Cell

Question 12

This type of cell has no nucleus or other membrane-bound organelles. Their DNA is going to be a single circular chromosome and these are typically going to be unicellular organisms.

(A) Prokaryotic cells
(B) Eukaryotic cells

Answer 12

(A) Prokaryotic cells

Question 13

This type of cell is found in plants, fungi, and animals. They are going to have a nucleus as well as a number of other membrane-bound organelles. Their DNA is arranged into multiple chromosomes and this can encompass unicellular as well as multicellular organisms.

(A) Prokaryotic cells
(B) Eukaryotic cells

Answer 13

(B) Eukaryotic cells

Question 14

Eukaryotic plant cells contain _____: where photosynthesis takes place.

(A) Cytoplasm
(B) Mitochondria
(C) Chloroplasts
(D) Nucleus

Answer 14

(C) Chloroplasts

Question 15

This part of Eukaryotic cells metabolizes waste.

(A) Plasma membrane
(B) Vacuole
(C) Peroxisome
(D) Chromatin

Answer 15

(C) Peroxisome

Question 16

This part of Eukaryotic cells is the membrane enclosing the nucleus. Protein-lined pores allow material to move in and out.

(A) Chromatin
(B) Nuclear envelope
(C) Nucleolus
(D) Golgi apparatus

Answer 16

(B) Nuclear envelope

Question 17

This part of Eukaryotic cells is where ribosomes are formed.

(A) Chromatin
(B) Nuclear envelope
(C) Nucleolus
(D) Golgi apparatus

Answer 17

(C) Nucleolus

Question 18

This part of Eukaryotic cells makes secretory and membrane proteins (in its rough section), and makes lipids (in its smooth section).

(A) Lysosome
(B) Cytoplasm
(C) Endoplasmic reticulum
(D) Vacuole

Answer 18

(C) Endoplasmic reticulum

Question 19

This part of Eukaryotic cells digests food and waste materials.

(A) Lysosome
(B) Vacuole
(C) Chromatin
(D) Centrosome

Answer 19

(A) Lysosome

Question 20

This part of Eukaryotic cells contains DNA plus associated proteins.

(A) Lysosome
(B) Vacuole
(C) Chromatin
(D) Centrosome

Answer 20

(C) Chromatin

Question 21

This part of Eukaryotic plant cells is filled with cell sap that maintains pressure against the cell wall.

(A) Central Vacuole
(B) Cell wall
(C) Cytoskeleton
(D) Plastid

Answer 21

(A) Central Vacuole

Question 22

This part of a Eukaryotic plant cell maintains the cell’s shape.

(A) Plasma membrane
(B) Cell wall
(C) Cytoskeleton
(D) Golgi apparatus

Answer 22

(B) Cell wall

Question 23

This part of Eukaryotic cells modifies proteins.

(A) Plasma membrane
(B) Cell wall
(C) Cytoskeleton
(D) Golgi apparatus

Answer 23

(D) Golgi apparatus

Question 24

The cell membrane separates the cell from its environment, allowing for the interior environment of the cell to be very different from the exterior.

The three basic components are: A lipid bilayer, proteins, and carbohydrates.

(A) True
(B) False

Answer 24

(A) True

Question 25

Both prokaryotes, eukaryotic cells have a plasma membrane.

(A) True
(B) False

Answer 25

(A) True

Question 26

Simple diffusion, osmosis, or facilitated diffusion are all examples of what type of transport across cell membranes?

(A) passive transport
(B) active transport
(C) plasma transport
(D) all of the above

Answer 26

(A) passive transport

Question 27

_____ encompasses all types of energy transformation in cells; Photosynthesis, Respiration, Growth and Movement.

(A) Cellular metabolism
(B) active transport
(C) passive transport
(D) none of the above

Answer 27

(A) Cellular metabolism

Question 28

What type of metabolic pathway involves small molecules being assembled into larger ones (energy required)?

(A) Anabolic
(B) Catabolic
(C) none of the above

Answer 28

(A) Anabolic

Question 29

What type of metabolic pathway involves larger molecules being broken down into smaller ones (energy is released).

(A) Anabolic
(B) Catabolic
(C) none of the above

Answer 29

(B) Catabolic

Question 30

This is the primary energy currency in biological systems.

A) ADP (Adenosine diphosphate
(B) ATP (Adenosine triphosphate)

Answer 30

(B) ATP (Adenosine triphosphate)

Question 31

Photosynthesis takes place in cells with _____, a green pigment that can absorb light. Typically takes place in plants. Two phases; Light reaction and Dark reaction.

(A) Plasma membrane
(B) Cell wall
(C) Cytoskeleton
(D) Chlorophyll

Answer 31

(D) Chlorophyll

Question 32

Respiration takes place in ALL CELLS. Glucose is broken down to release energy (glycolysis). The two types of glycolysis are:

(A) Anaerobic and Aerobic
(B) ATP and ADP
(C) Single and Double-Bond
(D) B and C only

Answer 32

(A) Anaerobic (no oxygen) and Aerobic (with oxygen)

Question 33

A biopolymer that encodes all of the information needed to form a specific organism and produce proteins for functioning. Think of it as a blueprint for an organism, helping to produce the proteins for functioning.

(A) Primase
(B) Topoisomerase
(C) Deoxyribonucleic Acid (DNA)
(D) Ribonucleic Acid (RNA)

Answer 33

(C) Deoxyribonucleic Acid (DNA)

Question 34

In DNA Replication, this gene expression stage within the “central dogma” of biochemistry, is when an RNA (ribonucleic acid) copy of the DNA is made. (DNA -> RNA)

(A) Replication
(B) Transcription
(C) Translation

Answer 34

(B) Transcription

Question 35

In DNA Replication, this gene expression stage within the “central dogma” of biochemistry, is when the information contained in the RNA copy of the DNA is used to guide the creation of proteins. (RNA -> Protein)

(A) Replication
(B) Transcription
(C) Translation

Answer 35

(C) Translation

Question 36

The _____ of molecular biology explains the flow of genetic information, from DNA to RNA, to make a functional product, a protein?.

(A) Replication
(B) Transcription
(C) Translation
(D) Central dogma

Answer 36

(D) Central dogma

Question 37

The process by which the DNA instructions are converted into the functional product is called:

(A) Gene expression
(B) Cellular metabolism
(C) Transcription
(D) Translation

Answer 37

(A) Gene expression

Question 38

The process of cellular reproduction, where a copy of the cell’s “blueprint” needs to be made and passed on.

(A) Cell metabolism
(B) Cell division
(C) Mitosis
(D) Meiosis

Answer 38

(B) Cell division

Question 39

A sequence of events that ends with cell division and the creation of two daughter cells from a single parent cell.

(A) Cell metabolism
(B) Cell division
(C) Mitosis
(D) Meiosis

Answer 39

(C) Mitosis

Question 40

Takes place in eukaryotes. It reduces the chromosome number by half, resulting in 4 daughter cells (gametes) that are all genetically distinct from the parent cell as part of reproduction.

(A) Cell metabolism
(B) Cell division
(C) Mitosis
(D) Meiosis

Answer 40

(D) Meiosis

Question 41

In this Mitosis phase, chromosomes condense and become visible. Spindle fibers emerge from the centrosomes. Nuclear envelope breaks down. Nucleolus disappears.

(A) Prophase
(B) Prometaphase
(C) Metaphase
(D) Anaphase
(E) Telophase
(F) Cytokinesis

Answer 41

(A) Prophase

Question 42

In this Mitosis phase, chromosomes continue to condense. Kinetochores appear at the centromeres. Mitotic spindle microtubules attach to kinetochores. Centrosomes move toward opposite poles.

(A) Prophase
(B) Prometaphase
(C) Metaphase
(D) Anaphase
(E) Telophase
(F) Cytokinesis

Answer 42

(B) Prometaphase

Question 43

In this Mitosis phase, the mitotic spindle is fully developed, centrosomes are at opposite poles of the cell. Chromosomes are lined up at the metaphase plate. Each sister chromatid is attached to a spindle fiber originating from opposite poles.

(A) Prophase
(B) Prometaphase
(C) Metaphase
(D) Anaphase
(E) Telophase
(F) Cytokinesis

Answer 43

(C) Metaphase

Question 44

In this Mitosis phase, cohesion proteins binding the sister chromatids together break down. Sister chromatids (now called chromosomes) are pulled toward opposite poles. Non-kinetochore spindle fibers lengthen, elongating the cell.

(A) Prophase
(B) Prometaphase
(C) Metaphase
(D) Anaphase
(E) Telophase
(F) Cytokinesis

Answer 44

(D) Anaphase

Question 45

In this Mitosis phase, chromosomes arrive at opposite poles and begin to decondense. Nuclear envelope material surrounds each set of chromosomes. The mitotic spindle breaks down.

(A) Prophase
(B) Prometaphase
(C) Metaphase
(D) Anaphase
(E) Telophase
(F) Cytokinesis

Answer 45

(E) Telophase

Question 46

In this Mitosis phase, animal cells: a cleavage furrow separates the daughter cells. Plant cells: a cell plate separates the daughter cells.

(A) Prophase
(B) Prometaphase
(C) Metaphase
(D) Anaphase
(E) Telophase
(F) Cytokinesis

Answer 46

(F) Cytokinesis

Question 47

This describes the process of making chemical compounds like proteins and DNA by living things. Through anabolic processes, small molecules and building blocks can get built up into larger functional systems.

(A) Enzymes
(B) Biosynthesis
(C) Mitosis
(D) Anaphase

Answer 47

(B) Biosynthesis

Question 48

These are made primarily of protein and act as catalysts to help reactions take place in biological systems by lowering the activation energy, and therefore increasing the rate of reaction.

(A) Enzymes
(B) Lipids
(C) Liposomes
(D) Nuclei

Answer 48

(A) Enzymes