Chapter 11: Mechanisms of Microbial Genetics

Question 1

Gene Expression

Answer 1

The synthesis of a specific protein with a sequence of amino acids that is encoded in the gene.

Question 2

Central Dogma

Answer 2

States that DNA encodes messenger RNA, which, in turn, encodes protein.

Question 3

Semiconservative Replication

Answer 3

The two strands of the double helix separate during DNA replication, and each strand serves as a template from which the new complementary strand is copied.

Question 4

DNA pol III

Answer 4

Adds deoxyribonucleotides each complementary to a nucleotide on the template strand, one by one to the 3’-OH group of the growing DNA chain.

Question 5

DNA Gyrase/Topoisomerase II

Answer 5

Relaxes supercoiled chromosome to make DNA more accessible for the initiation of replication; helps relieve the stress of DNA when unwinding, by causing breaks and then resealing the DNA.

Question 6

Helicase

Answer 6

Opens the DNA helix by breaking hydrogen bonds between the nitrogenous bases.

Question 7

Primer

Answer 7

An RNA sequence 5-10 nucleotides long and complementary to the parental or template DNA that provides the free 3’OH end for DNA pol III.

Question 8

RNA Polymerases

Answer 8

Do not need a free 3’-OH group to synthesize an RNA molecule.

Question 9

Leading Strand

Answer 9

The continuously synthesized strand.

Question 10

Okazaki Fragments

Answer 10

Small DNA fragments each separated by RNA primers.

Question 11

Lagging Strand

Answer 11

The discontinuous strand with the Okazaki fragments.

Question 12

Sliding Clamp

Answer 12

A ring-shaped protein that holds the DNA polymerase in place as it continues to add nucleotides.

Question 13

Topoisomerase

Answer 13

Prevents the overwinding of the DNA double helix ahead of the replication fork as the DNA is opening up; it does so by causing temporary nicks in the DNA helix and then resealing it.

Question 14

DNA pol I

Answer 14

Exonuclease activity removes RNA primer and replaces it with newly synthesized DNA.

Question 15

DNA Ligase

Answer 15

Seals the gaps between the Okazaki fragments on the lagging strand to create one continuous DNA strand.

Question 16

DNA pol II

Question 17

Single-Stranded Binding Proteins

Answer 17

Bind to single-stranded DNA to prevent hydrogen bonding between DNA strands, reforming double-stranded DNA.

Question 18

Topoisomerase IV

Answer 18

Introduces single-stranded break into concatenated chromosomes to release them from each other, and then reseals the DNA.

Question 19

Translation/Protein Synthesis

Answer 19

The second part of gene expression, involves the decoding by a ribosome of an mRNA message into a polypeptide product.

Question 20

Protein Sequence

Answer 20

Consists of 20 commonly occurring amino acids.

Question 21

Codon

Answer 21

A triplet of nucleotides that makes up each amino acids within the mRNA.

Question 22

Genetic Code

Answer 22

The relationship between an mRNA codon and its corresponding amino acid.

Question 23

Degeneracy

Answer 23

The number of possible three-nucleotide combinations is greater than the number of amino acids and a given amino acid is encoded by more than one codon; this causing a redundancy in the genetic code.

Question 24

Wobble Position

Answer 24

The third position in a codon.

Question 25

Reading Frame

Answer 25

The way nucleotides in mRNA are grouped into codons.

Question 26

Polyribosome

Answer 26

The complete structure containing an mRNA with multiple associated ribosomes.

Question 27

Anticodon

Answer 27

A three-nucleotide sequence that bonds with an mRNA codon through complementary base pairing.

Question 28

A (aminoacyl) Site

Answer 28

Binds incoming charged aminoacyl tRNAs.

Question 29

P (peptidyl) Site

Answer 29

Binds charged tRNAs carrying amino acids that have formed peptide bonds with the growing polypeptide chain but have not yet dissociated from their corresponding tRNA.

Question 30

E (exit) Site

Answer 30

Releases dissociated tRNAs so that they can be recharged with free amino acids.

Question 31

Peptidyl Transferase

Answer 31

An RNA-based ribozyme that is integrated into the 50S ribosomal subunit; helps with the formation of each peptide bond during the elongation step of translation.

Question 32

Structural Genes

Answer 32

Encode products that serve as cellular structures or enzymes.

Question 33

Regulatory Genes

Answer 33

Encode products that regulate gene expression.

Question 34

Regulatory Region

Answer 34

Includes the promotor and the region surrounding the promotor, to which transcription factors can bind.

Question 35

Transcription Factors

Answer 35

Proteins encoded by regulatory genes.

Question 36

Repressor

Answer 36

Transcription factor that suppresses transcription of a gene in response to an external stimulus by binding to a DNA sequence within the regulatory region called the operator.

Question 37

Activator

Answer 37

A transcription factor that increases the transcription of a gene in response to an external stimulus by facilitating RNA polymerase binding to the promotor.

Question 38

Inducer

Answer 38

A small molecule that either activates or represses transcription by interacting with a repressor or an activator.

Question 39

Constitutively Expressed

Answer 39

Are transcribed and translated continuously to provide the cell with constant intermediate levels of the protein products.

Question 40

Repressible Operons

Answer 40

Typically contain genes encoding enzymes required for a biosynthetic pathway.

Question 41

Inducible Operons

Answer 41

Contain genes encoding enzymes in a pathway involved in the metabolism of a specific substrate like lactose.

Question 42

Regulon

Answer 42

A group of operons all controlled simultaneously.

Question 43

Alarmones

Answer 43

Small intercellular nucleotide derivatives; change which genes are expressed and stimulate the expression of specific stress-response genes.

Question 44

Attenuation

Answer 44

Secondary stem-loop structures formed within the 5’ end of an mRNA being transcribed determine if transcription to complete the synthesis of the mRNA will occur and if this mRNA will be used for translation.

Question 45

Mutation

Answer 45

A heritable change in the DNA sequence of an organism.

Question 46

Point Mutation

Answer 46

Affects a single base and most commonly occurs when one base is substituted or replaced by another.

Question 47

Insertion

Answer 47

A mutation resulting from the addition of one or more bases.

Question 48

Deletion

Answer 48

A mutation resulting from the removal of one or more bases.

Question 49

Silent Mutation

Answer 49

A change that has no effect on the protein’s structure.

Question 50

Missense Mutation

Answer 50

Results in a different amino acid being incorporated into the resulting polypeptide.

Question 51

Conditional Mutations

Answer 51

When the effects of missense mutations may be only apparent under certain environmental conditions.

Question 52

Nonsense Mutation

Answer 52

Converts a codon encoding an amino acid (a sense codon) into a stop codon (a nonsense codon).

Question 53

Frameshift Mutations

Answer 53

Cause by insertions or deletions of a number of nucleotides that are not a multiple of three.