Ch 5: DNA and Chromosomes

Question 1

What is one of the most important things that life depends on?

Answer 1

The stable storage, maintenance, and inheritance of genetic information

Question 2

General description of each DNA molecule

Answer 2

A double helix, composed of antiparallel complementary DNA strands, which are held together by hydrogen bonds between G-C and A-T base pairs

The nucleotide consists of a phosphate, a sugar, and a base

Question 3

How is the genetic material of a eukaryotic cell kept?

Answer 3

it is contained in a set of chromosomes, each from a single long strand of DNA molecule that contains many genes

Question 4

Besides genes, what must eukaryotic (linear) DNA contain?

Answer 4

• many replication origins
• one centromere
• two telomeres

Question 5

What do the centromeres and telomeres do?

Answer 5

they help ensure that each chromosome is duplicated efficiently, and can be separated out to the two daughter cells

Question 6

How is DNA folded?

Answer 6

It is tightly bound to histone and non-histone chromosomal proteins, this combination of DNA and protein is called chromatin

Histones pack the DNA into a repeating array of DNA protein particles called nucleosomes, which then associate with each other to form more compact chromatin structures

Cells can regulate their chromatin by temporarily condensing or decondensing particular regions

Question 7

What are the different types of chromatin and what do they do?

Answer 7

Heterochromatin packs DNA so tightly that gene expression is often turned off. It can spread along a chromosome, and it can be inherited from one daughter cell to the next, estabilshing heritable gene expression from one cell to the next

Euchromatin is less compact, and allows access to proteins involved in transcription

Question 8

cell cycle

Answer 8

the orderly sequence of events by which a cell duplicates it’s contents and divides into two

interphase: chromosomes are duplicated
mitosis: duplicated chromosomes are distributed to the daughter nuclei

Question 9

centromere

Answer 9

specialized DNA sequence that allows duplicated chromosomes to be separated during M phase; can be seen as the constricted region of a mitotic chromosome

Question 10

Chromatin

Answer 10

complex of DNA and proteins that makes up the chromosomes in a eukaryotic cell. The DNA carries the genetic information, the proteins package and control that information

Question 11

chromosome

Answer 11

long, threadlike structure composed of DNA and proteins that carries the genetic information of an organism. It becomes visible as a distinct entity when a plant or animal cells prepares to divide

Question 12

Epigenetic inheritance

Answer 12

the transmission of a heritable pattern of gene expression from one cell to it’s progeny that does not involve altering the nucleotide sequence of the DNA

Question 13

Gene

Answer 13

Unit of heredity that directs the production of a particular protein or functional RNA molecule. Includes introns

Question 14

Gene expression

Answer 14

The process by which a gene makes a product that is useful to the cell or organism by directing the synthesis of a protein or an RNA molecule with a characteristic activity

Question 15

Genetic code

Answer 15

set of rules by which the information contained in teh nucleotide sequence of a gene and its corresponding RNA molecule is translated into the amino acid sequence of a protein

Question 16

Genome

Answer 16

The total genetic information carried bya ll the chromosomes of a cell or organism.

In humans, the total number of nucleotide pairs in the 22 autosomes plus the X and Y chromosomes

Question 17

Heterochromatin

Answer 17

Highly condensed region of an interphase chromosome; generally gene-poor and transcriptionally inactive

Question 18

Histone

Answer 18

One small group of abundant, highly conserved proteins around which DNA wraps to form nucleosomes, structures that represent the most fundamental level of chromatin packing

Question 19

Karyotype

Answer 19

An ordered display of the full set of chromosomes of a cell, arranged with respect to size and number.

Each pair should have two copies that are the same size and shape. Translocations between chromosomes often result in cancer

Question 20

nucleolus

Answer 20

Large structure within the nucleus where ribosomal RNA is transcribed and ribosomal subunits are assembled

Question 21

nucleosome

Answer 21

bead-like structural unit of a eukaryotic chromosome composed of a short length of DNA wrapped around an octameric core (eight proteins) of histone proteins

Question 22

Replication origin

Answer 22

Nucleotide sequence at which DNA replication is initiated

Question 23

Telomere

Answer 23

repetitive nucleotide sequence that caps the ends of linear chromosomes. Counteracts the tendency of the chromosome to otherwise shorten with each replication

Question 24

Why is it important to study DNA and everything that interacts with it?

Answer 24

The biotech revolution started with the discovery of DNA structure. Pretty much anything that interacts with DNA is important to the biotech world

Question 25

What are all the key components within a nucleic acid?

Answer 25

1) phosphate backbone
2) sugar
3) base

Question 26

How do the different nucleotides bond?

Answer 26

When a helix forms, it is always the bonds between the base pairs that form the helix

The bond using hydrogen bonds: 2 bonds for A-T pairs, and 3 for G-C pairs, which means that it takes more energy to break apart strands with a high proportion of C-G pairs

Question 27

How does the length and the %CG concentration of the DNA affect the melting temperature?

Answer 27

longer strands and higher C-G concentrations mean they need a higher temperature to break apart. It scales almost linearly with more nucleotides

Question 28

What are the major and minor grooves in DNA?

Answer 28

They are the grooves where the base pairs of DNA are exposed. The proteins need to be able to get into contact with the base pairs in order to read the DNA

Question 29

How many chromosomes for human DNA?

Answer 29

Human DNA has 23 pairs of chromosomes: 22 autosomes plus the x and y chromosome

Question 30

What does a gene contain?

Answer 30

1) the exon: the part that becomes a protein
2) the intron: gets spliced out
3) regulatory sequences
4) “junk sequences” secquences that we are slowly figuring out, may contain regulatory sequences

Question 31

Explain an example of chromosome translocation

Answer 31

The Philadelphia Chromosome: causes leukemia, a blood cancer (especially B-cells). A translocation between chromosome 9 and 22.

ABL: when turned on, causes growth, so regulation of this gene is important

When ABL is translocated to be next to BCR, it loses it’s regulatory mechanism and starts uncontrollably expressing BCR, which leans to uncontrolled cell growth. (The BCR/ABL fusion gene)

Question 32

Kinase

Answer 32

takes ATP and transfers a phosphate group to another protein.

This has implications for treating things like BCR/ABL fusion, because blocking this mechanism of the BCR/ABL protein can stop it’s uncontrolled growth. However it has lots of side effects because it is not very specific, and lots of relapses

Question 33

When is chromosomal translocation most likely to happen?

Answer 33

During mitosis, because the genome is exposed for a long duration, and the extreme force needed to pull the chromosomes apart is most likely to cause breaks

Question 34

Euchromatin

Answer 34

less compact than heterochromatin
Contains the majority of the genes
Active and allows for transcription to occur

Question 35

What is an important mechanism for turning genes on an off?

Answer 35

Chromatin remodelling: transitions between chromatin states, generally requires ATP

Question 36

Histone codes

Answer 36

certain histone tails affect genes in specific ways (by promoting either DNA condensation or decondensation). Deciphering the histone code can help us figure out gene expression and regulation and epigenetics

Question 37

How many chromosomes does a normal human skin cell have? How many in a sperm or egg cell?

Answer 37

skin cell: 23 pairs
sperm or egg: 23

Question 38

Which sex chromosomes does a human egg cell have?

Answer 38

X chomosome

Question 39

What are somatic cells vs germ cells?

Answer 39

Somatic cell shave the full complement of chromosomes
germ cells (sprem/egg) do not have the full complement

Question 40

What elements of the genome are required for proper transmission of genetic information to the off-spring?

Answer 40

3 elements:
1) replication origin, telomere, centromere

Question 41

How does a genome evolve?

Answer 41

Mutations during gene replication may be selected during adaptation

Question 42

How is the DNA backbone formed?

Answer 42

The nucleotides in the chain are linked through sugars and phosphates, which form a backbone of alternating sugar-phosphate groups, which are held together by phosphodiester bonds linking the 5’ end to the 3’ end

Question 43

In their 1953 paper in the double-helical structure of DNA, Watson and Crick famously wrote: “It has not escaped our notice that the specific pairing we have postulated immediately suggests a possible copying mechanism of the genetic material.” What did they mean?

Answer 43

Each strand in a DNA double-helix contains all the information needed to produce a complementary partner strand

Question 44

When are chromosomes in their most compact form?

Answer 44

During mitosis: it creates chromosomes as discrete bodies that are relatively easy to separate and organize

Question 45

What is true about the association of histone proteins and DNA?

Answer 45

Histone proteins have a high proportion of positively charged amino acids, which bind tightly to teh negatively charged DNA backbone

Question 46

Where is heterochromatin not commonly located?

Answer 46

chromosomal regions carrying genes that encode ribosomal proteins. These genes are active in gene transcription, so are unlikely to be turned off by being tightly compacted into heterochromatin.