Genetics

Unlinked genes ratio

1:1:1:1

You are following two X-linked genes in a two-factor cross using Drosophila. If the genes assort independently, an F1 dihybrid female should produce _blank_.

1:1:1:1

DNA polymerase moves

3 to 5 on template

Lagging strand direction

3-5

Purines

Adenine and Guanine

A mutation that changes wild type allele to new allele

Forward mutation

Mutations are heritable if they occur in

Germ line cells

an enzyme that unwinds the double helix.

Helicase

Formation of new genetic combinations by exchange of parts of homologs

Recombination

SCOs

Single Cross Over

Structure formed at spot where crossing over occurs between homologs

chiasma

Pyrimidines

cytosine, thymine, uracil

Recombination frequency for linked genes

less than 50%

Bacteria have how many origins of replication?

one

A chemical agent is being assayed for mutagenicity using the Ames test. This agent would be judged to be a mutagen if the number of bacterial colonies on the test plate is______.

significantly higher than that of the control plate

DNA polymerase needs how many dNTP

4

DNA polymerase adds nucleotides in the direction

5 to 3 of new strand

Leading strand direction

5' to 3'

recombination frequency for unlinked genes

50%

what phenotypic ratio should the offspring of a two-factor cross between two dihybrids show, assuming that the two genes control different traits?

9:3:3:1

Transversion mutation

A point mutation in which a pyrimidine is substitued for a purine, or vice versa.

Ames test

A procedure using bacteria to identify potential carcinogens

PolyQ base pair repeat

CAG

Protein that binds to origin of replication and calls helicase

Initiator protein

On crossover along a chromosome makes a second unlikely

Interference

an enzyme that forms phosphodiester bonds between DNA fragments.

Ligase

Linked genes

Parental > Recombinants

a short, preexisting DNA oligonucleotide or RNA molecule to which nucleotides can be added by DNA polymerase.

RNA primer

covalent linkage between adjacent thymine residues in DNA that can cause mutation.

Thymine dimers

Point mutation examples

Transversion, insertion, transition, deletion

Thymine dimers are caused by

UV radiation

Point mutations

gene mutations involving changes in one or a few nucleotides

DNA is negatively charged because of

the phosphate backbone of DNA is negatively charged

Complementation

the process in which heterozygosity for loss-of-function mutant recessive alleles for two different genes produces a normal phenotype.

transition substitution

when a purine is replaced with a purine or a pyrimidine is replaced with another pyrimidine