Mutations are inherited alterations in the DNA sequence
expanding nt repeats
mutations in which number of copies of a set of nt increases
Forward mutations
mutations that alter the wild-type phenotype
Huntington disease
nucleotide expands within the coding part of a gene producess toxic protein w extra glutamin residues increase in number of nt repeats
intergenic suppressor protein
\suppresses the effect of an earlier mutation made in another gene
somatic mutations
arise in somatic tissues which do not produce gametes divides in MITOSIS genetically identical cells earlier mutation, larger the clone
missense mutation
base substitution results in a different amino acid in the protein
gain of function mutation
causes cell to produce a protein or gene product whose function is not normally present
Germ line mutations
cells that ultimately produce gametes can be passed to future generations future generations get passed mutation in somatic and germ-line cells
silent mutation
changes a codon to a ynonymous codon that specifies an amino acid
nonsense mutation
changes a sense codon into a NONSENSE codon terminates translation if occurs early, result is nonfunctional protein
frame-shift mutations
changes in the reading frame of the gene cause by insertions and deletions
reverse mutations
changes mutant phenotype back to wildtype
loss of function mutation
complete or partial absence of normal protein function frequently recessive
FMR-1
expanding nt repeat mutation fragile-X syndrome: fragile sites tip of each long arm of X attached by slender part of chromosome CGG= repeeated site
conditional mutation
expressed only under certain conditions
mutation rates
frequency with which a wild-type allele at a locus changes into a mutant allele
indels
gene mutations containing insertions and deletions addition/removal of one or more nucleotide pairs
gene versus chromosome mutations
gene: single genes, only detected via observation of phenotypic effect Chromosome: affects structure , observed directly via microscope
suppressor mutation
genetic change that hides or suppresses the effect of another mutation occurs at a site distinct from site of original mutation DOUBLE MUTANT
in-frame insertions/deletions
indels not affecting reading frame when nt pair is added or removed
mutation
inherited change in genetic information: descendants may be cells or organisms
neutral mutation
missense mutation alters the amino acid sequence of a protein but does not significantly change function
lethal mutations
premature death
phenotypic effects can happen with silent mutations Y/N?
Hell yeah they can
Base substitutions
simplest gene mutation alteration of a single nt in the DNA
Gene mutation
small DNA lesion that affects a single gene
2 broad mutation categories of multicellular organisms
somatic and germline mutations
adaptive mutations
stressful environments can induce more mutations in bacteria
Intragenic suppressor mutation
suppresses the effect of an earlier mutation within the same gene
two types of base substitutions
transition: purine replaced by a different purine, or pyrimidine replaced by pyrimidine transversion: purine replaced by pyrimidine or pyrimidine replaced by a purine transversions twice the number of transitions BUT transitions arise more frequently
result of frame-shift mutations
usuaally alter all amino acids encoded by nucleotides following the mutation drastic effect on phenotype introduce premature stop codons
