Mutant Alleles: Dominance, Recessiveness, and Phenotypic Effects

The number of alleles present

The location of the gene on the chromosome

The effects of the mutation in a heterozygote

The size of the gene

Because enzymes are not essential for survival

Because heterozygotes produce enough enzyme to maintain normal function

Because enzymes are only active in homozygous individuals

Because mutations in enzymes are always lethal

By having a backup copy of the gene

By producing twice the normal amount of gene product

By producing half the normal amount of gene product, which is still sufficient

By not expressing the mutant allele at all

Enzymes are always produced in excess

Enzymes are only produced by dominant alleles

Enzymes can catalyze many reactions, so a small amount is sufficient

Enzymes are not involved in mutation classification

A mutation that results in the production of neurotoxic proteins

A mutation that is only expressed in homozygous individuals

A mutation that causes a loss of enzyme function

A mutation that does not affect phenotype at all

They are degraded quickly and do not accumulate

They accumulate and are neurotoxic, affecting phenotype

They have no effect on brain function

They enhance normal brain function

Because it does not affect phenotype at all

Because it only affects individuals with two mutant alleles

Because it affects phenotype even in the presence of a normal allele

Because it is located on a dominant chromosome

They are converted into normal peptides

They are degraded normally

They are beneficial to brain function

They accumulate and are not degraded