The gene will code for a different protein than it should.
The gene will code for a different protein than it should.
The gene will code for a different protein than it should.
The gene will code for a different protein than it should.
the mutation may occur in a non-coding region of the gene, resulting in no change to the protein produced. Additionally, the mutation may be silent, meaning it does not alter the amino acid sequence of the protein. In some cases, the organism may have redundant genes that compensate for the mutation, allowing it to function normally.
The gene will code for a different protein than it should.
a gene is passed on from generations and a chromosome is just found in certain cells
A mutation in a gene can alter the functioning of the protein it codes for, leading to changes in the trait expressed by the organism. This can result in new traits, loss of function, or altered function of the protein, impacting the organism's phenotype.
The gene will code for a different protein than it should.
A regulatory mutation is one that occurs in the promoter or operator region of a gene or set of genes and affects the expression of the downstream genes without affecting the amino acid sequences of the gene products.
A mutation that occurs within a gene is known as a gene mutation. This type of mutation can involve changes in the DNA sequence, such as substitutions, insertions, or deletions of nucleotides. These alterations can affect the protein encoded by the gene, potentially altering its function, stability, or expression levels. Depending on the nature of the mutation, it may lead to neutral, beneficial, or harmful effects on the organism.
When a mutation occurs outside a gene, it is referred to as a "regulatory mutation" or "non-coding mutation." These mutations can affect gene expression by altering regulatory elements such as promoters, enhancers, or silencers, which control when and how much a gene is expressed. Although they do not change the protein-coding sequence, they can still have significant effects on an organism's phenotype.
b: the organism, but not its offspring