Genes do not change, your DNA stays the same during your entire life. But when your grow older, the transcription from DNA to a certain characterestic might not be optimal any longer, which makes us look aged.
Older people can adapt to change the same as any one else.
The genes that are carried on the same chromosome are called as the linked genes.
Genes on the same chromosome are said to be linked.
by growing them or giving them same antimicrobial drug, bacteria tend to mutate or change their genes which helps them in resisting the drug and those genes also passes from one cell to another.
No, the two clones have the same genes.
No genes are "weaker" than any others, they are all made of the same stuff.
Older people can adapt to change the same as any one else.
The majority of older people are unable to adapt to change is false. They are able to adapt the same as young people.It is false that the majority of older people are unable to adapt to change. They can adapt the same as young people.
The genes that are carried on the same chromosome are called as the linked genes.
Same reason humans' hair changes color when they get older.
Genes on the same chromosome are said to be linked.
only twins have the same genes (all twins)
genes genes
by growing them or giving them same antimicrobial drug, bacteria tend to mutate or change their genes which helps them in resisting the drug and those genes also passes from one cell to another.
no, it has the exact same amount of genes as the original, and the genes are exactly the same
Evolution is the change in allele ( different molecular form of the same gene ) frequency over time in a population of organisms. Genes build bodies that vary and natural selection selects the best bodies built by those genes. The bodies that are better at reproduction and leaving this superior trait(s) on to offspring are selected. So, you could say that some genes are " better " than others at surviving and reproducing in the organism they reside in. Always considering the immediate environment that they reside in.
thethave purebred genes thethave purebred genes