Why is a random mutation more likely to be deleterious than beneficial?

A mutation is a change in the DNA sequence of an organism's genome. These changes can occur spontaneously or be induced by environmental factors. Mutations can affect gene function, leading to alterations in phenotype. While some mutations may confer advantages, many are neutral or harmful, impacting the organism's survival and reproduction.

Natural selection is a fundamental mechanism of evolution, where organisms better adapted to their environment tend to survive and reproduce more successfully. Beneficial mutations may provide an advantage, but deleterious mutations can reduce fitness, making it less likely for those mutations to persist in a population. Over time, natural selection acts to eliminate harmful mutations.

Genetic variation refers to the diversity in gene frequencies within a population. It is essential for evolution and adaptation, as it provides the raw material for natural selection. Random mutations contribute to genetic variation, but most mutations do not enhance fitness. Consequently, the majority of mutations are more likely to be neutral or harmful, leading to a higher likelihood of deleterious effects.