Yes, because the %A approximately equals the %T and the %G approximately equals the %C in both species.
Does the distribution of bases follow Chargaff’s rules?-No, because %A is higher than %T, and %G is higher than %C in both species.-No, because %A + %T does not equal %G + %C in both species.-Yes, because the %A + %T is greater than the %G + %C in both species.-Yes, because the %A approximately equals the %T and the %G approximately equals the %C in both species.
This statement refers to the base pairing rule in DNA, where adenine (A) always pairs with thymine (T) and guanine (G) always pairs with cytosine (C). This rule is consistent across all species and is fundamental to the structure and function of DNA.
The statement suggests that the percentage of each base in a DNA sequence is roughly equal to its complementary base in the same sequence. For example, if a DNA sequence has 30% adenine, it would have approximately 30% thymine, and if it has 20% guanine, it would have approximately 20% cytosine.
This rule allows for the replication of DNA, where each strand serves as a template for the formation of a new strand that is complementary to it. This also allows for the accurate transmission of genetic information from one generation to the next.
Overall, the statement is accurate and reflects a fundamental aspect of DNA structure and function.
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