In RNA, the unique complementary base pairing is between adenine (A) and uracil (U), and between guanine (G) and cytosine (C).
In DNA, adenine pairs with thymine and cytosine pairs with guanine through hydrogen bonding. This complementary base pairing allows for accurate DNA replication during cell division.
Complementary base pairing in DNA replication ensures accurate copying of the genetic information. During replication, the enzyme DNA polymerase adds complementary nucleotides to the template strand based on the base pairing rules (A with T, C with G). This results in two identical daughter DNA molecules.
Although the base pairing between two strands of DNA in a DNA molecule can be thousands to millions of base pairs long, base pairing in an RNA molecule is limited to short stretches of nucleotides in the same molecule or between two RNA molecules.
No, complementary base pairing refers to the specific hydrogen bonding between bases in DNA (A pairs with T, G pairs with C). Complementary sugars do not refer to a specific pairing in the same way; sugars in DNA (deoxyribose) are the same for all nucleotides (A, T, C, G), while RNA (ribose) has a slightly different sugar structure.
Complementary. The base pairs in DNA always follow a specific pairing rule (A with T, and C with G), which means that the sequence of bases on one strand determines the sequence on the other, making them complementary.
In RNA, the unique complementary base pairing is between adenine (A) and uracil (U), and between cytosine (C) and guanine (G).
Why is complementary base pairing crucial for life?
Base pairing rules dictate that in DNA, adenine pairs with thymine (A-T) and cytosine pairs with guanine (C-G). These pairs are called complementary base pairs because they always bond together due to their specific chemical structures and hydrogen bonding capabilities. Together, these rules ensure the accurate replication and transcription of DNA.
They would be described as being complementary - as in complementary base pairing.
In DNA, adenine pairs with thymine and cytosine pairs with guanine through hydrogen bonding. This complementary base pairing allows for accurate DNA replication during cell division.
Complementary base pairing in genetics refers to the specific pairing of nucleotide bases in DNA molecules. Adenine pairs with thymine, and guanine pairs with cytosine. This pairing is essential for DNA replication and the transmission of genetic information.
The Complementary base pairing of DNA is A with T and C with G. In Rna, T is replaced with U.
i think it because the DNA replicates
Hydrogen bonding
Complementary base pairing in DNA replication ensures accurate copying of the genetic information. During replication, the enzyme DNA polymerase adds complementary nucleotides to the template strand based on the base pairing rules (A with T, C with G). This results in two identical daughter DNA molecules.
Complementary base pairing is the specific bonding between adenine and thymine, and between cytosine and guanine in DNA molecules. This pairing ensures that the two strands of DNA are held together in a stable double helix structure. The hydrogen bonds formed between the complementary base pairs contribute to the overall stability of the DNA molecule.
Complementary base pairing takes place between nucleotide molecules in DNA, specifically between adenine (A) and thymine (T), and between guanine (G) and cytosine (C).