Why is complementary base pairing so important in protein synthesis?

Why is complementary base pairing so important in protein synthesis?

Complementary base pairing is very important in maintaining the accuracy and stability of genetic information and the formed gene products. This ensures that both parent DNA strands can be used as templates to form new DNA molecules through complementary base pairing rules.

Why is complementary base pairing important in translation?

Complementary base pairing is very important in the conservation of the base sequence of DNA. This is because adenine always pairs up with thymine and guanine always pairs up with cytosine. Therefore, complementary base pairing has a big role in the conservation of the base sequence of DNA.

Why is complementary base pairing is necessary to maintain the double helix shape of the DNA molecule?

Complementary Base Pairs Because of the complementary nature of DNA, the bases on one strand determine the bases on the other strand. These complementary base pairs explain why the amounts of guanine and cytosine are present in equal amounts, as are the amounts of adenine and thymine.

Why is complementary base pairing important in DNA replication quizlet?

Complementary base pairing is important because the hydrogen bonds between the bases hold the two strands of DNA together and because it serves as a way for DNA to replicate.

What is meant by complementary base pairing and the significance of complementary base pairing in the conservation of the base sequence of DNA?

As DNA replication is semi-conservative (one old strand an d one new strand make up the new DNA molecules), this complementary base pairing allows the two DNA molecules to be identical to each other as they have the same base sequence.

What role does complementary base pairing play in the replication of DNA?

What role does complementary base pairing play in the replication of DNA? Complementary base pairing ensures that the two daughter molecules are exact copies of the parent molecule. DNA pol III covalently adds nucleotides to new DNA strands and proofreads each added nucleotide for correct base pairing.

Why is it so important that the base pairs are bonded by hydrogen bonds quizlet?

Why complementarity is an important feature of DNA and RNA structure and function?

Complementarity of DNA strands in a double helix make it possible to use one strand as a template to construct the other. This principle plays an important role in DNA replication, setting the foundation of heredity by explaining how genetic information can be passed down to the next generation.

How does complementary base pairing make DNA replication more efficient?

How does complementary base pairing make possible the replication of DNA? When the two strands of the double helix separate, each serves as a “mold” upon which nucleotides can be arranged by specific base pairing into new complementary strands.

Why is complementary base pairing important in DNA replication?

Complementary base pairing is important in DNA as it allows the base pairs to be arranged in the most energetically favourable way; it is essential in forming the helical structure of DNA. It is also important in replication as it allows semiconservative replication.

What is the complementary base pairing of adenine and cytosine?

Adenine pairs with thymine and cytosine with guanine. This complementary base pairing has several advantages for the organism. Complementary base pairing also makes it easier to check for mistakes in replication and repair. It also ensures he stability of the DNA structure by hydrogen-bonding of the nucleobases.

How is the genetic code translated into proteins?

The genetic code consists of the sequence of nitrogenous bases in the DNA. How the nitrogenous base code is translated to an amino acid sequence in a protein is the basis for protein synthesis. In order for protein synthesis to occur, several essential materials must be present.

Why do base pairs always pair with T?

Bases pair up in a totally predictable way across the double stranded DNA molecule: A always pairs with T, C always pairs with G. Why is this? Well you can see from the diagram above that A and T are held together by two weak bonds called Hydrogen (H) bonds, whereas C and G are held together by 3 H bonds.