If the DNA were to break at any other point, you could not replicate the bases. The bases must be split so that the proteins can run down the broken bases and complete them with the base that used to be attached.
If the DNA were to break at any other point, you could not replicate the bases. The bases must be split so that proteins can run down the broken bases and "complete" them with the base that used to be attached
It is important for the molecules to separate between the bases during the replication of double stranded DNA because they must be equally divided to ensure each contains all the needed information.
If the DNA were to break at any other point, you could not replicate the bases. The bases must be split so that the proteins can run down the broken bases and complete them with the base that used to be attached.
the hydrogen bonds between the nitrogen bases must be broken and the molecule must unwind.
Adenine and guanine molecules are two of the four nitrogenous bases that help make up the structure of DNA. They are also known as "purine" bases because they have a double ring structure. The purine bases are extremely important in DNA formation and they specifically pair up with the other two nitrogenous bases, known as the "pyrimidine" bases. Adenine molecules will always pair with thymine molecules and guanine molecules will always pair with cytosine.
Weak hydrogen bonds, which are polarized bonds (opposite charges), not the stronger covalent bonds where electrons are shared between two atoms in typical molecules. This makes it easy for DNA to separate for replication or protein synthesis.
DHISS DiKC
When the new bases are attached,two new DNA molecules are formed.
the hydrogen bonds between the nitrogen bases must be broken and the molecule must unwind.
At the hydrogen bonds between bases with the help of the enzyme helicase.
One of the bases of RNA is uracil while one of the bases of DNA is thymine.
Adenine and guanine molecules are two of the four nitrogenous bases that help make up the structure of DNA. They are also known as "purine" bases because they have a double ring structure. The purine bases are extremely important in DNA formation and they specifically pair up with the other two nitrogenous bases, known as the "pyrimidine" bases. Adenine molecules will always pair with thymine molecules and guanine molecules will always pair with cytosine.
Weak hydrogen bonds, which are polarized bonds (opposite charges), not the stronger covalent bonds where electrons are shared between two atoms in typical molecules. This makes it easy for DNA to separate for replication or protein synthesis.
yes it is
Nitrogenous bases are held together by hydrogen bonds, thus making them easier to separate during DNA replication.
No. Electrolytes are usually acids, bases, or salts. A lipid polymer is much larger and more complex then the aforementioned things.
A molecules
Complementary bases in DNA are held together via hydrogen bonds. Between G and C there are three hydrogen bonds and between A and T there are two hydrogen bonds.
DHISS DiKC
Depending on what "Strands" are it could be either Hydrogen bonding between complementary base pairs or Phosphate bonds between interlinking deoxyribose sugars