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What are the bonds that join the DNA sides?
The bonds that join the DNA sides are called hydrogen bonds. These bonds form between complementary base pairs (adenine with thymine, and guanine with cytosine) on the two strands of the DNA double helix. This hydrogen bonding is essential for maintaining the structure and stability of the DNA molecule.
What type of chemical bond is found between the strands of a DNA molecule?
Hydrogen bonds are the type of chemical bonds found between the strands of a DNA molecule. These bonds form between complementary nitrogenous bases, such as adenine and thymine, and guanine and cytosine.
Two hydrogen bonds connect adenine to this in the DNA molecule?
Thymine. Two hydrogen bonds connect adenine to thymine in the DNA molecule.
What type of bonds hold the bases together in a molecule of DNA?
Hydrogen bonds (two between adenine and thymine, and three between guanine and cytosine).
What type of the enzyme that cuts the bonds of DNA molecule at the origin of replication?
The enzyme that cuts the bonds of DNA at the origin of replication is called DNA helicase. DNA helicase plays a key role in unwinding the double helix structure of DNA so that it can be replicated.
What are the bonds that join the DNA sides?
The bonds that join the DNA sides are called hydrogen bonds. These bonds form between complementary base pairs (adenine with thymine, and guanine with cytosine) on the two strands of the DNA double helix. This hydrogen bonding is essential for maintaining the structure and stability of the DNA molecule.
What type of chemical bonds is found between the strands of the DNA molecule?
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What type of bonds join the sub units of the nucleic acids?
Phosphodiester bonds join the subunits of nucleic acids, which are nucleotides. These bonds are formed between the phosphate group of one nucleotide and the sugar molecule of another nucleotide in the DNA or RNA strand.
What type of chemical bond is found between the strands of a DNA molecule?
Hydrogen bonds are the type of chemical bonds found between the strands of a DNA molecule. These bonds form between complementary nitrogenous bases, such as adenine and thymine, and guanine and cytosine.
Do covalent bonds join DNA sugar phosphate backbones?
Yes, the sugar and phosphate that make up the DNA backbone are joined together with covalent bonds. These bonds are stronger than the hydrogen bonds which join the bases from different strands together.
How is a DNA molecule held together and separated by?
A DNA molecule is held together by its hydrogen bonds. The bonds are in between the bases of the molecule, for example cytosine and guanine. Because hydrogen bonds are weak, they are able to break apart easily and split when the molecule needs to be separated to bond with another DNA molecule for reproduction.
Two hydrogen bonds connect adenine to this in the DNA molecule?
Thymine. Two hydrogen bonds connect adenine to thymine in the DNA molecule.
What type of bond connects the nitrogenous bases to each other in a molceule of DNA?
Hydrogen bonds connect the nitrogenous bases in a molecule of DNA. These bonds are relatively weak but crucial for maintaining the structure of the DNA double helix.
What type of bonds hold the bases together in a molecule of DNA?
Hydrogen bonds (two between adenine and thymine, and three between guanine and cytosine).
Where are covalent bonds located in a DNA molecule?
Covalent bonds in a DNA molecule are located in the sugar-phosphate backbone that runs along the sides of the molecule. These covalent bonds link the phosphate group of one nucleotide to the sugar group of the next nucleotide, creating a strong and stable backbone for the DNA molecule.
The DNA molecule has both strong bonds and weak bonds which hold the molecule together. is this true or false?
True
If all the hydrogen bonds in a DNA molecule were to break what would happen?
If all the hydrogen bonds in a DNA molecule were to break, the two strands of the DNA molecule would separate. This process is known as denaturation. The DNA molecule would no longer be able to function properly for processes such as replication or transcription.
