Peter Jinsol KIm
Deoxyribonucleic Acid
The sugar component in DNA is deoxyribose, hence the name deoxyribonucleic acid. This sugar molecule forms the backbone of the DNA double helix structure.
DNA derives its name from its chemical structure, which is called deoxyribonucleic acid. The "deoxyribo-" part refers to the sugar molecule in its structure, while "nucleic acid" indicates its role in storing genetic information.
The structure of a DNA molecule is made up of three things: a sugar-phosphate backbone, nucleotide bases (adenine, thymine, cytosine, and guanine), and hydrogen bonds that form between the bases. These components form the double helix shape of the DNA molecule.
a DNA molecule is made up of a phosphate, sugar and base A double Helix Strand
Deoxyribose is a sugar molecule that forms the backbone of DNA. It helps to stabilize the structure of the DNA molecule and plays a crucial role in storing and transmitting genetic information.
DNA contains deoxyribose sugar. This sugar contributes to the structure of the DNA molecule by forming the backbone of the double helix structure. It also plays a role in stabilizing the molecule and facilitating the pairing of complementary nucleotide bases, which is essential for DNA replication and protein synthesis.
Yes, deoxyribose is present in DNA. It is a sugar molecule that forms the backbone of the DNA structure. Deoxyribose helps to stabilize the DNA molecule and provides a framework for the attachment of the nitrogenous bases, which are essential for encoding genetic information.
Deoxyribose is a sugar molecule that forms the backbone of DNA, while ribose is the sugar molecule in RNA. Deoxyribose helps to provide stability and structure to the DNA molecule by connecting with phosphate groups to form the sugar-phosphate backbone. In RNA, ribose plays a similar role in providing structure to the molecule.
James Watson and Francis Crick elucidated the structure of DNA.
No, DNA is a double-stranded molecule consisting of two strands that are twisted together in a helical structure.
In the structure of DNA, a phosphate base is connected to a sugar molecule through a covalent bond. This bond forms the backbone of the DNA molecule, with the phosphate-sugar backbone providing stability and structure to the double helix shape of DNA.