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Phosphate and sugar molecules
The backbone of a DNA chain is sugar and phosphate groups of each nucleotide.
The DNA molecule has two strands connected by a sugar phosphate backbone.
The sequence of subunits in the DNA backbone is phosphate, sugar, phosphate, sugar, phosphate, and sugar. The coding region is the code for protein sequence.
Sugar. The backbone of the DNA molecule is composed of ribose and phosphate, but the bases which make up the "rungs" of DNA are always connected to the sugar. The phosphate is used to bond the sugars together into long strings.
Deoxyribose sugar and phosphate group
Phosphate and sugar molecules
The backbone of the DNA molecule consists of a sugar, deoxyribose and a phosphate group. --(sugars and phosphates)
The backbone of a DNA chain is sugar and phosphate groups of each nucleotide.
The phosphate and deoxyribose in the backbone of DNA are constant throughout the molecule.
The uprights [backbone] of Dna is also known as its 'sugar-phosphate-backbone' - the sugar portion is the five-cyclic-carbon sugar Ribose.
The sugar-phosphate backbone of DNA is made up of deoxyribose (a sugar) and phosphate.
The DNA molecule has two strands connected by a sugar phosphate backbone.
The sugar found in the backbone of DNA is the deoxyribose.
The sequence of subunits in the DNA backbone is phosphate, sugar, phosphate, sugar, phosphate, and sugar. The coding region is the code for protein sequence.
Like DNA, the backbone of RNA consists of a sugar molecule and a phosphate group; the difference is that in RNA the sugar is ribose, whereas in DNA it's deoxyribose.
Components that form the backbone of DNA and RNA are the same: repeating units of a sugar and a phosphate. In case of DNA, sugar is deoxyribose and in case of RNA the sugar is ribose. Both of these molecules are very important in the filed of genetics.