and the sugar-phosphate backbone is described as extending, or growing, in the 5' to 3' direction when the molecule is synthesized. In double-stranded DNA, the molecular double-helix shape is ...

The double-stranded DNA that results from this pattern of bonding looks much like a ladder with sugar-phosphate side ... the form of a double helix, a ladder-like structure that is twisted along ...

This structure is referred to as the double helix. The backbone of each of these ... bases on the two strands. The sugar-phosphate backbones of DNA are on the outside of the double helix.

DNA is a linear biopolymer, a compound biomolecule in the form of a double helix. Polymers are made ... are the teeth of the ...

Each DNA strand includes a sugar and phosphate "backbone ... of double-stranded DNA depends on both the stacking forces between base units along the length of the double helix and on the pairing ...

These sugar molecules alternate with the phosphate groups, making up the “backbone” of ... The two strands of DNA form a 3-D structure called a double helix. When illustrated, DNA looks ...

The famous double-helix structure discovered by Watson and Crick consists of two strands of DNA wound around each other (figure 1). Each strand has a long polymer backbone built from repeating sugar ...

The strands are made of alternating sugar and phosphate groups ... energy from food. B-DNA is the most common form of DNA and has a right-handed double helix structure.

Each nucleotide contains a phosphate, a 5-carbon sugar molecule and a nitrogenous base. RNA only has one strand, but like DNA, is made up of nucleotides. RNA strands are shorter than DNA strands. RNA ...

DNA is more than just the secret of life--it is also a versatile component for making nanoscopic structures and devices The year 2003 witnessed the 50th anniversary of the discovery of DNAs double ...