The structure of a DOUBLE HELIX is called the sugar phosphate backbone and gives the double helix its crisscrossing spiral appearance and it also has the job of holding everything together on the double helix, [Ex.: The sugar phosphate backbone is like the sides of a ladder, its what the bars in the middle of the ladder are attached to, (Bars= HYDROGEN BONDS) and without the sides of the ladder (without the sugar phosphate backbone) the middle bars can't make up the ladder (just like hydrogen bonds can't make up a double helix without something supporting it, not including the other parts of a double helix such as the nitrogenous bases, the nucleotides, the phosphate, and the sugar KNOWN AS DEOXYRIBOSE FOUND ONLY IN A DOUBLE HELIX.)]
Double Helix
In the DNA. The term "double helix" refers to the structure of DNA.
Normally, DNA forms a right-handed double helix but it can also come in other forms.
DNA (deoxyribonucleic acid) has a double helix structure, in which two strands of nucleotides are wound around each other. This helical structure is responsible for carrying genetic information in living organisms.
Double Helix
Double Helix the structure of double coiled DNA
DNA is organized in a double-helix fashion.
No, RNA does not have a double helix structure like DNA.
Double Helix
The term used to describe the natural shape of DNA is "double helix." DNA is made up of two strands that twist around each other in a spiral ladder-like structure, forming the double helix shape.
No, RNA cannot form a double helix structure like DNA.
The supporting structure of the DNA double helix is called the sugar-phosphate backbone.
In the DNA. The term "double helix" refers to the structure of DNA.
The sugar-phosphate supporting structure of the DNA double helix is called the backbone. This is why the DNA is commonly referred to as a double helix.
Normally, DNA forms a right-handed double helix but it can also come in other forms.
a DNA molecule is made up of a phosphate, sugar and base A double Helix Strand
The structure of DNA is typically described as a double helix, resembling a twisted ladder. The two strands of the helix are made up of nucleotides that are connected with hydrogen bonds. This structure allows DNA to store and transmit genetic information.