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What do you know about a shapes molecules?
Molecules can have different shapes based on the arrangement of their atoms. The shapes of molecules are important because they influence the molecule's properties and how it interacts with other molecules. The shape of a molecule can affect its reactivity, polarity, and biological activity.
What is the name of the sugar molecules found in DNA?
The sugar that is found in DNA is called Deoxyribose
In the triglyceride molecule shown below what are the three molecules attached to the glycerol molecule A.Nucleic acids?
The three molecules attached to glycerol backbone are long chain fatty acids.
Does RNA contain phosphoric acid?
Yes, RNA contains phosphoric acid. Phosphoric acid molecules link together to form the backbone of the RNA molecule, connecting the individual nucleotide building blocks. This backbone is crucial for the stability and structure of RNA molecules.
What are the three molecules attached to glycerol molecules?
The three molecules attached to a glycerol molecule are fatty acids. These fatty acids form lipid molecules such as triglycerides, phospholipids, or waxes depending on the type and arrangement of the fatty acids bonded to the glycerol backbone.
What molecules make up the backbone of a DNA molecule?
The backbone of the DNA molecule consists of a sugar, deoxyribose and a phosphate group. --(sugars and phosphates)
What atoms are attached to the carbon backbone and determine the molecule's function within the cell?
The atoms attached to the carbon backbone that determine a molecule's function within the cell can vary depending on the specific molecule. Common atoms attached to carbon in biological molecules include hydrogen, oxygen, nitrogen, and phosphorus. The functional groups attached to the carbon backbone, such as hydroxyl, amino, carboxyl, and phosphate groups, play a crucial role in determining the molecule's function within the cell.
What are the two components the backbone the DNA molecule is made up of?
Alternating deoxyribose and phosphate molecules
What units make up The backbone of the DNA molecule?
The backbone of the DNA molecule is composed of alternating sugar (deoxyribose) and phosphate units. These sugar-phosphate units are connected by phosphodiester bonds to form the backbone of the DNA strand.
The backbone of the DNA molecule is made of what?
The backbone of the DNA molecule is made of alternating sugar (deoxyribose) and phosphate molecules. These sugar-phosphate chains are connected by covalent bonds.
What part of the amino acid gives the molecule its characteristic chemical properties?
Its unique sidegroup, also called its radical (often indicated as an R in molecular diagrams). The common amino acid backbone only allows polymerization of these monomers into protein molecules.
What makes up the sides of a DNA molecule?
A DNA molecule consists of two strands that are made up of sugar (deoxyribose) and phosphate molecules. The sides of the DNA molecule are formed by alternating sugar and phosphate molecules linked together to create a backbone for the molecule.
What do you know about a shapes molecules?
Molecules can have different shapes based on the arrangement of their atoms. The shapes of molecules are important because they influence the molecule's properties and how it interacts with other molecules. The shape of a molecule can affect its reactivity, polarity, and biological activity.
What sugar molecules is involved in the structure of DNA?
Deoxyribose sugar molecules are involved in the structure of DNA. These sugar molecules are part of the backbone of the DNA double helix, linking with phosphate groups to form the sugar-phosphate backbone of the DNA strand.
What is the name of the sugar molecules found in DNA?
The sugar that is found in DNA is called Deoxyribose
What 2 substances make up the backbone or the sides of the DNA molecule?
The sugar-phosphate backbone of DNA is made up of deoxyribose (a sugar) and phosphate.
What constitutes the backbone of DNA?
The backbone of DNA is made up of sugar molecules and phosphate groups. These molecules form a repeating pattern along the length of the DNA strand, providing structural support and stability to the molecule. The nitrogenous bases are attached to this backbone, forming the genetic code of DNA.
