Nucleotide molecules connect with each other in phosphate. Nucleotides are composed of three parts: phosphate, deoxyribose and the nitrogen base.
Nucleotide molecules are connected to each other through phosphodiester bonds between the sugar of one nucleotide and the phosphate group of another nucleotide. These bonds form the sugar-phosphate backbone of nucleic acids like DNA and RNA. The sequence of nucleotides in the backbone encodes genetic information.
True. After replication, the nucleotide sequences in both DNA molecules are indeed identical to each other and to the original DNA molecule. This ensures that genetic information is accurately duplicated during cell division.
The bonds that connect hydrogen molecules to oxygen molecules in water are covalent bonds. In a water molecule, each hydrogen atom forms a covalent bond with the oxygen atom by sharing electrons.
The DNA nucleotide is a right handed double helix. It is made up of nucleotides that are bound to each other by the phosphodiester bonds.
Each nucleotide consists of a sugar (deoxyribose) bound on one side to a phosphate group and bound on the other side to a nitrogenous base.
No, the two strands of DNA are not identical to each other. They are complementary and have opposite sequences of nucleotide bases.
molecules are constantly rolling around each other, yet staying mostly in contact, when they are hot molecules move around faster and bump into each other.
There are a total of 72 nucleotide bases in 24 codons. Each codon is made up of three nucleotide bases.
Molecules will always attract each other unless they are negative. In which case tthey will push each other away.
A nucleotide polymer is a long chain made up of nucleotide units bonded together. Each nucleotide consists of a nitrogenous base, a sugar molecule, and a phosphate group. Nucleotide polymers form the backbone of DNA and RNA molecules.
Adenine, guanine, cytosine, and thymine are the four types of nucleotide bases found in DNA molecules. They form base pairs with each other (A with T, G with C) to create the building blocks of DNA strands. These bases are crucial for storing and transmitting genetic information.