They join together in a condensation reaction.
A covalent bond forms between the sugar of one nucleotide and the phosphate of a second.
Deoxiribose nuclic acid RNA ribos nuclic acid
Full form of dna in hindi The full form of D N A is Di-oxy Ribo Nuclic acid. Since it is the name of a chemical it will be known by the same name in Hindi also.
Polymerization is not a property; it is a type of chemical reaction.
Nucleotides are merely the building blocks of nucleic acids like DNA and RNA. The specific order of these nucleotides are read in triplet form (AAC, ATA, etc.) as codons (which code for amino acids), and the combinations of these codons make up genes (which code for proteins).
One. A codon, made up of three DNA bases (ATG, for example) corresponds to one amino acid. A whole bunch of codons strung together on the DNA corresponds to a whole bunch of amino acids, ultimately strung together to form a peptide, or protein.
Deoxiribose nuclic acid RNA ribos nuclic acid
Sugars
Full form of dna in hindi The full form of D N A is Di-oxy Ribo Nuclic acid. Since it is the name of a chemical it will be known by the same name in Hindi also.
Nucleic acid is formed with a sugar phosphate backbone. The sugar can be made of a ribose surgar to from RNA or a deoxyribose sugar for DNA. The final component is a nitrogenous base, which can be adenosine, cytosine etc.
Polymerization is not a property; it is a type of chemical reaction.
An amino acid is the monomer used to create proteins. Nucleotides are the basic unit used to make nucleic acids (such as DNA). Therefore an amino acid is to a protein as a nucleotide is to a nucleic acid.
The connection between nucleotides is between the sugar of the first nucleotide and the phosphate of the second. These are covalent bonds yielding a covalently attached sugar-phosphate backbone.
DNA is composed of nucleotides. DNA is essentially a polymer made up of nucleotide monomers
Nucleotides are merely the building blocks of nucleic acids like DNA and RNA. The specific order of these nucleotides are read in triplet form (AAC, ATA, etc.) as codons (which code for amino acids), and the combinations of these codons make up genes (which code for proteins).
One. A codon, made up of three DNA bases (ATG, for example) corresponds to one amino acid. A whole bunch of codons strung together on the DNA corresponds to a whole bunch of amino acids, ultimately strung together to form a peptide, or protein.
In producing a strand of DNA the nucleotides combine to form phosphodiester bonds.
DNA is made up of four types of nucleotides: adenine (A), cytosine (C), guanine (G), and thymine (T). These nucleotides form long chains that combine to create the genetic code that determines an organism's traits.