In Nitrogen Bases A(adine) pairs up with T(thymine) G(guanine) pairs up with C(cytosine)
Adenine and Thymine
Guanine and Cytosine
Cysteine pairs with Guanine
Adenine pairs with Tyrosine
adenine - thymine
cytosine - guanine
Adenine-Thymine i.e. A-T, having 2 hydrogen bonds
Guanine-Cytosine i.e. G-C , having 3 hydrogen bonds
This is due to their pattern of available hydrogen bonds.
Hydrogen Bonds D For PLATO
There are four nucleotides and each links to another specifically based on the number of hydrogen bonds it makes. A bonds with T (2 hydrogen bonds) and G links with C (3 bonds).
in you
what belongs to the class of nitrogenous bases called purines
The four nitrogenous bases of DNA are adenine, thymine, cytosine and guanine
hydrogen bonds
complementary pairing of nitrogenous bases
Hydrogen bonds.
across the nitrogenous bases, they form between the complementary base pairs Thymine and Adenine and also cytosine and guanine
True
Hydrogen Bonds D For PLATO
There are four nucleotides and each links to another specifically based on the number of hydrogen bonds it makes. A bonds with T (2 hydrogen bonds) and G links with C (3 bonds).
I guess yes. Guanine, Adenine, Cytosine and Thymine are the nitrogenous bases for DNA, So when it replicates It should use T to complementary-pairs to A.
Nitrogenous bases are used in the synthesis of nucleotides such as DNA and RNA. The bulkiest bases are the purines, guanine and adenine.
in you
The pair of nitrogenous bases that connects the complementary strands of DNA or of double-stranded RNA and consists of a purine linked by hydrogen bonds to a pyrimidine: adenine-thymine and guanine-cytosine in DNA, and adenine-uracil and guanine-cytosine in RNA.
The five nitrogenous bases in DNA and RNA are adenine, guanine, thymine, cytosine, and in RNA uracil.