DNA has equal number of adenine and thymine residues (A=T) and equal number of guanine and cytosine (G=C). These relationships are known as `:`

DNA has equal number of adenine and thymine residuces (A=T) and equal number of guanine and cytosine (G=C). These relationships are known as

DNA has equal number of adenine and thymine residuces (A=T) and equal number of guanine and cytosine (G=C). These relationships are known as

If the total amount of adenine and thymine in a ds DNA is 55%, the amount of guanine in this DNA will be

The number of hydrogen bonds formed between adenine and thymine and that formed between guanine and cytosine are respectively

The number of hydrogen bonds formed between adenine and thymine and that formed between guanine and cytosine are respectively

The number of hydrogen bonds formed between adenine and thymine and that formed between guanine and cytosine are respectively

The number of hydrogen bonds between adenine and thymine in DNA molcule are

he Chargoff’s rule says that DNA contains equal amounts of guanine and cytosine and also equimolar amounts of adenine and thymine as: G= C and A= T Does Chargoff’s rule imply that the sum of purine residues equals the sum of pyrimidine residues i.e. does A+G =C+T ?

he Chargoff’s rule says that DNA contains equal amounts of guanine and cytosine and also equimolar amounts of adenine and thymine as: G= C and A= T Does Chargoff’s rule imply that equal amounts of guanine and adenine are present in DNA?

The Chargoff's rule says that DNA contains equal amounts of guanine and cytosine and also equimolar amounts of adenine and thymine as : G=C and A =T (a) Does Chargoff's rule imply that equal amounts of guanine and adenine are present in DNA ? (b) Does Chargoff's rule imply that the sum of purine residues equals the sum of pyrimidine residues i.e. does A +G= C+ T ? (c) Does Chargoff's rule apply only to double stranded DNA or would it apply to each individual strand if the double helical strand were separated into two complementary strands ?