In RNA, the above code would be transcribed as:AUGGUGCACUGACUCCUGAGGAGThis is because:Adenine bonds with Uracil (In DNA, Adenine bonds with Thymine)Cytosine bonds with Guanine
Adenine and Thymine Guanine and Cytosine held together by hydrogen bonds: 2 for A-T and 3 for G-C
ttcgta, because A always bonds to T and G always bonds to C. I always remembered this because A and T are made of strait lines and G and C are curves
Complimentary base pairs are paired as: A with T by 2 hydrogen bonds. C with G by 3 hydrogen bonds.
A-T base pairs have 2 hydrogen bonds and G-C base pairs have 3 hydrogen bonds. Therefore, A-T base pairs are weaker than G-C base pairs.
C-G bonds. They have three h bonds as opposed to two, as is the case for A-T
A bonds with TG bonds with CT bonds with AC bonds with G
A bonds with TG bonds with CT bonds with AC bonds with G
They are made of triple bonds. (3)
It is the hydrogen wich bonds between AT and GC the difference is in the number AT have 2 hydrogen bonds GC have 3 hydrogen bonds
In RNA, the above code would be transcribed as:AUGGUGCACUGACUCCUGAGGAGThis is because:Adenine bonds with Uracil (In DNA, Adenine bonds with Thymine)Cytosine bonds with Guanine
c bonds to g and t bonds to a
James Watson and Francis Crick
A=Adenine T=Thymine G=Guanine C=Cytosine A and T bond together with 2 hydrogen bonds G and C bond together with 3 hydrogen bonds A T G | C
A bonds with T and C bonds with G A and G are the purines and C and T are the pyrimidines so it'd be gtattcttcaagagatcgg= cataagaagttctctagaa that's it :]
In RNA, the above code would be transcribed as:AUGGUGCACUGACUCCUGAGGAGThis is because:Adenine bonds with Uracil (In DNA, Adenine bonds with Thymine)Cytosine bonds with Guanine
Hydrogen bonds