If there are 4 adenines on one side of the DNA, there will be 4 thyamines on the other side. In RNA, there would be 4 uracil's.
There will be 4 adenine bases as well.
There would be four cytosine bases.
Within the DNA model, adenine pairs with thymine and guanine pairs with cytosine (AT CG) and these nitrogenous bases are held together by hydrogen bonds, fairly strong bonds. However, adenine and thymine are linked by two hydrogen bonds between strands, whereas cytosine and guanine are linked by three hydrogen bonds. Therefore, if the DNA sample was rich in guanine and cytosine the two strands would be linked predominantly by three hydrogen bonds, thus, the two strands would be held together more. More heat would be required to break these three hydrogen bonds located through the DNA strand, as opposed to just two hydrogen bonds.
Since G Pairs with C, and A pairs with T....%G=%C, therefore the bases are also 40% Cytosine Final result of all bases would be: 40% Guanine 40% Cytosine 10% Adenine 10% Thymine
Guanine-Cytosine
You would need 6 colours, one for each of: adenine, thymine, guanine, cytosine, phosphate and deoxyribose.
ribose sugar, phosphate group, nitrogen base (guanine, cytosine, adenine, uracil)
It would be: Cytosine Adenine Cytosine Uracil Uracil Guanine Cytosine Adenine Cytosine
Adenine, Uracil, Cytosine and Guanine; (adenine bonds with uracil) and (cytosine bonds with guanine). Thymine DOES NOT appear in the sequence; for instance if the DNA strand starts: A G C T, the Rna would be: A --> U G --> C C --> G T --> A.
Adenine, Thymine, Cytosine, and Guanine. Adenine pairs with Thymine (A-T), and Cytosine pairs with Guanine (C-G). In an RNA molecule, Thymine is replaced by Uracil, so it would be Adenine and Uracil (A-U) and Cytosine and Guanine (C-G).
Adenine, uracil, guanine and cytosine
THYMINE-ADENINE CYTOSINE-GUANINE
The two different nucleotide pair bonds found in DNA are guanine-cytosine and adenine-thymine.
There are four nucleotide bases that pair up to form the "ladder rungs" that we see on a DNA molecule. These are adenine, thymine, guanine, and cytosine. Adenine matches with thymine, and guanine matches with cytosine. The opposite of each case also occurs (thymine will bind to adenine, and cytosine to guanine).
Thymine,adenine,guanine and cytosine are nucleotides.These nitrogen bases are the basic unit of life.These are called purine and pyrimidines.Adenine and thymine are paired by two hydrogen bond but guanine and cytosine by three hydrogen bond.
adenine (A), guanine (G), cytosine (C), and thymine (T) are the four nitrogen bases of DNA. In RNA, instead of Thymine (T), it would Uracil(U). So when you transcript a DNA into an RNA, T would be U.
Within the DNA model, adenine pairs with thymine and guanine pairs with cytosine (AT CG) and these nitrogenous bases are held together by hydrogen bonds, fairly strong bonds. However, adenine and thymine are linked by two hydrogen bonds between strands, whereas cytosine and guanine are linked by three hydrogen bonds. Therefore, if the DNA sample was rich in guanine and cytosine the two strands would be linked predominantly by three hydrogen bonds, thus, the two strands would be held together more. More heat would be required to break these three hydrogen bonds located through the DNA strand, as opposed to just two hydrogen bonds.
20% because cytosine and guanine have equal amounts. Always
Since there are 15 cytosine bases, we can conclude that there are 15 guanine bases. That gives us a total of 30 bases, subtract that from 40 and you have 10 bases left. So then there are 5 adenine bases because there are also 5 more thymine bases.