it should be 30% because if you have 20% adenine, then that means you will have 20% thynine, therefore you have 40%. Now 100 minus 40 = 60. and since guanine and cytosine go together, they will have to be 30% each, since 30 +30 = 60 and 60 + 40 = 100
simple math.
:)
The rungs of the ladder in a DNA molecule are made up of nitrogenous bases (adenine, thymine, guanine, and cytosine) that pair up with each other through hydrogen bonds. This base pairing forms the genetic code that carries the instructions for an organism's development and functioning. The sequence of these bases determines the genetic information stored in the DNA molecule.
A percent equation refers to the process of finding the percent of a quantity. For example, a percent equation for 70 questions correct out of 100 would be 70/100 = .7, or 70%. For any number, the percent is the numerator of an equivalent ratio whose denominator is 100.
In a DNA molecule, guanine (G) pairs with cytosine (C), and adenine (A) pairs with thymine (T). If there are 15 guanine nucleotides, there must also be 15 cytosine nucleotides, making a total of 30 nucleotides accounted for. The remaining nucleotides consist of adenine and thymine, which must be equal in number; thus, if there are 30 nucleotides in total, there are 15 adenine and 15 thymine nucleotides. Therefore, the percentages are 30% guanine, 30% cytosine, and 20% each for adenine and thymine.
Because that is the shape of the molecule: two helices wrapped around each other. Note: due to defective x-ray crystallography photos early in their work, Watson and Crick mistakenly originally reached the tentative conclusion that the DNA molecule was a triple helix with the bases pointing outward, instead of its actual shape of a double helix with the bases pointing inward and linked in pairs by hydrogen bonds.
The part of a DNA molecule that represents encoded information is the sequence of nucleotide bases (adenine, thymine, cytosine, and guanine). These bases are arranged in specific sequences to form genes, which provide the instructions for synthesizing proteins and other molecules essential for cellular functions. Each gene's unique sequence determines the traits and functions of an organism.
40 percent and no other percentage.
92.1
If 35% of the gene is thymine, then you know that adenine will also be 35%, as they pair together. Similarly, guanine will be 15% and cytosine will be 15% to complement their pairing percentages with adenine and thymine.
Percentages are easier for some purposes, harder for other.
Best Answer - Chosen by VotersSince G and C are complementary, they will have the same percentage. So 15% will be cytosine. That leaves 70% left. Half of that will be adenine, and half will be thymine (35% each)
The major ethnic groups in Afghanistan are Pashtun (42%), Tajik (27%), Hazara (9%), Uzbek (9%), and other minority groups such as Aimak, Turkmen, Baloch, and others make up the rest. It is important to note that these percentages are approximate and may vary.
All percentages are fractions out of 100. In other words 68% means exactly the same thing as 68/100
The rungs of the ladder in a DNA molecule are made up of nitrogenous bases (adenine, thymine, guanine, and cytosine) that pair up with each other through hydrogen bonds. This base pairing forms the genetic code that carries the instructions for an organism's development and functioning. The sequence of these bases determines the genetic information stored in the DNA molecule.
Washington, Oregon, Maine, and Michigan.
Adenine and Thymine together and cytosine and guanine together.
To determine if 2 percent is greater than 0.5 percent, we can convert both percentages to decimals for easier comparison. 2 percent is equivalent to 0.02 as a decimal, while 0.5 percent is equivalent to 0.005 as a decimal. Comparing these decimals, we see that 0.02 is indeed greater than 0.005. Therefore, 2 percent is greater than 0.5 percent.
Your answer is "Helicase". This is the enzyme responsible for the unzipping of the DNA molecule, or in other words, the breakage of the bonds of its nitrogen bases.