Four nitrogen bases namely-
Adenine, Thymine, Guanine and Cytocine
500000000
Three(:
3 at a time (3-base triplet known as a codon)
it would read: atgacgt
As with any knowledge, it takes time to discover all the parts. The structure of DNA took time to learn. Then the fact that there were recurrence of 4 bases and these bases had matching bases on the second strand of DNA. We did not have the tools at first. As they came along, we learned more and more.
DNA polymerase matches the bases on the parent strand.
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The four nitrogenous bases in in DNA are adenine, thymine, cytosine, and guanine.
There are 4 bases in DNA: adenine, thymine, cytosine, and guanine.
There are four types of bases in DNA: adenine, cytosine, guanine, and thymine. However, a molecule of DNA may be a polymer of millions of these bases in a specific arrangment.
If I read your question correctly the answer is DNA or deoxyribonucleic acid. The reason being that the arrangement of bases in the DNA code for the amino acids that make up the proteins. A section of DNA starting with a "start code" of bases can be read in sets of three. Each set of three bases (e.g. TGG or ATG or ACT) codes individually for an amino acid, much like a recipe. The DNA read from one end to the other is a list of bases that, when connected up, form a protein or proteins.
it would read: atgacgt
Bacterial DNA has four nitrogen bases; adenine, guanine, cytosine, and thymine.
5.5
15 DNA bases
The nitrogenous bases in DNA are......AdenineCytosineGuanineThymine
As with any knowledge, it takes time to discover all the parts. The structure of DNA took time to learn. Then the fact that there were recurrence of 4 bases and these bases had matching bases on the second strand of DNA. We did not have the tools at first. As they came along, we learned more and more.
The four nucleotide bases A, T, G, and C.
DNA is composed of nucleotides, which each contain a nitrogenous base. The order of these bases is what determines the end product (protein) created by the DNA. Three of these bases make up what is known as a codon. This corresponds to a particular amino acid, which is added to the protein being created when this codon is read. So the bases of DNA code for certain amino acids.
DNA polymerase matches the bases on the parent strand.