this is wrong. the answer should be "the genetic...dna by sequence of nucleotides"
No, by the regular alternation of nitrogenous bases. Adenine, guanine, cytosine and thymine.The phosphate-sugar backbone does not alternate, but is regular in structure.
ADP, which has two phosphate groups and ATP, which has three phosphate groups.
Different compounds make a difference on what molecular structures are called. Molecules are bonds formed covalently between more than one element. Carbohydrates are ketones or aldehydes that form polysaccharides. A lot of molecules that are linked together are monomers.
Genetic variation describes naturally occurring genetic differences among individuals of the same species. This variation permits flexibility and survival of a population in the face of changing environmental circumstances. Genetic variation is often considered an advantage, as it is a form of preparation for what the unexpected could bring.
Humans do not need nitrogen gas to live, but the nitrogen atom is essential in the DNA molecule that stores human, and other animal and plant, genetic information.
The inner core contains genetic makeup that creats new viruses.
ATP molecules carry energy, not genetic information. DNA carries genetic information. ATP does, however, contain a modified form of adenine, which is a base in DNA
genetic information is contained in protein molecules and is passed from one parent to another.
Nucleic acid.
Proteins
DNA molecules
DNA molecules
DNA, which contains our genetic blueprint, has phosphate (phosphorus and three oxygen) molecules that alternate with ribose molecules to make up the side of the DNA ladder.
genes DNA
Genetic recombination is the process by which two DNA molecules exchange genetic information. This process results in the production of a new combination of alleles.
DNA. Deoxyribose nucleic acid.
it should carry ryne chemical
Nucleotide base molecules (adenine, thymine, cytosine, and guanine for DNA; adenine, uracil, cytosine and guanine for RNA) are molecules that make up genetic material. They are bound to a phosphate backbone, and because their specific sequences (in codons, groups of three nucleotide bases in a row) make up the genes that code for proteins, nucleotide bases essentially contain the genetic information needed to manufacture most structures within our bodies.