3!
= 6 different sequences
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How many different arrangement of nucleotides are possible in a strand of DNA that is 15 nucleotides long?Read more: How_many_different_arrangement_of_nucleotides_are_possible_in_a_strand_of_DNA_that_is_15_nucleotides_long
The sugar and phosphate group of nucleotides never change. There are four possible nitrogenous bases and thus it is the only part of nucleotides that can change.
DNA and RNA are polymers. Collectively, DNA and RNA are called nucleic acids. The subunits of nucleic acids are called nucleotides. Nucleotide monomers form nucleic acid polymers. A nucleotide has 3 parts to it: a phosphate group, a sugar (ribose in RNA and deoxyribose in DNA), and a base (Adenine, Guanine, Cytosine, Thymine or Uracil - Thymine is found only in DNA and Uracil is found only in RNA, but the other 3 bases may be found in either.) Another name for it would be nitrogenous base.
Well I think this question may be misphrased. Proteins are mad eup of chians of amino acids. Amino acids are encoded/ made up of nucleotides that are encoded by genes. There are 20 different amino acids in the human body that combine to form hundreds of thousands of proteins. It is not possible to know how many proteins genes produce because not all genes have even been decoded yet. Furthermore, even if all of the genes in the human body had been identified, these genes would encode different sequences of nucleotides, that would then encode for different amino acids, that could then combine to form nearly endless types of proteins.
Because all these organisms had a universal common ancestor that used these nucleotides and gave rise to all life on earth.
Yes, we can!We have been successful in making sequences like primers (up to 60 nucleotides long)The process involves starting with a first nucleotide attached to a bead and throwing in the next nucleotide in ample quantity, hoping some will bind.... followed by washing, and then again next nucleotideMost of this is robotic, but possible!It takes a few cents per nucleotide :)
Thymine is one of the four possible bases which, when attached to a phosphate group and a molecule of deoxyribose, forms a nucleotide; nucleotides are the monomer units of DNA.
Gene consists of a long combination of four different nucleotide bases (chemicals). There are many possible combinations. The four nucleotides are:A (adenine)
C (cytosine)
G (guanine)
T (thymine)
How many different arrangement of nucleotides are possible in a strand of DNA that is 15 nucleotides long?Read more: How_many_different_arrangement_of_nucleotides_are_possible_in_a_strand_of_DNA_that_is_15_nucleotides_long
42 = 16 possible codons.
A codon consists of a series 3 nucleotides. There are 4 possible nucleotides. These 4 nucleotides could appear in any combination with any number of repeats. That being the case, to find the possible number of mRNA codons requires simple math:4 * 4 * 4 = 64So there are 64 possible codons.
Different 3D shapes, different number of proteins, different types of amino acids, and different sequences.
You have 2 choices for 20 times, so the number of sequences is 220 or 1048576.
Because all these organisms had a universal common ancestor that used these nucleotides and gave rise to all life on earth.
The sugar and phosphate group of nucleotides never change. There are four possible nitrogenous bases and thus it is the only part of nucleotides that can change.
DNA and RNA are polymers. Collectively, DNA and RNA are called nucleic acids. The subunits of nucleic acids are called nucleotides. Nucleotide monomers form nucleic acid polymers. A nucleotide has 3 parts to it: a phosphate group, a sugar (ribose in RNA and deoxyribose in DNA), and a base (Adenine, Guanine, Cytosine, Thymine or Uracil - Thymine is found only in DNA and Uracil is found only in RNA, but the other 3 bases may be found in either.) Another name for it would be nitrogenous base.
There would be a possibility of about 16 sequences.