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How many nucleotide bases are there in 24 codons?
There are three nucleotide Bases for each codon, so the Answer is 72 bases.
Where do nucleotide molecules connect to each other?
Nucleotide molecules connect with each other in phosphate. Nucleotides are composed of three parts: phosphate, deoxyribose and the nitrogen base.
A nucleotide contains each of the following except a(n)?
Amino acid
What three parts make up a DNA nucleotide?
The monomers of DNA are called nucleotides, each nucleotide has three parts:PHOSPHATESUGAR ( Deoxyribose)NITROGEN BASE
What is each one?
Each chromosome has genes on it in the form of coded base nucleotide sequence which is part of DNA.
How would you describe DNA nucleotide?
The DNA nucleotide is a right handed double helix. It is made up of nucleotides that are bound to each other by the phosphodiester bonds.
What is the nucleotide in the DNA made out of?
Each nucleotide consists of a sugar (deoxyribose) bound on one side to a phosphate group and bound on the other side to a nitrogenous base.
How many nitrogen bases in 1 nucleotide?
There are four nitrogen bases in DNA nucleotides: adenine (A), cytosine (C), guanine (G), and thymine (T). Each nucleotide contains one of these nitrogen bases.
A nucleotide contains each of the following except a(n)?
Amino acid
Where are the nucleotides molecules connected from each other?
Nucleotide molecules are connected to each other through phosphodiester bonds between the sugar of one nucleotide and the phosphate group of another nucleotide. These bonds form the sugar-phosphate backbone of nucleic acids like DNA and RNA. The sequence of nucleotides in the backbone encodes genetic information.
What is a single nucleotide resolution?
Single nucleotide resolution refers to the ability to identify a specific nucleotide base at a particular position within a DNA or RNA molecule. This level of resolution allows for precise mapping and analysis of genetic information, enabling researchers to investigate specific mutations, variations, or modifications at the individual nucleotide level. Techniques such as next-generation sequencing can provide single nucleotide resolution by accurately determining the nucleotide sequence at each position.
Which of the following would be the best method for randomly choosing the next nucleotide to add to an imaginary DNA segment?
The best method for randomly choosing the next nucleotide to add to an imaginary DNA segment would be to use a random number generator that assigns each nucleotide (A, T, C, G) a number, and then select a number at random to determine which nucleotide to add next. This method ensures an equal probability of selecting each nucleotide.
