0
What else can I help you with?
The order of nitrogenous bases in DNA determines the order of what in organism?
The order of the Amino Acids in the protein chain.
What component of DNA is referred to as the genetic code?
nitrogenous bases
What group of three nitrogenous bases in DNA or mRNA that code for one amino acid?
A codon in DNA or mRNA is a group of three nitrogenous bases that encode for one specific amino acid. The sequence of codons in the mRNA is read during translation to determine the amino acid sequence of a protein.
How nitrogenous bases code for amino acids?
Nitrogenous bases in mRNA (adenine, cytosine, guanine, and uracil) form codons (three-base sequences) that code for specific amino acids during protein synthesis. Each codon corresponds to a specific amino acid, allowing for the translation of genetic information from nucleic acids to proteins through the genetic code.
What is a set of 3 nitrogenous bases in rna called?
A set of three bases in an RNA molecule is called a codon. And one codon codes for one amino acid.
Each set of three nitrogenous bases representing an amino acid is referred to as a?
Codon
The order of nitrogenous bases in DNA determines the order of what in organism?
The order of the Amino Acids in the protein chain.
What component of DNA is referred to as the genetic code?
nitrogenous bases
Is a condon a sequence of four nitrogenous base?
No, a codon is not a sequence of four nitrogenous bases; it is a sequence of three nitrogenous bases. Codons are found in messenger RNA (mRNA) and specify particular amino acids during protein synthesis. Each codon corresponds to one of the 20 amino acids or signals a stop in the translation process.
What group of three nitrogenous bases in DNA or mRNA that code for one amino acid?
A codon in DNA or mRNA is a group of three nitrogenous bases that encode for one specific amino acid. The sequence of codons in the mRNA is read during translation to determine the amino acid sequence of a protein.
What is the correct term for a group of three nitrogenous bases in DNA or mRNA that code for one amino acid?
Codon.
What are not related to the other four A. amino acids B.nucleotides c.5-carbon surgars D. phosphate E.nitrogenous bases?
C. 5-carbon sugars do not belong to the same group as amino acids, nucleotides, phosphate, and nitrogenous bases. 5-carbon sugars are components of nucleotides, which are building blocks of DNA and RNA, but they are not amino acids, phosphate, or nitrogenous bases.
How nitrogenous bases code for amino acids?
Nitrogenous bases in mRNA (adenine, cytosine, guanine, and uracil) form codons (three-base sequences) that code for specific amino acids during protein synthesis. Each codon corresponds to a specific amino acid, allowing for the translation of genetic information from nucleic acids to proteins through the genetic code.
What is a set of 3 nitrogenous bases in rna called?
A set of three bases in an RNA molecule is called a codon. And one codon codes for one amino acid.
If each triplet of nitrogenous bases three bases on DNA codes for a specific amino acid how many amino acids will your original DNA model code for?
Each triplet of nitrogenous bases on DNA, called a codon, codes for one amino acid. Therefore, the number of amino acids coded for by the original DNA model would be equal to the number of codons present in the DNA sequence. This would be determined by dividing the total number of nitrogenous base pairs in the DNA sequence by three.
How does the order of the nitrogenous bases determine the type of protein that will be produced?
Every 3 bases specifies either an amino acid or a terminator. The amino acid sequence creates the protein. The terminator ends the protein.
Why is the sequence of nitrogenous bases in DNA important for genetic information and protein synthesis?
The sequence of nitrogenous bases in DNA is important for genetic information and protein synthesis because it determines the specific instructions for making proteins. Each sequence of bases codes for a specific amino acid, which are the building blocks of proteins. The order of these bases in DNA determines the order of amino acids in a protein, ultimately influencing the structure and function of the protein.
