42 = 16 possible codons.
The answer to this question is 64 CODONS. Codons are the "words" consisting of the "letter" bases, which are a, u, g, and c. EXAMPLE: AUG (Methionine) and CAG (Glutamine) AUG and CAG are just two of the 64 possible codons.
No, first of in total, both RNA and DNA combined have five nucleotides, DNA and RNA, both consists of three of the same nucleotides, and have one that varies between the two. Both DNA and RNA, have the nucleotides, guanine, cytosine and adenine, however DNA, has the additional nucleotide thymine and RNA instead of thymine has uracil. So, DNA's nucleotides are guanine, cytosine, adenine and thymine, while RNA's are guanine, cytosine, adenine and uracil. To specifically answer the question, no DNA consists of four different nucleotides and RNA consists of three of the same nucleotides, with one differing.
Gene is the functional part of DNA, i.e. gene is made up of DNA and DNA is made of nucleotides in which there are sugar, phosphate group and bases. For DNA four bases are required Adinine, Guanine, Thyamine, Cytosine. They can be arranged in different sequence to form different protein of DNA, so the different sequential arrangement of bases lead to the formation of thousands of different gene from four bases.
The DNA molecule has four different kinds of nucleotides: adenine (A), thymine (T), cytosine (C), and guanine (G). These nucleotides combine in specific sequences to form the genetic code that determines an organism's traits.
AdenineGuanineCytosineThymine
In DNA there are four different ones; Adenine, Cytosene, Guanine, and Thymine. In RNA, everything is the same except that instead of hymine, there is Uracil.
The answer to this question is 64 CODONS. Codons are the "words" consisting of the "letter" bases, which are a, u, g, and c. EXAMPLE: AUG (Methionine) and CAG (Glutamine) AUG and CAG are just two of the 64 possible codons.
There are four codons in AAA UGC UCG UAA. A codon is a sequence made of three nitrogenous bases. Codons have particular features, making it possible for them to be start codons, stop codons, introns, or exons.
Because of four different bases, there are 64 possible three-base codons (4x4x4=64). the genetic wheel shows all 64 possible codons of the genetic code.
Absolutely Yes, Life Depends Upon It. Nucleotides grouped in 3's are called ' triplet codons '. The four nucleotides, ATC&G, read as triplet codons, determine the order of amino-acids that are sequentially added to a nascent (growing) protein chain. See Proteins and Dna.
There are four different kinds of nucleotides: adenine (A), thymine (T), cytosine (C), and guanine (G). These nucleotides are the building blocks of DNA.
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.
Yes
Four.
No, first of in total, both RNA and DNA combined have five nucleotides, DNA and RNA, both consists of three of the same nucleotides, and have one that varies between the two. Both DNA and RNA, have the nucleotides, guanine, cytosine and adenine, however DNA, has the additional nucleotide thymine and RNA instead of thymine has uracil. So, DNA's nucleotides are guanine, cytosine, adenine and thymine, while RNA's are guanine, cytosine, adenine and uracil. To specifically answer the question, no DNA consists of four different nucleotides and RNA consists of three of the same nucleotides, with one differing.
Gene is the functional part of DNA, i.e. gene is made up of DNA and DNA is made of nucleotides in which there are sugar, phosphate group and bases. For DNA four bases are required Adinine, Guanine, Thyamine, Cytosine. They can be arranged in different sequence to form different protein of DNA, so the different sequential arrangement of bases lead to the formation of thousands of different gene from four bases.
The DNA molecule has four different kinds of nucleotides: adenine (A), thymine (T), cytosine (C), and guanine (G). These nucleotides combine in specific sequences to form the genetic code that determines an organism's traits.