no
this means that the same genetic code that is used in humans is used in all other types of organisms as well. anything from animals to plants to bacteria uses the same system of triplet nucleotide bases (codons) to code for a single amino acid when building a polypeptide. remember that the genetic code is also degenerate- each codon only codes for one amino acid, but there can be several different codons that call for the same amino acid.
Type your answer here... the degenracy of code means there are more than one codons for one amino acid.The opposite of it ie.non-degeneracy of codon means ther is only one codon for one amino acid.
The genetic code is said to be universal because a codon representsthe same amino acid in almost all organisms.
it is made of a sequence of nucleotides:in DNA or RNA, these nucleotides are adenine, guanine, cytosine, and uracil where it determines the specific amino acid sequence in the proteins,but is the biochemical of heredity and nearly universal in all organisms... DNA transfers and forms a code.
Possibly. It could also mean that the two references are referring to two different Objects, which contain the same data.
The best nucleotide triplets that represent a codon are Adenosine, Cytosine, Guanine, and Uracil (A, C, G, and U). These nucleotides form RNA molecules, which are used during protein synthesis to encode the sequence of amino acids in a protein. Each triplet of nucleotides, or codon, corresponds to a specific amino acid or a signal to start or stop protein synthesis.
When a gene is transcribed there is a sequence of RNA bases that was copied from the DNA sequence. The RNA sequence can be exactly the same as the DNA or can be modified more in higher organisms by removing the introns if any. Three RNA bases is a codon. Each codon signifies an amino acid. There is an initiation codon and a terminal codon. So the amino acid sequence is determined by the sequence (multiple of 3 RNA bases) of codons between the initiation codon and termination codon.
Yes, a mutation can occur without affecting the phenotype at all. For example, a point mutation may change a nucleotide in a codon, but sometimes, the codon can still code the same amino acid, so the mRNA strand can still make the same protein.
An mRNA codon is 3 bases long and can contain 4 different bases (A, U, C and G).Therefore there are 64 (4 X 4 X 4) different combinations.Many of these will code for the same amino acid. For example; UCA, UCU, UCC and UCG all code for the amino acid Serine.
Bears and raccoons use the same bases, but in different orders. (apex)
They have the same bases in different orders
A nucleotide is the basic building block of DNA and RNA.It consists of a sugar(deoxyribose in the case of DNA and ribose in the case of RNA), a phosphate group and a base (either adenine, guanine, cytosine or thymine)A nucleotide is the basic building block of DNA and RNA.It consists of a sugar(deoxyribose in the case of DNA and ribose in the case of RNA), a phosphate group and a base (either adenine, guanine, cytosine or thymine)A nucleotide is the basic building block of DNA and RNA.It consists of a sugar(deoxyribose in the case of DNA and ribose in the case of RNA), a phosphate group and a base (either adenine, guanine, cytosine or thymine)
Their DNA has the same nucleotide bases, but in different patterns. DNA forms the building blocks of all living things, regardless of species.
Deletion of just one nucleotide in a protein-coding part of a gene will cause a "frameshift mutation." Since the nucleotides are read in groups of three (codons) along the gene, the groupings will change and the protein that results is likely to be completely different.
Because all bases have same characteristics and they reacts the same.
Their DNA has the same nucleotide bases, but in different patterns. DNA forms the building blocks of all living things, regardless of species.
The nitrogenous base is what causes variation from one nucleotide to another in DNA. The deoxyribose and phosphate group are the same on all nucleotides.