AGT codes for the amino acid serine and CTT codes for the amino acid leucine.
The mRNA codon AAA codes for the amino acid lysine.
See the related link for a table of the RNA and DNA codons and their amino acids.
Tryptophan
No, a sequence of three bases (called a codon) does not directly form an amino acid. However, each codon in a sequence of DNA or RNA corresponds to a specific amino acid, according to the genetic code. The sequence of codons determines the order in which amino acids are assembled during protein synthesis.
Transamination
An amino acid is one of twenty one compounds that have a carboxylic acid and an amine group. When they combine, they form proteins.
It provides the code for the protein.
Special Compounds
There are 3 nitrogen bases equalling one amino acid and they are called codons. Amino acids are the building blocks of protein and in turn protein in science is one of the building blocks of life. The protein molecule has the chromosome strands. On each strand of the chromosome there are shapes in groups of 3 which is the RNA or the Ribonucleic Acid. Where the chromosomes are located, the strands have messengers that travel outside to the ribosomes to be decoded or decyphered. Once the RNA has been decoded by the ribosomes the amino acid is formed. The chronological order of the amino acid being decyphered determines the type of protein. Protein is essential for human growth as it helps with the repair of our muscles amoungst many of it's uses.
No, a sequence of three bases (called a codon) does not directly form an amino acid. However, each codon in a sequence of DNA or RNA corresponds to a specific amino acid, according to the genetic code. The sequence of codons determines the order in which amino acids are assembled during protein synthesis.
Transamination
An amino acid is one of twenty one compounds that have a carboxylic acid and an amine group. When they combine, they form proteins.
It provides the code for the protein.
No, but steroids are made form amino acids.
During translation, tRNA anticodons pair with the complementary mRNA codons at the ribosomes. Each tRNA molecule carries with it an amino acid according to its specific code. As each tRNA releases its amino acid, peptide bonds form between the amino acids. After each tRNA releases its amino acid, it is free to pick up another amino acid in the cytoplasm.
Special Compounds
The effect of the mutation is; there would be another amino acid that may form due to the change in sequence of the anticodon. change in the sequence of anticodon may result to different amino acid that may form.
glutamine This is the side chain amidated form of Glutamate, so it is quite polar but carries no formal electrical charge when present in a polypeptide. You can find a good introductory description of the amino acids, their structures and classification, at this web site www.bio.davidson.edu/Biology/aatable.html
amino acid.
the carboxylic acid group of a amino acid will give of an OH molecule while the amino group of the other will give of an H atom to form ah H2O molecule and while the carboxylic group or the C terminal connect to the amino group of the other giving you CONH as the peptide bond.