These will be the codes for arginine: CGU, CGC, CGA, and CGG.
See the chart at the link below:
There are three possible reading frames for a sequence of mRNA.
A single mRNA strand is typically produced but a single strand can make many many copies of the protein encoded on the molecule.
Eukaryotic genes have regions called "introns" and "exons". Exons code for polypeptides (often specific domains or motifs), while introns don't code for anything (that we know of) and are removed. mRNA splicing is the process where an mRNA molecule is cut up (usually by the "spliceosome") to remove the introns from an mRNA message. This is advantageous for us eukaryotes because we can recombine exons in different orders, and even combine exons from different genes to generate many proteins from a smaller number of genes.
In the mRNA language, each word consists of three letters, called nucleotides.
mRNA typically consists of a single strand of nucleotides. It serves as a temporary copy of the genetic information in DNA and carries this information from the nucleus to the ribosomes for protein synthesis.
Only one mRNA codon codes for Methionine - AUG.
There is only one codon that codes for methionine, which is AUG. This codon also serves as the start codon in mRNA.
Yes, beans generally have a higher percentage of arginine compared to lysine. While both are essential amino acids, many varieties of beans, such as black beans and kidney beans, tend to be richer in arginine. This amino acid profile can vary among different types of beans, but overall, beans are a good source of arginine in the diet.
Histidine is specified by three different RNA codons: UAC and UAU. These codons correspond to the mRNA sequences that translate to the amino acid histidine during protein synthesis. Therefore, there are two distinct RNA sequences that can code for histidine, reflecting the redundancy of the genetic code.
(2.85/100) * 26 = .741g
There are different types of RNA that have different functions. Ribosomal RNA (rRNA) makes ribosomes, the site of protein synthesis; messenger RNA (mRNA) transcribes the DNA code into a strand of mRNA and will attach to a ribosome where transfer RNA (tRNA) translates the mRNA code by bringing amino acids to their appropriate place based on the mRNA code.
Arginine is used by many body builders, athletes and sports people. It is an amino acid which helps enhance performance, strength and stamina of those who take it.
The number of different types of tRNA used to produce a polypeptide from a piece of mRNA corresponds to the number of unique codons present in that mRNA sequence. Each codon, consisting of three nucleotides, specifies one amino acid, and each amino acid is generally associated with at least one specific tRNA molecule. Therefore, if the mRNA contains, for example, five different codons for five distinct amino acids, then at least five different types of tRNA would be required.
2 to 3 mg
One mRNA strand is made.
There are three possible reading frames for a sequence of mRNA.
Eukaryotic genes have regions called "introns" and "exons". Exons code for polypeptides (often specific domains or motifs), while introns don't code for anything (that we know of) and are removed. mRNA splicing is the process where an mRNA molecule is cut up (usually by the "spliceosome") to remove the introns from an mRNA message. This is advantageous for us eukaryotes because we can recombine exons in different orders, and even combine exons from different genes to generate many proteins from a smaller number of genes.