This is done by and through the use of The Genetic Code.
This is actually only partially possible because of the Situation that demands the creation of the term 'Wobble Base'.
The implementation of The Genetic Code involves - simply - the [sequential][and consequential] string of Triplet Codons, as represented by the Dna sequence of Bases, being transcribed into messenger Rna which then is presented to the [endoplasmically embedded] Ribosomes; where each triplet codon is exactly represented by ONE amino acid.
Whereas there are 64 triplet codons that exist, we need to represent only 20 animo acids - hence the wobble bases.
To determine the DNA sequences coding for specific proteins, you would first identify the amino acid sequence of the protein. Then, using the genetic code, you can determine the corresponding DNA sequence by identifying the codons that encode for each amino acid. This process involves translating the protein sequence from amino acids back to nucleotides found in DNA.
suppose you knew the make up of specific proteins in a cell. How would you determine the particular DNA code that coded for them?
We go in reverse direction. If we know the sequence of amine acids, we can have a sequence of codons denoting it and we can determine particular DNA code that coded for them
A combination of three nucleotides makes up a certain amino acid.
You couldn't know exactly, but you could come close. Proteins are made up of long chains of amino acids. There are twenty different amino acids. Each is coded for, in DNA, by one or more...
Not too well at the moment...been a couple years since I've learned that material.
Proteins are organic compounds made from amino acids that are the building blocks of life. Amino acids are linked together in specific sequences to form different proteins, which are essential for the structure and function of cells in organisms.
The DNA sequence encodes the sequence of amino acids in a protein, which in turn determines the protein's structure and function. The specific sequence of amino acids determines how the protein folds into its three-dimensional structure, which ultimately determines its function in the body. Any changes in the DNA sequence can result in alterations to the protein structure and function, leading to potential health consequences.
The specific gravity of heavy fuel oil can vary, but it typically ranges from 0.95 to 1.03. It is important to consult specific fuel oil specifications or test data to determine the precise specific gravity of a particular heavy fuel oil sample.
Proteins are compounds made up of amino acids linked together by peptide bonds. They are not considered mixtures because they have a defined chemical structure and are composed of specific elements arranged in a particular way.
The unique 3 base pair structure for an amino acid is called a codon. Codons are specific sequences of three nucleotides in mRNA that correspond to a particular amino acid during protein synthesis.
Certain sequences of nucleotides code for the production of specific proteins.
A zinc finger is a structure within some proteins which binds to specific sequences of DNA and regulates genes.
A zinc finger is a structure within some proteins which binds to specific sequences of DNA and regulates genes.
They ARE specific coding sequences of 2'-Deoxy-Ribonucleic-Acid. Sweet Searching!
Enzymes are made primarily from proteins, which are macromolecules composed of amino acids. These amino acids are arranged in specific sequences that determine the function of the enzyme.
The bases in Dna are read three at a time - these are known as triplet-codons. Each triplet-codon codes for a specific amino-acid. The order [or sequence] of amino-acids in the resultant protein will and does determine its 'particular features'.
Certain sequences of nucleotides code for the production of specific proteins.
The DNA code consists of specific sequences of DNA nucleotides that code for specific amino acids. A sequence of three nucleotides are called a codon, and code for one specific amino acid. The sequence of amino acids determines the structure and function of the proteins, which determine the cells' activities and hereditary traits.
Genes within the DNA molecule contain the specific instructions for building proteins. These genes are made up of sequences of nucleotides that encode the information needed to produce specific proteins by directing the synthesis of messenger RNA through a process called transcription.
That is a good question! In the vaccine, you have few proteins, that are derived from particular organism only. The antibodies are very specific. They act against the particular proteins only. So from the given vaccine, you get specific antibodies. Those antibodies will act against that particular organism only.
Ribosomes synthesize proteins by translating messenger RNA (mRNA) into specific amino acid sequences. They are the cellular machinery responsible for protein synthesis in all living organisms.
The DNA sequence encodes the sequence of amino acids in a protein, which in turn determines the protein's structure and function. The specific sequence of amino acids determines how the protein folds into its three-dimensional structure, which ultimately determines its function in the body. Any changes in the DNA sequence can result in alterations to the protein structure and function, leading to potential health consequences.