A single mRNA molecule has 3 codons i.e. 1 amino acid. The question is flawed and does not make sense!
The smallest segment of DNA needed to produce a polypeptide or protein is a gene. A gene contains the instructions for making a specific protein through the process of transcription and translation. The gene includes sequences that code for the protein as well as regulatory regions that control its expression.
Molecule - Carbohydrates Process - Photosynthesis
A polypeptide chain. This chain might need a little more adjustment before it becomes a fully functional protein.
The RNA molecule will produce a large molecule called a protein through a process called translation. Proteins are essential for the structure, function, and regulation of tissues and organs in the body.
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Messenger RNA (mRNA) contains the information needed to produce a single polypeptide during translation. The sequence of nucleotides in the mRNA molecule is translated by ribosomes to determine the order of amino acids in the polypeptide chain. This process occurs in the cytoplasm of the cell.
The smallest segment of DNA needed to produce a polypeptide or protein is a gene. A gene contains the instructions for making a specific protein through the process of transcription and translation. The gene includes sequences that code for the protein as well as regulatory regions that control its expression.
Living cells contain sugar that they use for fuel. This sugar contains glucose which is the primary molecule that is converted to produce ATP.
The molecule produced after translation of RNA is protein.
To produce one molecule of glucose, six molecules of G3P are required.
Six turns of the Calvin cycle are required to produce a molecule of glucose.
The covalent bonds between amino acids are called peptide bonds. It is a bond between the carboxyl group of one amino acid and the amino group of another amino acid. Amino acids are bonded through condensation reactions, which produces a water molecule.
Molecule - Carbohydrates Process - Photosynthesis
Two repeats of the Calvin Cycle are required to produce one glucose molecule.
Six turns of the Calvin Cycle are required to produce one glucose molecule.
Six turns of the Calvin Cycle are required to produce one molecule of glucose.
Carbon dioxide