DNA polymerase
Lagging strand synthesis would be incomplete; leading strand synthesis would be unaffected.
Proteins are made up of amino acids. All amino acids contain nitrogen. A complete absense of nitrogen would halt protein synthesis.
Protein synthesis-growth====its the process in how we grow, how characteristics are brought out in us e.g. an enxyme in your stomach digests protein. If protein synthesis didnt produce this we wouldntdigest protein. Same goes for everythng else.
There would be no protein synthesis.
The sequence of amino acids (forming a protein) that result from the mRNA strand CAG-AAG-UUC-CUC-UCG-C would be: Glutamine-Threonine-Phenylalanine-Leucine-Serine Each codon must be three bases long - therefore the end of this mRNA sequence 'C' cannot code for an amino acid. There would also need to be a stop codon at the end to complete translation.
Lagging strand synthesis would be incomplete; leading strand synthesis would be unaffected.
Proteins are made up of amino acids. All amino acids contain nitrogen. A complete absense of nitrogen would halt protein synthesis.
They signal to stop protein synthesis and release the amino acid chain. Stop codons are important because they signal the end of synthesis. Sometimes, mRNA is longer than what is needed for the amino acids so without stop codons, synthesis would continue until the end of the strand of RNA, leaving you with an incorrect amino acid chain.
Protein synthesis-growth====its the process in how we grow, how characteristics are brought out in us e.g. an enxyme in your stomach digests protein. If protein synthesis didnt produce this we wouldntdigest protein. Same goes for everythng else.
Ribosomes are vital for the creation of proteins. Without proteins, the cell cannot function, and would die.
protein synthesis
The synthesis of enzymes would stop.
There would be no protein synthesis.
there will not be enough amount of amino acids present in the protein deficient food, hence there will not be enough protein synthesis.
d
UAG
The sequence of amino acids (forming a protein) that result from the mRNA strand CAG-AAG-UUC-CUC-UCG-C would be: Glutamine-Threonine-Phenylalanine-Leucine-Serine Each codon must be three bases long - therefore the end of this mRNA sequence 'C' cannot code for an amino acid. There would also need to be a stop codon at the end to complete translation.