Ribosomes and tRNA molecules help a cell translate an mRNA message into a polypeptide.
ribosomes and tRNA
Yes it will.
Yes, a point mutation will cause the cell to make an incompelete polypeptide chain that is non-functional, if the mutation results in a stop codon. This type of a mutation is also called as the Nonsense Mutation.
In any cell, Ribosomes translate mRNA and make proteins.
The chemical message is converted via the second messenger system
Nerve cell
The main tools involved in the process of translation in a cell are ribosomes, transfer RNA (tRNA) molecules, messenger RNA (mRNA), and various protein factors. Ribosomes act as the machinery where translation occurs, while tRNA molecules bring amino acids to the ribosome based on the mRNA codon sequence. Protein factors help in initiating, elongating, and terminating protein synthesis.
Yes
Enzymes are derived from polypeptide chains, enzymes are responsible for adequate cell activity. Therefore, if a polypeptide chain is not properly composed, the enzyme will be dysfunctional, hence leading to a depletion in cell activity.
Yes, made of polysaccurid with polypeptide
Bacillus megaterium synthesizes a capsule composed of both polypeptide and polysaccharide. The polypeptide is located laterally along the axis of the cell and the polysaccharide is located at the poles and at the equator of the cell.
nucles
on the outer surface of the target cell
codon
Yes it will.
Transcription is the synthesis of RNA under the direction of DNA. The type of RNA used during transcription is the messenger RNA. The mRNA carries a genetic message from the DNA to the protein-synthesizing machinery of the cell. Then, translation is the actual synthesis of a polypeptide, which occurs under the direction of mRNA.
12 Because 1 nucleotide=1 Amino Acid.
Yes, a point mutation will cause the cell to make an incompelete polypeptide chain that is non-functional, if the mutation results in a stop codon. This type of a mutation is also called as the Nonsense Mutation.