It reaches one of the 3 possible stop codons on the mRNA: UAA, UGA, or UAG. These codons do not code for any amino acid, but instead cause the polypeptide release factor to cleave the newly made protein from the last tRNA. (ed. spelling - I mixed got my words up :)
The ribosome will stop making a protein when it receives a stop codon.
When they reach the "Stop" codon.
The type of RNA that contains the information for making a protein is messenger RNA (mRNA). During Translation mRNA interacts with ribosome, which "reads" the sequence of mRNA bases producing amino acids. Transfer RNA (tRNA) assembles the protein, one amino acid at a time. Protein assembly continues until the ribosome encounters a "stop" codon
When a ribsome reaches a stop codon, the translation process stops and a protein is released.
Ribosomes get that information from messenger RNA molecules, in which DNA has encoded the information.
it stops when an amino acid is missing from the diet
If you are asking this question to cheat at school shame on you. But I don't care I don't know you, I'm not your parent or teacher. It will read "STOP". actually, this answer is correct. When the ribosome reads uaa, uag, or uga, these sequences are known as stop codons. It will read stop. Also, no tRNA can bind to a stop codon... there are no tRNAs with anticodons complementary to the termination codons, so no tRNA enters the A site of the ribosome. Release factors are induced. RF1 to either UAA or UAG, RF2 to either UGA or UAA. RF3 forms a complex with GTP (energy source) and binds to the ribosome. These release factors promote cleave of the tRNA in the P site. GTP is hydrolyzed (reduced) to GDP. The tRNA is released from the P site, mRNA is released from the ribosome, and the ribosome leaves. -zdrum
The type of RNA that contains the information for making a protein is messenger RNA (mRNA). During Translation mRNA interacts with ribosome, which "reads" the sequence of mRNA bases producing amino acids. Transfer RNA (tRNA) assembles the protein, one amino acid at a time. Protein assembly continues until the ribosome encounters a "stop" codon
When a ribsome reaches a stop codon, the translation process stops and a protein is released.
the ribosome makes proteinProteins are a series of amino acids linked together by peptide bonds. However, this polypeptide chain is not a protein as it must be folded to become a protein (the folding of a protein gives it its unique function).
When a ribsome reaches a stop codon, the translation process stops and a protein is released.
This is a stop codon. The polypeptide would be completed here and would detach from the ribosome.
Ribosomes get that information from messenger RNA molecules, in which DNA has encoded the information.
it stops when an amino acid is missing from the diet
the amino acids detach from the ribosome
AUG is the only codon which codes for methionine and UGG is the only amino acid that codes for Tryptophan. These are the only codons which have only one codon to represent their specific amino acid.
Ribosomes work with mRNA and tRNA in the protein synthesis process of translation. The ribosome attaches itself to an mRNA nucleic acid and moves down until hitting the stop codon while within the ribosome, tRNA provides the anticodons and forms a amino acid chain.
If you are asking this question to cheat at school shame on you. But I don't care I don't know you, I'm not your parent or teacher. It will read "STOP". actually, this answer is correct. When the ribosome reads uaa, uag, or uga, these sequences are known as stop codons. It will read stop. Also, no tRNA can bind to a stop codon... there are no tRNAs with anticodons complementary to the termination codons, so no tRNA enters the A site of the ribosome. Release factors are induced. RF1 to either UAA or UAG, RF2 to either UGA or UAA. RF3 forms a complex with GTP (energy source) and binds to the ribosome. These release factors promote cleave of the tRNA in the P site. GTP is hydrolyzed (reduced) to GDP. The tRNA is released from the P site, mRNA is released from the ribosome, and the ribosome leaves. -zdrum
I dont know and I dont know