answersLogoWhite

0

The ribosomes are the " workbench " of protein synthesis with the rough ER accepting some polypeptide chains from the ribosomes studding it into it's lumen for modification. Then the modified proteins are shipped to the Golgi for further modification and shipment to wherever they are needed.

User Avatar

Wiki User

13y ago

What else can I help you with?

Continue Learning about Natural Sciences

What would happen to the cell membrane if ribosomes are not working?

There would be no protein synthesis.


Where does protein synthesis happen faster?

Protein synthesis happens faster in prokaryotic cells, specifically in the cytoplasm where all the components necessary for translation are readily available. In eukaryotic cells, protein synthesis occurs in the cytoplasm as well, but the process is generally slower due to the additional steps and compartmentalization involved.


What are mistakes that can happen during the coping of DNA?

Some common mistakes that can occur during the copying of DNA are: Insertion or deletion of bases: Errors in DNA replication can lead to the insertion or deletion of nucleotides, resulting in a frameshift mutation. This can alter the reading frame and disrupt the protein-coding sequence. Substitution of bases: Substituting or swapping one base for another can result in a point mutation. This can lead to changes in the amino acid sequence during protein synthesis, affecting protein function. Replication errors: DNA polymerase enzymes can make mistakes by incorporating incorrect nucleotides during replication, resulting in mismatched base pairs. Proofreading mechanisms usually help to correct these errors, but some mistakes can still get through, leading to mutations.


What would happen if during translation of a protein the mRNA codon UAA sequence was presented?

If the mRNA codon UAA is encountered during translation, it serves as a stop codon, signaling the ribosome to stop protein synthesis and release the completed protein. This results in the premature termination of translation, leading to a shorter and incomplete protein being produced.


What would most likely happen if there is a change in the base sequence of this molecule?

B. The amino acid sequence may be altered during protein synthesis.

Related Questions

What would happen to the cell membrane if ribosomes are not working?

There would be no protein synthesis.


Where and why does protein synthesis happen?

Protein synthesis occurs in the ribosomes of a cell. This process is essential for building proteins, which are needed for various functions in the body, such as growth, repair, and regulation of body processes.


Where does protein synthesis happen faster?

Protein synthesis happens faster in prokaryotic cells, specifically in the cytoplasm where all the components necessary for translation are readily available. In eukaryotic cells, protein synthesis occurs in the cytoplasm as well, but the process is generally slower due to the additional steps and compartmentalization involved.


What are mistakes that can happen during the coping of DNA?

Some common mistakes that can occur during the copying of DNA are: Insertion or deletion of bases: Errors in DNA replication can lead to the insertion or deletion of nucleotides, resulting in a frameshift mutation. This can alter the reading frame and disrupt the protein-coding sequence. Substitution of bases: Substituting or swapping one base for another can result in a point mutation. This can lead to changes in the amino acid sequence during protein synthesis, affecting protein function. Replication errors: DNA polymerase enzymes can make mistakes by incorporating incorrect nucleotides during replication, resulting in mismatched base pairs. Proofreading mechanisms usually help to correct these errors, but some mistakes can still get through, leading to mutations.


What would happen if during translation of a protein the mRNA codon UAA sequence was presented?

If the mRNA codon UAA is encountered during translation, it serves as a stop codon, signaling the ribosome to stop protein synthesis and release the completed protein. This results in the premature termination of translation, leading to a shorter and incomplete protein being produced.


What would most likely happen if there is a change in the base sequence of this molecule?

B. The amino acid sequence may be altered during protein synthesis.


What happen the transcription process of protein synthesis?

The genetic code for a particular protein is copied from the DNA template to a strand of messanger RNA (mRNA). The message is written 'in reverse' due to complementary base pair boding and is 'reversed' again during translation back to the original base code.


What would happen to an animal cell if it didn't have ribosomes?

Ribosomes are responsible for protein synthesis.If they are absent it affects the protein synthesis,which indirectly effects health.Therefore victims suffer from malnutririon such as Marasmus,Kwashiorkor.


What would happen when ribosomes are absent?

the correct amino acids won't be transfered to the ribosomes and the protein synthesis would fail. PLATO says so.


What would happen if you didn't have RNA?

Without RNA, cells would not be able to carry out protein synthesis. This would prevent the translation of genetic information from DNA into proteins, leading to a lack of essential cellular functions and ultimately cell death.


Could protein synthesis still happen if a cell did not have DNA?

Not currently - but probably in the past RNA did the job. And before that it is possible that self-replicating proteins did it too.


What would happen if the stop codon was mutated to encode for another amino acid, disrupting the normal termination of protein synthesis?

If the stop codon is mutated to encode for another amino acid, it would result in the incorporation of that amino acid into the protein being synthesized, leading to a longer and potentially non-functional protein. This disruption of the normal termination of protein synthesis could affect the structure and function of the protein, potentially causing cellular dysfunction or disease.