Ribosomes and protein synthesis

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    Protein Synthesis
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Discussion Overview

The discussion revolves around the role of ribosomes in protein synthesis, particularly their relationship with the rough endoplasmic reticulum (ER). Participants explore how proteins are synthesized, the mechanisms of translocation into the rough ER, and the nature of codons in the genetic code. The conversation includes both conceptual and technical aspects of cellular biology.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested
  • Homework-related

Main Points Raised

  • Some participants express confusion about whether proteins are synthesized inside or outside the rough ER, noting that illustrations suggest proteins "appear" inside the ER.
  • One participant clarifies that proteins synthesized in the cytoplasm depend on a signal sequence for their destination, while those synthesized at the rough ER are translocated into the ER during synthesis.
  • There is a discussion about the role of ribosomes in synthesizing amino acid chains and how they detach after completing a protein.
  • Participants inquire about the nature of codons and their role in the genetic code, with some providing definitions and explanations.
  • Questions arise regarding the mechanism of protein translocation into the rough ER, comparing it to facilitated diffusion and active transport, with differing views on whether energy is required.
  • Clarifications are made regarding the structure of the ER, confirming it is composed of a phospholipid bilayer.

Areas of Agreement / Disagreement

Participants express varying levels of understanding and confusion about the processes involved in protein synthesis and translocation. There is no consensus on the specifics of how proteins enter the rough ER, and multiple viewpoints are presented regarding the mechanisms involved.

Contextual Notes

Some participants mention terms and concepts not covered in their current studies, indicating potential gaps in knowledge that may affect their understanding of the discussion. The complexity of the mechanisms involved in protein synthesis and translocation is acknowledged, with references to additional resources for clarification.

Who May Find This Useful

This discussion may be useful for students in introductory biology courses, particularly those studying cellular processes, protein synthesis, and genetic coding.

Math Is Hard
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I've been looking at some explanations and pictorial illustrations of ribosomes in my biology book. Now, they say that ribosomes are the sites of protein synthesis, and I am confused because the ribosomes are situated on the outside of the rough ER, but the newly synthesized proteins seem to just "appear" (in the illustrations) on the inside of the rough ER, where they then get pinched off and sent via vesicles to the Golgi Apparatus or to wherever they are destined. What is really going on here? Are these proteins manufactured on the inside or outside of the rough ER? If they are made outside, how do they get inside? :confused:

thanks!
-mih
 
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Ribosomes attach to m-RNA's and move from codon to codon synthesising the chain of amino acids.In this case, amino acids are brought from the cytoplasm by the clover-shaped t-RNA's . As the ribosome moves from one codon to codon , t-RNA's come and attach their bases with complementary bases on m-RNA and keep syntheissing the chain of amino acids which is then detached once the stop-codon is reached. And the chain of amino-acids (or a Protein) is left free to work for the cell.After this ribosome detaches itself from the m-RNA and starts lookign for another m-RNA to work with.
Ribosomes are not chained-organelles , they move around in the cell .

BJ
 
Math Is Hard said:
I've been looking at some explanations and pictorial illustrations of ribosomes in my biology book. Now, they say that ribosomes are the sites of protein synthesis, and I am confused because the ribosomes are situated on the outside of the rough ER, but the newly synthesized proteins seem to just "appear" (in the illustrations) on the inside of the rough ER, where they then get pinched off and sent via vesicles to the Golgi Apparatus or to wherever they are destined. What is really going on here? Are these proteins manufactured on the inside or outside of the rough ER? If they are made outside, how do they get inside?

the proteins are manufactured outside the rough ER

First not all protein synthesis is done at the rough ER. Most protein are syntheis in the cytoplasm. So for protein synthesised in the cytoplasm, the site for a protein is dependent on a specific signal sequence on the protein. This signal will then be recognized by certain protein called chaperone. The chaperon will traffick the protein to the mitochondria or other organelles.

In the case of protein syntheised at the rough ER, an ER signal sequence will be regonized as the protein is being synthesized. This signal will cause the protein to be translocatted inside the ER (water solubule protein) or be embeded in the membrane after translocation (membrane bound proteins). the translocation is done by other proteins. These proteins form a channel that let unfolded/linear protein pass through.
 
Thanks, Dr. Brain. What are "codons"? I should probably have prefaced this thread with the note that I am in a beginning biology class for non-life-science majors. :redface:

Merci beaucoup, Ian. We were talking in class about "facilitated diffusion" last week, and how some molecules needed a channel protein to move through the cell membrane. Does it work the same way with proteins going into the rough ER, the translocation you mentioned? Do they diffuse through the channel protein? Or is this like "active transport"?

Also, is the ER made out of a phospholipid bilayer like the cell membrane?

Thanks for your help. :smile:
 
Codons are the units or "letters" of the genetic code in a particular genome. Each consists of an ordered triple of selections from the four bases. The individual bases in the codons are called nucleotides.

Google on genetic code.
 
selfAdjoint said:
Codons are the units or "letters" of the genetic code in a particular genome. Each consists of an ordered triple of selections from the four bases. The individual bases in the codons are called nucleotides.

Google on genetic code.
Thanks, SelfAdjoint. We just started studying nucleic acids and nucleotides this week, but I hadn't come across that term yet.
 
Math Is Hard said:
Merci beaucoup, Ian. We were talking in class about "facilitated diffusion" last week, and how some molecules needed a channel protein to move through the cell membrane. Does it work the same way with proteins going into the rough ER, the translocation you mentioned? Do they diffuse through the channel protein? Or is this like "active transport"?

It is not the same but it could view as a similar mechanism. I think the mechanism may be energy-independent but it does not diffuse through the channel. The protein is pushed by the ribosome.

Look at the figures in the link below
http://nobelprize.org/medicine/laureates/1999/illpres/protein.html
http://www.cce.caltech.edu/faculty/shan/Fig1.jpg

Math Is Hard said:
Also, is the ER made out of a phospholipid bilayer like the cell membrane?

Yes, the ER and virtuall all organelles are made of phospholipid bilayers.
 
Last edited by a moderator:
Thanks, Ian. That makes it a lot more clear. Those links are great! They don't mention "translocons" in my book (nor the SRPs and SRP receptors), and I think that's why I was having trouble making sense of the process.
 

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