Why are sugars found predominantly in D-form in biochemistry?

  • Thread starter Thread starter Aymeric
  • Start date Start date
  • Tags Tags
    Biochemistry
AI Thread Summary
The discussion centers on the concept of homochirality in biology, specifically why sugars in food and the body predominantly exist in D-form, while L-form sugars are rare. The basis for this homochirality remains an open question, with various hypotheses being explored. One key point is that biochemical reactions are facilitated by enzymes that are specific to the shape of D-sugars, effectively excluding L-sugars from metabolic pathways. A notable hypothesis involves the influence of circularly polarized light, which may preferentially interact with one chirality over the other, potentially explaining the predominance of L-amino acids found in biological systems. The conversation also references the presence of both forms of amino acids in meteorites, suggesting a connection to the origins of life on Earth. The topic is rich with ongoing research and interest, highlighting the complexities of chirality in biochemistry.
Aymeric
Messages
12
Reaction score
0
Hello,

My question is in the title :)
I have just started working on my biochemistry course, and the textbook says that 'all sugars found in food and in the body are in D-form (the L-form can be found in rare cases in some plants and micro-organisms)'. But it doesn't explain why or how...

Thanks for your help!
 
Chemistry news on Phys.org
The basis for homochirality in biology is still an open one. There have been a number of hypotheses proposed, and are being tested and examined as we speak. I would also note that your question - generally speaking - also applies to the homochirality observed in amino acids.
 
Perhaps I am stating the obvious, but biochemical reactions are facilitated by enzymes which act based on the shape of the reactants. If your body has enzymes for D-sugars, L-sugars will be largely excluded from the biochemical pathways.

I recently heard a NASA astrophysicist speak on homochirality. One suggested mechanism is that circularly polarized light (say, from a pulsar) will interact with one chirality and not the other, causing reactions that leave only the other form intact. He noted that amino acids found on meteorites are present in both forms, buts there is a slight abundance in the L-isomer of some. Other researchers present asserted the excess was significant enough to plausibly explain the preponderance of the L-form amino acids in biology.
 
Thanks everyone for your answers! It's very interesting...
 
Fewmet,
Can you post a link to the speech?

Aymeric,
Here are some keywords if you feel like digging into the topic:
Murichison Meteorite, circularly polarized light, isovaline,http://www.chem.duke.edu/~jds/cruise_chem/Exobiology/miller.html
 

Thread 'Humidity of a saturated NaCl solution with anticaking additive'

I want to test a humidity sensor with one or more saturated salt solutions. The table salt that I have on hand contains one of two anticaking agents, calcium silicate or sodium aluminosilicate. Will the presence of either of these additives (or iodine for that matter) significantly affect the equilibrium humidity? I searched and all the how-to-do-it guides did not address this question. One research paper I found reported that at 1.5% w/w calcium silicate increased the deliquescent point by...
View full post »

Similar threads

What waste products are formed from sugar rocket fuel?
Replies
9
Views
5K
How do I reconcile the biochemistry textbook descriptions of protons?
Replies
4
Views
2K
Why Is Understanding Biochemistry Foundations Crucial for Medical Students?
Replies
2
Views
2K
Chemistry A good introductory biochemistry book for medical school
Replies
5
Views
2K
Biochemistry Research: Is it Worth the Cost and Effort?
Replies
7
Views
2K
Why plant distributes sugar in the form of sucrose?
Replies
1
Views
2K
What caused the unexpected curve in my cellulose to sugar conversion process?
Replies
8
Views
4K
Why are enantiomers commonly used in organic chemistry and biochemistry?
Replies
2
Views
2K
Most dangerous chemicals?
Replies
46
Views
6K
Why there isn't any unimolecular addition reaction?
Replies
1
Views
2K

Hot Threads

Recent Insights

Back
Top