Does DNA get affected by the concentration of the liquids around it?

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Discussion Overview

The discussion centers on whether the concentration of surrounding liquids affects DNA, exploring various factors such as pH and salt concentration. The scope includes theoretical considerations and biological implications related to DNA stability and structure.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • One participant inquires about the effects of liquid concentration on DNA, suggesting a need for clarification on the question's phrasing.
  • Another participant explains that low pH can decrease DNA solubility and cause depurination and strand breakage, while high pH can denature nucleic acids but may still lead to depurination.
  • A different participant notes that the structure of DNA is influenced by salt concentration, mentioning that high salt conditions can favor the Z-form of DNA over the B-form.
  • Some participants express appreciation for the information shared, indicating a positive engagement with the topic.

Areas of Agreement / Disagreement

Participants do not reach a consensus on the initial question, and multiple views regarding the effects of pH and salt concentration on DNA remain present.

Contextual Notes

The discussion includes assumptions about the definitions of concentration and its implications for biological systems, as well as the potential effects of varying pH and salt levels on DNA stability.

jedistartrek
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TL;DR
Hi

I would just like to know if DNA is affected by the concentration of liquids around it.

Thanks and best regards,
Hi

I would just like to know if DNA is affected by the concentration of liquids around it.

Thanks and best regards,
 
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Concentration refers to the amount of stuff dissolved in a solvent, water is a solvent. So what you are asking is a bit turned around.
How about this:

Cell "insides" and their DNA are in a water medium, sometimes called the cytosol. So water is a given factor in living cells. pH - the amount of acid in the water:
Low pH decreases the solubility and can cause depurination and strand breakage. Low pH also stabilizes triple helices that contain pyrimidine-purine-pyrimidine and cytosine residues. High pH, up to 13, is less damaging and is used to denature nucleic acids. However, depurination [ removal of necessary purines, cytosine (C) and thymine (T) ] and strand breakage can still happen.
from: https://www.biosyn.com/faq/Does-the-pH-influence-the-stability-of-double-stranded-DNA.aspx
So it that sense - working backwards from the usual definitions - less water and more acid is not good.

The way you phrased your question makes it hard to interpret. You change your body's ' water concentration'
when you drink a large glass of water. Usually the concentration of a large number other molecule types affects all kinds of processes and other molecules, this concentration changes as your body hydrates and dehydrates.

Maybe what you really want is homeostasis, the body's system to keep [whatever] concentration interests you in a safe range -- in this case fluid balance.
 
Oh ok. Thank you very much. I'll let you know again if I have any questions.

Glad to know someone's working on these solutions.

Thanks.
 
It seems ironic they haven't fixed it by now.
 
Oh great. I truly enjoyed the reading.
 

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