Why is a higher resolution necessary for larger molecules in mass spectrometry?

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In mass spectrometry, the resolution required to distinguish between two molecules is defined as M/(delta M). This means that for larger molecular weights (M.W.), a higher resolution is necessary compared to smaller molecules, even if the mass difference (delta M) remains the same. The reason for this is that larger biological molecules often have more complex structures and variations, leading to multiple combinations that can result in similar M.W.s. Consequently, high resolution is crucial for accurately identifying these larger molecules. Additionally, real-world data can contain noise and deviations, which further necessitates improved resolution to differentiate between closely spaced peaks. This challenge is particularly pronounced in the analysis of polymers and proteins, where the complexity of the samples increases the demand for precise measurements.
schordinger
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In mass spectrometer, the resolution required was defined as
M/(delta M), So, it means for two larger M.W. molecules, the resolution required was larger than small M.W. molecules even the delta M was was the same...

But why ??!
why the instrument should have better resolution to distinguish different larger molecules ??!

Thx...[?]
 
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Don't know much about mass spectroscopy.

But if I had to guess...

For small molecules, the empirical formula can be calculated from the MW. There's only one formula possible for the MW 130.1418, for example. Even mass spectrometers with low resolution can figure it out for small molecules. WIth large, particularly biological molecules there are more combinations and permutations that can give very similar MW's. So having a high resolution probably helps here. But I'm not sure. I don't handle many compounds more then several hundred daltons.
 
Chemicalsuperfreak, thanks for your reply

I agree with your point.
However, I still don't understand in some sense.

For example, if 2 molecules, the first has atomic mass 22.01 and the second one has 22.00, the mass resolution required to distinguish THE TWO molecule was 22/0.01. Another 2 molecule have atomic mass 122.01 and 122.00, the resolution required for distinguish this TWO VALUE (PEAK) was 122/0.01.

As the delta M was 0.01, in common sense, what the instrument required was it can distinguish 0.01 mass difference. The mass of the peak were not related, if just consider two peak. In fact, mass resolution was defined as "the maximum resolution required to distinguish of two peak"

:smile: [?]
 
Remember, in real life, you have crud in your data. You have error, you have deviations. It will require a higher level of resolution to distinguish between two peaks as their standard deviations may increase.

Now you may feel pity for all those people doing mass spec of polymers and proteins.
 

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