lysis buffer volumen was crucial in my case.

I would say you are not lysing properly the cells and therefore you get more DNA released increasing the sonication times. It seems you have more DNA on the wells that could be DNA just released from nuclei by sonication.

You are absolutely right about the size limit of DNA fragments that can be achieved with AFA technology. We believe that the limit is 80 bp (fairly narrow peak with apex around 80 bp). To get such a short fragments you need to shear sample for around one hr. The size limit have probably something to do with the mechanism of DNA fragmentation. The acoustic energy involved in shearing DNA to a small fragments creates some inertial cavitation. In this case bubbles collapse, rebound and emit a pressure pulse or microjet that fragments DNA. The number of bubbles collapsing and their energy could cause the simultaneous fragmentation of the same DNA molecule in two different locations. However, the rigidity of DNA strand, which is closely related to the ability to fragment it, is an exponential function of the inverse of DNA strand length - hence the natural size limit.
I haven't done any experiments with crosslinked chromatin to determine size limit, since most people are interested in fragments around 200 bp, but I suspect that it exists and is probably around 100 bp.

If you have any other questions, please do not hesitate to contact me

Regards,

[Xxxx]


[Xxxx Xxxxxxxxxxxx] Ph.D.
Covaris, Inc.