Maybe this is a dump question but will Tn5 fragment DNA into small pieces if they don't load with adapters?

So I hope someone is still interested in this.

We have taken to preparing recombinant Tn5 now as it's much cheaper than commercial suppliers, whether that is unloaded or loaded. The latest batch which was particularly highly concentrated around 1.5 mg/ml led to very strong activity so much so we had to dilute the Tn5 protein 1/3 to 1/6 before loading with either Nextera or our own custom adapters. I worried there might be some nuclease carry-over from the bacterial expression system to explain why it's so much stronger than previous productions, so I included an unloaded Tn5 at the same dilution as a negative control. Well turns out this doesn't work well as a negative control because even unloaded Tn5 fragmented test lambda DNA input. Surprisingly this was even stronger than Tn5 loaded with adapters.

I tested both old and new productions of Tn5 and Tn5 from Creative Enzymes and Diagenode (purchased both unloaded versions). I contacted Diagenode and they state that they actually test the nuclease activity of unloaded Tn5 without loading adapters. Please see the tweet.

Hi Callum,
Yes, Tn5 has a nuclease activity without a complex with DNA. For example, we use it to test the activity of our unloaded Tn5: https://t.co/skDiJlmJwB
Are you adding some custom adaptors or working with Nextera-like system?

— Eka Gracheva 🤍💙🤍 🇺🇦 (@EkaGrachevaPhD) December 8, 2022

Currently what we do is form duplexes by annealing and then bind to Tn5 in a 10uL reaction for 30 mins at RT. We then degrade any unbound duplex by exoIII treatment and then EDTA inactivation. I also worried that the EDTA may have not inactivated the exoIII going forward for the tagmentation reaction so I also checked without this treatment and we still see unloaded Tn5 digest naked Lambda DNA.

This seems to disappear when we treat permeabilized nuclei. I am struggling to know the reason but of course activity of Tn5 is weaker on real chromatin and in situ compared to naked lambda DNA as there are so many steric hindrances and the issue of entering nuclei.

Example of TapeStation of scaled-up reaction in 500,000 nuclei. Working on the assumption we usually add 2.5 μL of complex per 50,000 nuclei/ 50 ng naked DNA, adding 25 μL of the complex. In nuclei, we do not see any nuclease contamination as the unloaded Tn5 does not show any fragmentation. I am not sure what the difference is between naked DNA and in nuclei phenomena.