I'm only up to 300 LCMS injections but I'm at least at a point where I have first impressions of the instrument. This is a new TIMSTOF Ultra2 and refurb/demo EvoSep One System. 5 years ago (!!!) I had impressions of the Flex, my first ever Bruker instrument. A lot has happened in 5 years, and these things have continued to mature.
First off - the source is so much better. I won't mince words (is that a thing? mix?) - I hate the classive CaptiveSpray source on the TIMSTOFs. This was the source I had on the Flex and on the TIMSTOF SCP. It's fragile, has too many pieces and is too tricky for people to put together correctly repeatedly. Since this post is mostly positive I will share something negative and funny. The old CaptiveSpray source is such a pain in the butt to put together that - not even kidding - an extremely capable Bruker field apps person once left my lab with one put together wrong. That's a pretty good sign you need a new source, right?
The Ultra2 has a completely different source and it's a night and day difference. It isn't simple, you remove the captivespray and brackets separately, but unless you try to do those things backward there appears to be little chance of doing it wrong. The pieces are largely steel (with the obvious exception of the silly glass capillary and gold o-rings) but you don't need a checklist and the hands of a surgeon to put it together. Huge upgrade. Is an EasySpray source easier? Absolutely! But this is a tremendous upgrade.
Huge surprise for me - the PASER and HyStar integration have come a long long way. It's now called BPS, which I can't even guess what it stands for, but if you also have a PASER sitting in a corner that you stopped using when you started running DIA you might want to revisit it.
BPS not only runs Bruker's version of DIA-NN but it also can integrate TIMSScoring and - get this - it'll run SpectroNaut! You can still run stuff from the command line through PASER so this is how mine is set up now -
It's currently triggering stand-alone DIA-NN 1.8 to run on the data acquisition PC and it is running SpectroNaut (let's call it SpectroNaut Lite) on the PASER PC. I'll move it up to a new version of DIA-NN this week. Running the GPU version of 2.definitely results in more IDs, but 1.8 and SpectroNaut seem to be in better agreement (again - very limited run time).
Worth noting - SpectroNaut lite will make you a .SNE file AND you can go back and merge .SNE files into reports - but if you want to look at your data (which is the whole reason I pay for SpectroNaut) you need to pay for SpectroNaut. I got a fantastic discount on full SpectroNaut for being a BPS user, which makes it the least I've ever paid for a SpectroNaut annual key. I'll prioritize paying for that before the tariffs kick in.
How are the results? Unreal. I had an SCP but it was one of the very first commercial models. I don't know if the reason this is a bigger jump in my hands than the Flex to SCP is because my SCP was an early model - or if this is just that big of a jump.
I wonder if the jump from the Fusion 1 to Fusion 3 is a good analogy? Or the jump from a QE to QE HF? Probably. That's not to say the SCP didn't get great data. I'll eventually have a couple papers out from that system. But if you needed my Ultra2 right now and offered me two SCPs right now that for some reason couldn't be upgraded to this one - I wouldn't take it. Here is what is running off the system this weekend (again - only 300 injections).
These are in reverse order. Definitely ignore the sample names. There is no way I had a retired chromatographer help me come up with a column compatible with the 80 SPD that has 90% more theoretical plates than the one that is recommended by the manufacturer. I'm not going ot get in trouble because separating peptides on a 5cm column is silly.
These are in reverse order, so 19 was my first 2ng injection on my way out the door on Friday. 31000 peptides from 2ng is nuts. But it seems to stabilize at 40,000 peptides and 5k protein groups. 200pg seems to hang out around exactly half of that.
Samples 9 and 10 were where I ran out of 200pg peptide sample. That's what I made the most of and I have trouble estimating from the volume in a 1.5 mL tube how much I have left. So my blanks are blank.
I'm so so so so pumped with this system so far.
Another big huge jump for the system is that I can tune it from TIMSControl - I don't have to switch to the antiquated OTOFControl to tune my resolution and TOF sensitivity then reboot my PC 11 times to get it to recognize TIMSControl again. I can do the tuning directly in TIMSControl.
Where are the problems? Compass Data Analysis. For Thermo users imagine that you had a 16-bit version of Xcalibur that works just great for a TSQ Quantum or LCQ and seemed to struggle with LTQ but you're opening Astral data with it. Are the functions still there? Sure! Can you find them? Maybe! Can it do it fast? Ummmm.....no...not fast. And then imagine that if you wanted to extract an XIC on another PC then you had to buy another license of it. Is it that big of a deal? No, but it only feels right to complain about something while gushing about the single biggest purchase of my career.
Until people join the lab (this summer, I think!) I'm not going to play with it much. I'm prepping single cells almost entirely label free (largely using the One-Tip method by printing cells from a Tecan Uno into EvoTips - though I'm having some problems with some cells that I'm working through). My plan is to spend 1 day every 2 weeks sorting/prepping single cells. Then they run on the EvoSep through until the next week. I can easily do 600 cells and by 40SPD that's 2 weeks of run time. Then I can spend my time writing grants, papers, meeting faculty, writing hiring exemptions -and other PI stuff. When the first people join the lab we'll have Bruker out to train them and I'll ...ummm.... pass off the single biggest purchase of my career...off to those super smart and capable young people... mostly. I have a some dumb ideas and I should probably do them myself!
