who we are

We are cell biologists and microbiologists. Our goal is to understand how cells within human beings and other organisms, including bacterial pathogens, are themselves organized. We seek to understand the mechanisms that organize subcellular structures and how these mechanisms contribute to health and disease. We are problem-driven and technique-agnostic.

news

2023.04.06

With our incredible collaborators in Sarah Keller‘s and Robert Ernst‘s labs, we have recently published two new papers on membrane phase separation.

Journal cover showing micrographs of phase separated yeast vacuoles

In the first paper, lead authors Chantal Leveille and Caitlin Cornell report our  discovery that yeast cells reversibly phase separate their vacuole membranes under extraordinarily precise, temperature-dependent regulation. In the second paper, John Reinhard and Christian Klose, in the Ernst group, join Chantal and Caitlin in dissecting the membrane compositions of vacuole membranes that are either phase-separated (2 phases) or mixed (1 phase) using state of the art rapid organelle isolation and lipidomics. Alex is especially happy to have contributed a journal cover showing his own data since grad school, especially in this issue dedicated to the great membrane biophysicist, Klaus Gawrisch.

2021.03.12

Delighted to announce that we have renewed our NIH R01 grant on membrane fusion, now going into its 14th year of funding, and that we have a new NIH R21 award to study the mechanisms of infection by bacterial pathogens.

What this means: we’re looking for enthusiastic and creative postdocs and grad students!

2018.07.27

We played a small part in what I (Alex) think is a ground-breaking discovery by Hannah Ledvina, a graduate student in the Mougous Lab. Hannah has discovered that a protein injected into host cells by the bacterial pathogen Francisella is the prototype of a new family of lipid kinases. These kinases generate PI(3)P, a key signaling molecule that is a signpost of intracellular organelle identity and dynamics. These kinases are also found in Legionella, the bug that causes legionnaire’s disease, and in many other bacteria as well.

Hannah’s paper is here:
A phosphatidylinositol 3-kinase effector alters phagosomal trafficking to promote intracellular growth of Francisella. Ledvina HD, Cundiff JA, Kelly, KA, Plemel RL, Eshraghi A, Brook S, Peterson SB, Lee B, Alder M, Merz AJ, Shawn J. Skerrett SJ, Celli J and Mougous JD. 2018.
doi: 10.1016/j.chom.2018.07.003

2018.06.14

Our plate-based reporter for monitoring membrane traffic through the AP-3 pathway, GNSI, is now available from the Addgene plasmid repository. This is yet another collaboration with Greg Odorizzi at CU-Boulder. Here’s a preprint describing the system:
Plemel RL, Odorizzi G, Merz AJ. 2018. Plate-based assay of AP-3 traffic in budding yeast.
bioRxivdoi: 10.1101/314286

2018.05.27 — Lots of news!

  • At the Seoul Sympusium on Membrane Trafficking last week, Merz labbie Tomoka Takenaka won the Silver Award for her and Tom Duan’s poster on reconstitution of ER-Golgi docking and fusion.
  • At the Canadian Biophysics Meeting, our Keller Lab co-conspirator Glennis Rayermann was selected to give a talk based on her submitted abstract, while Chantelle Leveille won a poster award.Congratulations to everyone!

2018.03.04
Team Membrane watches the Seattle Mariners beat the Oakland A’s on a beautiful spring evening. Rachael was delighted with the box score; and Alex had a great time despite the box score 😉

2018.04.24
Congratulations to Merz Lab alum Braden Lobingier on the Notice of Award for his K99 project in the von Zastrow lab at UCSF!

2017.02.05
Physics Today has just published a nice feature article on our membrane phase separation work!

2017.12.05
None dare call them rafts! Or, at least, we don’t…

Our collaboration with the Keller Lab on membrane phase partitioning is published in the Biophysical Journal [link]. This is a simple set of experiments that turned out to be very technically demanding to actually accomplish. We think this work, in combination with a body of prior art going back over fifty years, provides close to definitive evidence for liquid-liquid membrane phase separation in a living cell.

Alex put up a longish Twitter thread on this line of work (part 1 | part 2).
UW News article (link)

L to R: Sarah Keller, Scott Rayermann, Alex Merz, Glennis Rayermann

2017.11.15
Nature News & Views article by Anne Spang (link) discusses recent progress on SNARE-mediated membrane fusion, including two of our recent papers in eLife.

2017.10.16

Matt Schwartz’s opus magnum on interactions between SM proteins and Sec17 is published at eLife! This study is the result of work by many people in our group over the span of almost a decade. It is a capstone of sorts and marks a major turning point in our work. Stay tuned ;-).

2017.09.22
Scott and Glennis Rayermann’s paper on liquid-liquid membrane phase separation in vivo is in press at the Biophysical Journal. More info soon!

2017.09.15
LOTS of news!
• Congratulations to Scott Rayerman on the successful defense of his thesis — among other things we should have more news on his paper soon. Scott aced the snake fight portion of his defense, and starts next week as an Acting Instructor in Chemistry at UW-Tacoma.
• Our new paper on interactions between SM proteins and Sec17 in SNARE-mediated fusion is — finally! — in press at eLife.

• Our paper on CCCP-1 and dense core granules, with Jerome Cattin of the Ailion group, is published in Traffic.
• We welcome Tomoka Takenaka, a post-bac student from the Muruyama Laboratory at Tokyo Tech, as the newest member of the Merz lab!

2017.07.17
Our paper on the golgin family tether CCCP-1, a collaboration with Michael Ailion’s lab, is now in press at Traffic.

2017.07.17
A paper resulting from our collaboration with Bill Wickner’s lab is now published in advance-online form:

Song H, Orr AS, Duan M, Merz AJ, Wickner WT. 2017. Sec17/Sec18 act twice, enhancing fusion and then disassembling cis-SNARE complexes. eLife 2017;6:e26646 doi: 10.7554/eLife.26646

2017.04.14
A warm welcome to the newest member of the lab, Tom Duan! Actually Tom has been with us for a while as an undergrad and as a post-bac researcher. He’s now a Staff Research Scientist and we’re thrilled to have him on board in that capacity.

2017.04.04
Our new preprint on the complex interplay among key SNARE cofactors is now available: Schwartz ML, Nickerson DP, Lobingier BT, Angers CG, Zick M, Merz AJ. Sec17 (α-SNAP) And An SM-Tethering Complex Control The Outcome Of SNARE Zippering In Vitro And In Vivo. Submitted – bioArxiv LINK

2017.04.01
Rotating grad student Anika Burrell carried out an amazing saturation mutageneisis study of Sec17, a core component of the SNARE-mediated membrane fusion system.

Not only that, but she made amazing and tasty cookies diagramming the system. This one depicts the post-fusion 20S particle: a vesicle (purple), 4 SNARE proteins (blue lines), 4 copies of Sec17 (orange), and a Sec18 hexamer (blue blobs).