Lightnews — Scholar-powered news

Lorenzo Olivi @loreoliv.bsky.social · Aug 31

10€ per copy, basically a steal

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

12
Bonus! DnaA is also a transcription factor, so together with @baybioms.bsky.social we also investigated how changes in its regulation alter E. coli proteome! Surprisingly, impacting titration or switch alone seems to have no impact on the genes known to be regulated by DnaA...

2

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

11
There is still a long road ahead in characterizing the role of initiator titration in controlling DNA replication. Still, it's exciting how cutting-edge microscopy techniques allow us to tackle decades-old biological problems!
Read more at: doi.org/10.1038/s414...

1 3

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

10
More active DnaA in the cell? The chromosome titrates DnaA more, minimizing re-initiations. Less active DnaA? More DnaA is free, mitigating delays in replication. Even more interestingly, severely hampering titration leads to frequent re-initiation events!

1 2

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

9
We then deleted known DnaA control loci and measured the DNA content of cells through flow cytometry, while we used microscopy 🔬 to measure their size and to determine the bound fraction of DnaA. We could then suggest a role of titration in stabilizing DNA replication in slow-growing E. coli.

1 2

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

8
Next, using single-particle tracking 🔬, we observed the binding state of DnaA in live E. coli cells during steady-state growth at different growth rates. Consistent with previous modelling, we observed that the chromosome of E. coli controls DnaA bound fraction in a growth rate-dependent fashion!

1 2

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

7
We started by checking the distribution of DnaA boxes on the chromosome of E. coli. Glad to say that @stephkoe.bsky.social‬ totally knocked it out of the park with this analysis! He showed that DnaA boxes tend to be enriched around oriC, a favorable feature for initiator titration.

1 3

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

6
However, recent experimental and modelling efforts suggest that only a concerted action of switch and titration can generate stable cell cycles. Still, to date there is no direct evidence of DnaA being titrated on the chromosome of E. coli. We decided to try to tackle this gap.

1 3

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

5
We now know that DnaA exists in two forms: DnaA-ATP, competent in unwinding oriC and DnaA-ADP, inactive in oriC unwinding. In this switch model, it is the accumulation of DnaA-ATP that determines replication initiation. As a result, the switch model almost replaced initiator titration.

1 4

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

4
During early days of characterization of DNA replication control, it was hypothesized that the chromosome could act as a sponge 🧽 for DnaA, retarding DnaA binding to oriC by first titrating it on the high affinity boxes. This form of control is what is known as initiator titration model.

1 4

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

3
DnaA binds DNA in specific 9 bp motifs called DnaA boxes. These boxes can have high or low affinity, depending on how well they match a specific consensus sequence. There are hundreds of high affinity boxes spread across the chromosome of E. coli. However, oriC mostly contains low-affinity motifs.

1 4

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

2
In E. coli, DNA replication starts when DnaA binds to the origin of replication oriC and unwinds it, allowing for the rest of the DNA polymerase to assemble. This initiation step must be finely regulated to ensure that DNA replication happens timely and only once per cell cycle.

1 4

Lorenzo Olivi @loreoliv.bsky.social · Aug 22

🧵 Our study on the elusive titration control mechanism of the replication initiator DnaA in Escherichia coli is now out on @natcomms.nature.com‬! @stephkoe.bsky.social
@hohlbeinlab.bsky.social‬ @nicoc-micsynmet.bsky.social @ettema.bsky.social‬ @mib-wur.bsky.social
doi.org/10.1038/s414...

The Escherichia coli replication initiator DnaA is titrated on the chromosome - Nature Communications

A DNA-binding protein, DnaA, regulates the initiation of chromosomal replication in bacteria. Here, Olivi et al. show that the bacterial chromosome sequesters DnaA in a growth rate-dependent manner, s...

doi.org

2 9 19

Lorenzo Olivi @loreoliv.bsky.social · Aug 16

Definitely an experience to say the least, but stoked to see it in its final form!
Can't wait to share more

Johannes Hohlbein @hohlbeinlab.bsky.social · Aug 15

Heroic effort by @loreoliv.bsky.social to wrap that one up! Reviewers' comments: similar number of words as in the manuscript... More soon.

Screen snapshot showing: (manuscript) received in December 2024, accepted in August 2025

5

Lorenzo Olivi @loreoliv.bsky.social · Jul 21

I'm beyond excited to share that I've been awarded an @embo.org Postdoctoral Fellowship to join the lab of prof. Johan Elf at Uppsala University @uu.se! Can't wait to dive even deeper in the fascinating world of bacterial physiology!

3 10

Lorenzo Olivi @loreoliv.bsky.social · Jan 5

This is the science that really matters

Giacomo Bartolucci (he) @gbart.bsky.social · Jan 4

1/n Some time ago my colleague, excellent cook, and friend Ivan told me: "Cacio e pepe is the recipe that I screw up more often. Let's make a project studying systematically the physics of that sauce".

Prepare to get cheesy, I'm glad to share the Cacio e paper preprint:

arxiv.org/abs/2501.00536

5

Reposted by Lorenzo Olivi

Kevin Mitchell @wiringthebrain.bsky.social · Dec 12

The tech bro fascination with eugenics is so on brand. The idea that you could make accurate, actionable predictions from individual genotypes (with all their complex, non-linear interactions) from averaged, linearly modeled population-level genomic statistics is just another big data fantasy

130 480 3.1K

Reposted by Lorenzo Olivi

Johannes Hohlbein @hohlbeinlab.bsky.social · Dec 10

In the spirit of which, here some new filter wheels designed by Ian Kercher with more info available here: www.printables.com/model/110377... #OpenMicroscopy

2 5 13

Reposted by Lorenzo Olivi

Altmetric @altmetric.com · Nov 18

We strongly suggest that academic publishers and other platforms that host research rapidly implement a Share to Bluesky button for their articles. Here's how:

docs.bsky.app/docs/advance...

#AcademicSky #HigherEd #Altmetrics

Action Intent Links | Bluesky

Authors, websites, and apps can use action intent links to implement "Share on Bluesky" buttons, or similar in-app actions. Logged-in users will be directed to the corresponding action view in the Blu...

docs.bsky.app

170 4.6K 11K

Lorenzo Olivi @loreoliv.bsky.social · Nov 18

The best resource for #microscopy is among us on BlueSky! Savior of my #sptPALM designs

FPbase @fpbase.org · Nov 18

Hello friends! We’re here to celebrate and share all things fluorescent. Tag us as you share findings related to the use or publication of FPs and other probes

4

Lorenzo Olivi @loreoliv.bsky.social · Nov 18

Ready for some sweet long(er) tracks finally!

1 1

Lorenzo Olivi @loreoliv.bsky.social · Nov 17

We indeed already played around with maintaining cells at fixed density for live-cell imaging in a couple of studies now, but only recently moved to the Pioreactor and it was such a big improvement!

3

Lorenzo Olivi @loreoliv.bsky.social · Nov 14

Starting to think I should use our dog Ombra as a metaphor to explain students how fluorescent proteins allow you to tell apart things of interest from the background

1 4

Lorenzo Olivi @loreoliv.bsky.social · Nov 14

Feel like "Creep" also definitely deserves a spot! Such an unnerving one

1 1

Reposted by Lorenzo Olivi

Dvir Schirman @dvirschirman.bsky.social · Nov 12

I’m excited to share the first preprint from my postdoc at
@johan_elf_
lab together with Konrad Gras. 🧬🦠
biorxiv.org/content/10.1...
(1/14)

A dynamic 3D polymer model of the Escherichia coli chromosome driven by data from optical pooled screening

The DNA of bacterial cells is organized in a highly dynamic chromosome structure. To guarantee its propagation, the chromosome must replicate, segregate, and accommodate other biological processes lik...

biorxiv.org

4 7 11