Josh Lawrence
@jmlawrence.bsky.social
π€ 89
π₯ 120
π 38
Research Fellow at Trinity Hall and Chemistry Department of the University of Cambridge | he/him
pinned post!
Our latest paper is out now in
@jacs.acspublications.org
. In this study we tried to push the limits of
#electrochemistry
beyond proteins, to studying entire pathways of biological electron transfer β‘οΈπ¦ . Here's a summary 𧡠(1/10)
pubs.acs.org/doi/10.1021/...
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Dissecting Bioelectrical Networks in Photosynthetic Membranes with Electrochemistry
Photosynthetic membranes contain complex networks of redox proteins and molecules, which direct electrons along various energy-to-chemical interconversion reactions important for sustaining life on Ea...
https://pubs.acs.org/doi/10.1021/jacs.5c08519
2 months ago
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Our latest paper is out now in
@jacs.acspublications.org
. In this study we tried to push the limits of
#electrochemistry
beyond proteins, to studying entire pathways of biological electron transfer β‘οΈπ¦ . Here's a summary 𧡠(1/10)
pubs.acs.org/doi/10.1021/...
loading . . .
Dissecting Bioelectrical Networks in Photosynthetic Membranes with Electrochemistry
Photosynthetic membranes contain complex networks of redox proteins and molecules, which direct electrons along various energy-to-chemical interconversion reactions important for sustaining life on Ea...
https://pubs.acs.org/doi/10.1021/jacs.5c08519
2 months ago
1
7
7
reposted by
Josh Lawrence
Leonid Digel
3 months ago
Out now! Simultaneous aerobic and anaerobic respiration enabled via extracellular electron transfer. Meet Microbacterium deferre A1-JK.
www.nature.com/articles/s41...
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Iron reduction under oxic conditions by Microbacterium deferre sp. nov. A1-JKT - Nature Communications
In this study, the authors show that Microbacterium deferre A1-JK, a newly isolated Gram-positive bacterium, simultaneously reduces oxygen and iron under oxic conditions, revealing unexpected microbia...
https://www.nature.com/articles/s41467-025-61424-7
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Was great to be part of this study headed up by
@scaralbi.bsky.social
. We are very excited by the finding that chromosomal polyploidy could be an important driver in the
#evolution
of
#cyanobacteria
and other prokaryotes. π§¬π¦
add a skeleton here at some point
6 months ago
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Thanks to
@cenmag.bsky.social
for this great article about our efforts to create music with algae πΆπ¦
add a skeleton here at some point
7 months ago
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Here's something a little different to our usual research for my inaugral Bluesky Post. In our new perspective out now in Applied Phycology, we describe how you can use the electrical signals of algae to generate music π¦ β‘οΈπ΅. π§΅1/12
www.tandfonline.com/doi/full/10....
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Algal biomusic generation
Technologies which can generate music with limited human intervention are a longstanding area of investigation for musicians and musicologists, with particular interest in how these technologies ca...
https://www.tandfonline.com/doi/full/10.1080/26388081.2024.2434476#d1e275
10 months ago
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