Now that I can actually watch the stream from the start... Oh, with the mention of the focus on unculturable ocean bacteria, I can't help but think of candidatus electronema - its capacity to produce activated carriers to sustain its metabolism via transfer of electric charge is especially appealing in the context of closing the loop of cellular respiration with only electric charge - I saw a diagram where the cell of the bacteria was capable of producing glucose from carbon dioxide, but perhaps I was misinterpreting the diagram Ah! The chicken book! That's a good one My guess at around 1:20:00 was viral DNA - but transposons probably make more sense, and viral DNA segments would probably be longer, anyhow
I do wonder - what roles do python code notebook systems like jupyter or marimo play in the bioinformatics ecosystem in terms of demonstrating your code to others in the field itself?
Interesting I think this might help me with formulating ideas for my college project
Now that I can actually watch the stream from the start...
Oh, with the mention of the focus on unculturable ocean bacteria, I can't help but think of candidatus electronema - its capacity to produce activated carriers to sustain its metabolism via transfer of electric charge is especially appealing in the context of closing the loop of cellular respiration with only electric charge - I saw a diagram where the cell of the bacteria was capable of producing glucose from carbon dioxide, but perhaps I was misinterpreting the diagram
Ah! The chicken book! That's a good one
My guess at around 1:20:00 was viral DNA - but transposons probably make more sense, and viral DNA segments would probably be longer, anyhow
I do wonder - what roles do python code notebook systems like jupyter or marimo play in the bioinformatics ecosystem in terms of demonstrating your code to others in the field itself?
starts at 4:45