"What excited us most is that we could see the green spots – the i-motifs – appearing and disappearing over time, so we know that they are forming, dissolving and forming again,”
anyone know what technique they used during this observation? It sounds.. not fixed?
what matters most in my opinion is whether this is a spontaneous DNA conformation or whether this is a transient conformation DNA assumes while transcription machinery is preparing to read nearby bases. (if the former, kinda interesting; if the latter, much less interesting)
Right - yeah; I don't know, I had the same thought when I read the commentary (I read the paper first). Nothing in the papers suggests the ability to monitor formation/loss in realtime I don't think? My guess is this is an interpretation of the data from the fact that you see lower levels in G1, higher levels in G1/S and lower levels in early S - i.e. they must be 'transient' because the levels go up and down again.
Seeing this happen in real cells in realtime would be – I would have thought – technically almost impossible. We're at the cusp of viewing the formation/loss of clusters of RNA POL or mediator clusters with the most advanced super-res (see Ibrahim Cissé's work) but these are comparatively massive protein clusters, so the idea of being able to view DNA structural transitions at [effectively] single-molecule resolution where that transition involves a few nucleotides in a non-perturbative way seems like a reach.
Seems like the obvious next step is to break 'em with synonymous mutations and ask if there's any detectable phenotype.
"No idea how you'd actually test this without inherently perturbing the equilibrium being examined in vivo. Even if you could avoid fixing the cells antibodies would be out of the question because of the inherent linkage (if you bind the i-motif with a 500 pM Kd [high affinity] you're gonna HUGELY stabilize that conformation)."
I mean, I trust the reviewers/editors of Nature but I don't understand how this is not a serious confound!
"What excited us most is that we could see the green spots – the i-motifs – appearing and disappearing over time, so we know that they are forming, dissolving and forming again,”
anyone know what technique they used during this observation? It sounds.. not fixed?
what matters most in my opinion is whether this is a spontaneous DNA conformation or whether this is a transient conformation DNA assumes while transcription machinery is preparing to read nearby bases. (if the former, kinda interesting; if the latter, much less interesting)