@AthaleLab Yes, it does. Explanations are provided here https://t.co/lGPkFkSKUl and again here https://t.co/4maykw2sf7
RT @Poppi62: Just see that wonderful #microtubule #curling! https://t.co/lGPkFkSKUl
Just see that wonderful #microtubule #curling! https://t.co/lGPkFkSKUl
@S_LevequeFort More info here: https://t.co/lGPkFkSKUl - and more to come!
Great idea! See also: https://t.co/lGPkFkSKUl https://t.co/VCCv5wrEmR
RT @Poppi62: Look those lovely curles. At later stages they would be pathological - https://t.co/PHw9oqfK9a - and there is an explanation f…
Look those lovely curles. At later stages they would be pathological - https://t.co/PHw9oqfK9a - and there is an explanation for them - https://t.co/lGPkFkSKUl
@matthewcobb Thanks for heads-up! So far I knew MT vortices at mm scale only in gliding assays with dynein, whereas kinesins show curling in micron scale (chirality also dictating directionality!). Reviewed here (p.6ff.): Hahn et al., 2019, Neural Dev 14 -
RT @Poppi62: Studying axonal cytoskeleton - my reviews: ● why Drosophila: https://t.co/tKIyuviY0f ● genetic approaches: https://t.co/kddwII…
RT @Poppi62: Studying axonal cytoskeleton - my reviews: ● why Drosophila: https://t.co/tKIyuviY0f ● genetic approaches: https://t.co/kddwII…
RT @Poppi62: Studying axonal cytoskeleton - my reviews: ● why Drosophila: https://t.co/tKIyuviY0f ● genetic approaches: https://t.co/kddwII…
RT @Poppi62: Studying axonal cytoskeleton - my reviews: ● why Drosophila: https://t.co/tKIyuviY0f ● genetic approaches: https://t.co/kddwII…
RT @Poppi62: Studying axonal cytoskeleton - my reviews: ● why Drosophila: https://t.co/tKIyuviY0f ● genetic approaches: https://t.co/kddwII…
Studying axonal cytoskeleton - my reviews: ● why Drosophila: https://t.co/tKIyuviY0f ● genetic approaches: https://t.co/kddwIIY38G ● axonal cytoskeletal regulation: https://t.co/lGPkFkSKUl ● axon ultrastructure: https://t.co/jmI6GbnS5Q ● axonopathies: http
RT @Poppi62: Hahn, I., Voelzmann, A., Liew, Y.-T., Costa-Gomes, B., Prokop, A. (2019). The model of local axon homeostasis - explaining the…
RT @Poppi62: Hahn, I., Voelzmann, A., Liew, Y.-T., Costa-Gomes, B., Prokop, A. (2019). The model of local axon homeostasis - explaining the…
RT @Poppi62: Hahn, I., Voelzmann, A., Liew, Y.-T., Costa-Gomes, B., Prokop, A. (2019). The model of local axon homeostasis - explaining the…
RT @Poppi62: Hahn, I., Voelzmann, A., Liew, Y.-T., Costa-Gomes, B., Prokop, A. (2019). The model of local axon homeostasis - explaining the…
Hahn, I., Voelzmann, A., Liew, Y.-T., Costa-Gomes, B., Prokop, A. (2019). The model of local axon homeostasis - explaining the role and regulation of microtubule bundles in axon maintenance and pathology Neural Dev 14, 10.1186/s13064-019-0134-0 -- https://
RT @Poppi62: The model of local axon homeostasis makes even more sense when integrated into a cycle of interdependencies. For more info see…
The model of local axon homeostasis makes even more sense when integrated into a cycle of interdependencies. For more info see: Hahn et al., 2019 -- https://t.co/lGPkFkSKUl https://t.co/lSVjosc9YH
RT @Poppi62: We hope that our reflections will motivate experimenters to look at MTs in future studies of axon biology and pathology: use a…
We hope that our reflections will motivate experimenters to look at MTs in future studies of axon biology and pathology: use antisera against tubulin (rather intermediate filaments), or increase the resolution in EM studies. https://t.co/lGPkFlalLT https:/
Close links between cell physiology/metabolism is one important point we are making with our "model of local homeostasis" - https://t.co/lGPkFkSKUl https://t.co/MXdf8CQcw7
RT @Poppi62: "more profound understanding will arise when widening the scope from molecular to cellular mechanisms, by studying how protein…
"more profound understanding will arise when widening the scope from molecular to cellular mechanisms, by studying how proteins work within regulatory networks to underpin observable processes of axon biology" https://t.co/MghjsofAQ2 https://t.co/zIcLYeuwp
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
Microtubules on a kinesin carpet in vitro when bringing an air bubble close - for explanations, read the paper or our review: https://t.co/lGPkFkSKUl https://t.co/nCJea834gU
RT @Poppi62: See also our recent review: https://t.co/lGPkFkSKUl - table 4 explains how microtubules are systemic targets of all those mito…
See also our recent review: https://t.co/lGPkFkSKUl - table 4 explains how microtubules are systemic targets of all those mitochondrial functions.
@FreAmeLie Have done so in my last review (https://t.co/lGPkFkSKUl) but left it out for reasons of clarity. It's mentioned in the text of course.
RT @Poppi62: Surprised to see these curled microtubules in axons? There are simple explanations. Read about the model of local homeostasis:…
See also guidance section in our latest review: https://t.co/MghjsofAQ2
RT @Poppi62: Surprised to see these curled microtubules in axons? There are simple explanations. Read about the model of local homeostasis:…
RT @Poppi62: Surprised to see these curled microtubules in axons? There are simple explanations. Read about the model of local homeostasis:…
RT @Poppi62: Surprised to see these curled microtubules in axons? There are simple explanations. Read about the model of local homeostasis:…
RT @albertcardona: "physical forces imposed by motor protein-driven transport" disorganize microtubules, counterbalanced by "MT-binding and…
Surprised to see these curled microtubules in axons? There are simple explanations. Read about the model of local homeostasis: https://t.co/MghjsofAQ2 https://t.co/jBsIKhKjHt
New from #BBSRC https://t.co/Yr6Ddhiriq The model of local axon homeostasis - explaining the role and regulation of microtubule bundles in axon maintenance and pathology
RT @Poppi62: Our @eLife article on the role of Efa6 during axonal microtubule regulation is now available: https://t.co/1hBo8DCkcg - to rea…
RT @Poppi62: Our @eLife article on the role of Efa6 during axonal microtubule regulation is now available: https://t.co/1hBo8DCkcg - to rea…
RT @Poppi62: Our @eLife article on the role of Efa6 during axonal microtubule regulation is now available: https://t.co/1hBo8DCkcg - to rea…
RT @Poppi62: Our @eLife article on the role of Efa6 during axonal microtubule regulation is now available: https://t.co/1hBo8DCkcg - to rea…
RT @Poppi62: Our @eLife article on the role of Efa6 during axonal microtubule regulation is now available: https://t.co/1hBo8DCkcg - to rea…
RT @Poppi62: Our @eLife article on the role of Efa6 during axonal microtubule regulation is now available: https://t.co/1hBo8DCkcg - to rea…
RT @Poppi62: Our @eLife article on the role of Efa6 during axonal microtubule regulation is now available: https://t.co/1hBo8DCkcg - to rea…
RT @Poppi62: Our @eLife article on the role of Efa6 during axonal microtubule regulation is now available: https://t.co/1hBo8DCkcg - to rea…
Our @eLife article on the role of Efa6 during axonal microtubule regulation is now available: https://t.co/1hBo8DCkcg - to read about the wider context, see our recent review: https://t.co/MghjsofAQ2 https://t.co/UdleFlNCMM
RT @fly_papers: The model of local axon homeostasis - explaining the role and regulation of microtubule bundles in axon maintenance and pat…
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
The model of local axon homeostasis - explaining the role and regulation of microtubule bundles in axon maintenance and pathology. https://t.co/kDSzfnVhyu
Not just an immense knowledge but attractively inviting to study and simplified view!!! The beauty in perfection of SciComm!!!!!!
Top story: The model of local axon homeostasis - explaining the role and regulation of microtubule bundles in axon maintenance and pathology | Neural Development | Full Text https://t.co/zM7169bvtv, see more https://t.co/zhW7aZgUFE
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
The figures in this paper are fantastic 👀
RT @OKaneCahir: … and one of the few axonal reviews to show awareness of axonal ER! @poppi62 https://t.co/Z5WqYWprlE
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
RT @OKaneCahir: Axonopathies as a breakdown in local axon homeostasis - https://t.co/2txOuB4PFa https://t.co/3Xo6t4lqYc
RT @OKaneCahir: … and one of the few axonal reviews to show awareness of axonal ER! @poppi62 https://t.co/Z5WqYWprlE
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
The model of local axon homeostasis - explaining the role and regulation of microtubule bundles in axon maintenance and pathology, by @FBMH_UoM researchers, in #NeuralDevelopment (@BioMedCentral) https://t.co/anwdlUkOfU #axons #microtubules #axon #neurop
RT @OKaneCahir: Axonopathies as a breakdown in local axon homeostasis - https://t.co/2txOuB4PFa https://t.co/3Xo6t4lqYc
… and one of the few axonal reviews to show awareness of axonal ER! @poppi62
Axonopathies as a breakdown in local axon homeostasis - https://t.co/2txOuB4PFa
RT @CSHLflycourse: An elegant new review from @Poppi62 (Class of ‘91) highlighting laborious efforts to understand how the axon is built an…
RT @CSHLflycourse: An elegant new review from @Poppi62 (Class of ‘91) highlighting laborious efforts to understand how the axon is built an…
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
RT @CSHLflycourse: An elegant new review from @Poppi62 (Class of ‘91) highlighting laborious efforts to understand how the axon is built an…
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
RT @Poppi62: "profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work w…
An elegant new review from @Poppi62 (Class of ‘91) highlighting laborious efforts to understand how the axon is built and sustained! It takes much more than rock and roll to build this city!
"profound understanding will arise when widening the scope from molecular to cellular mechanisms, studying how proteins work within regulatory networks to underpin observable processes of axon biology" @BioMedCentral - https://t.co/MghjsofAQ2 https://t.co/