Add to ORKGAt the cellular level, alpha-tubulin acetylation alters the structure of microtubules to render them mechanically resistant to compressive forces. How this biochemical property of microtubule acetylation relates to mechanosensation remains unknown, although prior studies have shown that microtubule acetylation influences touch perception. Here, we identify the major Drosophila alpha-tubulin acetylase (dTAT) and show that it plays key roles in several forms of mechanosensation. dTAT is highly expressed in the larval peripheral nervous system (PNS), but it is largely dispensable for neuronal morphogenesis. Mutation of the acetylase gene or the K40 acetylation site in alpha-tubulin impairs mechanical sensitivity in sensory neurons and behavior...
SummaryBackgroundAmong the Aristotelian senses, the subcellular and molecular mechanisms involved in...
Background: Microtubules (MTs) are formed from the lateral association of 11-16 protofilament chains...
Background: Microtubules (MTs) are formed from the lateral association of 11-16 protofilament chains...
Summary: At the cellular level, α-tubulin acetylation alters the structure of microtubules to render...
At its most fundamental level, touch sensation requires the translation of mechanical energy into me...
Touch sensation is essential for behaviours ranging from environmental exploration to social interac...
Touch sensation is essential for behaviours ranging from environmental exploration to social interac...
At its most fundamental level, touch sensation requires the translation of mechanical energy into me...
How metazoan mechanotransduction channels sense mechanical stimuli is not well understood. The NOMPC...
Posttranslational modification of tubulin increases the dynamic complexity and functional diversity ...
SummaryHow metazoan mechanotransduction channels sense mechanical stimuli is not well understood. Th...
In most eukaryotic cells, subsets of microtubules are adapted for specific functions by post-transla...
In most eukaryotic cells, subsets of microtubules are adapted for specific functions by post-transla...
Summary: How we sense touch is fundamental for many physiological processes. However, the underlying...
Abstract Background Proper adjustment of moving direction after external mechanical stimulation is e...
SummaryBackgroundAmong the Aristotelian senses, the subcellular and molecular mechanisms involved in...
Background: Microtubules (MTs) are formed from the lateral association of 11-16 protofilament chains...
Background: Microtubules (MTs) are formed from the lateral association of 11-16 protofilament chains...
Summary: At the cellular level, α-tubulin acetylation alters the structure of microtubules to render...
At its most fundamental level, touch sensation requires the translation of mechanical energy into me...
Touch sensation is essential for behaviours ranging from environmental exploration to social interac...
Touch sensation is essential for behaviours ranging from environmental exploration to social interac...
At its most fundamental level, touch sensation requires the translation of mechanical energy into me...
How metazoan mechanotransduction channels sense mechanical stimuli is not well understood. The NOMPC...
Posttranslational modification of tubulin increases the dynamic complexity and functional diversity ...
SummaryHow metazoan mechanotransduction channels sense mechanical stimuli is not well understood. Th...
In most eukaryotic cells, subsets of microtubules are adapted for specific functions by post-transla...
In most eukaryotic cells, subsets of microtubules are adapted for specific functions by post-transla...
Summary: How we sense touch is fundamental for many physiological processes. However, the underlying...
Abstract Background Proper adjustment of moving direction after external mechanical stimulation is e...
SummaryBackgroundAmong the Aristotelian senses, the subcellular and molecular mechanisms involved in...
Background: Microtubules (MTs) are formed from the lateral association of 11-16 protofilament chains...
Background: Microtubules (MTs) are formed from the lateral association of 11-16 protofilament chains...