|![[Search]](https://talks.cam.ac.uk/images/search.gif?1209136071)
|![[A-Z Index]](https://talks.cam.ac.uk/images/az.gif?1209136071)
|![[Contact]](https://talks.cam.ac.uk/images/contact.gif?1209136071)
||![[University of Cambridge]](https://talks.cam.ac.uk/images/identifier2.gif?1209136071){kind=small} |
COOKIES: By using this website you agree that we can place Google Analytics Cookies on your device for performance monitoring. | ![[Talks.cam]](https://talks.cam.ac.uk/images/talkslogosmall.gif?1209136071) |
University of Cambridge > Talks.cam > Morphogenesis Seminar Series > *CANCELLED*: Cortical microtubules shape cell walls to support a wide range of functions
*CANCELLED*: Cortical microtubules shape cell walls to support a wide range of functionsAdd to your list(s) Download to your calendar using vCal
If you have a question about this talk, please contact Jia CHEN. Sorry due to some unforeseen circumstances, this talk is cancelled and will be reschedulled in next term hopefully. How plants fulfill their life functions is to a large extend dictated by the presence of cell walls. These cell walls can adopt a wide range of structures, depending on the local functional demands—from stretching in a particular direction to reconciling contradictory requirements. A beautiful example of the latter is found in the primary xylem. Different patterns of local cell wall reinforcements are used at different stages of development, in line with different mechanical requirements. The required anisotropic material properties largely derive from the location and orientation of the constituting cellulose microfibrils. These, in turn are deposited along the cortical microtubule cytoskeleton. I will describe how we use the banded pattern in protoxylem as a model system for complex cell wall patterns. For this, we use a diversity of modelling approaches involving both cortical microtubules and Rho-of-Plants (ROP) proteins. These deeply conserved small GTPases can establish membrane zones with different properties, leading to local differences in microtubule dynamics. Microtubules, however, do not simply “read out” this pattern. The final pattern arises from the mutual interations of both systems. This work not only helped us understand how these beautiful and functionally important patters are formed, but also brought to light important insights on how the precise distribution of microtubule nucleation plays a critical role in maintaining homogeneous microtubule arrays and, hence, cell wall integrity. I will also show some stunning pictures from recent field trips to South Africa and the USA to study/hunt for some very special plants: the few known species in the world that display dimorphic enantiostyly, which we use as a model system for the de novo establishment a left-right asymmetry. These plants demonstrate that rich biodiversity we still have in our world is an incredibly valuable resource even for fundamental cell and developmental biology, though challenging and challenged. Join Zoom Meeting https://us06web.zoom.us/j/82089026611?pwd=L2FyclJFL2lYR0J3SFBDbHQyUFp6UT09 Meeting ID: 820 8902 6611 Passcode: 038347 This talk is part of the Morphogenesis Seminar Series series. This talk is included in these lists:Note that ex-directory lists are not shown. |
Other listsTranslating genomics Cambridge Public Policy IQ option EspañolOther talksTwo topics in subsurface CO2 storage – Field scale flow modelling, and evaluating the feasibility of scaling up deployment to climate relevant scales The Saunders Genetics Lecture 2024 Separate treatment of aleatory and epistemic uncertainty in structural dynamics A universal robustness to spatio-temporal variation in pattern formation Group Work Practitioner Series: Comfort Ero |
EE (Eva) Deinum, Department of Plant Sciences, Wageningen University & Research
Monday 29 January 2024, 14:30-15:30