It's been known for many decades that the nuclei of animal cells are constantly in motion within the cell. Less well know, and less well studied, is the fact that the nuclei of plant cells are also often in constant motion.
While textbook figures imply nuclei as resting spheres at the center of idealized cells, this picture fits few real situations. Plant nuclei come in many shapes and sizes, and can be actively transported within the cell. In several contexts, this nuclear movement is tightly coupled to a developmental program, the response to an abiotic signal, or a cellular reprogramming during either mutualistic or parasitic plantā€“microbe interactions.
Source :Frontiers in Plant Science, 5: 129
The reasons behind the movements, and their underlying biomechanics, are for the most part still a mystery.
While many such phenomena have been observed and carefully described, the underlying molecular mechanism and the functional significance of the nuclear movement are typically unknown.
[Source as above]
It's known that the nuclear movements can be enhanced or provoked by mechanical stimuli, light and chemical changes.
Ideas for new topics, and suggested additions / corrections for older ones, are always welcome.
If you have skills or interests in a particular field, and have suggestions for Wikenigma, get in touch !
Or, if you'd like to become a regular contributor . . . request a login password. Registered users can edit the entire content of the site, and also create new pages.
( The 'Notes for contributors' section in the main menu has further information and guidelines etc.)
You are currently viewing an auto-translated version of Wikenigma
Please be aware that no automatic translation engines are 100% accurate, and so the auto-translated content will very probably feature errors and omissions.
Nevertheless, Wikenigma hopes that the translated content will help to attract a wider global audience.