Artistic impression of nucleosomes interaction.
Credit: Mette Høst, CMOL, Niels Bohr Institute, University of Copenhagen
New Danish research has examined the mechanisms behind latent cell memory, which can come to life and cause previously non-existent capacities suddenly to appear. Special yeast cells for example, can abruptly change from being of a single sex to hermaphrodite.
Researchers from the Niels Bohr Institute at the University of Copenhagen have used mathematical models and computer simulations to examine fundamental mechanisms of cell memory. The research is an interdisciplinary cooperation between molecular biologists and physicists and has just been published in the journal CELL (article by Dodd et al., 18 May issue).
Dormant capacities
Our genetic material - DNA -- is a blueprint for how we look and are. This genetic material is very stable and it is faithfully transmitted to our descendants. Once in a while though, a change occurs to the DNA, either large or small. Such changes are at the origin of the immense and varied animal and plant life on earth. Constructive changes in the DNA, that is, changes creating new functions, normally arise by a slow and gradual process that involves natural selection operating over many generations.
Sometimes however, dramatic and very sudden changes are observed in one individual in the absence of any kind of change to the DNA. This happens in fact in all of us as our body develops: cells with identical genetic information adopt very different fates, forming tissues that have apparently very little in common with each other, such as skin, brain, or bones. Mechanisms at the origin of this so-called cellular differentiation are those for which researchers at the University of Copenhagen have a possible clarification.
"The explanation for the sudden changes is that it is not the DNA itself that is altered - it is its immediate surroundings that change and thereby cause a cell to activate some of its dormant capacities" says Kim Sneppen, professor in Biophysics at the Niels Bohr Institute, University of Copenhagen .
The environment controls the DNA
The DNA coils itself around protein complexes called nucleosomes. Importantly, nucleosomes can carry various chemical modifications that either allow, or prevent, the expression of the DNA wrapped around them. Every time a cell divides into new cells, its double-stranded DNA splits into two single strands, which then each produce a new double-strand.
Nucleosomes though are not duplicated like the DNA-strands. Rather, they are distributed between the two new DNA double strands and the empty spaces are filled by new nucleosomes. Cell division is therefore an opportunity for changes in the nucleosomal composition of a specific DNA region. Changes can also happen during the lifetime of a cell due to chemical reactions allowing interconversions between the different nucleosome types. The effect of these changes can be that a latent capacity that was dormant comes to life, or, conversely, that a previously active capacity shuts down.
Same inheritance -- different traits
In the practical experiment molecular biologists used a mutant of a yeast cell which was bi-stable, in that it could become either of a single sex or hermaphrodite. The experiment showed that a spontaneous change occurred in the yeast cells about every 2000 cell-generations. By building a mathematical model based on positive feedback from the microscopic state of the nucleosomes, the research group could simulate the experimental results and in this way gained insight into the mechanisms by which living cells with identical DNA can achieve extreme differentiation.
The research at the 'Models of Life' Basic Research Center at the Niels Bohr Institute has shown that communication between nucleosomes and positive feedback are likely to constitute fundamental memory mechanisms in individual cells. The mechanism gives both stability and openness to new influences which the cell could need to change state. Nature has a partner which controls the cells latent memory.
Latent Memory Of Cells Comes To Life
________________________________________________________
________________________________________________________
Mother Birds 'Engineer' Their Offspring from Science Daily
________________________________________________________
________________________________________________________
11 comments:
hi Q,
Let me start form the basics...
don't all the cells in the body have the same DNA ( I mean don't they have the exact same information?)
Does our cell "use by" date get passed along too?
lol Sojourner,
each group of cells have a different function
Some form the Eye, others the nose
Aggie, the propensity to age, decay & die is inherited.
The fount of eternal youth, the holy grail many in the flesh still seek (or hope to regain)
So, when we isolate the cell/s that leads to age and decay, we can have it surgically removed right? We'll just look a bit more quasimodo than normal huh?
Thank You for sharing this information. On a theoretical level we have always talked about this as a fact ... now it is a fact :-)
I will read all their articles after the weekend.
(( hug ))
Hi Abigail, all cells age & decay.
It is not a matter of removing cells, but finding (and removing) the trigger to decay.
After all even when we are young, cells age and decay, just that we do not perceive it as decay in the body as a whole until we are past our adolescent prime - thereafter it is all downhill.
More pronounced in some than in others, depending on inherited DNA, environment, life style, and possibly even State of Mind.
And of course propensity to longevity is a quality said to be inherited!
Hi Anna-lys, in life we know and/or perceive many things to be so. Science tends to explore the veracity of said understanding at ever smaller scales from the microscopic and the subatomic, to the quantumness of thought.
Damn!
Aggie sa...
Damn!
Kiwis are funny :-)
Quasar ... I do perceive You, that is an other "fact". But, fact are only facts when you tell them, a second after ... they are "old truth" ... some new facts are rising.
Post a Comment