Click it and Unblock the Notifications
Latest Updates
-
‘Clean Air Is a Right, Not a Luxury’: ZONAIR3D Unveils India Expansion Plans -
World Meditation Day 2025: Meditation Beyond The Mat, Simple Moments That Bring Inner Peace -
Sreenivasan Passes Away: Malayalam Cinema Mourns The Legendary Actor-Writer's Demise -
Malayalam Film Industry Loses A Defining Voice: Actor, Screenwriter And Director Sreenivasan Passes Away At 69 -
Happy Birthday Dheeraj Dhoopar: How A TV Set Friendship Turned Into Love With Wife Vinny Arora -
Top Skin and Hair Concerns in India in 2025: What the Data Reveals -
International Human Solidarity Day 2025: History, Significance, and Why It Matters -
Purported Video of Muslim Mob Lynching & Hanging Hindu Youth In Bangladesh Shocks Internet -
A Hotel on Wheels: Bihar Rolls Out Its First Luxury Caravan Buses -
Bharti Singh-Haarsh Limbachiyaa Welcome Second Child, Gender: Couple Welcome Their Second Baby, Duo Overjoyed - Report | Bharti Singh Gives Birth To Second Baby Boy | Gender Of Bharti Singh Haarsh Limbachiyaa Second Baby
Why Daughters Are Rarely Like Their Mothers
The relationship between a mother and her daughter relationship can be difficult to understand, even though they have the same genetic material. Now, a new Northwestern University study has shown how this happens in yeast cells.
The research team has discovered a new mechanism for cell fate determination – how one cell, the daughter, becomes dramatically different from the mother, even though they have the same genetic material.
The study shows why mothers and daughters differ in how they express their genes.
By
studying
yeast,
whose
entire
genome
is
known,
scientists
can
learn
the
basics
of
cell
division
and
apply
that
knowledge
to
the
human
system.
Many
of
the
fundamental
mechanisms
for
cell
division
in
yeast
are
conserved,
or
very
similar,
in
mammals;
many
of
the
proteins
involved
in
human
disease
are
related
to
proteins
that
are
involved
in
yeast
cell
division.
The new knowledge about cell fate determination could lead to a better understanding of healthy human cells, what goes awry in cancer cells and how human stem cells and germ cells work.
"Cancer may reflect a partial and aberrant loss of differentiated character, in which cells that were formerly specified to perform a specific task 'forget' that, and become more like the rapidly dividing stem cells from which they came," said Eric L. Weiss, assistant professor of biochemistry, molecular biology and cell biology in Northwestern's Weinberg College of Arts and Sciences.
Weiss led the research team, which included scientists from the Massachusetts Institute of Technology.
"Understanding how differentiated states are specified might help us figure out how to remind cancer cells to go back to their original tasks or fates or, more likely, die," Weiss added.
When a yeast cell divides it produces a mother cell and a smaller, different daughter cell. The daughter cell is the one that actually performs the final act of separation, cutting its connection to the mother cell.
And the daughter takes longer than the mother to begin the next cycle of division, since it needs time to grow up.
The key to the researchers' discovery of how this differentiation works is the gene regulator Ace2, a protein that directly turns genes on. The researchers found that the protein gets trapped in the nucleus of the daughter cell, turning on genes that make daughter different from mother.
The study will be published in the Aug. 19 issue of the journal PLoS Biology.
Continue with Google