Who I am
My name is Lucy. I graduated from the Department of
Molecular Biology, Biological faculty of Moscow State University. Now I’m a
graduate student at the Institute of Bioorganic Chemistry of the Russian Academy of Sciences studying
molecular biology specialization at the department of Molecular Bases of
Neuronal signaling.
Back in school I was interested in the fundamental
laws of nature, and the ability to apply them in life. That's why I was
interested in science, especially biology, physics and chemistry. In the
framework of modern biology, all of these disciplines are closely intertwined,
and the study of biology directly to the study of man himself, and the
possibility of bioengineering, transformation and control of biological
processes in living systems. That's why I decided to study biology, mainly
molecular biology
What is inspire me
I believe that four
fields of biological science: regenerative medicine, neurobiology, gerontology and
synthetic biology are new directions which could
radically change our lives.
What's my goal
Today there are enough knowledge's to make a first step to the extension of life.
As a molecular
biologist I believe that anti-aging therapy could be reached
by bioengineering methods. Our DNA has the capacity to launching an
extremely mechanisms of renewal. We only should learn how to do this, how to
regulate aging-processes in our organism, and turn it back.
I think we should to learn how to "talk" with human body on biological level that will be the most perfect way of fighting against the age, methods which help human to fully activate their internal regenerative mechanisms.
I think we should to learn how to "talk" with human body on biological level that will be the most perfect way of fighting against the age, methods which help human to fully activate their internal regenerative mechanisms.
A schematic
representation of my vision of the strategy of fighting with aging:
1. Bioinformatics
It’s very
important point, because technology in the field of biology and medicine are
rapidly developing, this entails the accumulation of large amounts of
information that needs to be structured to work effectively, which makes it
necessary in conjunction with advanced information technology to organize all
the information. Bioinformatics helps scientist in structuring information for
properly analyze of a large amount of data
2. Molecular and cell biology: to study of
the age-dependent changes on molecular and cellular levels.
This step also include bioengineering approaches in molecular biology, (for
example creating artificial biomolecules for providing renewal processes), including synthetic biology
3. Clinical trials of therapy
Projects
On a base of "The First Open
Institute for Regenerative Medicine for Young Scientists" our research group spend bioinformatics
analysis for signal transduction networks and the search for new targets for
accelerated no-scarring skin regeneration, planned to set up the development of
new molecular therapies for accelerated wound-healing and skin regeneration.
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