Computational stem cell biology

How does stem cell technology work?
In stem cell transplants, stem cells replace cells damaged by chemotherapy or disease or serve as a way for the donor's immune system to fight some types of cancer and blood-related diseases, such as leukemia, lymphoma, neuroblastoma and multiple myeloma.
These transplants use adult stem cells or umbilical cord blood..
What is stem cell programming?
The metabolic programming of stem cells represents a fine balance between the intrinsic needs of a cellular state and the constraints imposed by extrinsic conditions..
What is stem cell technology in biology?
Stem cell therapy, also known as regenerative medicine, promotes the repair response of diseased, dysfunctional or injured tissue using stem cells or their derivatives.
It is the next chapter in organ transplantation and uses cells instead of donor organs, which are limited in supply..
Where are stem cells found in biology?
Stem cells are pretty ubiquitous in the body, appearing in many different organs and tissues including the brain, blood, bone marrow, muscle, skin, heart, and liver tissues.
In these areas, they lie dormant until needed to regenerate lost or damaged tissue..
Where is stem cell technology used?
In stem cell transplants, stem cells replace cells damaged by chemotherapy or disease or serve as a way for the donor's immune system to fight some types of cancer and blood-related diseases, such as leukemia, lymphoma, neuroblastoma and multiple myeloma.
These transplants use adult stem cells or umbilical cord blood..
Why is stem cell technology important?
Stem cells are the only cells in your body that make different cell types, like blood, bone and muscle cells.
They also repair damaged tissue.
Now, stem cells are essential blood cancer and blood disorder treatments.
Medical researchers believe stem cells also have the potential to treat many other diseases..
There are three main types of stem cell:
embryonic stem cells.adult stem cells.induced pluripotent stem cells.
A primary goal of stem cell research is identifying how undifferentiated stem cells become differentiated.
Some of the most serious medical conditions, such as cancer and birth defects, are due to abnormal cell division and differentiation.
Computational biology includes two broad subfields: bioinformatics and computational structural biology.
Bioinformatics focuses mostly on the DNA and RNA code.
Computational structural biology considers the .
1. D structures and motions of proteins and interacting small molecules
Research on stem cells continues to advance knowledge about how an organism develops from a single cell and how healthy cells replace damaged cells in adult organisms.

Jan 7, 2021Computational biology is enabling an explosive growth in our understanding of stem cells and our ability to use them for disease modeling,

Jan 7, 2021We discuss four topics that exemplify applications of computation to stem cell biology: cell typing, lineage tracing, trajectory inference, and

It will provide a platform, which on the one hand fosters methodological discussion within fields of mathematical modelling, bioinformatics, and biometry applied to stem cell related topics, but which on the other hand also enforces the communication and the exchange of ideas with experimentally working scientists.

Computational stem cell biology

How does stem cell technology work?

What is stem cell programming?

What is stem cell technology in biology?

Where are stem cells found in biology?

Where is stem cell technology used?

Why is stem cell technology important?

There are three main types of stem cell: