By
examining cell processes both in mice and in human cells, the researchers found out why: Re-esterification helps protect a key cell organelle called the endoplasmic reticulum (ER).
Not exact matches
In the 1980s, Dubochet got around a problem by developing a quick - freezing
process that allowed water in
cells to solidify, exposing each feature so it could be studied and
examined.
In particular, they have
examined the ways in which viruses hijack
cell proteins to help regulate their exit and spread from the host
cell through the budding
process.
To investigate the different stages of the reprogramming
process, the researchers separated male and female
cells to
examine them side by side.
This switch is accompanied by a complex communication
process between the stem
cells and tissue
cells — an area that had not previously been
examined in any depth.
By
examining the hippocampus — a portion of the brain associated with the
process of learning — after the rats learned to associate a sound with a motor response, scientists found that the new brain
cells injected with dye a few weeks earlier were still alive in those that had learned the task while the
cells in those who had failed did not survive.
But itâ $ ™ s difficult not to think in terms of purpose or intent when looking at what cancers do. For example, Winship Cancer Institute scientists Abdessamad (Samad) Zerrouqi, Beata Pyrzynska, Dan Brat and Erwin Van Meir have a recent paper in Cancer Research
examining how glioblastoma
cells regulate the
process of blood clotting.
Researchers in NCI's Division of Cancer Epidemiology and Genetics (DCEG) integrate tissue profiling into studies
examining the causes of cancer to better understand the
process by which normal
cells are transformed into cancer
cells (carcinogenesis) and to pinpoint factors associated with risk for developing specific molecular or genomic subtypes.
Scientists know that muscle
cells turn on some genes that only work in muscle, but it has not been previously possible to
examine the regulatory elements that control that
process.
The early cardiac markers and transcription factors (Gata4, Mef2c, Hind I, Nkx2 - 5 and beta - Mhc) were
examined in iPS
cell lines 11.1 and 4.1 during the cardiac differentiation
process (differentiation day 0, day 3, day 6 and day 9).
To inform further DST development for
cell therapies, we
examined existing
process systems along a number of dimensions: e.g.,
cell type,
process scale, modeling techniques used, and degree of validation.
However, the exact cytoskeletal strategy that the
cell uses to cross the physical BM barrier depends on the physiological context and the physical environment, as observed by
examining actin structures in invading cancer and immune
cells, and in
cells that invade during developmental
processes such as angiogenesis and anchor
cell invasion in Caenorhabditis elegans.
What could medicine look like someday if, instead of focusing primarily on the organ affected by a disease — neurologists
examining brain diseases, pulmonologists focusing on lung diseases — our system was centered on how
cells process energy?
To understand the mechanism (s) underlying the MELK function in BBC
cells, we
examined how inducible shRNA - mediated MELK depletion affects various cellular
processes.
To determine whether or not the damaging effects on cancer
cells would affect normal
cells — which are already programmed normally for apoptosis — they doused both cancerous liver
cells and normal liver
cells with CVE to
examine the
process of inducing apoptosis, which involves creating DNA damage as a precursor.
A «WOW» maple syrup finding: Take this 2015 study reported in Oncology Reports: the researchers
examined the effect of three grades of maple syrup (grades are based on the color of the syrup and ranges from light to darker with color being influenced by time of year and
processing technique) on the proliferation, migration, and invasion of colorectal cancer (CRC)
cells in order to investigate whether maple syrup is suitable as a phytomedicine for cancer treatment.
Owing to an extensive exposure in studying and
examining the genetic, chemical, physical, and structural composition of
cells, tissues, and organisms, you will find out that I can quickly pick up where another biotechnologist has left, ensuring that
processes and experiments are led to fruition in a time - efficient manner.