Not exact matches
If the divine is now used to give the view a supposedly greater philosophical coherence,
then I inevitably reach the
sort of conclusion implied by Hartshorne's bodily
cells with their «little experiences or feelings.»
We anticipate some
sort of growth toward increased complexity: increasingly larger organic macromolecules,
then the convergence of many macromolecules to constitute a simple living system, either as a
cell with its protective wall and vital nucleus or as some functional analogue,
then the convergence of many
cells to form larger organisms.
This part of the
cell then becomes an intensive production shop of
sorts, generating the proteins needed for processing the food.
Fluorescence - activated
sorting is
then used to identify and retrieve from this mix only those
cells that display strong reporter gene expression, which represent the
cells with the most active enhancers.
This complex biological machine gathers the chromosomes together and
sorts them at the time of
cell division,
then sends them to the opposite poles of the daughter
cells in a process called chromosome segregation.
CRH, in turn, triggered production of the
cell surface protein FasL; trophoblasts expressing FasL
then form a protective shield of
sorts around the embryo by forcing any attacking immune
cells to self - destruct.
They first devised a nanoscale plastic scaffold and
then seeded it with common muscle precursor
cells called myoblasts, along with endothelial
cells of the
sort found on the inside of blood vessels.
To function, most of the newly - produced proteins first need to be
sorted and
then transported within and outside of the
cell.
So if you think about the egg as
sort of a uniform ball, you put a messenger RNA on one end of the egg, and when you cut up the ball,
then only the
cells at that end get that information.
After the
sorting, we performed whole genome amplification on individual aggregates
then sequenced the 16S rRNA marker genes to identify
cells comprising the aggregate.
So, for example, at the University of California in San Francisco they are trying to engineer E. coli so that it can detect cancer
cells, it can invade tumors, and
then once it's inside they can release toxins; and so they are putting in all
sorts of genes from other bacteria to assemble this, you know, this
sort of synthetic E. coli that could become basically a cancer torpedo.
They feed on the bottom of the food chain — on single -
celled plankton, which larger fish can not eat — and
then they become prey for all
sorts of upper - level predators like tuna, sea bass and halibut as well as seabirds and marine mammals.
The group was
then able to
sort the
cells using markers expressed on the
cell surface, to help pull out successfully edited
cells for research, and eventually for therapeutic use.
300 μl of ice - cold 1 × binding buffer were
then added to each sample and the samples were analyzed by fluorescence - activated
cell sorting (FACS) within one hour for maximal signal.
Current efforts, mostly conducted in animal models, involve attempting to derive and aggregate embryonic stem
cells, exposing them to such factors as acetic acid, allowing them to differentiate, or specialize, and
then sorting through these
cells to extract the
cell types of interest.
Single
cells from this
sorted population were
then seeded into each well of a 96 - well plate by limiting dilution.
We delve into very fundamental problems such as «how does a malaria red blood
cell attach itself to a blood vessel» or «how does binding of a ligand to a
cell surface receptor or contact of a crystalline surface with the plasma membrane drive lipid
sorting and how will this lead to signalling» but
then immediately apply it to a practical problem such as «how does contact of uric acid crystals with dendritic
cells cause gout in affected joints and how can we prevent this occurrence?»
We were
then able to
sort through both sets of sequences and detect mutant
cells — even when they made up as little one in every thousand
cells.
We can
then take proteins of interest, change them in some specific way, and
then put them back into a
cell to create a
sort of modified synapse.
The B
cell depleted fraction was
then surface stained for lineage markers (CD3, CD19, CD14), CD127 and
cells were
sorted (Lin - CD127 +).
To overcome this problem, the researchers utilized a method that involved dissolving the
cell membranes in order to create a
sort of «brain soup» so that they can
then count the number of
cell nuclei in a sample.
To do this, it randomly
sorts chromosomes from both sets in one
cell division and
then reduces them by half in another.
After secondary antibody binding the
cells were washed three times with ice - cold PBS - G and
then resuspended in 2 ml of ice - cold PBS - G, passed again through a 40 micrometer filter and
then immediately analyzed and
sorted on a FACSAria
cell sorter (BD Biosciences, San Jose, CA, USA, http://www.bdbiosciences.com) with blue laser excitation (488 nm).
Manipulating genes and
then sorting through many
cells to find the desired alterations wasn't possible with these
cells because scientists couldn't grow them in the culture dishes where such maneuvers would take place.
Dave Asprey: What we did is I had my stem
cells taken out, and my wife, Dr. Lanna, had her stem
cells taken out, actually extracted from our own fat, and
then re-injected at various parts of the body, all
sorts of injury sites.
At first I thought we were talking about something like what I saw, like
sort of a tablet maybe or notebook or netpad or whatever,
then I thought we were talking about a smart - phone -
cell - phone, now I am not sure what we are talking about.
Making it to the end of a dungeon lets you interact with a shopkeeper of
sorts, spending any collected
cells on permanent upgrades that persist between playthroughs or depositing blueprints for new gear that
then becomes unlocked and upgradable.
There's all these geometric pieces that evoke prison
cells or biological
cells, but
then you have this sketch for a hypothetical cinema inside a cavern — this
sort of room to dream inside a spelunker's place of self - imposed confinement.
The solid oxide fuel
cell under the coals
then converts carbon and hydrogen into electricity, and is described as a
sort of reverse photosynthesis:
And
then comes the astonishingly dramatic
Cell Block Tango from the movie Chicago, in which all the potential aggression in an argument between lovers is emphasized to the ultimate (and which, in a nifty
sort of wrap - up to this fillip, brings us back to law again).