Aging begins
when cells break down faster than the dog's body can repair or replace them.
When these cells break down after birth, they produce a yellow pigment called bilirubin, which circulates in the blood.
Not exact matches
Until the day
when the One
Cell had
broken into small divisions, where each thinks he is the righteous more than any other, so here it is it went multiplying to unend to becoming to suit each culture and race???
In the sharing of Christian experience and mutual reinforcement in the faith the idea has affinities with the Methodist class meetings of an earlier day; and
when the
cell principle is integrated sufficiently with the rest of life, it reminds one of those early Christian groups who «day by day, attending the temple together and
breaking bread in their homes,... partook of food with glad and generous hearts, praising God and having favor with all the people.»
When you cut into an onion, you break cells in the onion that release gases that waft up into your eyes and when mixed with the tears in your eyes, these gases produce sulfuric a
When you cut into an onion, you
break cells in the onion that release gases that waft up into your eyes and
when mixed with the tears in your eyes, these gases produce sulfuric a
when mixed with the tears in your eyes, these gases produce sulfuric acid.
When a critical load
cell broke down at an ice cream producer's plant, production was restored in 12 hours thanks to a hand - carry express order.
That means your
cells are able to synthesize protein even
when your body might otherwise be
breaking down muscle to feed itself.
When nuts are roasted above 170 degrees, the monounsaturated fats can
break down and free radicals can form, causing damage to the
cells.
The rectrospectoscope suggests that a pre-labor c / s would have resulted in an easier recovery for me (bad pain for two weeks or so, plus about a year
when I couldn't sit properly thanks to a bruised or
broken tailbone) and (more importantly) a few more functioning brain
cells for my son.
That's because the red blood
cells in the bruise
break up and release bilirubin, a blood component that causes jaundice
when there's too much of it.
Newborns have more red blood
cells than adults do at birth because before birth it's the placenta that's kind of
breaking down the blood
cells and
when the baby's born they kind of have to do it on their own and so, there's this fetal blood
cells that have to breakdown and be eliminated from the body.
Bilirubin is one of the byproducts created
when old red blood
cells break down.
The discovery, reported in June in
Cell, completely breaks with the standard model of facial recognition, which claims each face you recognize is represented by a single neuron (one cell firing when you see your grandmother, another when you see Jennifer Anist
Cell, completely
breaks with the standard model of facial recognition, which claims each face you recognize is represented by a single neuron (one
cell firing when you see your grandmother, another when you see Jennifer Anist
cell firing
when you see your grandmother, another
when you see Jennifer Aniston).
When the human body
breaks down a foreign substance, one can typically find chemical by - products in hair or urine that provide clues about how it has interacted with
cells.
The investigators found that
when working through an environment with no pre-existing tracks, tumor
cells had to actively stick to the tissue,
break it down and then move themselves forward.
When the resulting embryo has divided into about sixteen
cells, it is
broken up, or disaggregated, into its component
cells.
But
when the
cell gets to the «
broken record» part of the instructions, it makes a protein with far too many copies of a molecule called glutamine.
That is all down to a bald chemical fact: the element is a powerful «electron acceptor», readily sucking up electrons set free
when enzymes within living
cells break down organic foodstuffs.
When the protein is unfolded, tiny bubbles filled with neurotransmitters can stick to it, fuse to the inside wall of a nerve
cell and then
break free into a synapse.
Previous studies of genetic alterations in lymphoma and lung cancer have found that certain genetic mutations — specifically
when part of a gene
breaks off and gets fused to another — can inappropriately switch on ALK, driving cancer
cells to grow and divide.
OTC is one of many enzymes that
break down excessive nitrogen in our
cells;
when OTC is deficient, ammonia builds up and poisons the brain.
Over time,
broken down mitochondria accumulate in
cells, starving them of energy;
when enough
cells in a critical organ die, the organism goes too.
«The way it samples bits and pieces of the
cell without ingesting it suggests this may be going on all the time, and only
when a certain balance is
broken does the disease set in,» says Kris Chadee, a microbiologist from the University of Calgary in Alberta, Canada.
Instead of trying to fix the double - strand
breaks when only a few
cells are damaged, the body may simply opt to eliminate them.
When sunshine strikes a solar
cell, some of the electrons in the
cell take on energy but quickly lose most of it as thermal energy rather than
breaking loose to become part of an electric current.
«We found that Set2 is required
when cells decide how to repair the
break in DNA,» said Jha, the first author of the Nature Communications paper.
Even
when the researchers helped extend the
cells» life spans by knocking out a problematic gene, the yeast DNA still started
breaking down after 25
cell divisions.
The body moves quickly
when it gets a high dose; injured
cells repair the
breaks quickly and efficiently, usually within a few hours.
Through a series of biochemical and genetic experiments, Deepak Jha, a graduate student in Strahl's lab, was able to see what happens
when cells experience a
break in the double - strand of DNA.
Such secondary tumours are formed
when individual
cells break away from the main tumour and travel through the bloodstream to distant areas of the body.
Garzon - Muvdi explains that
when blood vessels
break anywhere but the brain, the body's immune
cells easily clear the blood
cells and their remnants from the area.
The medium needs to dance, essentially, between suspending the
cells for precise positioning on the paper
when printed and
breaking down into a fluid
when it's time to spread ink on the page.
Davidson noticed something intriguing: Sometimes during these
breaks the place
cells became active again, firing in the same order (but at 20 times the speed) as they did
when the rats were navigating the track.
For example,
when there is no oxygen (a likely scenario in underground disposal vaults) to help these bacteria «breath» and
break down the ISA, these simple single -
cell microorganisms are able to switch their metabolism to breath using other chemicals in the water, such as nitrate or iron.
The scientists involved with this study were able to demonstrate that translocations can occur within hours of DNA
breaks and that their formation is independent of
when the
breaks happen during the
cell division cycle.
When the researchers injected MVs directly into the amniotic sac (the fluid - filled cavity surrounding the embryo) of pregnant mice, they observed that 24 hours later the tissue of the interface between mother and fetus was severely disrupted, with
broken collagen fibers, hallmarks of inflammation, and signs of extensive
cell death.
When core body temperature rises too high, everything
breaks down: The gut leaks toxins into the body,
cells begin to die, and a devastating inflammatory response can occur.
When they killed the animals a week later, they found that the virus had
broken apart dystrophin in their hearts and that the membranes of heart
cells infected with Coxsackie B virus were more permeable to blue dye than uninfected
cells.
They have also had several clues that the proteins are involved in DNA repair: They consort with known repair proteins, and mutant versions make
cells virtually unable to repair DNA
when both strands of the double helix are
broken.
Translating roughly as, «to devour oneself,» autophagy
breaks down toxic materials that build up inside of a
cell when it is under duress.
When the team injected the shielded mice with a chemical that blocks
cell - to -
cell communication before irradiating them, they detected no DNA
breaks and the amount of apoptosis decreased more than threefold.
When the researchers shined a short, relatively - weak pulse of UV laser - light on the
cells, the cages
broke and the freed calcium caused the muscle
cells to contract fully, the team reports in the January issue of Nature Methods.
They then showed that
when the mice
broke down disulfiram, its main metabolite, ditiocarb, forms a complex with copper that blocks the machinery that
cells use to dispose of misfolded and unneeded proteins.
Like most machinery, the mitotic spindle can malfunction, and
when it does, DNA can be
broken or unevenly divided, errors implicated in the uncontrolled
cell division of cancer.
When an enzyme that normally
breaks down 2 - AG was blocked, and the supply of the endocannabinoid was restored to normal levels, these behaviors were reversed, the researchers reported on Nov. 26 in the online edition of the journal
Cell Reports.
The test monitors fragments of DNA released by the organ into the blood,
when cells from the transplant tissue are naturally
broken down.
When such DNA damage occurs, proteins known as PARPs move to the site of damage and begin to mend these
broken strands of DNA, allowing cancerous
cells and tumors to recover, grow and proliferate, thereby escaping the effects of treatment.
When hit with a burst from an ultraviolet laser, the ATP
broke free, activating the rat ion channels and causing the fly's neurons to fire, the researchers report today in
Cell.
When the scientists
broke up
cell huddles in their zebrafish embryos, FGF leaked out.
When our skin is scratched,
cells that were standing upright «lie down» and start crawling — in essence, local huddles
break up and
cells change their behaviour.