Sentences with phrase «not get into the cells»
When your body is resistant to insulin, glucose can not get into your cells to create ATP, your body's gasoline.
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Insulin usually activates the protein GLUT4, which will bring glucose in the muscle cells, but this is also false for people resistant to insulin — GLUT4 doesn't work, so the glucose and any other branched - chain amino acids and insulin, do not get into the cell as well.
The idea is that a lot of people just never experienced it and they think, «Well I take multivitamins, I'm probably fine,» but your liver and your gut filter a lot of those out and then they don't get into the cells the way they do when you do it intravenously.
Fuel can't get into the cell.
3 — Elimination of Toxins: Without efficient circulation, not only do health - promoting nutrients and oxygen not get into our cells, but also waste materials can not get out.
Coz cortisol is so important for thyroid activation to prevent T3 pooling, which is T3 not getting into the cells, as well as to prevent reverse T3 up - regulation, right?
So that's why a lot of people have normal thyroid tests and still have thyroid symptoms, or if they supplement with thyroid hormones it doesn't clear up their symptoms because they just can't get into the cell.
Without insulin in the blood stream, sugar does not get into the cells, and remains in the blood.
When an individual is unable to produce insulin, sugar can not get into the cells.
As a result glucose can't get into cells and blood sugar becomes too high.
Also, because glucose can't get into cells, blood sugar climbs too high.
And when this happens it doesn't get into the cells.
I was making enough hormones so my test was normal but the thyroid hormone, or T3, wasn't getting into my cells where it has to get to create energy.
If you have insulin resistance, your body doesn't respond to insulin, and blood sugar can not get into cells.
So where does the sugar go if it can't get into the cells?
If the glucose in your blood can't get into the cells, it stays in the blood and your body goes, «uh oh, I need to produce * more * insulin.
They become part of the cell's wall (replacing cholesterol) and make the cell wall rigid or sticky and can make the cell anaerobic because large oxygen clusters can not get into the cells.
As a result, glucose does not get into the cell efficiently, and blood sugar levels remain high.
-- Diabetics experience fatigue (tiredness) because glucose (which is the key source of energy) can't get into the cells.
The problem is that your body eventually gives up, not recognizing insulin, so sugar doesn't get into the cell.
Without insulin, the sugar can't get into the cells; hence, why you need to give it through a tiny syringe twice a day.
Without insulin, the sugar can't get into the cells; hence, why you need to give insulin to your dog with a tiny syringe twice a day.
However, without insulin in the body (or being delivered by syringe), the sugar can't get into the cells.
Not exact matches
It is normal for old red blood cells to break down, but the bilirubin formed does not usually cause jaundice because the liver metabolizes it and gets rid of it into the gut.
It is normal for red blood cells to break down, but the bilirubin formed does not usually cause jaundice because the liver metabolizes it and gets rid of it into the gut.
I'm all for making sure the correct breast milk gets to the correct baby, but I don't «transplant» carrot cells into my body when I eat a carrot, or cow tissue when I eat a cow.
Cons still get away with smoking on outdoor exercise yards, while some uniformed officers sneak into the cells to have a quick drag with friendly inmates they can trust not to «grass them up» to managers.
But there's been a huge snag: if naked DNA is injected into people, it doesn't last long, let alone get into cells.
Dr Stotz continued: «This concept of plant ETI does not really explain the second line of defense in the interaction of plant hosts protecting themselves against extracellular fungal pathogens — i.e. those foliar fungal pathogens that get into the leaf of the plant to exploit the space between its cells, known as the apoplast, to retrieve nutrients from the plant.
The protein that copies viral RNA is polymerase protein L, which conducts all the enzymatic activities needed to synthesize RNA and then add a cap structure to its end to ensure it doesn't get destroyed by the cell — and to ensure that it can be translated into protein.
But getting pluripotent stem cells to differentiate into a particular type of cell that can function inside the body is not simple.
«Before we get too excited about this being a new form of infertility treatment, these cells can not as yet be made into functioning sperm, so we have no idea if they can pass «the acid test» — the ability to fertilise female eggs as is achieved with donor sperm in IVF treatment,» says Malcolm Alison of the London School of Medicine and Dentistry in the UK.
We don't yet know how to fully turn stem cells into sperm, so the team got around this by injecting the cells into mouse testes for the last stages of development.
«We realized that MYC seems to help cells get around this roadblock, and that this needs to happen for adult cells to turn into iPSCs, but we still didn't quite understand how MYC did that,» explained Takahashi.
One answer is that this is God's will, and that's fine, but then that gets you into this really complicated business of, is it not then God's will to have a person like me wanting to work on human embryonic stem cells?»
Antibody proteins, for example, are too big and aren't able to get into the gap between the cells — they're even cleared away when cells meet.
Another is that the transplanted bits of tumor act nothing like cancers in actual human brains, Fine and colleagues reported in 2006: Real - life glioblastomas grow and spread and resist treatment because they contain what are called tumor stem cells, but tumor stem cells don't grow well in the lab, so they don't get transplanted into those mouse brains.
On the other hand, the problem is, you know, with embryonic stem cells, they haven't been able to get stem cell lines from livestock animals that can proliferate in that way, without just sort of veering up in their own direction and turning into, instead of muscle, turning into brain tissue or bone tissue or something else.
Many patients may not really know what they are getting into when they agree to stem cell treatments beyond the very few that have been proved effective.
They do not yet form the basis for a therapy, researchers said, because methods must still be perfected to get them more selectively into the cancer cells.
For example, adeno - associated virus (AAV) doesn't insert its genes into the genome, but places them alongside it, meaning they get read but are not passed to subsequent generations of cells.
«The blood - brain barrier forms pretty early in gestation, so the thyroid hormone, even from the mother, is probably not getting through the barrier and into the brain, likely leading to developmental deficits,» says Shusta, whose group was among the first to develop blood - brain barriers from patient - derived stem cells in the lab dish.
So it could be RNA or DNA like we have in modern biology or it could be some related kind of material; and we are also thinking about some kind of cell envelope or cell membrane — not that that's necessarily the very first way Darwinian systems began, but at some point they had to transition into a system more related to modern biology where cells are all bounded by membranes — so we're thinking about how to assemble these two components and get them to interact with each other.
Spark CEO Jeff Marrazzo says their more potent vector and differences in how the treatment is made, such as the company's use of a surfactant to make sure the vector doesn't stick to the vial when the surgeon injects it, may result in a higher dose of the RPE65 gene getting into retinal cells and long - lasting effects.
We don't yet know how to turn stem cells into mature sperm, so the team got around this by injecting the cells into mouse testes for the last stages of development.
«I think CRISPR - edited T cells will eventually go into patients, and it would be wrong not to think about the steps we need to take to get there safely and effectively.»
The use of viral vectors in research is beneficial for a number of reasons, including but not limited to: helping to get difficult - to - deliver DNA into mammalian cells, increasing the efficiency of gene transduction, allowing for control over which cells are infected through viral pseudotyping, and ease of vector cloning and modification.
Because most immune cells typically can't get into the brain, microglia are adapted to perform multiple functions that are normally handled by several different types of immune cells.
But a cancer cell's imperative is to grow and divide, and if it doesn't get sufficient nutrients, it may go into autophagy — consuming itself in an attempt to produce the building blocks for new cells.
DNA is packaged into structures called chromosomes, and sometimes these chromosomes don't get shared properly when a cell divides, which can lead to cancer.