Sentences with phrase «get into cells for»
Not exact matches
Their idea was for small bar - code scanners that could be built into cell phones so that consumers could aim their phones at products and get a text message back with product information and price comparisons.
https://www.inc.com/
The squeeze mechanism Sharei and his colleagues came up with could also be more effective than other existing ways of getting materials into cells, he says, because it works for more types of cells and materials, and presents fewer risks.
I know I have put myself back into that cell of guilt, and this paragraph is such an inspiration for me to get out.
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.
Infused with tiny «flavor cells,» this bone will keep your pup entertained; all you do is spread the flavor spread into the little divots on the sides of the bone, making it difficult for your dog to get all of the yummy flavor out.
Once researchers understand the rules for how to get specific shapes with TZPs that also assemble into larger structures, they can design materials with desired functions — for example, a membrane for a battery, a catalyst for a fuel cell, or even a therapeutic drug.
The Ophiocordyceps fungus turns tropical ants into zombie spore dispensers, for example, and the single - celled protozoan Toxoplasma gondii eliminates a rodent's fear of cats so it can get back into the feline digestive system.
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.
Yet even with all of these tricks, light can only penetrate so far into coral tissue; it tends to drop off the deeper you go, as in forests, making getting by more difficult for cells at the bottom of tissue.
For example, when food gets scarce, B. subtilis must decide between two possible paths: shut down, form a dormant spore — a process called «sporulation» — and wait for better times or split into two cells and gamble that there is enough food for at least one more generatiFor example, when food gets scarce, B. subtilis must decide between two possible paths: shut down, form a dormant spore — a process called «sporulation» — and wait for better times or split into two cells and gamble that there is enough food for at least one more generatifor better times or split into two cells and gamble that there is enough food for at least one more generatifor at least one more generation.
«Small molecules are much easier to make than larger compounds, they are easier to get into cells and their potential for getting into the brain is higher,» he said.
«The antigens must get far enough into the cell for them to be processed, but must also return — as antigen fragments — to the surface.»
However, occasionally germ cells can get trapped in the wrong part of the body during development and may later turn into brain tumours, for example.
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.
Clinical studies reveal that all that extra sugar gets stuffed into the fat cells our ancestors used to store energy for times of hunger.
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.
Transdifferentiation — getting cells of one type to turn into another — is one of the big challenges for regenerative medicine, says Charles ffrench - Constant of the University of Edinburgh, UK.
Current techniques for observing the cytoskeleton can be difficult to get into living cells, can be toxic, and are usually limited in resolution and duration, since the signal wears off over time.
The UK bank already has an agreement to share cells with CIRM - funded researchers, but it will take longer to get the new lines into the registry of lines approved for NIH funding, says Stacey.
The T cell gene codes for a protein that HIV uses to get into and infect a cell.
Their name is E. coli 0157: H7 and when they get into you, what they do is they build a needle and inject toxins into your cells in your intestines and [your] cells form these bizarre pedestals almost kind of like this throne you are making for this bacteria that is making you sick.
If the cells can be fertilized and develop into viable embryos, and if human ES cells turn out to have similar powers, such cells could allow researchers to get around some of the expense and ethical questions that arise from using donated eggs for therapeutic cloning experiments.
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.
Scientists have been working for decades to understand how anthrax toxins get into cells; recently researchers have started exploring the possibility of mimicking this system to deliver small protein molecules as vaccines.
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.
It's worth noting that 1) Greider was Blackburn's grad student but Blackburn shared the glory (unlike several male recipients) and 2) Blackburn was the scientist who got fired from the Bush «bioethics panel» for daring to inject some reality into the stem cell debate.
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.
While this situation is bad for researchers, it turns out that the same sort of force may be helpful in cells by forcing the DNA open just a bit to get the ball rolling on transcribing a gene into messenger RNA (mRNA).
Soon enough, one of those cells gets a PIK3CA mutation, and now the cell is able to burrow into the colon walls, or find its way to a lymph node, or depart the mother ship for the liver.
Stem cell researchers are getting closer to a new treatment for sickle cell disease, moving promising laboratory research into human clinical trials.
The researchers learned that, to get into cells, plutonium acts like a «Trojan horse,» duping a special membrane protein that is typically responsible for taking up iron.
From there, the ASOs get taken up into brain cells where they continue to suppress their target protein for a month or so, after which time more needs to be injected.
Cytokine release syndrome occurs when many cytokines get released into the serum upon CAR T - cell injection; patients can get high fevers and sometimes hypertension, and occasionally there is a need for mechanical ventilation or administration of vasopressors, but that is rare.
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.
As we already know, starch is a complex carbohydrate in the form of many small molecules that are attached to each other in large chains, which get broken down into smaller ones once they are digested for the purpose of meeting the energy needs of all cells in our bodies.
Carnitine is responsible for moving triglycerides into the mitochondria of the cells, where they get broken down to be used as energy.
And there are major differences with company ingredients, I've seen some companies use MCT oil or EVO not the greatest carrier... for getting into the cell and passing through the blood - brain barrier.
2:02 - Steve's own health problems 2:52 - Why his family called him «the gas man» 4:07 - Why Steve got in trouble with his boxx 4:37 - The pivotal moment for him 5:37 - How he got in to health education 6:35 - The Leaky Gut - Is Poop Leaking in to the body 6:52 - The small intestine is only one cell thick 7:55 - How food and toxins can escape into the body 8:52 - What causes heartburn and indigestion 11:22 - Why antacids and PPIs are dangerous 12:37 - The underlying causes of stomach problems and how to find your cause 13:22 - Two Supplements to help increase stomach acid 14:31 - The supplement turned his life around.
The process of moving harmful substances from the cells, fats, and tissues and into the blood stream and digestive system for the body to get rid of can almost make you feel a little sick at first.
Many of the most valuable nutrients in vegetables (like the Vitamins and carotenoids I mentioned above) are what we call fat - soluble (or lipid - soluble) vitamins — and to get absorbed into your cells for use, they catch a lift on a fat molecule.
Transport proteins: A series of transport proteins (multi drug resistant proteins, or MRPs) are responsible for getting the conjugated mercury out of your cells and into your blood, as well as from your blood into your liver and small intestine, and into other places so it can be eliminated
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?
Insulin is a hormone created by the pancreas, which must be present in order for glucose to get into our cells (used by the body as food).
The fat from my morning bulletproof coffee makes my body stay in ketosis so my cells and metabolism get the benefits of Intermittent Fasting, but the fats provide enough fuel for my brain as to not send my hormones into wacky mode, or to trick my body into thinking I am starving, thus starting to store fat.
Its purpose is to grab this sugar from our blood and get it into our cells so that it can be burned for energy or stored as fat.
OK, I understand with this program,, more thyroid hormone would be getting into my cells, Seeing I am hypothyroid due to Hashimotos, would the antithyroid antibodies still be circulating in my blood, thus continuing the need for levothyroxine... or would following this approach possibly also attack the cause of the autoimmunity?The way I read it, there will still be a need for supplementation but it would all just work better with this program and I would probably feel better?As there are so many schools of thought on what actually caiuses autoimmune issues... could I think, perhaps declogging the liver and reducing inflammation could possibly help reduce the antibodies???