Odds are, you would be in favor of ending the suffering of the thousands of people who currently battle such diseases. These cures and many more are the potential results of embryonic stem cell research. Embryonic stem cells are stem cells isolated from embryos during a specific stage of development known as the blastocyst stage.
Short half-life corresponds to high reactivity. The one nanosecond half-life of the hydroxyl radical indicates that it is so reactive that it reacts with the first molecule it bumps into.
Ascorbate forms H2O2 on autoxidation direct combination with oxygen. Lipid peroxidation of polyunsaturated fatty acids exposed to oxygen leads to rancidity in foods.
In living animal cells peroxidized membranes lose their permeability, becoming rigid, reactive and nonfunctional. Lipid peroxidation can produce singlet oxygen, hydroperoxides and lipid epoxides. MDA is a major metabolite of arachidonic acid Aldehyde-bridge formation leads to the protein-protein cross-linking associated with lipofuscin formation.
Polyunsaturated fatty acids are more vulnerable to free radical oxidation than any other macromolecules in the body — and the sensitivity to free radical damage increases exponentially with the number of double bonds.
Animal cells contain three important enzymes to deal with the superoxide and hydrogen peroxide: A dismutase is an enzyme that catalyzes the reaction of two identical molecules to produce molecules in different oxidative states.
In the absense of SOD, two superoxide ions can spontaneously dismutate to produce hydrogen peroxide and singlet oxygen.
SOD catalyzes a reaction between two superoxide ions to produce hydrogen peroxide and triplet oxygen. CAT is present in membrane-limited organelles known as peroxisomes. Glutathione is a tripeptide composed of the amino acids cysteine, glycine and glutamic acid.
Glutathione is the major antioxidant in the non-lipid portion of cells most of the cytoplasm. Reduced glutathione hydrogen donation can neutralize a hydroxyl radical: The elimination of hydrogen peroxide by glutathione can be written as the reaction: The liver, in particular, is very high in SOD.
Cellular concentration of SOD relative to metabolic activity is a very good lifespan predictor of animal species. Most mammals experience a lifetime energy expenditure ofcalories per gram, but humans have an amazingcalories per gram.
Humans have the highest levels of SOD — relative to metabolic rate — of all species studied. Oxidative damage to DNA is ten times greater in rats than in humans. Superoxide dismutase without glutathione peroxidase or catalase CAT to remove hydrogen peroxide is of little value.
Insects lack glutathione peroxidase, but experiments have been performed on fruit flies made transgenic by having extra genes for SOD, CAT or both.
Radiation produces the hydroxyl radical, but most of the oxygen free radicals are byproducts of cell metabolism — particularly in the mitochondria, the lysosomes and the peroxisomes. One of the reasons these organelles are surrounded by membranes may be to protect the cell from the free-radicals they generate.
DNA may be sequestered in the nucleus, in part, as additional protection against free radicals. Nonetheless, free radicals contribute to DNA damage and mutation.
In addition to enzymes, the animal cell uses many other chemicals to protect against oxygen free-radicals. Melatonina hormone produced by the pineal gland in decreasing quantities with aging, efficiently crosses membranes including the nucleus and is effective against hydroxyl radicals.
Uric acid also protects against free-radical catalysis by binding iron. Humans have higher levels of uric acid than monkeys and other mammals because humans lack the enzyme uricase.
But birds typically have twice the plasma uric acid concentration as humans. Anti-oxidants are most valuable for animals that are cancer-prone, or subjected to radiation or chemical toxins.
There are evidently homeostatic mechanisms in cells that govern the amount of allowable anti-oxidant activity. For more on anti-oxidants and anti-oxidant enzymes, see my essay General Anti-Oxidant Actions.
Most animal cells contain between a few hundred and a few thousand mitochondria.For example, hematopoietic stem cells are a type of stem cells that can only form blood cells and skin stem cells can similarly only produce skin cells.
As shown by the various arguments in this essay, the debate over embryonic stem cell research is a multifaceted scientific, moral, ethical, and political issue.
Background and Legal. This is not an example of the work written by our professional essay writers. A great deal of adult stem cell research has focused on clarifying their capacity to divide or self-renew indefinitely and their differentiation potential.
If you are the original writer of this essay and no longer wish to have the essay published on the UK. Stem cells are undifferentiated biological cells that can differentiate into specialized cells and can divide (through mitosis) to produce more stem cell.
initiativeblog.com: A stem cell is a cell that has the ability to divide (self replicate), Under the right conditions,can give rise (differentiate) to the many different cell types that. Supporters of embryonic stem cells argue that stem cell research will propel more medical technology ("stem cell research").
People supporting embryonic stem cell research also agree that adult stem cells are promising, but /5(19). In this paper I will discuss what stem cells are, the history behind stem cell research, how stem cells might help treat diseases, and what diseases stem cells could potentially treat.
I will also discuss the positives of stem cell research, the negatives of stem cell . However, if you are discussing, for example, the historical context in which the episode originally aired, you should cite the full date.
Because you are specifying the date of airing, you would then use WB Television Network (rather than Mutant Enemy), because it was the network (rather than the production company) that aired the episode on the date you’re citing.