Protein Important Quotes

One macronutrient, in particular, demands more of our attention than most people realize: not carbs, not fat, but protein becomes critically important as we age.

You digest and absorb your life by turning it into stories,' he says, 'the same way this theater seems to digest people.' With one hand, he points to a carpet stain, this dark stain sticky and growing mold, branched with arms and legs. Other events—the ones you can’t digest—they poison you. Those worst parts of your life, those moments you can’t talk about, they rot you from the inside out. Until you’re Cassandra’s wet shadow on the ground. Sunk in your own yellow protein mud. But the stories that you can digest, that you can tell—you can take control of those past moments. You can shape them, craft them. Master them. And use them to your own good. Those are stories as important as food. Those are stories you can use to make people laugh or cry or sick. Or scared. To make people feel the way you felt. To help exhaust that past moment for them and for you. Until that moment is dead. Consumed. Digested. Absorbed.

But more important, they’ll be cooked. When you cook food, the proteins break down, and the food becomes easier to digest. I’ll get more calories out of it, and I need every calorie I can get my hands on.

Ethanol is a volatile, flammable, colourless liquid with a slight chemical odour. It is used as an antiseptic, a solvent, in medical wipes and antibacterial formulas because it kills organisms by denaturing their proteins. Ethanol is an important industrial ingredient. Ethanol is a good general purpose solvent and is found in paints, tinctures, markers and personal care products such as perfumes and deodorants. The largest single use of ethanol is as an engine fuel and fuel additive. In other words, we drink, for fun, the same thing we use to make rocket fuel, house paint, anti-septics, solvents, perfumes, and deodorants and to denature, i.e. to take away the natural properties of, or kill, living organisms. Which might make sense on some level if we weren’t a generation of green minded, organic, health-conscious, truth seeking individuals. But we are. We read labels, we shun gluten, dairy, processed foods, and refined sugars. We buy organic, we use natural sunscreen and beauty products. We worry about fluoride in our water, smog in our air, hydrogenated oils in our food, and we debate whether plastic bottles are safe to drink from. We replace toxic cleaning products with Mrs. Myers and homemade vinegar concoctions. We do yoga, we run, we SoulCycle and Fitbit, we go paleo and keto, we juice, we cleanse. We do coffee enemas and steam our yonis, and drink clay and charcoal, and shoot up vitamins, and sit in infrared foil boxes, and hire naturopaths, and shamans, and functional doctors, and we take nootropics and we stress about our telomeres. These are all real words. We are hyper-vigilant about everything we put into our body, everything we do to our body, and we are proud of this. We Instagram how proud we are of this, and we follow Goop and Well+Good, and we drop 40 bucks on an exercise class because there are healing crystals in the floor. The global wellness economy is estimated to be worth $4 trillion. $4 TRILLION DOLLARS. We are on an endless and expensive quest for wellness and vitality and youth. And we drink fucking rocket fuel.

Instead of eating raw potatoes during my trip, I’ll be eating (cold) precooked potatoes. First off, they’ll taste a lot better. But more important, they’ll be cooked. When you cook food, the proteins break down, and the food becomes easier to digest.

The importance of insulin is becoming more well recognized. Unfortunately, some people are writing books that fail to distinguish between simple and complex carbohydrates. They recommend that people minimize intake of carbohydrates and increase intake of protein, even high-fat, high-cholesterol animal proteins, which is most unwise.

Aren't there going to be any refreshments?" Tharamn interrupted. "I always think better with a little snack to keep me going." "I'm with you there," said Grishmak. "Bring on the nibbles!" "There aren't any!" Cressida snapped. "This is all far too important, and besides, once you lot start easting, it'll only turn into a party." "Can't say I have a problem with that myself," said Tharaman. "What about you, Grishy?" "None at all. Bit of food and fun helps the boring bits along, in my opinion. Let's call a chamberlain and order some grub." "No!" Cressida insisted. "We all need to concentrate, and I for one find it difficult to think one you and Tharaman start cracking bones and spitting out gristle." "I never spit out gristle!" said Tharaman in miffed tones. "A terrible wast of protein. It just needs a little extra chewing, that's all." Thirrin had watched the exchange in silence, but now she sat forward in her chair. "Actually I wouldn't mind a sandwich myself." Cressida looked at her thunderously.

Prayer by itself is like a diet without protein! Prayer is important to our spiritual growth— but of even greater importance is God’s Word, the Bible.

the most dangerous trick pulled by lectins, which I now see on a daily basis in my patients, is that they bear an uncanny similarity to the proteins on many of our important organs, nerves, and joints.

Consider the genesis of a single-celled embryo produced by the fertilization of an egg by a sperm. The genetic material of this embryo comes from two sources: paternal genes (from sperm) and maternal genes (from eggs). But the cellular material of the embryo comes exclusively from the egg; the sperm is no more than a glorified delivery vehicle for male DNA—a genome equipped with a hyperactive tail. Aside from proteins, ribosomes, nutrients, and membranes, the egg also supplies the embryo with specialized structures called mitochondria. These mitochondria are the energy-producing factories of the cell; they are so anatomically discrete and so specialized in their function that cell biologists call them “organelles”—i.e., mini-organs resident within cells. Mitochondria, recall, carry a small, independent genome that resides within the mitochondrion itself—not in the cell’s nucleus, where the twenty-three pairs of chromosomes (and the 21,000-odd human genes) can be found. The exclusively female origin of all the mitochondria in an embryo has an important consequence. All humans—male or female—must have inherited their mitochondria from their mothers, who inherited their mitochondria from their mothers, and so forth, in an unbroken line of female ancestry stretching indefinitely into the past. (A woman also carries the mitochondrial genomes of all her future descendants in her cells; ironically, if there is such a thing as a “homunculus,” then it is exclusively female in origin—technically, a “femunculus”?) Now imagine an ancient tribe of two hundred women, each of whom bears one child. If the child happens to be a daughter, the woman dutifully passes her mitochondria to the next generation, and, through her daughter’s daughter, to a third generation. But if she has only a son and no daughter, the woman’s mitochondrial lineage wanders into a genetic blind alley and becomes extinct (since sperm do not pass their mitochondria to the embryo, sons cannot pass their mitochondrial genomes to their children). Over the course of the tribe’s evolution, tens of thousands of such mitochondrial lineages will land on lineal dead ends by chance, and be snuffed out. And here is the crux: if the founding population of a species is small enough, and if enough time has passed, the number of surviving maternal lineages will keep shrinking, and shrinking further, until only a few are left. If half of the two hundred women in our tribe have sons, and only sons, then one hundred mitochondrial lineages will dash against the glass pane of male-only heredity and vanish in the next generation. Another half will dead-end into male children in the second generation, and so forth. By the end of several generations, all the descendants of the tribe, male or female, might track their mitochondrial ancestry to just a few women. For modern humans, that number has reached one: each of us can trace our mitochondrial lineage to a single human female who existed in Africa about two hundred thousand years ago. She is the common mother of our species. We do not know what she looked like, although her closest modern-day relatives are women of the San tribe from Botswana or Namibia. I find the idea of such a founding mother endlessly mesmerizing. In human genetics, she is known by a beautiful name—Mitochondrial Eve.

Your waist size is such an important predictor of health because the type of fat that is stored around your waistline—called “visceral fat” or “belly fat”—is related to the release of proteins and hormones that cause inflammation, which can in turn damage your arteries and affect how you metabolize sugars and fats. For this reason, visceral fat is strongly linked to type 2 diabetes, heart disease, stroke, Alzheimer’s, and other chronic diseases. Seeing your waist size come down is a great indicator of improving health.

the wheats offered the additional advantage of a high protein content, 8–14 percent. In contrast, the most important cereal crops of eastern Asia and of the New World—rice and corn, respectively—had a lower protein content that posed significant nutritional problems. THOSE

Can I interest you in a dinner cupcake?” “A dinner cupcake?” he scoffs. “Yes, I accidentally bought five.” No one needs to know about the cupcake I’ve already inhaled. “How does one accidently buy five cupcakes?” His eyes sparkle with amusement. “Don’t know.” I shrug. “Chalk it up to one of life’s many mysteries.” “So the cupcakes replace dinner?” “Yes, they cover all the important food groups. Eggs for protein, milk for dairy, flour for the starch.” “What about a vegetable?” “I’m sure there’s vegetable shortening in the batter or the frosting.

Diet is increasingly important as you age. At 59, I weigh 10 pounds more than I did in high school, and I can still wear size 34 jeans. But I can’t eat like I did in my 20's and 30's. Lean meat, veggies, and fresh fruit form the bulk of my diet. I rely on protein powder and protein bars to keep my protein intake up. When I do over-indulge, I do an extra workout or restrict my eating for a couple of days. I weigh daily and when the needle creeps up, I take action. Don’t let it get out of control because it's harder at this age to dump the weight ~ Steve Holley, veteran martial artist

Gluten is the main protein in wheat, and is also present in barley and rye, but not corn. It is the constituent of flour that gives bread its elasticity when it rises. There are actually two gluten proteins, glutenin and gliadin. When gliadin is partially digested it can form quite a few opioid peptides, of which the most important is gliadomorphin (also, confusingly, called gliadorphin and gliadinomorphin). The important point for the current discussion is that gliadomorphin has a very similar structure to BCM7.

A major push is under way to figure out the molecular basis of those "critical" or "sensitive" periods, to figure out how the brain changes as certain learning abilities come and go. In some, if not all, of those mammals that have the alternating stripes in the visual cortex known as ocular dominance columns, those columns can be adjusted early in development, but not in adulthood. A juvenile monkey that has one eye covered for an extended period of time can gradually readjust its brain wiring to favor the open eye; an adult monkey cannot adjust its wiring. At the end of a critical period, a set of sticky sugar-protein hybrids known as proteoglycans condenses into a tight net around the dendrites and cell bodies of some of the relevant neurons, and in so doing those proteoglycans appear to impede axons that would otherwise be wriggling around as part of the process of readjusting the ocular dominance columns; no wriggling, no learning. In a 2002 study with rats, Italian neuroscientist Tommaso Pizzorusso and his colleagues dissolved the excess proteoglycans with an antiproteoglycan enzyme known as "chABC," and in so doing managed to reopen the critical period. After the chABC treatment, even adult rats could recalibrate their ocular dominance columns. ChABC probably won't help us learn second languages anytime soon, but its antiproteoglycan function may have important medical implications in the not-too-distant future. Another 2002 study, also with rats, showed that chABC can also promote functional recovery after spinal cord injury.

The number they tabulated was food that has about five hundred sixty-seven calories per pound. The exactitude of the number is meaningless. But the practical takeaway is important: A person should mostly be eating unprocessed whole grains*7 and tubers, fruits and vegetables, and lowish-fat animal protein.” These foods lead us to the sweet spot where we find a healthy weight and keep meal satisfaction high, he said. “An average plate could be a quarter animal protein, a quarter whole grains or tubers, and half vegetables or fruit.

One macronutrient, in particular, demands more of our attention than most people realize: not carbs, not fat, but protein becomes critically important as we age. Exercise is by far the most potent longevity “drug.” No other intervention does nearly as much to prolong our lifespan and preserve our cognitive and physical function. But most people don’t do nearly enough—and exercising the wrong way can do as much harm as good. Finally, as I learned the hard way, striving for physical health and longevity is meaningless if we ignore our emotional health. Emotional suffering can decimate our health on all fronts, and it must be addressed. —

Our deeply-rooted beliefs about the wholesomeness of milk and dairy products should be re-considered under careful, scientific evaluation. Given the tumor promotor effect of IGF-1, patients with tumorous disease should restrict consumption of milk and milk protein. The same applies to patients with coronary heart disease and with a family history of neurodegenerative disease. Milk consumption has already been identified as an aggravating factor in the acne “epidemic” among adolescents, and preliminary successes have been reported with reduced milk consumption. It is even more important that excessive milk consumption can promote diseases commonly associated with a Western lifestyle

One of the most studied organisms in this context is the tiny polyp Hydra, which possesses only a hundred thousand cells. Its neural network is concentrated in its head and foot: a first evolutionary step toward developing a brain and spinal cord. Hydra’s nervous system contains a chemical messenger—a minuscule protein—that resembles two of our own: vasopressin and oxytocin. A protein of this kind is called a neuropeptide. In vertebrates, the gene for this particular neuropeptide first doubled and then mutated in two places, creating the two closely related but specialized neuropeptides vasopressin and oxytocin, which have recently become the focus of interest, partly because of their important role as messengers in our social brains (see chapter 9).

Al Hershey had sent me a long letter from Cold Spring Harbor summarizing the recently completed experiments by which he and Martha Chase established that a key feature of the infection of a bacterium by a phage was the injection of the viral DNA into the host bacterium. Most important, very little protein entered the bacterium. Their experiment was thus a powerful new proof that DNA is the primary genetic material. Nonetheless, almost no one in the audience of over four hundred microbiologists seemed interested as I read long sections of Hershey’s letter. Obvious exceptions were André Lwoff, Seymour Benzer, and Gunther Stent, all briefly over from Paris. They knew that Hershey’s experiments were not trivial and that from then on everyone was going to place more emphasis on DNA. To most of the spectators, however, Hershey’s name carried no weight.

Over the years, I’ve been told that meat is an important protein; meat is bad for you; the best way to lose weight is to eat a high-protein diet; the best way to lose weight is to eat a vegan diet; juicing is good for you; juice cleanses are pointless; someone with my blood type should eat only lamb, mutton, turkey, and rabbit, and avoid chicken, beef, ham, and pork; bacon is okay; bacon is bad for you; consuming fat helps you lose weight; all fats should be avoided or used minimally; yogurt helps your digestion; yogurt has no impact on your digestion; calcium from dairy is good for you; dairy is bad for you; gluten is no problem for people without celiac disease; everyone should be gluten-free; kale is a superfood; too much kale can actually result in a thyroid condition causing you to gain weight; and using non-natural toothpaste can cause bloating of up to five pounds.

How does the body push the comparatively tiny genome so far? Many researchers want to put the weight on learning and experience, apparently believing that the contribution of the genes is relatively unimportant. But though the ability to learn is clearly one of the genome's most important products, such views overemphasize learning and significantly underestimate the extent to which the genome can in fact guide the construction of enormous complexity. If the tools of biological self-assembly are powerful enough to build the intricacies of the circulatory system or the eye without requiring lessons from the outside world, they are also powerful enough to build the initial complexity of the nervous system without relying on external lessons. The discrepancy melts away as we appreciate the true power of the genome. We could start by considering the fact that the currently accepted figure of 30,000 could well prove to be too low. Thirty thousand (or thereabouts) is, at press time, the best estimate for how many protein-coding genes are in the human genome. But not all genes code for proteins; some, not counted in the 30,000 estimate, code for small pieces of RNA that are not converted into proteins (called microRNA), of "pseudogenes," stretches of DNA, apparently relics of evolution, that do not properly encode proteins. Neither entity is fully understood, but recent reports (from 2002 and 2003) suggest that both may play some role in the all-important process of regulating the IFS that control whether or not genes are expressed. Since the "gene-finding" programs that search the human genome sequence for genes are not attuned to such things-we don't yet know how to identify them reliably-it is quite possible that the genome contains more buried treasure.

Whenever possible, avoid animal protein that has been raised with hormones or antibiotics. Europe won’t accept hormone-laden U.S. beef because of the health risks. Look for grass-fed, hormone-free, antibiotic-free organic beef and chicken, which is richer in omega-3 fatty acids and will therefore act to reduce inflammation and help your hormone receptors to function properly. Also, eat organic vegetables, fruits, nuts, seeds, beans, and grains. Pesticides are known to cause hormonal imbalances and some pesticides have been shown to act as “endocrine (hormone) disrupters,” interfering with the body’s natural hormone systems and causing an array of health problems. While the Environmental Protection Agency began looking at this issue in 1999, little change has yet occurred in the marketplace, and women are well served by educating themselves on this important issue. (I’ll discuss this more later in this chapter.)

This is waste of time. Also waste of my food.' 'I need to know if I can eat your food.' 'Eat your own food.' 'I've only got a few months of real food left. You have enough aboard your ship to feed a crew of twenty-three Eridians for years. Erid life and Earth life use the same proteins. Maybe I can eat your food.' 'Why you say "real food", question? What is non-real food, question?' I checked the readout again. Why does Eridian food have so many heavy metals in it? 'Real food is food that tastes good. Food that's fun to eat.' 'You have not-fun food, question?' 'Yeah. Coma slurry. The ship fed it to me during the trip here. I have enough to last me almost four years.' 'Eat that.' 'It tastes bad.' 'Food experience not that important.' 'Hey,' I point at him. 'To humans, food experience is very important.' 'Humans strange.' I point at the spectrometer readout screen. 'Why does Eridian food have thallium in it?' 'Healthy.' 'Thallium kills humans!' 'Then eat human food.' 'Ugh.

Perhaps nowhere is modern chemistry more important than in the development of new drugs to fight disease, ameliorate pain, and enhance the experience of life. Genomics, the identification of genes and their complex interplay in governing the production of proteins, is central to current and future advances in pharmacogenomics, the study of how genetic information modifies an individual's response to drugs and offering the prospect of personalized medicine, where a cocktail of drugs is tailored to an individual's genetic composition. Even more elaborate than genomics is proteomics, the study of an organism's entire complement of proteins, the entities that lie at the workface of life and where most drugs act. Here computational chemistry is in essential alliance with medical chemistry, for if a protein implicated in a disease can be identified, and it is desired to terminate its action, then computer modelling of possible molecules that can invade and block its active site is the first step in rational drug discovery. This too is another route to the efficiencies and effectiveness of personalized medicine.

And, even more important for our purposes, these facts are sturdy enough that we can build a sensible diet upon them. Here they are: FACT 1. Populations that eat a so-called Western diet—generally defined as a diet consisting of lots of processed foods and meat, lots of added fat and sugar, lots of refined grains, lots of everything except vegetables, fruits, and whole grains—invariably suffer from high rates of the so-called Western diseases: obesity, type 2 diabetes, cardiovascular disease, and cancer. Virtually all of the obesity and type 2 diabetes, 80 percent of the cardiovascular disease, and more than a third of all cancers can be linked to this diet. Four of the top ten killers in America are chronic diseases linked to this diet. The arguments in nutritional science are not about this well-established link; rather, they are all about identifying the culprit nutrient in the Western diet that might be responsible for chronic diseases. Is it the saturated fat or the refined carbohydrates or the lack of fiber or the transfats or omega-6 fatty acids—or what? The point is that, as eaters (if not as scientists), we know all we need to know to act: This diet, for whatever reason, is the problem. FACT 2. Populations eating a remarkably wide range of traditional diets generally don’t suffer from these chronic diseases. These diets run the gamut from ones very high in fat (the Inuit in Greenland subsist largely on seal blubber) to ones high in carbohydrate (Central American Indians subsist largely on maize and beans) to ones very high in protein (Masai tribesmen in Africa subsist chiefly on cattle blood, meat, and milk), to cite three rather extreme examples. But much the same holds true for more mixed traditional diets. What this suggests is that there is no single ideal human diet but that the human omnivore is exquisitely adapted to a wide range of different foods and a variety of different diets. Except, that is, for one: the relatively new (in evolutionary terms) Western diet that most of us now are eating. What an extraordinary achievement for a civilization: to have developed the one diet that reliably makes its people sick! (While it is true that we generally live longer than people used to, or than people in some traditional cultures do, most of our added years owe to gains in infant mortality and child health, not diet.) There is actually a third, very hopeful fact that flows from these two: People who get off the Western diet see dramatic improvements in their health. We have good research to suggest that the effects of the Western diet can be rolled back, and relatively quickly.

The Enchanted Broccoli Forest. Oh, what a pleasure that was! Mollie Katzen's handwritten and illustrated recipes that recalled some glorious time in upstate New York when a girl with an appetite could work at a funky vegetarian restaurant and jot down some tasty favorites between shifts. That one had the Pumpkin Tureen soup that Margo had made so many times when she first got the book. She loved the cheesy onion soup served from a pumpkin with a hot dash of horseradish and rye croutons. And the Cardamom Coffee Cake, full of butter, real vanilla, and rich brown sugar, said to be a favorite at the restaurant, where Margo loved to imagine the patrons picking up extras to take back to their green, grassy, shady farmhouses dotted along winding country roads. Linda's Kitchen by Linda McCartney, Paul's first wife, the vegetarian cookbook that had initially spurred her yearlong attempt at vegetarianism (with cheese and eggs, thank you very much) right after college. Margo used to have to drag Calvin into such phases and had finally lured him in by saying that surely anything Paul would eat was good enough for them. Because of Linda's Kitchen, Margo had dived into the world of textured vegetable protein instead of meat, and tons of soups, including a very good watercress, which she never would have tried without Linda's inspiration. It had also inspired her to get a gorgeous, long marble-topped island for prep work. Sometimes she only cooked for the aesthetic pleasure of the gleaming marble topped with rustic pottery containing bright fresh veggies, chopped to perfection. Then Bistro Cooking by Patricia Wells caught her eye, and she took it down. Some pages were stuck together from previous cooking nights, but the one she turned to, the most splattered of all, was the one for Onion Soup au Gratin, the recipe that had taught her the importance of cheese quality. No mozzarella or broken string cheeses with- maybe- a little lacy Swiss thrown on. And definitely none of the "fat-free" cheese that she'd tried in order to give Calvin a rich dish without the cholesterol. No, for this to be great, you needed a good, aged, nutty Gruyère from what you couldn't help but imagine as the green grassy Alps of Switzerland, where the cows grazed lazily under a cheerful children's-book blue sky with puffy white clouds. Good Gruyère was blocked into rind-covered rounds and aged in caves before being shipped fresh to the USA with a whisper of fairy-tale clouds still lingering over it. There was a cheese shop downtown that sold the best she'd ever had. She'd tried it one afternoon when she was avoiding returning home. A spunky girl in a visor and an apron had perked up as she walked by the counter, saying, "Cheese can change your life!" The charm of her youthful innocence would have been enough to be cheered by, but the sample she handed out really did it. The taste was beyond delicious. It was good alone, but it cried out for ham or turkey or a rich beefy broth with deep caramelized onions for soup.

Although there are certainly a number Hair Loss regarding treatments offering great results, experts say that normal thinning hair treatment can easily yield some of the best rewards for anybody concerned with the fitness of their head of hair. Most people choose to handle their hair loss along with medications or even surgical treatment, for example Minoxidil or even head of hair hair transplant. Nevertheless many individuals fail to realize that treatment as well as surgical procedure are costly and may have several dangerous unwanted effects and also risks. The particular safest and a lot cost efficient form of thinning hair treatment therapy is natural hair loss remedy, which includes healthful going on a diet, herbal solutions, exercise as well as good hair care strategies. Natural thinning hair therapy is just about the "Lost Art" associated with locks restore and is frequently ignored as a type of treatment among the extremely expensive options. A simple main within normal hair loss treatment methods are that the identical food items which are great for your health, are good for your hair. Although hair loss may be caused by many other factors, not enough correct diet will cause thinning hair in most people. Foods which are loaded with protein, lower in carbohydrates, and have decreased excess fat articles can help in maintaining healthful hair as well as preventing hair loss. For instance, efa's, seen in spinach, walnuts, soy products, seafood, sardines, sunflower seed products and also canola acrylic, are important eating essentials valuable in maintaining hair wholesome. The omega-3 and also rr Half a dozen efas contain anti-inflammatory properties that are valuable in maintaining healthier hair. Insufficient amounts of these types of efa's may lead to more rapidly hair loss. A deficiency in nutritional B6 and also vitamin B12 can also result in excessive hair thinning. Food items containing B vitamins, like liver organ, poultry, seafood and soybean are important to healthier hair growth and normal thinning hair treatment. Both vitamin B6 and also vitamin B12 are simply within protein rich foods, which are needed to preserve natural hair growth. Vitamin b are incredibly essential to your diet plan to avoid extreme hair thinning. Certain nutritional vitamins as well as supplements are often essential to recover protein amounts which in turn, are helpful in stopping thinning hair. Growing b vitamin consumption in your diet is an effective method to avoid or perhaps treat hair damage naturally. Alongside the thought of eating healthily regarding vitamins, nutrients and also vitamins and minerals are also the utilization of herbal treatments which are good at preventing hair thinning as a organic thinning hair therapy. One of the herbal remedies producing healthcare head lines will be Saw Palmetto. Although most studies regarding Saw palmetto extract happen to be for your management of prostatic disease, more modern numerous studies have been carried out about its effectiveness for hair thinning. The actual plant has been seen as to operate in eliminating benign prostatic disease by lowering degrees of Dihydrotestosterone, the industry known cause of androgenic alopecia, the medical phrase regarding man or woman routine hair loss. While there isn't any clinical trials supporting this herb's usefulness being a normal hair thinning treatment, there is certainly some dependable investigation proving that it could decrease androgen exercise within

REPROGRAMMING MY BIOCHEMISTRY A common attitude is that taking substances other than food, such as supplements and medications, should be a last resort, something one takes only to address overt problems. Terry and I believe strongly that this is a bad strategy, particularly as one approaches middle age and beyond. Our philosophy is to embrace the unique opportunity we have at this time and place to expand our longevity and human potential. In keeping with this health philosophy, I am very active in reprogramming my biochemistry. Overall, I am quite satisfied with the dozens of blood levels I routinely test. My biochemical profile has steadily improved during the years that I have done this. For boosting antioxidant levels and for general health, I take a comprehensive vitamin-and-mineral combination, alpha lipoic acid, coenzyme Q10, grapeseed extract, resveratrol, bilberry extract, lycopene, silymarin (milk thistle), conjugated linoleic acid, lecithin, evening primrose oil (omega-6 essential fatty acids), n-acetyl-cysteine, ginger, garlic, l-carnitine, pyridoxal-5-phosphate, and echinacea. I also take Chinese herbs prescribed by Dr. Glenn Rothfeld. For reducing insulin resistance and overcoming my type 2 diabetes, I take chromium, metformin (a powerful anti-aging medication that decreases insulin resistance and which we recommend everyone over 50 consider taking), and gymnema sylvestra. To improve LDL and HDL cholesterol levels, I take policosanol, gugulipid, plant sterols, niacin, oat bran, grapefruit powder, psyllium, lecithin, and Lipitor. To improve blood vessel health, I take arginine, trimethylglycine, and choline. To decrease blood viscosity, I take a daily baby aspirin and lumbrokinase, a natural anti-fibrinolytic agent. Although my CRP (the screening test for inflammation in the body) is very low, I reduce inflammation by taking EPA/DHA (omega-3 essential fatty acids) and curcumin. I have dramatically reduced my homocysteine level by taking folic acid, B6, and trimethylglycine (TMG), and intrinsic factor to improve methylation. I have a B12 shot once a week and take a daily B12 sublingual. Several of my intravenous therapies improve my body’s detoxification: weekly EDTA (for chelating heavy metals, a major source of aging) and monthly DMPS (to chelate mercury). I also take n-acetyl-l-carnitine orally. I take weekly intravenous vitamins and alpha lipoic acid to boost antioxidants. I do a weekly glutathione IV to boost liver health. Perhaps the most important intravenous therapy I do is a weekly phosphatidylcholine (PtC) IV, which rejuvenates all of the body’s tissues by restoring youthful cell membranes. I also take PtC orally each day, and I supplement my hormone levels with DHEA and testosterone. I take I-3-C (indole-3-carbinol), chrysin, nettle, ginger, and herbs to reduce conversion of testosterone into estrogen. I take a saw palmetto complex for prostate health. For stress management, I take l-theonine (the calming substance in green tea), beta sitosterol, phosphatidylserine, and green tea supplements, in addition to drinking 8 to 10 cups of green tea itself. At bedtime, to aid with sleep, I take GABA (a gentle, calming neuro-transmitter) and sublingual melatonin. For brain health, I take acetyl-l-carnitine, vinpocetine, phosphatidylserine, ginkgo biloba, glycerylphosphorylcholine, nextrutine, and quercetin. For eye health, I take lutein and bilberry extract. For skin health, I use an antioxidant skin cream on my face, neck, and hands each day. For digestive health, I take betaine HCL, pepsin, gentian root, peppermint, acidophilus bifodobacter, fructooligosaccharides, fish proteins, l-glutamine, and n-acetyl-d-glucosamine. To inhibit the creation of advanced glycosylated end products (AGEs), a key aging process, I take n-acetyl-carnitine, carnosine, alpha lipoic acid, and quercetin. MAINTAINING A POSITIVE “HEALTH SLOPE” Most important,

is not a case of saying that eating meats is wrong. It is a matter of saying the life of an animal is more important than what we get from them.

To pack a healthy lunch, my children follow simple packing guidelines. They combine, and not duplicate, ingredients from each of the following categories. All are available in either loose or unpackaged form, and when possible, we buy organic. In order of importance (i.e. amount), they pick: 1. Grain (favor whole wheat when possible): Baguette, focaccia, buns, bagels, pasta, rice, couscous 2. Vegetable: Lettuce, tomato, pickles, avocado, cucumber, broccoli, carrots, bell pepper, celery, snap peas 3. Protein: Deli cuts, leftover meat or fish, shrimp, eggs, tofu, nuts, nut butters, beans, peas 4. Calcium: Yogurt, cheese, dark leafy greens 5. Fruit: Preferably raw fruit or berries, homemade apple sauce, or dried fruit 6. Optional Snacks: Whole or dried fruit, yogurt, homemade popcorn or cookie, nuts, granola, or any interesting snack from the bulk aisle

Autophagy also plays an important role in the prevention of Alzheimer’s disease. Alzheimer’s is characterized by the abnormal accumulation of amyloid beta (Aß) proteins in the brain, and it’s believed that these accumulations eventually destroy the synaptic connections in the memory and cognition areas. Normally, clumps of Aß protein are removed by autophagy: the brain cell activates the autophagosome, the cell’s internal garbage truck, which engulfs the Aß protein targeted for removal and excretes it, so it can be removed by the blood and recycled into other protein or turned into glucose, depending upon the body’s needs. But in Alzheimer’s disease, autophagy is impaired and the Aß protein remains inside the brain cell, where eventual buildup will result in the clinical syndromes of Alzheimer’s disease. Cancer is yet another disease that may be a result of disordered autophagy. We’re learning that mTOR plays a role in cancer biology, and mTOR inhibitors have been approved by the Food and Drug Administration for the treatment of various cancers. Fasting’s role in inhibiting mTOR, thereby stimulating autophagy, provides an interesting opportunity to prevent cancer’s development.

fasting also stimulates growth hormone, which signals the production of some new snazzy cell parts, giving our bodies a complete renovation. Since it triggers both the breakdown of old cellular parts and the creation of new ones, fasting may be considered one of the most potent anti-aging methods in existence. Autophagy also plays an important role in the prevention of Alzheimer’s disease. Alzheimer’s is characterized by the abnormal accumulation of amyloid beta (Aß) proteins in the brain, and it’s believed that these accumulations eventually destroy the synaptic connections in the memory and cognition areas. Normally, clumps of Aß protein are removed by autophagy: the brain cell activates the autophagosome, the cell’s internal garbage truck, which engulfs the Aß protein targeted for removal and excretes it, so it can be removed by the blood and recycled into other protein or turned into glucose, depending upon the body’s needs. But in Alzheimer’s disease, autophagy is impaired and the Aß protein remains inside the brain cell, where eventual buildup will result in the clinical syndromes of Alzheimer’s disease. Cancer is yet another disease that may be a result of disordered autophagy. We’re learning that mTOR plays a role in cancer biology, and mTOR inhibitors have been approved by the Food and Drug Administration for the treatment of various cancers. Fasting’s role in inhibiting mTOR, thereby stimulating autophagy, provides an interesting opportunity to prevent cancer’s development. Indeed, some leading scientists, such as Dr. Thomas Seyfried, a professor of biology at Boston College, have proposed a yearly seven-day water-only fast for this very reason.

If you’re eating food, it doesn’t really matter which foods you’re eating—as long as you’re taking in enough calories, you can pretty much rest assured you’re also getting enough protein. Yes, protein is of prime importance, and is the most plentiful substance in the body besides water—but that doesn’t mean eating more of it is better for you.

Adipose tissue contains about 15 per cent water, 5 per cent protein, and 80 per cent fat. This means that a gram of adipose tissue yields 7.4 kcal. We can calculate from this that a deficit of 500 kcal per day will lead to utilization of 68g of adipose tissue per day, or 476g in a week. If we assume a total energy expenditure (and therefore requirement) of 2,500 kcal/day, then even with total starvation the maximum possible weight loss will be 2.4kg (5 lb 5 oz) per week. It is important to bear this in mind when evaluating the claims for weight loss that are made for some diets.

Oral liquid EDTA chelation removes plaque from blood vessels by dissolving it away. Dissolved plaque exits the body via the kidneys. Blood pressure is reduced to normal (there is no prescription drug that can achieve this youthful result). L-arginine, L-Citrulline which are amino acids (proteins), and antioxidants to stimulate the body’s natural production of Nitric Oxide. These supplements restore youthful flexibility to blood vessels and reduces blood pressure (again, there is no prescription drug that can achieve this youthful result) IMPORTANT NOTE

Human bodies are extremely complicated and over the years I learned three important things about them, none of which I had been taught by lecturers or professors at my medical school. First, I learned that no two bodies are identical and there are an infinite number of variations. Not even twins are truly identical. When I first started to study medicine I used to think how much easier it would be for us all (doctors and patients) if bodies came with an owner's manual, but the more I learned about medicine the more I realised that such a manual would have to contain so many variations, footnotes and appendices that it wouldn't fit into the British Museum let alone sit comfortably on the average bookshelf. Even if manuals were individually prepared they would still be too vast for practical use. However much we may think we know about illness and health there will always be exceptions; there will always be times when our prognoses and predictions are proved wrong. Second, I learned that the human body has enormous, hidden strengths, and far greater power than most of us ever realise. We tend to think of ourselves as being delicate and vulnerable. But, in practice, our bodies are tougher than we imagine, far more capable of coping with physical and mental stresses than most of us realise. Very few of us know just how strong and capable we can be. Only if we are pushed to our limits do we find out precisely what we can do. Third, I learned that our bodies are far better equipped for selfdefence than most of us imagine, and are surprisingly well-equipped with a wide variety of protective mechanisms and self-healing systems which are designed to keep us alive and to protect us when we find ourselves in adverse circumstances. The human body is designed for survival and contains far more automatic defence mechanisms, designed to protect its occupant when it is threatened, than any motor car. To give the simplest of examples, consider what happens when you cut yourself. First, blood will flow out of your body for a few seconds to wash away any dirt. Then special proteins will quickly form a protective net to catch blood cells and form a clot to seal the wound. The damaged cells will release special substances into the tissues to make the area red, swollen and hot. The heat kills any infection, the swelling acts as a natural splint - protecting the injured area. White cells are brought to the injury site to swallow up any bacteria. And, finally, scar tissue builds up over the wounded site. The scar tissue will be stronger than the original, damaged area of skin. Those were the three medical truths I discovered for myself. Over the years I have seen many examples of these three truths. But one patient always comes into my mind when I think about the way the human body can defy medical science, prove doctors wrong and exhibit its extraordinary in-built healing power.

To understand what happens when we ingest lectin, let’s consider the example of wheat germ agglutinin (WGA), a lectin contained within wheat. Like other lectins, WGA is sticky, readily binding to other proteins it comes in contact with. After it enters our digestive tract, WGA sticks to the intestinal villi (fingerlike projections along the walls of the gut that are critical for the absorption of nutrients). The binding of WGA to the villi results in the damage and death of its cells. This destruction of the villi caused by lectins, including WGA, interferes with our ability to absorb nutrients from food. There is also evidence that lectins disrupt the gut’s natural flora. These microorganisms in our gut not only play an important role in digestion, but their disruption can result in the growth and proliferation of unhealthy microorganisms, such as E. coli, which can overrun the normal gut microbial environment and make us ill.

I can safely say that the origin of every single disease is genetic. Our genes are the code to everything in our bodies, good and bad. Without genes, there would be no cancer. Without genes, there would be no obesity, diabetes or heart disease. And without genes, there would be no life. This might explain why we are spending hundreds of millions of dollars trying to figure out which gene causes which disease and how we can silence the dangerous genes. This also explains why some perfectly healthy young women have had their breasts removed simply because they were found to carry genes that are linked to breast cancer. Much of this focus on genes, however, misses a simple but crucial point: not all genes are fully expressed all the time. If they aren't activated, or expressed, they remain biochemically dormant. Dormant genes do not have any effect on our health. This is obvious to most scientists, and many laypeople, but the significance of this idea is seldom understood. What happens to cause some genes to remain dormant, and others to express themselves? The answer: environment, especially diet. As we saw in chapter three, the genes that cause cancer were profoundly impacted by the consumption of protein. So while we can say that genes are crucial to every biological process, we have some very convincing evidence that gene expression is far more important, and gene expression is controlled by environment, especially nutrition.

We therefore have irrefutable evidence that hominins started to consume meat by at least 2.6 million years ago. How much meat they ate is conjecture, but meat constitutes approximately one-third of the diet among hunter-gatherers in the tropics (more fish and meat are consumed in temperate habitats).13 In addition, hunter-gatherers must have craved meat back then as much as chimps and humans still do today, and for good reason. Eating an antelope steak yields five times more energy than an equal mass of carrots, as well as essential proteins and fats. Other animal organs such as the liver, heart, marrow, and brain also provide vital nutrients, especially fat, but also salt, zinc, iron, and more. Meat is a rich food source. Meat has been an important component of the human diet ever since early Homo, but being a part-time carnivore is time-consuming, chancy, dangerous, and difficult for hunter-gatherers today, and it must have been even more challenging and risky at the dawn of the Paleolithic, long before projectile weapons were invented. Although

In addition to protein and carbohydrate, fat plays a significant role in our body system. Likewise, even though you are a smart and a hardworking personal, fate plays an important role in your life system.

High animal protein in take was positively associated with mortality and high plant protein intake was inversely associated with mortality, especially among individuals with at least 1 lifestyle risk factor. Substitution of plant protein for animal protein, especially that from processed red meat, was associated with lower mortality, suggesting the importance of protein source.

Free T4 is high with hyperthyroidism and low with hypothyroidism. It’s important to note that even a high TSH with normal T4 is enough to identify hypothyroidism. A rare pattern and one indicative of a hereditary thyroid resistance condition is high FT4. High FT4 can also be caused by taking heparin or by an acute illness that causes binding protein levels to suddenly fall. If an illness other than thyroid disease becomes severe or chronic, it may decrease FT4. Functional Range: 1.0-1.5 ng/ dL Typical Laboratory Range: 0.7-1.53 ng/dL

Now that you have undergone sleeve gastrectomy, you will know first-hand how important it is to not only choose your

Atoms, elements and molecules are three important knowledge in Physics, chemistry and Biology. mathematics comes where counting starts, when counting and measurement started, integers were required. Stephen hawking says integers were created by god and everything else is work of man. Man sees pattern in everything and they are searched and applied to other sciences for engineering, management and application problems. Physics, it is required understand the physical nature or meaning of why it happens, chemistry is for chemical nature, Biology is for that why it happened. Biology touch medicine, plants and animals. In medicine how these atoms, elements and molecules interplay with each other by bondage is being explained. Human emotions and responses are because of biochemistry, hormones i e anatomy and physiology. This physiology deals with each and every organs and their functions. When this atom in elements are disturbed whatever they made i e macromolecules DNA, RNA and Protein and other micro and macro nutrients and which affects the physiology of different organs on different scales and then diseases are born because of this imbalance/ disturb in homeostasis. There many technical words are there which are hard to explain in single para. But let me get into short, these atoms in elements and molecules made interplay because of ecological stimulus i e so called god. and when opposite sex meets it triggers various responses on body of each. It is also harmone and they are acting because of atoms inside elements and continuous generation or degenerations of cell cycle. There is a god cell called totipotent stem cell, less gods are pluripotent, multi potent and noni potent stem cells. So finally each and every organ system including brain cells are affected because of interplay of atoms inside elements and their bondages in making complex molecules, which are ruled by ecological stimulus i e god. So everything is basically biology and medicine even for animals, plants and microbes and other life forms. process differs in each living organisms. The biggest mystery is Brain and DNA. Brain has lots of unexplained phenomenon and even dreams are not completely understood by science that is where spiritualism/ soul touches. DNA is long molecule which has many applications as genetic engineering. genomics, personal medicine, DNA as tool for data storage, DNA in panspermia theory and many more. So everything happens to women and men and other sexes are because of Biology, Medicine and ecology. In ecology every organisms are inter connected and inter dependent. Now physics - it touch all technical aspects but it needs mathematics and statistics to lay foundation for why and how it happened and later chemistry, biology also included inside physics. Mathematics gave raise to computers and which is for fast calculation on any applications in any sciences. As physiological imbalances lead to diseases and disorders, genetic mutations, again old concept evolution was retaken to understand how new biology evolves. For evolution and disease mechanisms, epidemiology and statistics was required and statistics was as a data tool considered in all sciences now a days. Ultimate science is to break the atoms to see what is inside- CERN, but it creates lots of mysterious unanswerable questions. laws in physics were discovered and invented with mathematics to understand the universe from atoms. Theory of everything is a long search and have no answers. While searching inside atoms, so many hypothesis like worm holes and time travel born but not yet invented as far as my knowledge. atom is universe, and humans are universe they have everything that universe has. ecology is god that affects humans and climate. In business these computerized AI applications are trying to figure out human emotions by their mechanism of writing, reading, texting, posting on social media and bla bla. Arts is trying to figure out human emotions in art way.

Here’s the important point: there are plenty of stressors that will activate longevity genes without damaging the cell, including certain types of exercise, intermittent fasting, low-protein diets, and exposure to hot and cold temperatures (I discuss this in chapter 4). That’s called hormesis.

Activate adenosine monophosphate-activated protein kinase (AMPK). AMPK is an enzyme that stimulates mitochondrial autophagy (mitophagy) and mitochondrial biogenesis as well as five other critically important pathways: insulin, leptin, mammalian target of rapamycin (mTOR), insulin-like growth factor 1, and peroxisome proliferator-activated receptor gamma co-activator 1-alpha (PPAR⊠). It also increases nerve growth factor and helps protect against the type of oxidative stress that leads to Parkinson’s disease. Your AMPK levels naturally decline with increasing age. Following a cyclical ketogenic diet will help you maintain healthy AMPK levels.

that to live a long and healthy life we need to prevent the accumulation of belly fat. How? Well, by performing regular exercise, but most importantly by reducing the intake of foods high in empty calories, fat and animal proteins (that are rich in sulphur and branched-chain amino acids).4

Most of the calories that men in these societies provision come from hunting or fishing. So in many hunter-gatherer groups it's not unusual for men to contribute up to 90 percent or more of the protein eaten by their families and band. These valuable nutrients and fat, however, come from vertebrate meat. And hunting requires many years of investment to master; even then, return rates are often low and quite variable. among contemporary foraging groups, vertebrate meat can range from anywhere between 30 percent and 80 percent of the diet. So women's work is extremely important since women extract more constant and predictable food resources, including roots, nuts, seeds, invertebrate meat, and plant fibers that require a large amount of effort to process. Therefore, both sexes depend very much on one another to divide their labor between the staples needed to survive and the high-value nutrients required to thrive.

Sleep appears to play an important role in the cleansing of unwanted waste products from the brain, including β-amyloid, a protein whose accumulation in the spaces between nerve cells is a major determinant in the development of Alzheimer’s disease.

Last, and perhaps most important, prolonged sitting can kindle chronic inflammation by allowing muscles to remain persistently inactive. In addition to moving our bodies, muscles function as glands, synthesizing and releasing dozens of messenger proteins (termed myokines) with important roles. Among other jobs, myokines influence metabolism, circulation, and bones, and—you guessed it—they also help control inflammation. In fact, when researchers first started to study myokines, they were astonished to discover that muscles regulate inflammation during bouts of moderate to intense physical activity similarly to the way the immune system mounts an inflammatory response to an infection or a wound.40 Without going into too many details, we have learned that the body first initiates a proactive inflammatory response to moderate- or high-intensity physical activity to prevent or repair damage caused by the physiological stress of exercise and subsequently activates a second, larger anti-inflammatory response to return us to a non-inflamed state.41 Because the anti-inflammatory effects of physical activity are almost always larger and longer than the pro-inflammatory effects, and muscles make up about a third of the body, active muscles have potent anti-inflammatory effects. Even modest levels of physical activity dampen levels of chronic inflammation, including in obese people.42

In a classic study published in 1992, the New England Journal of Medicine reported an important breakthrough about where these antibodies may be coming from. Researchers had taken blood samples from 142 children with type 1 diabetes. Every single child had antibodies to proteins in cow’s milk. Further study showed that these antibodies were capable of attacking the insulin-producing cells of the pancreas.

As soon as possible, following your workout you need to consume: • 30 – 50 grams of a lean complete protein like whey, soy, egg, chicken or fish. • 30 – 50 grams of carbohydrates with a high glycemic index. Why lean protein? Because fat slows the absorption of protein and carbs. During a brief window of opportunity after your workout, protein synthesis occurs at the highest rate. This is due to the micro-trauma (broken-down muscle tissue) that occurred during your workout. Complete recovery will be optimized if you provide your muscles with a large supply of amino acids—the key components of protein—within 45 minutes after your training session. A whey protein shake is the best post-workout protein choice because it is so rapidly absorbed, and it has the highest efficiency ratio, or availability to the body, of all proteins. Why carbs with a high glycemic index? Immediately following your workout is the only time to eat carbs that rapidly absorb into the blood stream as the glucose causes an insulin spike. Insulin helps shuttle protein into the muscles, repairing and building new muscle. It is also an important hormone that regulates the storage, replacement, and use of glucose. During a workout, the body uses stored glucose that is in the blood and muscles as fuel for the activity. If the lost glucose isn’t refilled within about 45 minutes after training, your body rapidly goes from an anabolic state (muscle growth and repair) to a catabolic state (cannibalizing of the body’s muscle for protein and energy). Since insulin signals the body to replenish and store glycogen, and the release of insulin is best triggered by eating foods with a high glycemic index, it makes sense that eating carbohydrates with a high glycemic index, along with some lean protein, is the best post-workout choice. An effective and convenient post workout meal is a whey or soy protein supplement, which contains maltodextrin, or simple sugars, as its carb source.

down to the family or person in question. Besides medication and therapy, it is important to have a healthy lifestyle when dealing with ADHD symptoms. It is often recommended that those with ADHD focus on building healthy eating habits, getting in as many vegetables, fruits, and whole grains as they should. Protein should also come from lean sources. Daily physical exercises or routines also help and should be designed with the age and capabilities of the person in mind. It helps to have less time with screens, whether television, cellphones, or any other electronic device. Also, adequate sleep does amazing things for the ADHD mind.

Once a new keratinocyte is created, it slowly moves upwards to the next layer, the stratum spinosum, or spiny layer. Here, these young adult cells start to link up with adjacent keratinocytes via intensely strong protein structures called desmosomes. They also start to synthesize different types of fat within their cell body, which will soon provide the all-important mortar in our skin’s outer wall.

Like sirtuins, scientists have found TOR—called mTOR in mammals—in every organism in which they’ve looked for it. Like that of sirtuins, mTOR activity is exquisitely regulated by nutrients. And like the sirtuins, mTOR can signal cells in stress to hunker down and improve survival by boosting such activities as DNA repair, reducing inflammation caused by senescent cells, and, perhaps its most important function, digesting old proteins.27 When all is well and fine, TOR is a master driver of cell growth. It senses the amount of amino acids that is available and dictates how much protein is created in response. When it is inhibited, though, it forces cells to hunker down, dividing less and reusing old cellular components to maintain energy and extend survival—sort of like going to the junkyard to find parts with which to fix up an old car rather than buying a new one, a process called autophagy. When our ancestors were unsuccessful in bringing down a woolly mammoth and had to survive on meager rations of protein, it was the shutting down of mTOR that permitted them to survive.

The Air ncRNA gave scientists important insights into how these long ncRNAs repress gene expression. The ncRNA remained localised to a specific region in the cluster of imprinted genes, and acted as a magnet for an epigenetic enzyme called G9a. G9a puts a repressive mark on the histone H3 proteins in the nucleosomes deposited on this region of DNA. This histone modification creates a repressive chromatin environment, which switches off the genes.

However, there are two things we can say quite firmly. One is that human and chimp proteins are incredibly similar. About a third of all proteins are exactly the same between us and our knuckle-dragging cousins, and the rest differ only by one or two amino acids. Another thing we have in common is that over 98 per cent of our genomes don’t code for protein. This suggests that both species use ncRNAs to create complex regulatory networks which govern gene and protein expression. But there is a particular difference which may be very important between chimps and humans. This lies in how ncRNA is treated in the cells of the two species.