Archive for the 'Gene regulation' Category
Concentrated, take fewer pills Natural high DHA fish oil as found in deep water fish (DHA/EPA 2.5:1 ratio) 180 softgels per bottle for a 3 month supply 360mg DHA, 140mg EPA per softgel Smaller easy to swallow softgels Mercury & PCB free (heavy metal free) Independent laboratory validated purity and quality US Pharmacopeia verified fish oil ingredient Anti-burping formulation VITRIA ® Premium DHA-Rich Fish Oil is an excellent source of natural concentrated ultra pure Omega-3 fatty acids. Omega-3s are long-chain polyunsaturated fatty acids that are essential. They must be sourced by diet as the body cannot produce Omega-3s. Omega-3s function in promoting human health. They are a key component in cellular membranes, required for cellular metabolism, a component to regulating cellular inflammation and critical to gene expression regulation Click To Enlarge Label
continue reading »
November 07 2008 | Gene regulation | No Comments »
Written by an international group of expert spine surgeons, this volume thoroughly examines new non-fusion technologies for treating spinal degenerative conditions while preserving motion. Major sections describe various surgical techniques and devices for nucleus pulposus replacement and total lumbar and cervical disc arthroplasty, as well as other stabilization techniques. Coverage includes indications and contraindications, surgical approaches, and the latest clinical trial results. Several chapters discuss nonsurgical and minimally invasive treatments, including gene therapy, nucleus pulposus regeneration, and IDET. Other chapters address economic and ethical issues, including use of registries, medical device regulation, and outcome and cost of lumbar disc replacement versus lumbar fusion.P
continue reading »
November 07 2008 | Gene regulation | No Comments »
Item Namebody (Anti-Acetyl-Lysine) Protein acetylation of the amino-terminal domains of the major histones (H2A, H2B, H3, and H4) at lysine residues is a major event in gene regulation and chromatin structure. Acetylation and deacetylation occurs by histone acetyltransferases and deacetylases. Our
continue reading »
November 07 2008 | Gene regulation | No Comments »
Alpha-lipoic acid (ALA, thioctic acid) is a naturally occurring vitamin-like nutrient that has been intensely investigated as a therapeutic agent for a variety of conditions involving the body’s nervous, cardiovascular, immune, and detoxification systems. It exists as two enantiomers or stereoisomers: R-(+)-lipoic acid (RLA) and S-(-)-lipoic acid (SLA). It is produced in small amounts in the liver and other body tissues, where it is needed by enzymes to catalyze numerous essential chemical reactions in the body. For instance, ALA is essential inside the mitochondria of cells, where it is needed to metabolize glucose and direct calories into energy production. ALA is considered to be a multimodal supplement because, aside from its enzymatic role in energy production, it acts by multiple mechanisms and displays diverse pharmacologic and antioxidant properties. Recently discovered is ALA’s ability to switch the regulation of several genes linked to cell survival, inflammation and oxidative stress. So in addition to its enzymatic role, ALA is a powerful antioxidant and performs a number of other vital functions related to its ability to modify the expression of various genes. ALA is therefore not so much a direct benefit to cells, but rather an indirect aid that kick starts declining function in cells, helping them recover the functions that came more easily and naturally in the young. Researchers at Oregon State University’s Linus Pauling Institute for Micronutrient research have found that our body’s natural lipoic acid levels decline markedly with age, but can be replenished through dietary supplementation. They describe ALA as an age-essential micronutrient and have shown that, when fed to rats, it markedly improves mitochondrial function and ameliorates many signs of aging (Hagen et al. 2002; Suh et al. 2004; University 2007). ALA is also being extensively studied in humans by researchers across the globe, and so far has been
continue reading »
November 07 2008 | Gene regulation | No Comments »
Author: Bruce Lipton, PhD. DVD video. Duration: a solid few hours. The Mind Body connection presented scientifically so that the non-scientific can understand. A must see for all those who believe, doubt or wonder about the mind and body connection. Previously released under the title, The Biology of Belief. Video of Bruce Lipton PhD speaking and illustrating his points in front of an audience. Where Mind Body and Matter Meet Wondering about the mind body connection? The New Biology DVD undoubtedly answers it for you leaving you feeling alive and extremely powerful as you discover that genes do not control you. You control your genes. Doubt it? Watch Dr Bruce Lipton, scientist and former medical school professor; demonstrate scientifically how the mind and body are connected. Empower yourself. Recent advances in cellular science are heralding an important evolutionary turning point. For almost fifty years we have held the illusion that our health and fate were preprogrammed in our genes, a concept referred to as genetic determinacy. Though mass consciousness is currently imbued with the belief that the character of one’s life is genetically predetermined, a radically new understanding is unfolding at the leading edge of science. Cellular biologists now recognize that the environment, the external universe and our internal physiology, and more importantly, our perception of the environment, directly control the activity of our genes. The New Biology: Where Mind and Matter Meet will broadly review the molecular mechanisms by which environmental awareness interfaces genetic regulation and guides organismal evolution. The quantum physics behind these mechanisms provide insight into the communication channels that link the mind-body duality. An awareness of how vibrational signatures and resonance impact molecular communication constitutes a master key that unlocks a mechanisms by which our thoughts, attitudes and
continue reading »
November 07 2008 | Gene regulation | No Comments »
Currently < I> Drosophila< /I> is a dominant experimental model in developmental biology and in gene regulation in eukaryotes. This volume summarizes some thirty years of experience in the handling of < I> in vitro< /I> cultured < I> Drosophila< /I> cells. Its main emphasis is on gene transfer methodology, cell responses to heat shock, hormonal regulation of genes, and on the expression and mobility of transposable elements.< br> < br> Key Features< br> * Some thirty years of experience in handling < I> in vitro< /I> cultured < I> Drosophila< /I> cells< br> * Cell cultures which provide material for a multiplicity of biochemical approaches< br> * DNA-mediated gene transfer as an irreplaceable tool for analyzing basic mechanisms of regulation< br> * < I> Drosophila< /I> cell lines which qualify them for use in biotechnology
continue reading »
November 05 2008 | Gene regulation | No Comments »
Gene Regulation by Steroid Hormones III
continue reading »
November 05 2008 | Gene regulation | No Comments »
Chromatin and Gene Regulation: Molecular Mechanisms in Epigenetics
continue reading »
November 05 2008 | Gene regulation | No Comments »
« Prev - Next »