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Post by lilsissy on Jan 7, 2011 23:59:09 GMT -5
In keeping this in perpective with my recent findings of the ISIS cameras sysytems I had learned from a sippet on one of the articles about the new ability to image biological organisms that evrything had to be changed for this way to image large area in real time ..and all at once....everything had to be changed a little ...to grom molecular mires from it's D.N.A.
The isects...the plants...the animals... this is wsy we see everything cahnging ...if you read the ISIS decalssified paper you will see the mention of artifical repeated
The systems work best on artificial
everything is a little artifical now.
Finding what thet added to all polymers
D.N.A. wires to all that contain D.N.A.
I wished I could come across the snippet that made me realize that.
Control is the name of the game.
Satan tries to control everything and God has given free will and it is because of that free will that we see so much tragedy.
Our fallen nature choses wrong things and also choses to try to control others instead of self... not all of us but all of us at sometime.
What we are looking at here is control of the masses justified or not but to this extent is horrid.
To bring in and convince even the active members of the armed forces a horrid agaenda had to be put it the balance to justify it,
911
Jen
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Post by lilsissy on Jan 8, 2011 1:32:39 GMT -5
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Post by lilsissy on Jan 8, 2011 2:13:05 GMT -5
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Post by skyship on Jan 25, 2011 3:18:46 GMT -5
updating this thread, it is very important. ====== Endomycorrhizae with DIC light This is a segment of a feeder root of a plant as seen through the microcope. The blue structures within the root are the nutrient absorbing part of a symbiotic fungus that lives partially within the root cells of host plants. These fungi and called vesicular-arbuscular mycorrhizae, or "VAM" and should be found colonizing a large percent of the root system of most plants. These VAM fungi bring phosphorus, other minerals and water from the soil to the root and protect the root from parasitic nematodes and root rot fungi. Many agriculutural soils that have received high inputs of chemicals are deficient in this component of the soil foodweb.Vesicules of endomycorrhizae in root Vesicules of endomycorrhizae in root A section of plant feeder root that is heavily colonized by a desirable fungus called "endomycorrhizae". The structures within the root were nutrient-absorbing "arbuscules" that have converted to "vesicles" or spores. Another name for endomycorrhizae is "vesicular-arbuscular mycorrhizae ", or VAM. Where VAM is colonizing a root, that portion will be protected from root rot fungi and parasitic nematodes. VAM are symbiotic with plant roots. They take some nutrients from the sap that the plant can afford and reach out into the soil for phosphorus, other minerals and water. Root-Feeding Nematode Some root-feeding nematodes like the ring nematode above migrate in soil while feeding on roots. When populations of these nematodes increase to economic threshold levels, plant health and productivity will be reduced. www.soilfoodweb.com/microscope_pics.html#DICEnd====== What is a mycorrhiza?A mycorrhiza is what is formed when a fungus and a plant root combine. This combination is termed a mycorrhizal association. It is important to understand that a mycorrhiza is neither a root nor a fungus but a distinct and separate entity that is created by the coming together of the two. The fungus grows with the root and behaves in every way as if it is actually an external tissue of the root. It is literally a ‘fungus root’ derived from the combination of two Greek words; mykes = mushroom or fungus and rhiza = root.Further to this the fungus part of the mycorrhizae also grows out a very fine network of cotton-like strands, almost like roots themselves. This network consists of individual strands called hyphae. These strands of hyphae collectively form a huge network termed a mycelium network. This mycelium network is easily seen by turning over rotting leaves in a woodland. The mycelium network is the white velvety coating on the rotting vegetation; the larger strands are the mycelium. Exposed Mycorrhizae coating a fibrous rootMycorrhizae tip showing its hyphaeImages reproduced by kind permission Shigo and Trees, Associates LLC The close association of the roots of trees with certain fungi was described as long ago as 1885 by a German forester, Albert Bernhard Frank in a paper called “On the Nourishment of Trees through a Root Symbiosis with Underground Fungi (1885)”. However it is only within the last 30 years that scientists have begun to realise that far from being the exception, such relationships are actually the norm in the plant kingdom.
Research has shown that in the wild, more than 95 percent of higher plant species have this fungal association occurring within their root systems. There are exceptions, notably brassicas, such as cabbages, and poppies among others. Phosphate is essential for plants it is used in the healthy growth of roots. Plants, it seems, are incapable of taking up phosphate in the soil alone. However the mycelium of the mycorrhizal fungus can access this locked up phosphorus and make them available to the plants that they are colonizing. Mycorrhizae are especially beneficial for plants in nutrient-poor soils. They are able to cover a much larger range than the roots and so can find the relatively low concentration of nutrients that are present and make these available to the plant. Some trees are ‘obligate’. They must have a mycorrhizal association to survive. E.g. Oaks, beech, pine. It is thought that when these obligate species start to germinate, the energy contained within the seed is enough to sustain them for the initial growth into sapling trees. If by the time that this energy store is exhausted they have not entered into a mycorrhizal association with a beneficial fungus then they will gradually weaken and die.www.ecotreecare.co.uk/mycorrhizal-inoculation-biology.htmIntroduction of agrobacterium tumefaciens, will take away this symbiotic relationship. ================= Science – a picture story Filamentous cyanobacteria Posted on January 11, 2011 by tfester Similar as described for Microcystis in the previous posting from this category, most organisms introduced in this posting are able to form large algal blooms. Such blooms are deleterious to other organisms (in particular to vertebrates), because degradation of the accumulating algal mats uses up much oxygen resulting in suffocating conditions and because many of such cyanobacteria are producing effective and stable toxins. images: www.scivit.de/blog/?p=349============== Marvelous Science. It is Discovery. It can be wonderful! If we see as a child, sometimes, it will re create in us a joy. We know what we are losing, but hang on to what still is! skyship Skyship
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Post by skyship on Jan 25, 2011 3:40:17 GMT -5
Introduction of agrobacterium tumefaciens, will take away this symbiotic relationship.========================= Let us start with roots, which can be attacked by organisms killing and digesting them (as here, e.g., a fungus)… Pathogenic fungus… or by parasitizing organisms, who often lead to abnormal growth (gall formation). Since root knot nematodes have been presented in another post, here comes a bacterial gall induced by Agrobacterium tumefaciens, Bacterial gall and galls induced by Plasmodiophora brassicae. Clubroot diseaseSuch structures are places where parasitic organisms have succeeded in modifying plant development and metabolism, this way directing resources towards their own growth. The following image shows agrobacteria surrounding the modified cells from a bacterial gall.Agrobacteria Further examples for organisms eating each other are amebas eating bacteria, Amebas ciliates eating bacteria, Ciliates Fungi eating other fungi, Fungi and fungi eating nematodes. Posted in Life below ground | Tagged Agrobacteria, ameba, bacteria, ciliates, food chains, nematodes, plant roots, www.scivit.de/blog/====================== damage from galls Crown Gall Disease # Crown gall affects plants and trees. Green tree with red tree image by Lee Mann from Fotolia.com Crown gall affects plants and trees. Agrobacterium tumefaciens is a form of bacteria that causes disease in plant tissue. If A. tumefaciens enters a healthy tree or plant through the root or stem from the soil, the bacterium will parasitize the tree or plant. The host of A. tumifaciens will succumb to tumor development and changes in plant metabolism. Tumors can begin as white callused tissue on the tree or plant. To prevent crown gall disease, it is important for plant life to be sustained outside of contaminated soil.Read more: Harmful Bacteria in Soil | eHow.co.uk www.ehow.co.uk/about_6729187_harmful-bacteria-soil.html#ixzz1C2Do7Ae4www.ehow.co.uk/about_6729187_harmful-bacteria-soil.html============ Jack-O-Lantern J ack-o-lantern mushrooms (Omphalotus olearius, formerly O. illudens) is a yellow to vivid orange toadstool that sometimes is found near root crowns. Often it grows on oaks, although other trees can be afflicted. Most often the fruiting bodies are visible in the late summer or autumn. The young fruiting-body looks like a red mushroom. The mature toadstool has a trumpet-shape, somewhat like a chanterelle. The toadstool is peculiar in that it can have a faint bioluminescence. Masses of these fungi can sometimes be seen glowing on very dark nights. In French the toadstool is known as clitocybe lumineux, because it can be luminous. The fungus is a pathogen, but it seems to be most common on trees which are already stressed. Furthermore, once the fruiting bodies are visible the infection is probably beyond repair.Jack-o-lantern is not an edible mushroom. It is quite poisonous to humans, if eaten. They are not poisonous to mere touch, very few toadstools are that dangerous. P. ramorum that threatens the live-oaks and tanoaks of the American west. In all cases, these alien fungoids have been spread, or introduced, through human agency. Almost invariably, the spores were originally brought in, or spread about, by accident. Sudden Oak Death red oak Sudden oak death (Phytophthora ramorum) is a particularly troublesome form of phytophthora. Certain strains of this oomycete fungoid have begun to seriously afflict coast live oaks in California. This epidemic may have begun when a strain of phytophthora from Europe, or Asia, was accidentally introduced to the Americas in the 1990s. The symptoms of 'sudden oak death' are like those of other phytophthora diseases. However, in coast live oak (Quercus agrifolia) the disease tends to be fatal. In addition, cankers can appear on the lower boles of infected trees. Lesions of dead cambium under the bark can issue a dark exude though cracks in the bark. As is also too typical of phytophthora species, the fungoid can live in more than one host species. Rhododendrons, laurels, and tanoaks (Lithocarpus spp.) can also host the fungoid. Tanoak and a number of oak species are very sensitive to the fungoid. It now seems probable that the P. ramorum fungoid came from Europe on imported rhododendrons. www.atelier2000.com/mlos.htmskyship, checkin the wood.
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Post by skyship on Jan 25, 2011 4:02:07 GMT -5
Insinuating its hyphae into the CONDUCTIVE cells of the plant(human?).
A fungus does not engulf food as an animal does. Rather, it is as if a fungus wears its stomach on its outside. Each feeding hypha releases digestive enzymes from its surface. These enzymes digest food in the surrounding milieu, and then the nutrients are absorbed back into the hypha. A wood rot fungus tends to gain access to wood by insinuating its hyphae into the conductive cells of the plant. Once inside a tracheid, or a vessel, a hypha releases enzymes which breaks down the cell's wall. In this manner they devour wood from the inside out.
Most of these wood rot fungi have both asexual and sexual sporocarps. The asexual anamorphs can differ greatly from sexual sporocarps in form and colour. The chlamydospore and conidiospore bodies are often small and hidden inside the wood or in hollows. The asci or basidia bearing bodies are larger and more exposed.If the 'f ruiting bodies' of wood-rotting fungi appear on trees, this means two possible things: (1) fungi are digesting dead tissue in the tree, or (2) fungi are killing and then digesting living tissues in the tree. The dead tissue is usually heartwood, and the living tissue is usually sapwood. this sounds like what happens to our bark, I mean skin....== Assorted Bracket Fungi Many species of bracket fungi are wood rot agents. However, most do not actually kill living tissue. The birch polypore (Piptopous betulinus) has a pale and smooth upper surface. The tinder fungus (Fomes fomentarius) is grey with a down-curved �hoof-shape�. Brackets in the Fomitopsis genus often have strongly coloured bands of red and brown. The Phellinus genus tends to form hard grey conks with tiny pores. There are also several members of the Ganoderma genus which do not kill living wood. All of these genera cause wound and heartwood rot. But most of these brackets do weaken stem wood, and thereby can contribute to tree failure. www.atelier2000.com/mlos.htm===================== So a glimpse at what trees are suffering from. So, if these are on trees, they are on us. They too have More jell on them. Geletinous soft rot. Morgellons could have a finger in this one, www.aebletoften.dk/jhp/fungi/Fungal%20Shapes/album/index3.htmlAmazing shapes, aren't they? some are bioluminent skyship
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Post by lilsissy on Jan 25, 2011 9:20:06 GMT -5
Yes, Sky been pondering this too, the half plant , half animal
bet it is our (acidocalcisome?) sac, high energy sac.
The picture of the fungus I posted that has the same genetic makeup of the slug, gonna chase that It is probably the most compatible with our body.
It is a fungus that can in some reach a homeostatic state within us. It is changing blood groups I believe or feeding a bacteria capable of changing them. Is it a bacteria that feeds off a fungus or vice versa, I forgot?
I believe this is the major component for us to look at because it was the major component needed to enhance our electrical capability of our cells to be compatible with body devices and Human Machine Interfaces.
The body electrical system is now being used as intracellular wiring , no need for wires soon.
Wireless capability of the human. Good search term.
Jen
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Post by skyship on Jan 25, 2011 15:53:57 GMT -5
pubget.com/paper/20004016...."Cell-penetrating macromolecules: direct penetration of amphipathic phospholipid polymers across plasma membrane of living cells. We discovered mechanism of direct cell membrane penetration using synthetic phospholipid polymers. These water-soluble amphiphilic "..... Synthetic phospholipid polymer. direct cell membrane penetration.
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Post by skyship on Jan 25, 2011 16:07:10 GMT -5
Yes, the bacteria changes our blood group B cell....... Another changes the A group. Universal O The Cap snatcher is what got me. Very important. en.wikipedia.org/wiki/CoifCap: www.sillyandsweetbabyboutique.com/item_1124/Crumb-Snatcher-Organic-Cap.htmcrown snatcher: brain snatcher: ======================== In eukaryotic cells, mRNA must be capped at the 5’-end for efficient translation. Cap structures, consisting of N7-methylated guanine units, also assist in transport of mRNA from nucleus to cytoplasm and protect mRNA from degradation by 5′ exonucleases. The viral polymerase ‘steals’ caps from cellular mRNA in a process known as ‘cap-snatching’ and attaches them to viral mRNAs so that these can be translated into new viral proteins. The polymerase is a heterotrimer comprising three subunits, PA, PB1 and PB2, and whilst previous studies had shown that PB2 plays a role in cap-binding, PB1 was believed to be responsible for ‘cap-snatching’. The new study, published online on February 4th in the journal Nature, clearly shows, however, that the PA subunit contains the endonuclease active site and plays a crucial role in cleaving the cap from host mRNA. The active site, which is conserved in all influenza viruses, contains a histidine residue together with a cluster of three acidic residues that bind two manganese ions in a configuration similar to that observed in other two-metal-dependent endonucleases. Inhibition of cap-cleavage by the endonuclease would be an effective anti-viral strategy since it would effectively block synthesis of viral proteins drugdiscoveryopinion.com/2009/02/influenza-%E2%80%98cap-snatcher%E2%80%99-identified/ Fixing what was created............... Crown of Life? The feather in the cap? ?? where did that feather come from? Somewhere up in the North. en.wikipedia.org/wiki/A_feather_in_your_capWhat is the feather in the cap of the earth? The Polar Cap The polar cap in the human Polarons.
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Post by skyship on Jan 25, 2011 16:27:58 GMT -5
creation of synthetic phospholipid polymer Beneficial effects of synthetic phospholipid polymer, poly(2-methacryloyloxyethyl phosphorylcholine-co-n-butyl methacrylate), on stratum corneum function. Kanekura T, Nagata Y, Miyoshi H, Ishihara K, Nakabayashi N, Kanzaki T. Department of Dermatology, Kagoshima University Faculty of Medicine, Japan. takurok@m2.kufm.kagoshima-u.ac.jp Abstract The effects of a newly synthesized phospholipid polymer, poly(2-methacryloyloxyethyl phosphorylcholine-co-n-butyl methacrylate) [poly(MPC-co-BMA)], on the water barrier function and water-holding capacity of the stratum corneum were examined by measuring transepidermal water loss (TEWL) and electrical conductance of the skin surface. poly(MPC-co-BMA) www.ncbi.nlm.nih.gov/pubmed/12072015I thought I would hide this here, so we related to the macro, the earth itself. We are the micro. One of many. Polar caps. Shifting poles. Magnetic shift of earth. The universe is rearranging itself( the earth is shifting) a natural phenomenon........... We just need to hang on in this merry go round of life. Keep your cap on. Paniculitis;;;;;;;;;;water in cells...................... have heard of this before. Cap of the mush room poly(MPC-co-BMA) very important.............. Improved performance of intravascular pO2 sensor incorporating poly(MPC-co-BMA) membrane. Zhang S, Wright G, Kingston MA, Rolfe P. Department of Biomedical Engineering and Medical Physics, Keele University, North Staffordshire Hospital, UK. Abstract The first in vivo evaluation of a pO2 sensor constructed with a novel copolymer is described. The performance of the sensor is assessed under dynamic conditions in vitro and in vivo. This sensor is more stable and reliable than the control sensor with a heparin-treated polyethylene membrane. p02 sensor: H202 formation...........hydrogen peroxide in our tissues. dries us out............ Dehydration............. water loss................. see form in pictures: www.ncbi.nlm.nih.gov/pmc/articles/PMC1149771/pdf/biochemj00169-0177.pdfputting this out best I can. skyship
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Post by skyship on Jan 25, 2011 16:47:52 GMT -5
Cap of the Mushroom of the nuclear blast. Cap Okasaki fragment. Radiative particle. was what? Cobalt? is in Vit b 12.... and other things. C60 in bucky ball, is it Co60? fullerene, It is all in the mo pine tree posts. I had dimers.................... This is tooooooooooooooooooooomuch................... It is in the advertising.................. it is all around us..................but? ?? we will survive. IT was revealed and so was the answer................... in the tones..........we must hear. We can see, but we are having difficulty hearing.................... not deaf, but hearing the messages lil sissy we are not sissies as they think.................... you are my little sister. Sissies, the Brits were trying to tell us Yankee Doodle Macaroni Club Our BIRTH RIGHT!..................we lost it here in US, didn't we? A Bort January 24th, 2011 05:59 PM ET Thousands rally against abortion on Capitol Hill Thousands of abortion opponents joined Monday afternoon in a cold march on Capitol Hill, beginning on the National Mall and ending at the Supreme Court building. religion.blogs.cnn.com/2011/01/24/thousands-rally-against-abortion-on-capitol-hill/It is worth the fight! Skyship
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Post by skyship on Jan 25, 2011 17:59:03 GMT -5
The embryonic liguid........... the water sac has to break for the baby to be born.
The earth is the baby, will we let it be reborn? this time?
skyship
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Post by skyship on Jan 25, 2011 17:59:52 GMT -5
Not going to abort this mission.
skyship
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Post by skyship on Jan 25, 2011 18:15:08 GMT -5
Gellon Moore's Law Sir Thomas More Sir Thomas Browne brown fungus Nori............................ how many dollars............... IP aspects Northeastern University, in the United States, has filed a PCT application related to transformation of multicellular marine algae via Agrobacterium. Marine algae are defined by the applicants as non-angiosperm photosynthetic eukaryotic organisms that live in the ocean or in saline water. According to the disclosure, marine algae could serve as a source of valuable pharmaceutical compounds through genetic engineering. They naturally have a very high protein content and are easy to grow for biomass. With respect to genetic transformation, the applicants claim to provide a stable method for genetic transformation of multicellular marine algae. The method comprises wounding the outer cell wall layer of an alga in order to facilitate the access of Agrobacterium T-DNA with a gene of interest. The transformation of algal cells takes place in an environment containing seawater to ensure the survival of the transformed algae. To exemplify their invention, the applicants describe the transformation of the red alga Porphyra, known as nori, for which worldwide production is estimated at $1.5 billion dollars annually. Agrobacterium T-DNA............................ all over the world........... Red algae connection. Red blood. Porphyra, known as nori, waynesword.palomar.edu/algae1.htmnote the red algae........... and the brown.......... saw this at Carmel when in Ca in 1991. beg of Morgs. Skyship
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Post by skyship on Jan 25, 2011 19:45:21 GMT -5
In this regard, Agrobacterium tumefasciens is a bacterium that produces tumors (crown gall) in plants by inserting a bit of its DNA into the plant cell. The Agrobacterium host range is not limited to the plant kingdom; the microbe has been shown to also transform many species of fungi and even prokaryotes (cells that lack a nucleus). The ability of Agrobacterium to genetically transform human-derived cancerous HeLa cells further widens the range of potential hosts of Agrobacterium to include humans and perhaps other animal species (Tzfira et al. 2006). rense.com Human Bacteria In The Production Of Human Cancer A Short Report With Photographic Evidence © 2011 Alan Cantwell MD - All Rights Reserved 1-25-11 www.rense.com/general92/cantw.htmskyship
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Post by skyship on Jan 25, 2011 19:46:59 GMT -5
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Post by skyship on Jan 26, 2011 1:57:38 GMT -5
hosts of Agrobacterium to include humans In 1890, Erwin F. Smith (1854-1927) showed that crown gall is a disease caused by bacteria. He was fascinated by the etiology and control of the disease, as well as its morphology. Smith considered it to be similar to cancerous tumors of humans and animals. In 1913, he received a certificate of honor from the American Medical Association for his work on "Cancer in Plants". So what is crown gall and why was it similar to tumor in animals and plants? This question could not be answered further until 1980. Crown gall is a disease caused by the bacterium Agrobacterium tumefaciens. The symptoms, galls or tumors (called plant cancers initially) are found most often at or near the soil line on the "crown" of the plant. The bacterium lives in the intercellular spaces of the gall tissue, or undifferentiated mass of plant tissue. This pathogen can live in the soil as a saprophyte for many years. It enters the plants through wounds and has a very wide host range. Galls can be removed for aesthetic purposes but this does not remove infection. But why was it considered to be similar to cancer and why is it considered a genetic engineer? The tumors or callus that is formed on a plant infected with Agrobacterium tumefaciens resemble tumors seen in animal cancers, both grow uncontrollably. As for being a genetic engineer it was not until 1980 that this disease was finally explained. Crown galls were found to be induced by excessive hormones produced by uncontrollable expression of certian genes present in a piece of DNA introduced by the bacterium into the plant genome. So what does that mean? The bacterium carries a plasmid (small chromosomelike bodies composed of circular double-stranded DNA), the plasmid contains a gene for tumor induction (called Ti for tumor inducing). The plasmid is often called the Ti-plasmid. Once the bacterium has infected the host, it attatches to host cells. The Ti-plasmid processes T-DNA and then through conjugation transfers the T-DNA into the plant cell. This T-DNA is then intergrated into the plant cell genome. The plant begins to overproduce growth regulators which lead to the tumors or gall formation. To see a slide show of how Agrobacterium genetically modifies plants check out this page..... Agrobacterium--The First Genetic Engineer To get the story behind the Fischer-Smith Debates click here www.plant.uga.edu/labrat/crowngall.htmSo, in order to move forward, one has to look behind one. So, who lost and who won in the debate? skyship ah well, well well.............
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Post by aqt on Jan 26, 2011 15:39:33 GMT -5
synthetic phospholipid polymer tiny.cc/85jo3compatible with blood clot formation in absence of anticoagulant
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Post by aqt on Jan 26, 2011 15:41:06 GMT -5
tiny.cc/m0lamChange in cell adhesion property on cytocompatible interface using phospholipid polymer grafted with poly( , -lactic acid) segment for tissue engineering
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Post by aqt on Jan 26, 2011 15:44:34 GMT -5
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Post by aqt on Jan 26, 2011 15:47:27 GMT -5
tiny.cc/43pusBioinspired phospholipid polymer biomaterials for making high performance artificial organs
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Post by aqt on Jan 26, 2011 15:55:40 GMT -5
tiny.cc/vji1pEnhancing action of synthetic and natural basic polypeptides on erythrocyte-ghost phospholipid hydrolysis by phospholipase A synthetic and natural just like Morgs aqt
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Post by aqt on Jan 26, 2011 16:04:17 GMT -5
Proposed mechanism of membrane fusionAssembly of the SNAREs into the "trans" complexes likely bridges the opposing lipid bilayers of membranes belonging to cell and secretory granule, bringing them in proximity and inducing their fusion. The influx of calcium into the cell triggers the completion of the assembly reaction, which is mediated by an interaction between the putative calcium sensor, synaptotagmin, with membrane lipids and/or the partially assembled SNARE complex.According to the "zipper" hypothesis, the complex assembly starts at the N-terminal parts of SNARE motifs and proceeds towards the C-termini that anchor interacting proteins in membranes. Formation of the "trans"-SNARE complex proceeds through an intermediate complex composed of SNAP-25 and syntaxin-1, which later accommodates synaptobrevin-2 (the quoted syntaxin and synaptobrevin isotypes participate in neuronal neuromediator release).Based on the stability of the resultant cis-SNARE complex, it has been postulated that energy released during the assembly process serves as a means for overcoming the repulsive forces between the membranes. There are several models that propose explanation of a subsequent step – the formation of stalk and fusion pore, but the exact nature of these processes remains debated. A recent in vitro single-molecule content-mixing study showed that, yeast SNARE complex is enough to expand fusion pores.[4]en.wikipedia.org/wiki/SNARE_(protein)
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Post by aqt on Jan 26, 2011 16:06:14 GMT -5
www.ncbi.nlm.nih.gov/pubmed/14570579The SNARE superfamily has become, since its discovery approximately a decade ago, the most intensively studied element of the protein machinery involved in intracellular trafficking. Intracellular membrane fusion in eukaryotes requires SNARE (soluble N-ethylmaleimide-sensitive-factor attachment protein receptor) proteins that form complexes bridging the two membranes. Although common themes have emerged from structural and functional studies of SNAREs and other components of the eukaryotic membrane fusion machinery, there is still much to learn about how the assembly and activity of this machinery is choreographed in living cells.
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Post by aqt on Jan 26, 2011 16:10:35 GMT -5
the key to the membranes fusing www.rsc.org/Publishing/Journals/cb/Volume/2009/5/strength_protein_SNAREs.aspMembrane fusion is an important biological event involved in a range of cellular processes including egg fertilisation by sperm and waste transport. It is also the mechanism by which some pathogens enter cells. Now, Vincent Moy from the University of Miami, Florida, US, and colleagues have used atomic force microscopy (AFM) to measure the force required to pull apart SNARE complexes, protein complexes involved in the membrane fusion process.
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Post by aqt on Jan 26, 2011 16:12:31 GMT -5
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Post by aqt on Jan 26, 2011 16:19:26 GMT -5
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Post by aqt on Jan 26, 2011 16:24:38 GMT -5
Phospholipid polymer hydrogel formed by the photodimerization of cinnamoyl groups in the polymer side chainonlinelibrary.wiley.com/doi/10.1002/app.24176/abstractKeywords: biocompatibility; gelation;hydrogels;photopolymerization;phospholipid polymerAbstract We synthesized new polymers with both photocrosslinkability and biocompatibility by a random copolymerization of 4-(4-methoxycinnamoyl)phenyl methacrylate and 2-methacryloyloxyethyl phosphorylcholine. These polymers were used as prepolymers to make a hydrogel by photoirradiation. Gelation began with 5 s of photoirradiation and reached an equilibrium state after 360 s of photoirradiation. The absorption maximum at 347 nm, attributed to the cinnamoyl group, disappeared with the photoirradiation time. That is, dimerization between cinnamoyl groups in the polymer proceeded and formed a hydrogel. The equilibrium water concentration of the hydrogels was more than 90%. Moreover, we succeeded in making a microshape hydrogel on glass by photoirradiation through a photomask. The window shape of the photomask was transferred to the hydrogel that was formed. We concluded that these photocrosslinkable polymers could be useful in preparing microfluidic devices for separating or immobilizing biomolecules and cells. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci 104: 44–50, 2007
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Post by aqt on Jan 26, 2011 16:32:06 GMT -5
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Post by kammy on Feb 1, 2011 9:28:56 GMT -5
....Kammy, you said, "Unfortunately, we don't have much real science to go by, it seems that all the independent researchers have been stopped?"................. We are the researchers, and you have done a marvelous dedicated job. You have found many links, and an hypothesis of your making would be excellent. I plan to publish one as well, we will come at this possibly in different directions, but, we may arrive as as Carnicom with an observation point. So, the more hypothesis on our part, not speculation, but references to back them up we can reach some conclusions. Working hypothesis, subject to change, as Carnicom has done. Thank you so much for all the info you gathered all in one place, bringing the earths chimeric changes in as well. because it not only effects us, but all on earth. Another possibility for the gel is the Hydro gel, includes the hydrogen bonds, these effect oxygen and Reactive oxygen species as well. Ties in what you said about oxidation, and the aspect of lowered oxygen on earth itself. I believe hydrogels can work like membranes. can stretch etc and in between cells, making bonds. skyship Hi gals, I haven't read everything yet... but, I'm glad to see that you're carrying on. I've been getting sicker in some ways - having lesions pop out, a new one every day. I had one on my lower leg that started in America but never had any real skin issues until this past spring, I guess. One turned into two, etc., I don't know how many I have now - they have worried me, in that, nothing I've tried has worked and they are starting to disfigure my face. In fact, I started a second round of the Lyme Disease protocol in late Nov., which is 2 antibiotics, an antifungal and anti-parasitical and an 8 week program... and the lesions kept coming and didn't get any better. Since they start as a blister pimple and the larger ones get blisters, I'm thinking - herpes-like and a virus? They don't appear to have a liquid inside them but must have something, and act like poison ivy blisters in that the areas keep getting larger and larger every time there is a blister phase, like it is invisibly oozing stuff that makes the area larger. A local doctor eyeballs my lesions and says it is psoriasis, which I've been referred to a dermatologist. He insists it is not a herpes skin condition. I'm in Europe and we just had a dioxin poisoning of the animal feed affecting pigs, chickens and eggs. Somehow... this was allowed to be added to the feed even with 'watchdogs' supposedly in place to check for these kind of things. This has supposedly been going on for a couple of years here. I do have lesion symptoms of dioxin poisoning, behind the ears, scalp and forehead, but since my one lesion started in America, I can't say that this is related to what's happening here or not, especially without testing. As far as the hydrogel aspect - I see Morgellons as a three or four step process. One, the DMS naturally rises out of the ocean into the clouds. Other man-made or synthetic agents can be added to the ocean itself. Or, since the clouds are seeded with unknowns and hydrogel could be a part of this mixture, then what rises out of the ocean could mix with what is added to the clouds in this manner. I believe there is a 4th agent added to create the baculoviral insect aspect of the disease. Baculovirus are also coated with hydrogel to protect them. Hydrogel baculovirus are also in some biopesticides, and could possibly be introduced this way? If a large number of people had insects coming out of their heads, noses, ears and/or skin... there would be more ongoing alarm in the general population, indicating this is infrequent and/or a separate step. I'm not sure what the ratio of Morgellons sufferers that have had an insect aspect vs. those that have not, this is not a given condition of the disease but can be an added part to it. What we've done above is tied into two researchers, Carnicom and Smith, very strong.
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