US, turning into a chaos.
The heart and blood of US had acquired some infections which
is presenting how the system of defense of its body works.
Congress is infected.
The thing that triggered that infection had
been an ill germ polluting as the leader of this nation which main politics is
extortion.
There are many macrophages that were dormant in its stream
of defenses such as news media yet some of them are infected too; in congress
itself there are some infections but, strong macrophages had appeared devouring
those germs by secreting its antigens.
It is working as described below.
The President of the United States first stated by expelling
the best and experienced defenses in leadership of the Federal Bureau of
Investigation largely known as the FBI, its initials.
This institution does investigate and is
responsible of investigating violations of Federal laws and is a branch of the
Justice Department.
The Justice
Department had been ill conceived by the President.
…as of now, the FBI is not taking its responsibilities of
investigating acts of extortion carried out by the actual President of USA
against a foreign nation to which passed Congress gave around 400 millions
dollars to be used for self-defense against in another nation that was invaded in part of
its territory and annexed it itself to its own territory, this is, Russia annexed
part of Ukraine to itself, Russia: this is: all of Crimea, which is part of Ukraine.
The President of USA, as of now, applied the technic of
extortion to Ukraine in order to extract some benefit out of the invaded nation.
In other words, a foreign nation had been
attacked by Russia and USA which could end into that foreign nation destruction
help by corruption within that nation.
Congress, a very strong macrophage that exist in USA system
is permeated by some ill leaders that are causing, together with the President,
a chaos to Democracy in the way as it is applied the heart and blood of USA
body.
Democracy is been attacked from within, germs are abundance,
it inhabit within the heart and blood of this nation, they even confront
antidotes designed to protect the core existence of the nation:
https://youtu.be/-sF3yOzwDQY
...just by looking at the facial expression of a germ it is easy in noticing the injections of their poison, hate, racism and most of all, their anti-patriotism which is a too much of a lack of respect to the high patriotism in existence of USA militaries commanded as of now by an extortionist.
...just to test the reader: see the above metaphor used here, who is the macrophage? ...and who is the germ? ...in our own government, listen careful this part or section in here:
https://youtu.be/iqx74FeN7iE?t=209
No offenses, if still not understood revise any dictionary what is a MACROPHAGE and what is a GERM.
...am doing it for you:
n.
Any of various large, phagocytic white blood cells that develop from monocytes, are found in the spleen, liver, and other tissues, and have a variety of functions in the immune system including engulfing and destroying pathogens and dead cells, presenting antigens to activate lymphocytes, and releasing cytokines that mediate inflammation.
n.
a large white blood cell, occurring principally in connective tissue and in the bloodstream, that ingests foreign particles and infectious microorganisms by phagocytosis.
[< German
Makrophagen (pl.) (Metchnikoff, 1887), with -
phagen representing
Phagozyten phagocytes; see
macro-,
-phage]
mac`ro•phag′ic (-ˈfædʒ ɪk) adj.
Microorganisms
microbes, an extensive group of predominantly unicellular organisms that are distinguishable only under a microscope and are organized more simply than plants and animals. Bacteria, mycoplasms, actinomycetes, yeasts, microscopic fungi, and algae are classified as microorganisms; the category sometimes also includes protozoans and viruses.
Microorganisms are divided into prokaryotes and eukaryotes. In prokaryotes the primitive nucleus contains a single chromosome, lacks a membrane, and divides by the forming of a constriction and the subsequent separation of daughter cells. The cytoplasm lacks mitochondria and, in most cases, chromatophores. Eukaryotes resemble the cells of higher plants and animals. The nucleus has a membrane and contains a set of chromosomes; in many there is a normal sexual cycle, and the cells contain endoplasmic reticulum and mitochondria (in the photosynthetic cells, chloroplasts). The bacteria, mycoplasms, actinomycetes, and blue-green algae are prokaryotes; the yeasts, microscopic fungi, and algae are eukaryotes. The science of microorganisms is called microbiology.
Microbial morphology and life cycles are extremely diverse. For example, the majority are unicellular, but many mold fungi have a multicellular mycelium. Microorganisms do not as a rule contain chlorophyll, but purple and green photoautotrophic bacteria and microscopic algae contain photosynthetic pigments (bacteriochlorophylls and chlorophyll). Bacteria reproduce by division, yeasts and mycobacteria by budding, and mold fungi by cell division and the formation of conidia and spores. Bacteria are descended from a variety of taxonomic groups: actinomycetes are related to fungi; some filamentous bacteria, to blue-green algae; and spirochetes, to protozoans.
Microorganisms are divided into pathogenic (disease-producing) and nonpathogenic types. The causative agents of the majority of infections are bacteria (considerably less often, yeasts, mold fungi, and actinomycetes).
Microscopic fungi that form white, green, or black downy patches (colonies) on food products have been known to man earlier than have yeasts or bacteria. The study of yeasts and bacteria by microscope was complicated by the fact that they were grown in liquid nutrient media, which made it difficult to obtain pure cultures. The introduction of solid nutrient media opened the possibility of growing isolated colonies of given species of bacteria or yeasts and thereby of studying their various properties. Methods have been developed for describing and defining the taxonomic positions of microorganisms.
Microorganisms are widespread in nature. A single gram of soil or silt may contain 2–3 billion microorganisms. It is estimated that modern microbiology knows of no more than 10 percent of the species of microorganisms existing in nature. New genera and species are described every year; from the 1940’s through the 1960’s, the number of species of actinomycetes studied increased from 35 to 350.
Microorganisms have adapted to the most varied ecological conditions during the course of evolution. For example, thermophilic bacteria are known that reproduce at 65°-75°C, but there are psychrophilic microorganisms that grow at—6°C. Halophilic microorganisms reproduce in a medium that contains as much as 25 percent NaCl. The bacteria in the water used to cool atomic reactors can tolerate irradiation of 3–4 million rads. There are osmophilic yeasts that can live in honey and jam, acidophilic bacteria that reproduce in acid media at pH 1.0, and barotolerant bacteria that survive pressures of several hundred atmospheres. The unusual resistance of microorganisms to various environmental factors allows them to occupy the extreme boundaries of the biosphere. They are found in the ocean bottom at depths of 11 km, on the surface of glaciers and snow in the arctic and antarctic and high in the mountains, in desert soil, and in the atmosphere at altitudes of 20 km.
Thanks to progress in microbial biochemistry and to the development of microbial and molecular genetics, it has become clear that many of the processes of biosynthesis and energy metabolism (electron transport, tricarboxylic acid cycle, nucleic acid synthesis, protein synthesis) occur in the same way in microorganisms as in the cells of higher plants and animals. Thus, identical processes are the basis of the growth, development, and reproduction of both higher and lower forms of life. In addition, however, microorganisms are characterized by specific enzyme systems and biochemical reactions that are not observed in other organisms; this is the basis for the capacity of microorganisms to decompose cellulose, lignin, chitin, petroleum hydrocarbons, keratin, and wax.
Microorganisms have extremely diverse ways of obtaining energy. Chemoautotrophs obtain it from the oxidation of inorganic substances. Photoautotrophic bacteria use light energy in the part of the spectrum that is not accessible to higher plants. Some microorganisms are capable of assimilating molecular nitrogen (nitrogen-fixing microorganisms), synthesizing proteins from the most varied sources of carbon, and manufacturing numerous biologically active substances (antibiotics, enzymes, vitamins, growth stimulants, toxins). The use of microorganisms in agriculture and industry is based on these specific features of their metabolism.
The Great Soviet Encyclopedia, 3rd Edition (1970-1979). © 2010 The Gale Group, Inc. All rights reserved.
microorganisms
In paint technology, bacteria and fungi which are harmful to liquid paint and dry paint films. Bactericides and fungicides are added to paints to inhibit the growth of these organisms.
...NOW LISTEN TO THIS! AMBASSADORS ARE BACTERICIDES AND FUNGICIDES ADDED TO DEMOCRACY TO INHIBIT THE GROWTH OF THIS GERMS: DONALD J. TRUMP AND MANY POLITICIANS IN THE GOP. GOT MESSAGE?
...end of the topic.
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