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LLLT at Earpoint Lung in mice infected with influenza virus completely inhibited virus replication in lung cells but Earpoint Hypothalamus had no effect (244).
|
Tamiflu inhibits spread of virus.
|
neutral
|
Like Relenza, Tamiflu is a neuraminidase inhibitor, meaning it stops an enzyme (neuarminidase) that helps viruses spread from cell to cell.
|
Tamiflu inhibits spread of virus.
|
entails
|
Many inhibitors act by preventing virus from attaching to cells, others by directly inactivating virus, and a few by inhibiting virus replication.
|
Tamiflu inhibits spread of virus.
|
neutral
|
NGDA inhibits and kills cells infected with the Herpes virus.
|
Tamiflu inhibits spread of virus.
|
neutral
|
Nucleoside analogues stop the spread of HIV by inhibiting the viral replicating enzyme, reverse transcriptase, but show little to no effectiveness in preventing replication once the virus has successfully integrated into the host cell chromosome.
|
Tamiflu inhibits spread of virus.
|
neutral
|
Tamiflu is a pill taken over a period of five days to block the flu virus from leaving infected cells.
|
Tamiflu inhibits spread of virus.
|
entails
|
The cell then bursts open, spreading the virus.
|
Tamiflu inhibits spread of virus.
|
neutral
|
The cell's death then would spread those viruses.
|
Tamiflu inhibits spread of virus.
|
neutral
|
The synctium is advantageous to the virus since it means that the virus doesn't have to be released from host cell, but can spread unchecked cell to cell.
|
Tamiflu inhibits spread of virus.
|
neutral
|
The virus will spread.
|
Tamiflu inhibits spread of virus.
|
neutral
|
These new viruses then spread to infect other cells.
|
Tamiflu inhibits spread of virus.
|
neutral
|
These newly formed viruses spread by infecting new cells.
|
Tamiflu inhibits spread of virus.
|
neutral
|
These proteins are isolated to inhibit the virus from replicating in a host's cells and stop it from spreading to other cells.
|
Tamiflu inhibits spread of virus.
|
neutral
|
This mechanism is useful to the virus as it allows the virus to spread from infected to uninfected cells.
|
Tamiflu inhibits spread of virus.
|
neutral
|
This would have an immediate impact of inhibiting the spread of email carried viruses.
|
Tamiflu inhibits spread of virus.
|
neutral
|
This would have an immediate impact of inhibiting the spread of viruses like Melissa.
|
Tamiflu inhibits spread of virus.
|
neutral
|
Tissue culture-based ELISA assays revealed that RWJ-270201 effectively inhibited the replication of influenza viruses in MDCK cells.
|
Tamiflu inhibits spread of virus.
|
neutral
|
Two newly approved medicines, marketed under the brand names Relenza and Tamiflu, keep the influenza virus from spreading from cell to cell and have been shown in studies to reduce the severity and duration of flu symptoms.
|
Tamiflu inhibits spread of virus.
|
entails
|
Viruses are extremely effective at infiltrating cells.
|
Tamiflu inhibits spread of virus.
|
neutral
|
With weapons comosed of live bacteria and viruses, we may have the possibility of making vaccines to inhibit their growth and prevent spread of disease.
|
Tamiflu inhibits spread of virus.
|
neutral
|
others have no effect on attachment but inhibit fusion of viral and cell membranes and hence entry of virus into the cell;
|
Tamiflu inhibits spread of virus.
|
neutral
|
Atom is the smallest particle of an element Elements such as iron, oxygen, sulfur, ...
|
The element sulfur has the atomic number 16.
|
neutral
|
Generally, XRF technology can detect elements with an atomic number of 16 (sulfur) through 94 (plutonium).
|
The element sulfur has the atomic number 16.
|
entails
|
In either case, the user would have to count the atoms in the input file to determine the starting and ending position numbers of the sulfur atoms.
|
The element sulfur has the atomic number 16.
|
neutral
|
The symbol for sulfur is S, and its atomic number is 16.
|
The element sulfur has the atomic number 16.
|
entails
|
All life on Earth is based on the element carbon, and living things make chemical changes to this carbon.
|
All life is built around the element carbon.
|
entails
|
All life on this planet is carbon based.
|
All life is built around the element carbon.
|
entails
|
All of the other elements such as carbon, nitrogen, oxygen and iron, the elements that make life possible, are mere trace elements and very rare in the cosmos.
|
All life is built around the element carbon.
|
neutral
|
An element, such as carbon (which is absolutely critical for life
|
All life is built around the element carbon.
|
entails
|
CARBON MOVEMENT Carbon, the basis of all life on Earth.
|
All life is built around the element carbon.
|
entails
|
Carbon is a basic element for all life forms.
|
All life is built around the element carbon.
|
entails
|
Carbon is a key element to all known life.
|
All life is built around the element carbon.
|
entails
|
Carbon is an essential element for almost all plant and animal life.
|
All life is built around the element carbon.
|
entails
|
Carbon is element number 6 and is the basis for the chemistry of nearly all life here on earth so it is no wonder that its chemistry was first associated only with life.
|
All life is built around the element carbon.
|
entails
|
Carbon is one of the basic building blocks of all life in the universe.
|
All life is built around the element carbon.
|
entails
|
For example, all pieces of carbon are instances of Element-Stuff.
|
All life is built around the element carbon.
|
neutral
|
Life is founded upon CARBON, the Black element present in all living matter.
|
All life is built around the element carbon.
|
entails
|
So carbon is an essential element for all known life, and most is obtained from carbon dioxide in the atmosphere.
|
All life is built around the element carbon.
|
entails
|
Specific Carbon Isotopes All life on Earth is based on the element carbon, and living things make chemical changes to this carbon.
|
All life is built around the element carbon.
|
entails
|
The element carbon is abundant in nature, and is a basic building block of all living things.
|
All life is built around the element carbon.
|
entails
|
They are all a composition of Carbon, Nitrogen, Hydrogen and other elements.
|
All life is built around the element carbon.
|
neutral
|
While all 6 elements are important, all life is based on a carbon system and therefore some would consider C to be the most important.
|
All life is built around the element carbon.
|
entails
|
carbon A nonmetallic element that serves as a building block for all living things.
|
All life is built around the element carbon.
|
entails
|
Acid precipitation is caused when the burning of fossil fuels emits sulfur dioxide into the atmosphere.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
Also, burning of coal, and other fossil fuels releases sulfur and nitrogen compounds into the air.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
Another result of fossil fuel burning is the formation of oxides of sulfur and nitrogen in the atmosphere.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
Burning fossil fuels releases sulfur compounds (aerosols) into the atmosphere.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
Burning of any fossil fuel results in the production of CO 2 and the release of sulfur compounds.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
Burning of fossil fuels is the major factor generating oxides of sulfur and nitrogen, which are converted into nitric and sulfuric acids when mixed with atmospheric water.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
Emissions of sulfur dioxide to the atmosphere, primarily from fossil-fuel burning, probably exceed the emissions of gaseous sulfur from land and oceans;
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
Fossil fuel burning now accounts for about two-thirds of sulfur emissions to the atmosphere globally and this proportion is projected to increase as energy demands increase, particularly in Asia.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
Most of the human-induced aerosols come from sulfur released in fossil fuel burning and from burning vegetation to clear agricultural land.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
The burning of fossil fuels (coal and oil) by power-production companies and industries releases sulfur into the air that combines with oxygen to form sulfur dioxide (SO 2 ).
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
The burning of fossil fuels of poor quality and with a high concentration of sulfur leads to an atmosphere that is enriched in sulfur oxides, which form acids with rain water.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
The burning of fossil fuels release into the atmosphere sulfur and nitrogen oxides, which are converted to sulfuric and nitric acids.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
The burning of fossil fuels releases sulfur and nitrogen oxides into the atmosphere, which are converted to sulfuric and nitric acids.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
When humans burn fossil fuels, sulfur dioxide (SO2) and nitrogen oxides (NOx) are released into the atmosphere.
|
The element sulfur is released into the atmosphere by the burning of fossil fuels.
|
entails
|
Analysis of sunlight reveals that the Sun is made mostly of the elements Hydrogen & Helium, with just traces of other elements.
|
The sun mostly made up of the element hydrogen.
|
entails
|
Chemical analysis of starlight indicates that hydrogen, the simplest atom, is by far the most abundant chemical element in stars, including the Sun.
|
The sun mostly made up of the element hydrogen.
|
entails
|
Dark Sun, the Making of the Hydrogen Bomb .
|
The sun mostly made up of the element hydrogen.
|
neutral
|
Eddington suggested that the fusion of hydrogen, the most common element in the Sun, into helium provides the enormous energy output of the Sun.
|
The sun mostly made up of the element hydrogen.
|
entails
|
Hydrogen is the most abundant constituent of the sun and similar stars, and indeed the most abundant element in the universe.
|
The sun mostly made up of the element hydrogen.
|
entails
|
Hydrogen is the most abundant element in the sun as it is in your body.
|
The sun mostly made up of the element hydrogen.
|
entails
|
Hydrogen is the most abundant element in the universe.
|
The sun mostly made up of the element hydrogen.
|
neutral
|
Hydrogen was the most plentiful of elements in this quadrant of the pluraverse.
|
The sun mostly made up of the element hydrogen.
|
neutral
|
It turns out it's made of elements that are heavier than the hydrogen and helium that make up most of the universe.
|
The sun mostly made up of the element hydrogen.
|
neutral
|
Later spectroscopy hinted at the presence of hydrogen in the Sun's atmosphere, and the German astronomer Albrecht Unsoeld suggested in 1928 that hydrogen, in fact, was the most common element.
|
The sun mostly made up of the element hydrogen.
|
entails
|
Only hydrogen lines because hydrogen is the most common element in the Universe.
|
The sun mostly made up of the element hydrogen.
|
neutral
|
Solid Hydrogen Hydrogen is the most abundant element in the cosmos.
|
The sun mostly made up of the element hydrogen.
|
neutral
|
The Sun is made up of mostly hydrogen and helium gas, with traces of other elements.
|
The sun mostly made up of the element hydrogen.
|
entails
|
The Sun is mostly hydrogen plasma.
|
The sun mostly made up of the element hydrogen.
|
entails
|
The elements hydrogen, carbon, nitrogen and oxygen are the elements that make up most living organisms.
|
The sun mostly made up of the element hydrogen.
|
neutral
|
The great number of hydrogen atoms in the earth's crust makes it the third most abundant element on the earth, after oxygen and silicon.
|
The sun mostly made up of the element hydrogen.
|
neutral
|
The most abundant elements in the Sun are hydrogen and helium.
|
The sun mostly made up of the element hydrogen.
|
entails
|
The most common elements in the universe are hydrogen and stupidity.
|
The sun mostly made up of the element hydrogen.
|
neutral
|
The predominant element in the sun is hydrogen.
|
The sun mostly made up of the element hydrogen.
|
entails
|
The primary elements of the sun are Hydrogen and Helium.
|
The sun mostly made up of the element hydrogen.
|
entails
|
The sun is composed mostly of hydrogen gas.
|
The sun mostly made up of the element hydrogen.
|
entails
|
The two most abundant elements in the universe are hydrogen and stupidity;
|
The sun mostly made up of the element hydrogen.
|
neutral
|
The two most common elements in the universe are hydrogen and stupidity.
|
The sun mostly made up of the element hydrogen.
|
neutral
|
They thought that the blue stars were composed mostly of hydrogen while cooler stars like the sun, had less hydrogen and more of the heavier elements.
|
The sun mostly made up of the element hydrogen.
|
neutral
|
iv, clouds of hydrogen gravitationally collapse It is through fusion that most the elements that make up biological systems were created .
|
The sun mostly made up of the element hydrogen.
|
neutral
|
But this definition would include compounds such as calcium carbonate (CaCO 3 ), as well as the elemental forms of carbon diamond and graphite that are clearly inorganic.
|
The element carbon on the periodic table forms the most diverse compounds.
|
neutral
|
C is the symbol for carbon, the sixth element of the periodic table.
|
The element carbon on the periodic table forms the most diverse compounds.
|
neutral
|
Carbon forms more compounds than any other element except hydrogen.
|
The element carbon on the periodic table forms the most diverse compounds.
|
entails
|
Processes in which the nonmetal is carbon in its elemental form, i.e., not in the form of a carbon compound.
|
The element carbon on the periodic table forms the most diverse compounds.
|
neutral
|
The carbon released during burning takes the form of several gaseous compounds-including carbon dioxide, carbon monoxide, methane, and nonmethane hydrocarbons-and particulate or elemental carbon.
|
The element carbon on the periodic table forms the most diverse compounds.
|
neutral
|
They also form halocarbons, compounds with carbon and often other elements such as hydrogen and oxygen.
|
The element carbon on the periodic table forms the most diverse compounds.
|
neutral
|
i.e., not in the form of a carbon compound.
|
The element carbon on the periodic table forms the most diverse compounds.
|
neutral
|
4d6There are groups of elements that have similar properties, including highly reactive metals, less-reactive metals, highly reactive nonmetals (such as chlorine, fluorine, and oxygen), and some almost completely non-reactive gases (such as helium and neon).
|
Nonmetals have the highest attraction for electrons.
|
neutral
|
A Summary of Some Nonmetal Bonding Patterns Nonmetal Element Periodic Group Valence Electrons Lewis Dot Structure No.
|
Nonmetals have the highest attraction for electrons.
|
neutral
|
A table has columns for students to determine if nine elements are metals or nonmetals, if they lend or borrow electrons, and the number of electrons involved.
|
Nonmetals have the highest attraction for electrons.
|
neutral
|
Ceramics usually have a combination of stronger bonds called ionic (occurs between a metal and nonmetal and involves the attraction of opposite charges when electrons are transferred from the metal to the nonmetal); and covalent (occurs between two nonmetals and involves sharing of atoms).
|
Nonmetals have the highest attraction for electrons.
|
neutral
|
Chalcophile elements are those metals and heavier nonmetals that have a low affinity for oxygen and prefer to bond with sulfur as highly insoluble sulfides.
|
Nonmetals have the highest attraction for electrons.
|
neutral
|
Elements are generally classified as metals or nonmetals(although some elements have characteristics of both; these are called metalloids).
|
Nonmetals have the highest attraction for electrons.
|
neutral
|
Even if the added elements are nonmetals, alloys may still have metallic properties.
|
Nonmetals have the highest attraction for electrons.
|
neutral
|
Metals, nonmetals, and semimetals have different bonding properties that lead to the differences in conductivity that can be observed between these categories of elements.
|
Nonmetals have the highest attraction for electrons.
|
neutral
|
Nonmetal elements are far fewer in number.
|
Nonmetals have the highest attraction for electrons.
|
neutral
|
Nonmetal or non-metal is a chemical element that does not have the properties of a metal.
|
Nonmetals have the highest attraction for electrons.
|
neutral
|
Nonmetals- elements on the right of the periodic table.
|
Nonmetals have the highest attraction for electrons.
|
neutral
|
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