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View3 looks down the axis of the DNA double helix.
The double helix dna shape forms when the two nucleotide chains wrap around the same axis.
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Watson and Crick suggested that DNA consisted of two chains of nucleotides and arranged in the form of a double helix, each strand of which was a model for the other.
The double helix dna shape forms when the two nucleotide chains wrap around the same axis.
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We have already mentioned that DNA is a double helix consisting of two interwound chains of building blocks called nucleotides .
The double helix dna shape forms when the two nucleotide chains wrap around the same axis.
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double helix The normal structural configuration of DNA consisting of two helices winding about the same axis.
The double helix dna shape forms when the two nucleotide chains wrap around the same axis.
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20-23 The common feature of all of these designs is the small size of the microscope.
All cells have the small size in common.
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A common factor in all these approaches to small cells is that they are centrally managed by mobile network operators.
All cells have the small size in common.
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ATM is a form of cell relay, where all transmitted data is fragmented into (small) fixed-size data units called cells .
All cells have the small size in common.
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All are small to medium sized agencies with one thing in common.
All cells have the small size in common.
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Although elephants, mice and water striders have diverse sizes, one thing they share in common is that they are all composed of cells.
All cells have the small size in common.
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Apart from their size what they all have in common is that they are all desperate.
All cells have the small size in common.
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Archaea evolved many cell sizes, but all are relatively small.
All cells have the small size in common.
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As well, data with small cell sizes have been suppressed.
All cells have the small size in common.
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Basal cell carcinomas are the most common form of skin cancers that are usually seen as pea size flesh colored pearly lesions that may have small blood vessels running through them.
All cells have the small size in common.
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Cells vary in size as well as shape, but all cells are very small.
All cells have the small size in common.
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Cells have windows of various sizes and some have none at all.
All cells have the small size in common.
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Chemotherapy is the most common treatment for all stages of small cell lung cancer and is also used for non-small cell lung cancer.
All cells have the small size in common.
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Chemotherapy is the most common treatment of all stages of small cell lung cancer.
All cells have the small size in common.
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Common goals, interests and small size all contribute to this.
All cells have the small size in common.
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Common to all Honors courses is small class size to facilitate individual participation.
All cells have the small size in common.
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Glycoproteins of all shapes and sizes are extremely common components of cells in both plants and animals.
All cells have the small size in common.
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If you can find a small (tractor-sized) marine deep-discharge battery, or adapt a gel cell of the kind now common in UPS's, you will be much happier -
All cells have the small size in common.
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In addition, all have the following features: Small size.
All cells have the small size in common.
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In addition, the limitations on genome size that accompany small cell size guarantee that cells of that size will have to depend on larger, more complex organisms for supplies of most of the small organic molecules required for their growth.
All cells have the small size in common.
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In common with all mastigophora, Chilomonas have flagella, which are long hair- or whip-like extensions of the cell that contain a small amount of cytoplasm and a core of specialized microtubules.
All cells have the small size in common.
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It's spartan, and the size of a small cell phone.
All cells have the small size in common.
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Let go and your spreadsheet should all have small, square cells.
All cells have the small size in common.
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Many of the small electronic devices we commonly use, such as cell phones, calculators, and IPods all run on DC.
All cells have the small size in common.
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SUGGESTIONS List Size Limit A list size that is too small to display all the significant hits is a common problem.
All cells have the small size in common.
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Since 2D matrix codes all have the same cell size, it is that cell size that is the limiting resolution factor for printing.
All cells have the small size in common.
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Small cell lung cancer also called oat cell cancer is the less common lung cancer type, accounting for about 20% of all lung cancer.
All cells have the small size in common.
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Small size, in general, is necessary for all cells, whether prokaryotic or eukaryotic.
All cells have the small size in common.
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Some lymphomas have a mixture of both cell sizes, and are termed "mixed small cleaved and large cell.
All cells have the small size in common.
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The Universal Cell All living organisms, large and small, have one thing in common -- the cell.
All cells have the small size in common.
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The most common problem my students and I have encountered is unequally sized elements in adjoining cells.
All cells have the small size in common.
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These small rails are half the size of the common blackbird but have spectacular plumage.
All cells have the small size in common.
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They all have in common: electric motors, a freezable canister (that replaces the ice and salt), relatively small size, and similar price.
All cells have the small size in common.
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They also found that despite their unusually small cell size it is common to find more than one type of virus attached to the cells while in the biofilms.
All cells have the small size in common.
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They have diverse ways of setting up ground nests which can include small cells, scattered cells, and clusters of cells depending on the size of the colony.
All cells have the small size in common.
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This is a common problem when you have many files of a small size.
All cells have the small size in common.
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To avoid this issue, all ATM packets, or "cells," are made to have the same small size.
All cells have the small size in common.
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Under a 1A load, 1.5 volt alkaline cells of all sizes commonly droop to only 1.1 volts.
All cells have the small size in common.
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Under cell relay, all frames are a small, fixed size.
All cells have the small size in common.
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What I have tried to do is to apply on top of each of those programs, regardless of size or scope, a small set of telling metrics that are common to all.
All cells have the small size in common.
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You have to know enough to know what the common elements are -- they're usually public schools, and almost all of them are very small schools with very small class sizes.
All cells have the small size in common.
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beings who are all small in size as aliens are commonly described.
All cells have the small size in common.
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it would have been so small to really be unworkable and cell size could have been revisited early on.
All cells have the small size in common.
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it would have the apparent size of a small melon, the length of a common snake;
All cells have the small size in common.
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A balanced chemical equation has the same number of each type of atom on the product side and the reactant side.
Atoms make products by rearranging their chemical bonds in a reactant.
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Balancing chemical equations literally means counting the number of times atom symbols appear in the reactants and products to make sure the counts are the same on both sides.
Atoms make products by rearranging their chemical bonds in a reactant.
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Conservation of Matter and Stoichiometry The conservation of atoms in chemical reactions leads to the principle of conservation of matter and the ability to calculate the mass of products and reactants.
Atoms make products by rearranging their chemical bonds in a reactant.
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Description of chemical change-burning paper, rusting iron, formation of sugars during photosynthesis, atom, molecule, bond, reactant, product, conservation of matter.
Atoms make products by rearranging their chemical bonds in a reactant.
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Here the energy associated with the bonds of the reactants and products of chemical reactions is the same.
Atoms make products by rearranging their chemical bonds in a reactant.
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Identify reactants and products in chemical equations.
Atoms make products by rearranging their chemical bonds in a reactant.
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Identify the reactants and products in a chemical equation.
Atoms make products by rearranging their chemical bonds in a reactant.
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If atoms cannot be destroyed then the mass of reactants must equal the mass of the products in a chemical reaction.
Atoms make products by rearranging their chemical bonds in a reactant.
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In an ideal chemical process, the amount of starting materials or reactants equals the amount of all products generated (see stoichiometry) and no atom is wasted.
Atoms make products by rearranging their chemical bonds in a reactant.
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In most chemical reactions, the atoms proceed from the potential well of the reactants to the potential well of the products, as shown in Figure 11-6 .
Atoms make products by rearranging their chemical bonds in a reactant.
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The reactants and products must contain the same number of atoms making the reaction balanced.
Atoms make products by rearranging their chemical bonds in a reactant.
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The residue description must contain non-bonded exclusions between the product and reactant atoms.
Atoms make products by rearranging their chemical bonds in a reactant.
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This law says that when a chemical reaction rearranges atoms into a new product, the mass of the reactants (chemicals before the chemical reaction) is the same as the mass of the products (the new chemicals made).
Atoms make products by rearranging their chemical bonds in a reactant.
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Trost defines the atom economy of a chemical processes as the atomic mass of product divided by the the atomic mass of all reactants.
Atoms make products by rearranging their chemical bonds in a reactant.
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a) Comparison between reactant and product suggests they differ only in the position of one hydrogen (by 5 carbon atoms) and a C-C bond;
Atoms make products by rearranging their chemical bonds in a reactant.
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Epidermal growth factor (EGF) regulates cell proliferation by binding its receptor, a large protein spanning the thickness of the cell membrane.
Cells secrete factor that bind to receptors.
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Intrinsic factor (IF), a protein secreted by gastric parietal cells, binds to the vitamin B 12 and carries it to the terminal ileum , where there are IF receptors, and absorption occurs.
Cells secrete factor that bind to receptors.
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It is generally accepted that tumours secrete a growth factor which binds to the corresponding receptor on the surface of endothelial cells lining the blood vessels.
Cells secrete factor that bind to receptors.
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Shh gene encodes a secreted growth factor, which binds to its cell surface receptor, encoded by the patched gene.
Cells secrete factor that bind to receptors.
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The extracellular growth factors that stimulate cell growth bind to receptors on the cell surface and activate intracellular signaling pathways.
Cells secrete factor that bind to receptors.
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The polyanionic oligos may bind to proteins such as fibroblast growth factor and inhibit protein binding to cell surface receptors, thus inhibiting cell proliferation (29).
Cells secrete factor that bind to receptors.
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These receptor complexes on Paget cells bind heregulin-alpha, the mobility factor, resulting in the chemotaxis of breast ductal carcinoma cells.
Cells secrete factor that bind to receptors.
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This is a monoclonal antibody that binds to this growth factor receptor on the surface of the cancer cell.
Cells secrete factor that bind to receptors.
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1959 Eruptions at Kilauea Iki, cinder cone formed, filled crater with a lava lake 1969-1974 Eruptions at the East Rift Zone, Mauna Ulu built.
Craters and rifts become lakes when they fill with water.
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A caldera is a depression similar to Crater Lake but without water.
Craters and rifts become lakes when they fill with water.
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And at Crater Lake they used to say they got to the water and swam.
Craters and rifts become lakes when they fill with water.
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Consequently the waters of Crater Lake are exceedingly pure.
Craters and rifts become lakes when they fill with water.
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Most craters have been filled with water and have become lakes and others have fallen into the ocean.
Craters and rifts become lakes when they fill with water.
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Our destination is Lake Naivasha, which is a fresh water lake in the Rift Valley.
Craters and rifts become lakes when they fill with water.
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The crater actually filled up with water to become a crater lake for almost 2 million years.
Craters and rifts become lakes when they fill with water.
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The crater gradually filled with water and is now a lake, the surface of which is 1000 feet below the rim.
Craters and rifts become lakes when they fill with water.
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The lake is a crater lake, a basin formed on an old volcanic cone that was later filled with water.
Craters and rifts become lakes when they fill with water.
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The sinkhole may then fill with water and become a lake or a pond.
Craters and rifts become lakes when they fill with water.
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The temperature of the water in the crater lake decreased slightly.
Craters and rifts become lakes when they fill with water.
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The water in Crater Lake appears to be bright blue, but it isn't.
Craters and rifts become lakes when they fill with water.
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The yellow swirls on the water of Crater Lake have become an annual sign of the arrival of spring in the Southern Cascades of Oregon.
Craters and rifts become lakes when they fill with water.
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Water chemistry : Lake Tanganyika is the lake in Rift Valley with the highest alkalinity.
Craters and rifts become lakes when they fill with water.
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b)Crater lakes These volcanic lakes were formed when the bowl-shaped depressions around the orifices of volcanoes were filled with water after the eruptions.
Craters and rifts become lakes when they fill with water.
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DECOMPOSERS are a special type of consumer that can eat dead, organic matter (detritus, carrion) and convert it back into its inorganic components.
Decomposers release inorganic molecules once they have broken down the dead organisms.
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Decomposers break down detritus, nonliving organic matter, into inorganic matter.
Decomposers release inorganic molecules once they have broken down the dead organisms.
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Decomposers digest detritus by breaking down the complex organic molecules in these materials into simpler, inorganic compounds.
Decomposers release inorganic molecules once they have broken down the dead organisms.
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Decomposers from this second type of chain break up organic matter into the inorganic compounds that are vital nutrients for the first.
Decomposers release inorganic molecules once they have broken down the dead organisms.
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Decomposers- organisms, which break down dead organisms to release the inorganic elements, like nitrogen, carbon back into the ecosystem.
Decomposers release inorganic molecules once they have broken down the dead organisms.
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Eventually decomposers break down remains of dead organisms, releasing the inorganic compounds back into the environment for reuse.
Decomposers release inorganic molecules once they have broken down the dead organisms.
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The efficiency is lowest in decomposer transfers where vast amounts of heat are lost as organic molecules are broken into simple inorganic molecules.
Decomposers release inorganic molecules once they have broken down the dead organisms.
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The traditional role for bacteria is that of decomposers, breaking down dead organic material and remineralizing the inorganic nutrients (ammonia, nitrate, phosphate) and carbon dioxide used by microalgae during photosynthesis to make new plant biomass.
Decomposers release inorganic molecules once they have broken down the dead organisms.
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A neuron consists of dendrites, a cell body, and an axon.
Dendrites from the cell body recieve impulses from other neurons.
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A unipolar neuron lacks dendrites and recieves impulses directly on its perikaryon.
Dendrites from the cell body recieve impulses from other neurons.
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As it shows, neurons are composed of dendrites, a cell body and an axon.
Dendrites from the cell body recieve impulses from other neurons.
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Dendridic Spines Dendrites are projections off the cell body of a neuron that receive impulses from other neurons.
Dendrites from the cell body recieve impulses from other neurons.
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Dendrites conduct electrical signals received from other neurons to the parent neuron's cell body.
Dendrites from the cell body recieve impulses from other neurons.
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Dendrites extend from the cell body and receive nerve impulses from other neurons.
Dendrites from the cell body recieve impulses from other neurons.
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Draw a neuron and label the cell body, axon, and dendrite.
Dendrites from the cell body recieve impulses from other neurons.
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