premise
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Chemical X will dissolve in chemical Y if molecules of X attract molecules of Y just as strongly as they attract each other.
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Compared with the molecules of many other substances, molecules of water are strongly attracted to each other.
| 0neutral
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So polar molecules attract each other.
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Compared with the molecules of many other substances, molecules of water are strongly attracted to each other.
| 0neutral
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Soap molecules in the bubble mixture are attracted to each other.
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Compared with the molecules of many other substances, molecules of water are strongly attracted to each other.
| 0neutral
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The molecules of oil are attracted to each other and repelled by the water molecules.
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Compared with the molecules of many other substances, molecules of water are strongly attracted to each other.
| 0neutral
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The molecules of real compounds attract each other.
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Compared with the molecules of many other substances, molecules of water are strongly attracted to each other.
| 0neutral
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The water molecules are attracted to each other and resist being separated.
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Compared with the molecules of many other substances, molecules of water are strongly attracted to each other.
| 1entails
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Water molecules and oil molecules are simply not attracted to each other, and so the paint will just slide off the wax.
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Compared with the molecules of many other substances, molecules of water are strongly attracted to each other.
| 0neutral
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Water molecules are attracted to each other more strongly than to any other object.
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Compared with the molecules of many other substances, molecules of water are strongly attracted to each other.
| 1entails
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At TIGR, DNA sequence is the raw data that begins our analysis of genome content, organization, comparative genomics, and evolution (5).
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Comparing genome sequences provides clues to evolution and development.
| 0neutral
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By comparing the sequence of the genomes of different organisms, we can actually reconstruct a lot of what's happened in evolution.
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Comparing genome sequences provides clues to evolution and development.
| 1entails
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Comparative evolution of genome size and structure
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Comparing genome sequences provides clues to evolution and development.
| 0neutral
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Development and Characterization of Expressed Sequence Tags for the Turkey (Meleagris gallopavo) Genome and Comparative Sequence Analysis with Other Birds.
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Comparing genome sequences provides clues to evolution and development.
| 0neutral
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Human genome draft sequence offers clues to health.
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Comparing genome sequences provides clues to evolution and development.
| 0neutral
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Scanning Bacterial Genomes for Clues to the Evolution of the Tryptophan Operon -
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Comparing genome sequences provides clues to evolution and development.
| 0neutral
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The transcriptome will provide a useful resource until a full genome sequence becomes available, since transcript sequences can be employed in molecular phylogenetic and genome evolution studies.
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Comparing genome sequences provides clues to evolution and development.
| 0neutral
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We demonstrated that rate of sequence evolution is correlated with rate of genome rearrangement and provided a possible mechanism linking these two types of change.
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Comparing genome sequences provides clues to evolution and development.
| 0neutral
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of genome evolutions are studied by combining comparative genomics
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Comparing genome sequences provides clues to evolution and development.
| 0neutral
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An example of this type of crystal is sodium chloride (NaCl).
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Compounds like sodium chloride form structures called crystals.
| 1entails
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Suppose you have a crystal XY with the sodium chloride structure.
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Compounds like sodium chloride form structures called crystals.
| 0neutral
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The crystal structure of Sc2S3 is closely related to that of sodium chloride, in that it is based on a cubic close packed array of anions.
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Compounds like sodium chloride form structures called crystals.
| 0neutral
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The specific gravity of a Sodium Chloride crystal is 2.16.
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Compounds like sodium chloride form structures called crystals.
| 0neutral
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To compare the properties of molecular and covalent compounds and demonstrate the strength of various types of crystal lattice, have students use styrofoam balls to build two different crystal lattices (e.g., sodium chloride and hydrogen chloride).
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Compounds like sodium chloride form structures called crystals.
| 0neutral
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Back to Duria Antiquior Jurassic Plants Unlike today, the most important group of plants in the Jurassic were the gymnosperms .
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Conifers are the most prevalent type of gymnosperms.
| 0neutral
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Conifers -- such as pines, hemlocks, redwoods, spruces and firs -- are the most common types of gymnosperms with more than 500 species worldwide.
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Conifers are the most prevalent type of gymnosperms.
| 1entails
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Conifers are by far the most abundant extant group of gymnosperms with six to eight families, with a total of 65-70 genera and 600-630 species (696 accepted names).
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Conifers are the most prevalent type of gymnosperms.
| 1entails
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GYMNOSPERM (CONIFER) LIFE CYCLE
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Conifers are the most prevalent type of gymnosperms.
| 0neutral
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Most primitive type of conducting cells and they are found in most of the seedless vascular plants and gymnosperms 2.
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Conifers are the most prevalent type of gymnosperms.
| 0neutral
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Pines, as gymnosperms, represent one of the oldest and most successful groups of higher plants.
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Conifers are the most prevalent type of gymnosperms.
| 0neutral
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The anatomy of gymnosperms are similar to many other types of plants.
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Conifers are the most prevalent type of gymnosperms.
| 0neutral
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The conifers are the most successful gymnosperms, especially on dry sites (needles are drought resistant).
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Conifers are the most prevalent type of gymnosperms.
| 1entails
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There are two types of seed plants, gymnosperms and angiosperms.
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Conifers are the most prevalent type of gymnosperms.
| 0neutral
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A continuous caster produces slabs by solidifying the liquid steel.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 0neutral
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A substance used to solidify liquid radioactive waste 3.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 0neutral
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After the casting has solidified the pressure is released and any remaining liquid returns to the crucible, which increases yield.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 0neutral
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An explosion may result if the volatiles in the magma attain a pressure that exceeds the confining pressure of surrounding liquid and solidified rock.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 0neutral
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Another effect of the cooling of the chamber is that the solidifying crystals will release the gas (primarily steam) previously dissolved when they were liquid, causing the pressure in the chamber to rise, possibly sufficiently to produce an eruption.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 0neutral
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For some materials, the liquid or the solution is forced through the tiny holes of spinnerets into an acid bath, which causes the material to solidify ("regenerate") into continuous filament.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 0neutral
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It caused my vein in my right hand to be sore, solidify, then eventually disappear.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 0neutral
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It is this substance that causes the JELL-O © to solidify when cooled.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 0neutral
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It remains liquid down to absolute zero at ordinary pressures, but it can be readily be solidified by increasing the pressure.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 1entails
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It remains liquid down to absolute zero at ordinary pressures, but it can readily solidify by increasing the pressure.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 1entails
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Some liquids can solidify under very high pressures, so releasing the pressure will cause the solid to melt.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 1entails
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The liquid can solidify causing the seal to become inoperative.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 0neutral
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most liquids solidify when place under higher pressure.
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Continually increasing the pressure on the liquid will eventually cause the substance to solidify.
| 1entails
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Spherical Aberration, Where the surface of a convex lens in not perfectly spherical and all the rays of light do not focus at the same point.
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Convex lenses are thicker in the middle than at the edges so they cause rays of light to converge, or meet, at a point called focus.
| 0neutral
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The lens focuses light rays.
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Convex lenses are thicker in the middle than at the edges so they cause rays of light to converge, or meet, at a point called focus.
| 0neutral
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When the parallel rays of a light source strike a convex lens the rays will concentrate or focus at a specific point, the focal point .
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Convex lenses are thicker in the middle than at the edges so they cause rays of light to converge, or meet, at a point called focus.
| 1entails
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As live coral grows atop the skeletons on dead coral, a coral reef is formed.
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Corals build hard exoskeletons that grow to become coral reefs.
| 1entails
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CD is working hard on Coral reefs .
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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Coral Reefs.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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Coral reefs ar created by tiny organisms -- coral polyps -- that produce calcium carbonate (limestone) structures as their exoskeleton.
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Corals build hard exoskeletons that grow to become coral reefs.
| 1entails
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Corals and Coral Reefs.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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Corals and the formation of coral reefs.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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Ecology and physiology of reef-building corals.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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If algae grow on the bare substrate that becomes available after the infected coral tissue dies, recolonization by hard corals and other reef organisms will be inhibited.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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In Coral Reefs
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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No reef building corals are present in the area.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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Non-Reef-Building Coral Communities Non-reef-building corals, such as rose coral, finger coral and golf ball coral, grow in shallow water all around NHMI, affording snorkelers an excellent opportunity to view living corals "up close".
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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Not all coral species build reefs.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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Over thousands of years, the process of hard corals building their skeletons (known as calcification) on top of the skeletons of old corals forms the reef.
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Corals build hard exoskeletons that grow to become coral reefs.
| 1entails
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Radiographic studies of reef coral exoskeletons: rates and patterns of coral growth.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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Reef-building corals."
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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The Coral Reef
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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The fewer the hard corals, the less the capacity for the reef to build and repair itself.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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The scleractinian hard corals are the most common and abundant coral type to be found on most coral reefs in the tropical world and in the coral growing areas of Oman.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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Warmer and more acidic water around the coral reef will slow down calcification, which is how the coral grows and becomes strong.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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What are corals and coral reefs?
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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What corals build reefs 2.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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While soft corals also grow in colonies, they do not form reefs like hard coral.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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and (iii) the destruction of coral reefs as the surrounding waters become too warm for the coral reef organism to reproduce and grow.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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coral Shows a coral reef.
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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corals and coral reefs;
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Corals build hard exoskeletons that grow to become coral reefs.
| 0neutral
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2 Years Cytokinesis is the final stage of cell division in which the cytoplasm of the daughter cells is separated into two by the formation of a new cell wall.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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Cell cytoplasm should be retained but well-spread to allow the detection of micronuclei and (in the cytokinesis-block method) reliable identification of binucleate cells.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 0neutral
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Cytokinesis is the cleavage of the cytoplasm, which results in two identical cells from a single cell.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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Cytokinesis is the stage during which the cell cytoplasm divides into approximately two equal parts and the cell actually splits apart, and it really begins while mitosis is occurring -- about midway through anaphase.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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Finally, Aurora A helps orchestrate an exit from mitosis by contributing to the completion of cytokinesis- the process by which the cytoplasm of the parent cell is split into two daughter cells.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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He did pioneering research using physical manipulations of cells to understand the mechanisms of cytokinesis, the process by which a cell's cytoplasm is divided in two.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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However cell division goes through a sixth phase called cytokinesis, which is the division of the cytoplasm and the formation of two new daughter cells.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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In animal cells, cytokinesis results as cytoplasm pinches inward, a process called cleavage , progressively dividing one cell into two.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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In cytokinesis, the cytoplasm of the cell is split in two, making two new cells.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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Mitosis is followed by cytokinesis, when the cytoplasm divides, resulting in two cells.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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THIS IS THE END OF MEIOSIS I CYTOKINESIS I-this involves division of the cytoplasm to get two cells.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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THIS IS THE END OF MEIOSIS II CYTOKINESIS II-----this involves division of the cytoplasm to get two cells.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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The final phase is the separation of the two daughter cells (this is called cytokinesis) as the cytoplasm separates to form the two new cells.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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The main parts of the cells are the cell membrane, nucleus, and the liquid cytoplasm between these two.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 0neutral
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When cytokinesis is complete, unequal division of the cytoplasm yields a smaller daughter cell.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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cytokinesis (SlGH-toh-kin-EE-sis) The division of the cytoplasm to form two separate daughter cells immediately after mitosis.
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Cytokinesis divides the cytoplasm into two distinctive cells.
| 1entails
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An earthquake in 1999 failed to damage the plant, but construction was delayed six months.
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Damages and deaths are directly affected by construction in an earthquake.
| 0neutral
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Construction began in 1107, but the works were damaged and halted after an earthquake in 1117.
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Damages and deaths are directly affected by construction in an earthquake.
| 0neutral
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Construction of the Tuck School was not directly affected.
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Damages and deaths are directly affected by construction in an earthquake.
| 0neutral
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Despite being affected by the 2010 and 2011 Canterbury earthquakes while under construction, the earthquakes caused no direct damage, although the alignment had to be resurveyed after each earthquake.
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Damages and deaths are directly affected by construction in an earthquake.
| 0neutral
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In the earthquake of 1995 in Kobe, Japan, house construction contributed to the high death toll.
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Damages and deaths are directly affected by construction in an earthquake.
| 1entails
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In the game's tournaments players can affect the storyline of the game, their deck construction directly contributing to the lives (or deaths) of the characters involved.
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Damages and deaths are directly affected by construction in an earthquake.
| 0neutral
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Its construction began in 1576, but it was badly damaged in an earthquake in 1650.
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Damages and deaths are directly affected by construction in an earthquake.
| 0neutral
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Print and distribute a construction and risk reduction manual to those affected by the earthquake.
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Damages and deaths are directly affected by construction in an earthquake.
| 0neutral
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Recent earthquakes have shown that the construction and inspection processes are responsible for a significant amount of unnecessary earthquake damage.
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Damages and deaths are directly affected by construction in an earthquake.
| 1entails
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Santiago survived the 1931 earthquake, but was extremely damaged during the 1972 Earthquake, which led to the construction of the new Cathedral of the Conception to the southeast.
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Damages and deaths are directly affected by construction in an earthquake.
| 0neutral
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The 2011 Great Eastern Japan Earthquake Disaster did not affect the construction schedule.
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Damages and deaths are directly affected by construction in an earthquake.
| 0neutral
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Video documentary (in Japanese, 10 minutes) showing scenes of the damage caused by the earthquake and the construction of the Earthquake Memorial Park.
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Damages and deaths are directly affected by construction in an earthquake.
| 0neutral
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