premise
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The climate is humid continental with warm summers and cold winters.
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One might find deciduous trees in a humid continental climate.
| 0neutral
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The climate is humid continental, similar to that of Sofia.
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One might find deciduous trees in a humid continental climate.
| 0neutral
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The climate is of the continental type.
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One might find deciduous trees in a humid continental climate.
| 0neutral
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The climate is of tropical humid type.
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One might find deciduous trees in a humid continental climate.
| 0neutral
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The climate of Clinton County can be classified as humid continental.
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One might find deciduous trees in a humid continental climate.
| 0neutral
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The climate of New York is the humid continental type;
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One might find deciduous trees in a humid continental climate.
| 0neutral
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The climate of Old Forge is classified as humid continental.
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One might find deciduous trees in a humid continental climate.
| 0neutral
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The climate of Shreveport is transitional between the subtropical humid type prevalent in the south and the continental climates of the Great Plains and Middle West to the north.
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One might find deciduous trees in a humid continental climate.
| 0neutral
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The fungus is transmitted to the trees during periods of high relative humidity, which is much more common in a maritime climate rather than in the continental climate found in the GYA.
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One might find deciduous trees in a humid continental climate.
| 0neutral
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The town lies within the humid continental climate zone.
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One might find deciduous trees in a humid continental climate.
| 0neutral
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Towanda, as well as the entire county, has a humid continental type of climate.
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One might find deciduous trees in a humid continental climate.
| 0neutral
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Tsetserleg has a borderline humid continental climate (Dwb).
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One might find deciduous trees in a humid continental climate.
| 0neutral
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You can also find it on the drier side of the humid subtropical and humid continental climates and the west coast marine climate.
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One might find deciduous trees in a humid continental climate.
| 0neutral
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1 The two most common types of diabetes are Type 1 (insulin-dependent diabetes, or IDDM), when the pancreas cannot produce insulin, and Type 2 (non-insulin-dependent diabetes, or NIDDM), when the pancreas produces insulin but the body cannot properly use it.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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In Type 1 (insulin dependent) diabetes, insulin must be used because the pancreas is not producing the insulin the body needs.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 0neutral
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In Type 2 (non-insulin-dependent or adult-onset) diabetes the body can't properly use the insulin produced by the pancreas.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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In Type 2 diabetes (Non-Insulin-Dependent Diabetes Mellitus, NIDDM), either the pancreas doesn't make enough insulin or cells do not use insulin in the right way.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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In Type 2 diabetes (sometimes called adult-onset diabetes or noninsulin-dependent diabetes), the pancreas still makes insulin, but the body can't use it properly.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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In Type 2 diabetes the pancreas does not produce enough insulin or the body does not effectively use the insulin that is produced.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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In Type 2 diabetes, the pancreas still makes insulin, but not enough to meet the body's needs.
|
In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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In Type I diabetes, the body destroys the cells in the pancreas that make insulin, which helps convert food into energy.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 0neutral
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In Type II diabetes, some insulin is produced by the pancreas, but due to a cell-receptor defect, the insulin cannot be used effectively.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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In type 1 diabetes your body destroys the cells in the pancreas that produce insulin, usually leading to a total failure to produce insulin.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 0neutral
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In type 1 diabetes, the pancreas makes little or no insulin.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 0neutral
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Most sufferers experience type 2 diabetes in which the pancreas keeps making insulin but the body cannot use it very well.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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TREATMENT In Type 2 diabetes the beta cells of the pancreas produce varying amounts of insulin, but the body is unable to use it effectively.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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Type 2 diabetes is caused by insufficient production of insulin in the pancreas and a resistance to the action of insulin in the body's cells, especially muscle, fat and liver cells.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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Type 2 diabetes occurs when the cells do not use insulin properly and the pancreas is not producing enough insulin.
|
In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
|
Type 2 diabetes occurs when the pancreas cannot make enough insulin or the cells in the body cannot properly use the insulin.
|
In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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Types of Diabetes Type 1 diabetes occurs when the pancreas can no longer make insulin.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 0neutral
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When type 2 diabetes is diagnosed, the pancreas is usually producing enough insulin, but, for unknown reasons, the body cannot use the insulin effectively, a condition called insulin resistance.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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With Type II diabetes, the pancreas can make insulin, but the body does not respond to it, a characteristic known as insulin resistance.
|
In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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With Type II diabetes, your pancreas may make enough insulin, but your body's cells can't use it properly.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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With this type of diabetes, the body produces antibodies that attack the pancreas cells that produce insulin.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 0neutral
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type 2 Diabetes is a disease in which the body still makes some insulin, but the cells cannot use it properly.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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type 2 diabetes Type 2 diabetes is a result of the body's inability to make enough or to properly use insulin.
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In type 2 diabetes, the pancreas can still make insulin, but the cells of the body cannot use it efficiently.
| 1entails
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After eating the infected crayfish, smallmouth bass and other vertebrates are utilized as secondary hosts, providing an environment that is suitable for the flukes to reproduce sexually.
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All vertebrates reproduce sexually.
| 0neutral
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All cephalopods are sexually dimorphic and reproduce by laying eggs.
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All vertebrates reproduce sexually.
| 0neutral
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All coelenterates reproduce sexually.
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All vertebrates reproduce sexually.
| 0neutral
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All frogs reproduce sexually , and all hatch from eggs.
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All vertebrates reproduce sexually.
| 0neutral
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All sexually reproducing organisms have an alternation of generations
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All vertebrates reproduce sexually.
| 0neutral
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All vertebrates can reproduce sexually and almost all species need a male and a female , however, some species are hermaphroditic , meaning they have both male and female sex organs .
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All vertebrates reproduce sexually.
| 1entails
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Among ants who do not reproduce sexually, all of the members of the colony are female.
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All vertebrates reproduce sexually.
| 0neutral
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However, others reproduce sexually, which occurs in several ways.
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All vertebrates reproduce sexually.
| 0neutral
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In addition, nearly all species reproduce sexually and are hermaphroditic.
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All vertebrates reproduce sexually.
| 0neutral
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In all sexually reproducing animals the production and maturation of the ovum, its fertilization fertilization,
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All vertebrates reproduce sexually.
| 0neutral
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Insect Reproduction Nearly all insects reproduce sexually.
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All vertebrates reproduce sexually.
| 0neutral
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Nearly all fish reproduce sexually and have separate sexes.
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All vertebrates reproduce sexually.
| 0neutral
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Nearly all fish reproduce sexually, and most species have separate sexes.
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All vertebrates reproduce sexually.
| 0neutral
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Not all fungi reproduce sexually and many that do are isogamous;
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All vertebrates reproduce sexually.
| 0neutral
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One which can be readily distinguished from all others in a significant way, and will reliably sexually reproduce others like itself.
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All vertebrates reproduce sexually.
| 0neutral
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Plants can reproduce one of two ways, sexually or asexually.
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All vertebrates reproduce sexually.
| 0neutral
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The New Mexico Whiptail lizard cannot sexually reproduce because they are all females.
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All vertebrates reproduce sexually.
| 0neutral
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The most advanced of the plants have their own way of sexually reproducing.
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All vertebrates reproduce sexually.
| 0neutral
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They reproduce sexually, and they reproduce asexually.
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All vertebrates reproduce sexually.
| 0neutral
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This small flower like nearly all plants reproduces sexually.
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All vertebrates reproduce sexually.
| 0neutral
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To be sure, in sexually reproducing organisms, not all genes get into all gametes.
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All vertebrates reproduce sexually.
| 0neutral
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Vertebrates reproduce sexually, and almost all of them have separate male and female sexes.
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All vertebrates reproduce sexually.
| 1entails
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it is easily maintained in culture and reproduces sexually, to produce a tailed swimming larva with a vertebrate body plan, and vegetatively by budding.
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All vertebrates reproduce sexually.
| 0neutral
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The juvenile worm migrates through the host's body and finally ends up in the host's small intestine where it grows to sexual maturity.
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In intestines human organ do the juveniles develop into sexually mature adults.
| 1entails
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The metacercaria is released in the intestine and migrates to the lungs to mature into an adult.
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In intestines human organ do the juveniles develop into sexually mature adults.
| 0neutral
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4) Chromosomes duplicated during interphase (time between mitoses).
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The chromosomes duplicate in the interphase phase.
| 1entails
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Cells in G1 of Interphase are diploid do not have duplicated chromosomes because they have not been through the S phase of the cell cycle.
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The chromosomes duplicate in the interphase phase.
| 0neutral
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Cells in G1 of Interphase do not have duplicated chromosomes because they have not been through the S phase of the cell cycle.
|
The chromosomes duplicate in the interphase phase.
| 0neutral
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Cells in G2 of Interphase have duplicated chromosomes because they have just been through the S phase of the cell cycle.
|
The chromosomes duplicate in the interphase phase.
| 0neutral
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Chromosome domains in nuclei of human interphase lymphocytes.
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The chromosomes duplicate in the interphase phase.
| 0neutral
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Chromosomes replicate in Interphase to produce two sister chromatids .
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The chromosomes duplicate in the interphase phase.
| 1entails
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D chromosome interactions in the Drosophila interphase nucleus.
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The chromosomes duplicate in the interphase phase.
| 0neutral
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DNA is duplicated during interkinesis, but not during interphase.
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The chromosomes duplicate in the interphase phase.
| 0neutral
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Detection of the Philadelphia chromosome in interphase nuclei.
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The chromosomes duplicate in the interphase phase.
| 0neutral
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Each daughter cell (with 23 chromosomes each consisting of two chromatids) then enters interphase, during which there is no duplication of the DNA.
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The chromosomes duplicate in the interphase phase.
| 0neutral
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Fluorescence in situ hybridization (FISH) A molecular cytogenetic technique using a specific DNA probe to hybridize the chromosome spread (interphase or metaphase) to detect a mutation (deletion or duplication) that may not be visible by routine cytogenetic methods.
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The chromosomes duplicate in the interphase phase.
| 0neutral
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In stage one, Interphase, the chromosomes duplicate, or make a copy.
|
The chromosomes duplicate in the interphase phase.
| 1entails
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Interphase is the cell cycle stage between mitotic divisions during which cell growth and chromosome duplication occurs.
|
The chromosomes duplicate in the interphase phase.
| 1entails
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Interphase pairing A weak chromosome pairing interaction occurs even in interphase cells.
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The chromosomes duplicate in the interphase phase.
| 0neutral
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It is as though reduction in levels of the 23C gamma-tubulin lead to a limited numbers of chromosome duplication cycles in the absence of mitosis, but this is followed by interphase cell cycle arrest.
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The chromosomes duplicate in the interphase phase.
| 0neutral
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Since the DNA has already been duplicated during the interphase, each chromatid consists of two chromosomes connected by a centromere.
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The chromosomes duplicate in the interphase phase.
| 1entails
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The phases of interphase are G1, S and G2.
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The chromosomes duplicate in the interphase phase.
| 0neutral
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These can be used both on metaphase chromosomes and interphase nuclei.
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The chromosomes duplicate in the interphase phase.
| 0neutral
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While germ cells are in interphase, each chromosome is duplicated by a process called DNA replication ;
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The chromosomes duplicate in the interphase phase.
| 1entails
|
FUSION For the purpose of this class, is a nuclear reaction in which light nuclei combine to form a nucleus of a heavier mass number.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 1entails
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Fusion Nuclear fusion is a type of nuclear reaction in which two atomic nuclei combine to form a heavier nucleus, releasing energy.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 1entails
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If the nucleus is broken apart, or split, it releases energy in a process called nuclear fission.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 0neutral
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NUCLEAR ENERGY 8.1 ENERGY FROM NUCLEAR FUSION The nucleus of a hydrogen atom is a single proton.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 0neutral
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Nuclear energy is produced by the conversion of a small amount of the mass of the nucleus of an atom into energy.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 0neutral
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Nuclear fusion is when two or more light nuclei join together to form a heavier nucleus, releasing energy in the process.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 1entails
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The Nuclear Debris Created For low-energy fission, the nucleus divides in two, typically producing a light fragment and a heavy fragment as fission products.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 0neutral
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The Nucleus and Nuclear Energy CH18.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 0neutral
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This is because stars get their energy from the process of nuclear fusion (two nuclei joining to form one heavier nucleus and releasing large amounts of energy).
|
In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 1entails
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When the nucleus of an atom splits, nuclear energy is produced in the form of heat energy and light energy.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 0neutral
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energy is produced through the fusion of a fourth hydrogen nucleus to release a helium nucleus (alpha particle) and the original carbon isotope.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 0neutral
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nuclear (energy stored in the nucleus of an atom);
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 0neutral
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nuclear fusion -- the binding of two light nuclei to form a heavier nucleus with some nuclear mass converted to energy.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 1entails
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nuclear fusion A nuclear process that releases energy when lightweight nuclei combine to form heavy-weight nuclei.
|
In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 1entails
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the fusion of two protons into a helium nucleus.
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In the nuclear fusion process, two light nuclei combine to produce a heavier nucleus and great energy.
| 0neutral
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In metaphase I, pairs of chromosomes (each with sister chromatids) line up.
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In metaphase ii stage, chromosomes line up one on top of each other along the middle of the cell, similar to how they line up in mitosis.
| 0neutral
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In mitosis, there is no pairing of homologs at all -- chromosomes do line up at metaphase, but not in pairs.
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In metaphase ii stage, chromosomes line up one on top of each other along the middle of the cell, similar to how they line up in mitosis.
| 0neutral
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Meiosis I is very similar to Mitosis, in which Prophase I involves the nucleus disappearing, Metaphase I involves the chromosomes lining up in the middle, and so on.
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In metaphase ii stage, chromosomes line up one on top of each other along the middle of the cell, similar to how they line up in mitosis.
| 0neutral
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Metaphase 2- When chromosomes line up in the center of the cell.
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In metaphase ii stage, chromosomes line up one on top of each other along the middle of the cell, similar to how they line up in mitosis.
| 1entails
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Metaphase chromosomes differ from one another in size and shape, and the absolute length of any one chromosome varies depending on the stage of mitosis in which it was fixed.
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In metaphase ii stage, chromosomes line up one on top of each other along the middle of the cell, similar to how they line up in mitosis.
| 0neutral
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