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Chromosome 4 is one of the 23 pairs of chromosomes in humans.
Humans have 23 pairs pairs of chromosomes.
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Chromosome 5 is one of the 23 pairs of chromosomes in humans.
Humans have 23 pairs pairs of chromosomes.
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Each human cell contains 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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Each normal human has 23 pairs of chromosomes;
Humans have 23 pairs pairs of chromosomes.
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Human beings have 23 pairs chromosomes in each cell.
Humans have 23 pairs pairs of chromosomes.
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Human beings have 46 chromosomes, arranged in 23 pairs.
Humans have 23 pairs pairs of chromosomes.
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Human cells have 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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Humans have 23 pair of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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Humans have 23 pairs of chromosomes (46 in all).
Humans have 23 pairs pairs of chromosomes.
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Humans have 23 pairs of chromosomes (one set from each parent).
Humans have 23 pairs pairs of chromosomes.
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Humans have 23 pairs of chromosomes in the nucleus of every cell.
Humans have 23 pairs pairs of chromosomes.
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Humans have 23 pairs of chromosomes in their bodies.
Humans have 23 pairs pairs of chromosomes.
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Humans have 23 pairs of chromosomes, 46 in all.
Humans have 23 pairs pairs of chromosomes.
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Humans have 23 pairs of chromosomes, which makes the diploid number 46.
Humans have 23 pairs pairs of chromosomes.
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Humans have 46 chromosomes arranged in 23 pairs.
Humans have 23 pairs pairs of chromosomes.
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Humans have 46 chromosomes in each cell of their body, or 23 pairs.
Humans have 23 pairs pairs of chromosomes.
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Humans have 46 chromosomes that are organized into 23 pairs.
Humans have 23 pairs pairs of chromosomes.
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Humans have about 100,000 genes in 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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Humans have only 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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In a human cell there are 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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In humans the sex chromosomes comprise one pair of the total of 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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In humans there are 46 chromosomes, or 23 homologous pairs.
Humans have 23 pairs pairs of chromosomes.
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In humans, DNA is organized into 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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In humans, our cells have 23 pairs of chromosomes, and each chromosome within a pair is called a homologous chromosome.
Humans have 23 pairs pairs of chromosomes.
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In humans, there are 23 pairs of chromosomes in a normal karotype.
Humans have 23 pairs pairs of chromosomes.
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In humans, we have 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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In the human organism, DNA is organized into 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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The code for a human being is contained in 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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The four species have a similar number of chromosomes, with the apes all having 24 pairs, and humans having 23 pairs.
Humans have 23 pairs pairs of chromosomes.
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The number of chromosomal pairs varies by species, humans have 23 pairs, horses have 32 pairs or 64 chromosomes.
Humans have 23 pairs pairs of chromosomes.
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We have 46 chromosomes, or 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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humans normally have 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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people have 23 pairs of chromosomes.
Humans have 23 pairs pairs of chromosomes.
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4 pair of walking legs (spiders have 8 legs) Arachnids are spiders, scorpions, ticks, mites, daddy-long-legs Most are carnivorous.
Arachnids have 4 pairs of legs.
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All arachnids have 4 pairs of walking legs and fangs (chelicerae) adapted for liquid feeding instead of jaws or other types of feeding structures.
Arachnids have 4 pairs of legs.
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Arachnids are arthropods that have 4 pairs of legs.
Arachnids have 4 pairs of legs.
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Arachnids have 4 pairs of walking legs, usually 7-segmented.
Arachnids have 4 pairs of legs.
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Spiders have 4 pairs of legs, and two body segments.
Arachnids have 4 pairs of legs.
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They are notable for their long bodies and for having many pairs of legs.
Arachnids have 4 pairs of legs.
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Ticks are not bugs, they are arachnids, which means they have 8 legs.
Arachnids have 4 pairs of legs.
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Because many early geneticists believed that there were only two possible alternatives for a gene "good" alleles that functioned normally and "bad" alleles that didn't they expected to find little genetic variability in a population.
The majority of human genes have two or more possible alleles.
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Depending on the mix of alleles for the two genes, you could have only one possible gamete, or as many as four.
The majority of human genes have two or more possible alleles.
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For example, the allele for blue eyes in humans and the allele for brown eyes are two alleles of the eye color gene.
The majority of human genes have two or more possible alleles.
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For example, two humans will both have human genes for eye color, blood type, etc., but they may have different alleles of the genes.
The majority of human genes have two or more possible alleles.
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Heterozygous Having two different alleles of the same gene .
The majority of human genes have two or more possible alleles.
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Many genes have multiple (more than two) alleles.
The majority of human genes have two or more possible alleles.
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Nonetheless, some rare major-gene effects may be found in some families, just as hundreds of rare single-gene mutations have been found that cause neurological defects in mice and more than a hundred rare alleles are known for human beings that drastically lower IQ scores in affected individuals.
The majority of human genes have two or more possible alleles.
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QTLs are conventional genes that have two or more alleles that contribute to quantitative variation of specific traits (Roff 1997;
The majority of human genes have two or more possible alleles.
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The majority of human genes have two or more possible alleles.
The majority of human genes have two or more possible alleles.
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This is because many more combinations of alleles are possible.
The majority of human genes have two or more possible alleles.
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Two genes each have two alleles.
The majority of human genes have two or more possible alleles.
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Typically genes have two alleles, but in this case there are three;
The majority of human genes have two or more possible alleles.
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Carbon has six protons and six electrons.
Carbon atoms have six protons and electrons each.
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Carbon is composed of six protons, six neutrons and six electrons.
Carbon atoms have six protons and electrons each.
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For instance, carbon has an atomic number of six and therefore has six protons and six electrons.
Carbon atoms have six protons and electrons each.
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So, if an atom had six protons, it should also have six electrons.
Carbon atoms have six protons and electrons each.
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The combination of six protons, six neutrons and six electrons makes carbon.
Carbon atoms have six protons and electrons each.
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The element with six protons and six electrons is called carbon.
Carbon atoms have six protons and electrons each.
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This crude model is that of the element carbon, with six protons, six neutrons, and six electrons.
Carbon atoms have six protons and electrons each.
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At this time, there are about three times as many protons as neutrons.
There are three quarks in each proton and neutron.
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Both the proton and neutron are made of three quarks.
There are three quarks in each proton and neutron.
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Each proton and each neutron contains three quarks.
There are three quarks in each proton and neutron.
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Each proton and neutron, in turn, consists of three smaller quarks bound together by other particles known as gluons.
There are three quarks in each proton and neutron.
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Each proton consists of a least three quarks.
There are three quarks in each proton and neutron.
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Each proton or neutron incorporates three quarks.
There are three quarks in each proton and neutron.
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For protons and neutrons, anomalous magnetic moments are big, as expected for these particles, which are each built from three quarks.
There are three quarks in each proton and neutron.
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Gell-Mann believed that each proton and each neutron is made up of three even smaller particles -- particles he named quarks.
There are three quarks in each proton and neutron.
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In actual fact, the nucleons (protons and neutrons) are each composed of three elementary particles called 'quarks' that have fractional charges.
There are three quarks in each proton and neutron.
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It takes three quarks, one of each 'color', to make up a proton or neutron.
There are three quarks in each proton and neutron.
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Like the proton and other baryons, the neutron consists of three quarks .
There are three quarks in each proton and neutron.
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Neutrons and protons are hadrons that are thought to be composed of three quarks each.
There are three quarks in each proton and neutron.
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Neutrons and protons each contain three quarks.
There are three quarks in each proton and neutron.
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Ordinary matter consists of electrons surrounding the nucleus, which is composed of neutrons and protons, each of which is believed to contain three quarks.
There are three quarks in each proton and neutron.
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Particles like neutrons & protons are hadrons, and each hadron is composed of three quarks.
There are three quarks in each proton and neutron.
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Protons and neutrons are composed of three quarks apiece, bound together by gluons.
There are three quarks in each proton and neutron.
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Protons and neutrons are composed of three quarks each.
There are three quarks in each proton and neutron.
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Protons and neutrons are each made of three quarks.
There are three quarks in each proton and neutron.
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Protons and neutrons are made of three quarks, and mesons, like pions, are made of quark-antiquark pairs ( see Fig.
There are three quarks in each proton and neutron.
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The quarks clumped in threes to form protons and neutrons .
There are three quarks in each proton and neutron.
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The three valence quarks in the proton include two up quarks and a down quark, while the neutron valence quarks include two downs and an up.
There are three quarks in each proton and neutron.
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There are three quarks in each proton and neutron.
There are three quarks in each proton and neutron.
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Up and down quarks group together in threes to produce protons and neutrons.
There are three quarks in each proton and neutron.
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While protons and neutrons are each made of three quarks, their component quarks are different.
There are three quarks in each proton and neutron.
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writeln(' Gell-Mann believed that each proton and each neutron is made up of three even smaller particles -- particles he named quarks.
There are three quarks in each proton and neutron.
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Antibodies are custom designed to neutralize or disintegrate one specific type of antigen.
An antibody can match one types of antigens.
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Antibodies are specific for only one antigen.
An antibody can match one types of antigens.
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Antibodies are very specific and will match the antigen on only one specific germ, similar to a lock and key.
An antibody can match one types of antigens.
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Antigens can be detected about one week earlier than antibodies.
An antibody can match one types of antigens.
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Each antibody can bind only to one specific antigen.
An antibody can match one types of antigens.
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Each antibody can bind to only one specific antigen.
An antibody can match one types of antigens.
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Each antibody is specialised to recognise only one type of antigen.
An antibody can match one types of antigens.
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Each type of B cell makes one specific antibody, which recognizes one specific antigen.
An antibody can match one types of antigens.
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Each type of antibody formed in this complicated interaction is highly specific and able to identify and destroy only one antigen.
An antibody can match one types of antigens.
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For pathogens that are antigenically variable, one solution is to use antibody cocktails of agents active against the most common antigenic types.
An antibody can match one types of antigens.
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Heterophile antibodies are so-named because they can react with antigens from unrelated species, it is one of the many products of EBV infection.
An antibody can match one types of antigens.
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However, if too many antibodies are present that can bind to the antigen, then the antigenic sites are coated by antibodies, and few or no antibodies directed toward the pathogen are able to bind more than one antigenic particle.
An antibody can match one types of antigens.
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However, if we add just one additional antibody specificity , then we can theoretically build an endless chain consisting of many, many antibody and antigen molecules non-covalently linked to one another.
An antibody can match one types of antigens.
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Monoclonal Antibodies or MAb An antibody that recognizes only one type of antigen.
An antibody can match one types of antigens.
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Monoclonal antibodies that consist of only one type of antibody tend to provide greater antigen specificity, and also tend to be more consistent between batches.
An antibody can match one types of antigens.
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One antibody is specifically designed to attack one antigen.
An antibody can match one types of antigens.
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