Haploid: Difference between revisions
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A haploid cell contains only one set of chromosomes and therefore has only one allele of each gene, this makes organisms made up of haploid cells good for genetic experiment because any mutations in the genome will have to be expressed as there are no other alleles to hide behind as there would be in a diploid cell. | A haploid cell contains only one set of [[Chromosome|chromosomes]] and therefore has only one [[Allele|allele]] of each gene, this makes organisms made up of haploid cells good for genetic experiment because any [[Mutation|mutations]] in the genome will have to be expressed as there are no other alleles to hide behind as there would be in a [[Diploid|diploid ]]cell. | ||
In humans gametes are the haploid cells generated by meiosis, this way when fertilization occurs the cell will have a full diploid set of chromosomes. <references /> | In humans gametes are the haploid cells generated by [[Meiosis|meiosis]], this way when fertilization occurs the cell will have a full [[Diploid|diploid]] set of [[Chromosomes|chromosomes]]. <references /> | ||
<u>'''References'''</u> | <u>'''References'''</u> | ||
Hartl Daniel L., Jones Elizabeth W., (2009), ''Genetics, Analysis of genes and genomes'', 7th edition, Canada, USA: Jones and Bartlet Publishers | Hartl Daniel L., Jones Elizabeth W., (2009), ''Genetics, Analysis of genes and genomes'', 7th edition, Canada, USA: Jones and Bartlet Publishers | ||
Revision as of 16:02, 1 December 2011
A haploid cell contains only one set of chromosomes and therefore has only one allele of each gene, this makes organisms made up of haploid cells good for genetic experiment because any mutations in the genome will have to be expressed as there are no other alleles to hide behind as there would be in a diploid cell.
In humans gametes are the haploid cells generated by meiosis, this way when fertilization occurs the cell will have a full diploid set of chromosomes.
References
Hartl Daniel L., Jones Elizabeth W., (2009), Genetics, Analysis of genes and genomes, 7th edition, Canada, USA: Jones and Bartlet Publishers