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Page 20
As noted in Chapter 13 , each gene resides at a specific locus on a specific
chromosome . The DNA at that locus , however , can vary somewhat in its
sequence of nucleotides and hence in its information content . The purpleflower
allele and ...
As noted in Chapter 13 , each gene resides at a specific locus on a specific
chromosome . The DNA at that locus , however , can vary somewhat in its
sequence of nucleotides and hence in its information content . The purpleflower
allele and ...
Page 22
Thus , a genetic locus is actually represented twice in a diploid cell . The two
alleles at a particular locus may be identical , as in the truebreeding plants of
Mendel's P generation . Or the alleles may differ , as in the Fj hybrids ( see Figure
14.4 ) ...
Thus , a genetic locus is actually represented twice in a diploid cell . The two
alleles at a particular locus may be identical , as in the truebreeding plants of
Mendel's P generation . Or the alleles may differ , as in the Fj hybrids ( see Figure
14.4 ) ...
Page 79
The dominant allele , symbolized by C ( for color ) , results in the deposition of
either black or brown pigment , depending on the genotype at the first locus . But
if the mouse is homozygous recessive for the second locus ( cc ) , then the coat is
...
The dominant allele , symbolized by C ( for color ) , results in the deposition of
either black or brown pigment , depending on the genotype at the first locus . But
if the mouse is homozygous recessive for the second locus ( cc ) , then the coat is
...
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Common terms and phrases
affect appearance apply blood group breeding brown called carbohydrate chance Chapter characters chromosomes coin combinations complex Concept consider depending determine developed dihybrid disease dominant allele enzyme equal event example experiments F1 hybrids F2 offspring factor Figure Fı plants flower color four gametes garden peas genotype green heads heritable heterozygotes heterozygous homozygotes homozygous human hybrids hypothesis identical incomplete dominance independent assortment individuals inheritance law of independent law of segregation locus mated Mendel Mendelian genetics molecules monohybrid cross multiple normal observed occur organism organism's pairs parent particular pea plants phenotypic ratio pigment population possible Ppyyrr predicted present principles produced Punnett square purple flowers purple-flower range recessive allele recessive trait red blood cells refer relation represented round rules of probability seed seed shape self-pollinate separate simple single gene specific studied toss true-breeding variations varieties vary white flowers white-flower allele wrinkled YyRr
Bibliographic information
| Title | Biology, Pages 251-265 Biology, Neil A. Campbell |
| Authors | Neil A. Campbell, Jane B. Reece |
| Edition | 7 |
| Publisher | Pearson, Benjamin Cummings, 2005 |
| Original from | the University of California |
| Digitized | 29 Jul 2011 |
| ISBN | 0805367772, 9780805367775 |
| Length | 1231 pages |
| Subjects | › › Science / Life Sciences / Biology |
| Export Citation | BiBTeX EndNote RefMan |