Biology, Pages 82-91 |
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Page 96
... helix separate , and each serves as a template for the precise ordering of
nucleotides into new complementary strands ( orange ) . Each DNA strand in this
figure is the structural equivalent of the polynucleotide diagrammed in Figure
5.26a .
... helix separate , and each serves as a template for the precise ordering of
nucleotides into new complementary strands ( orange ) . Each DNA strand in this
figure is the structural equivalent of the polynucleotide diagrammed in Figure
5.26a .
Page 97
... 5 ' - AGGTCCG - 3 ' , then the base - pairing rules tell us that the same stretch of
the other strand must have the sequence 3'TCCAGGC - 5 ' . The two strands of
the double helix are complementary , each the predictable counterpart of 97.
... 5 ' - AGGTCCG - 3 ' , then the base - pairing rules tell us that the same stretch of
the other strand must have the sequence 3'TCCAGGC - 5 ' . The two strands of
the double helix are complementary , each the predictable counterpart of 97.
Page 98
double helix are complementary , each the predictable counterpart of the other . It
is this feature of DNA that makes possible the precise copying of genes that is
responsible for inheritance ( see Figure 5.27 ) . In preparation for cell division ...
double helix are complementary , each the predictable counterpart of the other . It
is this feature of DNA that makes possible the precise copying of genes that is
responsible for inheritance ( see Figure 5.27 ) . In preparation for cell division ...
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Activity amino acid sequence answers arrangement atoms bind Biology blood bonds break build built called Carbohydrates carbon cell chaperonin chemical Chemistry complementary complex components compounds Concept conformation connected consists correct cytoplasm cytosine denatured denatured protein deoxyribose sugars determines differ directions DNA and Proteins DNA double helix DNA molecule Emergent endorphins environment enzyme evolutionary fats fatty acids Figure flow folding four function genes genetic information glucose glycosidic linkages hemoglobin humans hydrogen bonds interactions joined known linked macromolecules molecular monomers mRNA nitrogenous bases normal nucleic acids nucleotides organic pairs particular pentose phosphate group polymers polynucleotide polynucleotide strand polypeptide chain primary structure production properties Protein Structure purines pyrimidine result ribosomes ring secondary separated sequence of bases serve shape share shown sickle-cell disease similar specific starch Steroids strand sugar sugar-phosphate backbone synthesis three-dimensional types unique
Bibliographic information
| Title | Biology, Pages 82-91 Biology, Neil A. Campbell |
| Author | Neil A. Campbell |
| Edition | 7 |
| Publisher | Pearson, Benjamin Cummings, 2005 |
| Original from | the University of California |
| Digitized | 29 Jul 2011 |
| Length | 1231 pages |
| Export Citation | BiBTeX EndNote RefMan |