Biology, Pages 82-91 |
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Page 71
You already know most of the answer : A polypeptide chain of a given amino acid sequence can spontaneously arrange itself into a three - dimensional shape determined and maintained by the interactions responsible for secondary 71.
You already know most of the answer : A polypeptide chain of a given amino acid sequence can spontaneously arrange itself into a three - dimensional shape determined and maintained by the interactions responsible for secondary 71.
Page 95
The two polynucleotides , or strands , as they are called , are held together by hydrogen bonds between the paired bases and by van der Waals interactions between the stacked bases . Most DNA molecules are very long , with thousands or ...
The two polynucleotides , or strands , as they are called , are held together by hydrogen bonds between the paired bases and by van der Waals interactions between the stacked bases . Most DNA molecules are very long , with thousands or ...
Page 104
... are often assembled into giant molecules , but we also discovered that a macromolecule does not behave like a composite of its monomers but rather takes on additional properties owing to the interactions between those monomers .
... are often assembled into giant molecules , but we also discovered that a macromolecule does not behave like a composite of its monomers but rather takes on additional properties owing to the interactions between those monomers .
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ability Activity Adenine amino acid sequence answers antiparallel arrangement atoms attached bind Biology blood break build built called Carbohydrates carbon cause cell chaperonin chemical complementary complex components compounds Concept conformation connected consists cytoplasm denatured deoxyribose sugars determines differ directions DNA and Proteins DNA double helix DNA molecule double helix Emergent endorphins environment enzyme fats fatty acids Figure flow folding four function genes glucose glycosidic linkages guanine hemoglobin humans hydrogen bonds inheritance interactions known linked macromolecules molecular monomers mRNA nitrogenous bases normal nucleic acids nucleotides organic oxygen pairs particular pentose phosphate group polymers polynucleotide polypeptide chain primary structure production properties Protein Structure purines pyrimidine reactions result ribosomes ring secondary separated sequence of bases serve shape share sickle-cell disease simple specific starch Steroids strand sugar sugar-phosphate backbone synthesis temperature tertiary structure three-dimensional thymine 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 |