Biology, Pages 82-91 |
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Page 78
Even when scientists have an actual protein in hand , determining its exact three - dimensional structure is not simple , for a single protein molecule is built of thousands of atoms . X - ray crystallography 78.
Even when scientists have an actual protein in hand , determining its exact three - dimensional structure is not simple , for a single protein molecule is built of thousands of atoms . X - ray crystallography 78.
Page 79
built of thousands of atoms . X - ray crystallography is an important method used to determine a protein's three - dimensional structure ( Figure 5.24 ) . Another method that has recently been applied to this problem is nuclear magnetic ...
built of thousands of atoms . X - ray crystallography is an important method used to determine a protein's three - dimensional structure ( Figure 5.24 ) . Another method that has recently been applied to this problem is nuclear magnetic ...
Page 90
So far , we have built a nucleoside . To complete the construction of a nucleotide , we attach a phosphate group to the 5 ' carbon of the sugar ( see Figure 5.26b ) . The molecule is $ now a nucleoside monophosphate , better known as a ...
So far , we have built a nucleoside . To complete the construction of a nucleotide , we attach a phosphate group to the 5 ' carbon of the sugar ( see Figure 5.26b ) . The molecule is $ now a nucleoside monophosphate , better known as a ...
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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