Biochemistry, Fifth Edition, Del 1–34W. H. Freeman, 15. feb. 2002 - 974 sider With the addition of two new authors, Jeremy Berg of the Johns Hopkins University School of Medicine and John Tymoczko of Carleton College, Lubert Stryer's Biochemistry takes a new direction, as it becomes the first text to fully reflect the revolution that has taken place in biomedical science in the past ten years, culminating in the human genome project. Biochemistry, 5e is the first edition to be fully integrated with multimedia! The Conceptual Insights and Structural Insights Tutorials, written by Neil D. Clarke of the Johns Hopkins University School of Medicine, as well as the Living Figures are all identified in your text by a special media icon. |
Indhold
Prelude | 3 |
Can Fold into Regular Structures Such as the Alpha Determined by Mass Spectrometry | 4 |
holesterol by | 6 |
Copyright | |
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Biochemistry, Fifth Edition, Del 1–34 Jeremy M. Berg,John L. Tymoczko,Lubert Stryer Uddragsvisning - 2002 |
Biochemistry, Fifth Edition, Del 1–34 Jeremy M. Berg,John L. Tymoczko,Lubert Stryer Uddragsvisning - 2002 |
Biochemistry, Fifth Edition, Del 1–34 Jeremy M. Berg,John L. Tymoczko,Lubert Stryer Uddragsvisning - 2002 |
Almindelige termer og sætninger
acetyl CoA active acyl allosteric amino acid amino acid sequence antibody aspartate ATP synthase base pairs binding Biochem Biol biosynthesis bond carbon atoms carboxyl catalyzed cell CH2OH channel CHAPTER cholesterol citric acid cycle cleavage cleaved coli complex concentration contains covalent cytochrome cytosol degradation dehydrogenase DNA molecules domain electron enzyme eukaryotes FADH2 fatty acid Figure formation fructose function gene genetic genome glucose 6-phosphate glutamate glutamine glyceraldehyde 3-phosphate glycogen glycolysis gradient H H H H+ H+ H₂O helix hemoglobin hormone hydrogen hydrolysis inhibition inhibitor interactions intermediate kJ mol¯¹ lipids liver mechanism membrane metabolism mitochondrial molecular molecules mRNA mutation NAD+ NADH NADPH nucleotide oxaloacetate oxidation oxygen pathway peptide phosphate protein kinase proton pyruvate reaction receptor reductase regulation replication residues ribose ribosome RNA polymerase Section serine side chains signal specific splicing strand structure substrate subunit synthesis synthetase template tion transcription transfer tRNA