The World of the Cell |
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Page 267
... carbon dioxide is the im- portant end product . The yeast cells that are added to bread dough function anaerobically , generating both car- bon dioxide and ethanol . The carbon dioxide becomes entrapped within the mass of dough ...
... carbon dioxide is the im- portant end product . The yeast cells that are added to bread dough function anaerobically , generating both car- bon dioxide and ethanol . The carbon dioxide becomes entrapped within the mass of dough ...
Page 337
... carbon through the cycle , the incom- ing carbon ( from the newly fixed carbon dioxide molecule ) is shown in colored type . Note that the carbon atom released to the Calvin cycle in step HS - 4 is the same as that fixed as carbon dioxide ...
... carbon through the cycle , the incom- ing carbon ( from the newly fixed carbon dioxide molecule ) is shown in colored type . Note that the carbon atom released to the Calvin cycle in step HS - 4 is the same as that fixed as carbon dioxide ...
Page 342
... carbon dioxide in reaction GP - 3 . Photorespiration We can now summarize the role of glycolate in plant cell metabolism . The glycolate pathway is characterized by an uptake of oxygen ( reaction GP - 1 ) and an evolution of car- bon ...
... carbon dioxide in reaction GP - 3 . Photorespiration We can now summarize the role of glycolate in plant cell metabolism . The glycolate pathway is characterized by an uptake of oxygen ( reaction GP - 1 ) and an evolution of car- bon ...
Contents
p 336 Figure 148 Chapter 16 p 491 Figure | 5 |
Deepetching Chapter 18 Figure 1810 Appendix | 13 |
Problem Set | 14 |
Copyright | |
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Common terms and phrases
actin activity amino acids animal cells antibodies antigen axon bacterial cell bilayer binding biology bond brane calcium called carbon atom cell cycle cellular CHâ‚‚ CH2 CH2 chain Chapter chemical chloroplast chromatids chromosomes codon coenzyme concentration contain cytoplasm DNA molecule electron transport embryo enzyme eukaryotic eukaryotic cells example factor fatty acids filaments function gene genetic genome glucose Golgi complex gradient haploid hormone hydrogen hydrolysis initial intracellular involved ions kinase lipid lysosomes mechanism meiosis metabolism microfilaments micrograph microscope microtubules mitochondrion mitosis molecular molecules mRNA muscle mutations myosin NADH nuclear nucleotide nucleus occur operon organelles organisms oxidation oxygen pathway peptide peroxisomes phage phosphate phosphorylation plant plasma membrane polar polypeptide potential prokaryotic proteins proton pyruvate reaction receptor regulation replication ribosomes RNA polymerase role sequence shown in Figure sodium specific sperm strand structure substrate subunits surface synthesis tissue transcription tRNA tumor vesicles