Lumping Kinetic Model

Temporal transcriptomic response during arsenic stress in Herminiimonas arsenicoxydans

Kinetics / Arsenic / Biological Sciences / Movement / Stress response / Cluster Analysis / Enzyme / Time Factors / Arsenic Contamination / Physiological Stress Markers / Lumping Kinetic Model / Oxidation-Reduction / Gene expression profiling / Cluster Analysis / Enzyme / Time Factors / Arsenic Contamination / Physiological Stress Markers / Lumping Kinetic Model / Oxidation-Reduction / Gene expression profiling

Temporal transcriptomic response during arsenic stress in Herminiimonas arsenicoxydans

Kinetics / Arsenic / Biological Sciences / Movement / Stress response / Cluster Analysis / Enzyme / Time Factors / Arsenic Contamination / Physiological Stress Markers / Lumping Kinetic Model / Oxidation-Reduction / Gene expression profiling / Cluster Analysis / Enzyme / Time Factors / Arsenic Contamination / Physiological Stress Markers / Lumping Kinetic Model / Oxidation-Reduction / Gene expression profiling

Temporal transcriptomic response during arsenic stress in Herminiimonas arsenicoxydans

Kinetics / Arsenic / Biological Sciences / Movement / Stress response / Cluster Analysis / Enzyme / Time Factors / Arsenic Contamination / Physiological Stress Markers / Lumping Kinetic Model / Oxidation-Reduction / Gene expression profiling / Cluster Analysis / Enzyme / Time Factors / Arsenic Contamination / Physiological Stress Markers / Lumping Kinetic Model / Oxidation-Reduction / Gene expression profiling

Peritoneal dialysis adequacy: A model to assess feasibility with various modalities

Kinetics / Humans / Kidney / Female / Male / Urea / Renal Function / Clinical Sciences / Peritoneal Dialysis / Anuria / Lumping Kinetic Model / Peritoneum / Urea / Renal Function / Clinical Sciences / Peritoneal Dialysis / Anuria / Lumping Kinetic Model / Peritoneum

Copyright © 2017 DADOSPDF Inc.