Keyphrases
Elevated pCO2
100%
Polysialylation
100%
Glycine betaine
100%
Hyperosmotic Stress
100%
Osmoprotectants
100%
Partial Pressure of CO2 (pCO2)
85%
L1 Cell Adhesion Molecule (L1CAM)
85%
Polysialic Acid
85%
Acid Content
57%
Osmolality
57%
Chinese Hamster Ovary Cells
57%
Proline
42%
Cell Growth
28%
Threonine
28%
Glycine
28%
Glycosylation
28%
Sialylation
28%
Hyperosmolality
28%
Amino Acids
14%
Cell Culture
14%
Growth Inhibition
14%
Environmental Stress
14%
Control Condition
14%
Sodium Chloride
14%
Supernatant
14%
Condition Index
14%
Ammonium Chloride
14%
β-Galactosidase (β-Gal)
14%
PSA Level
14%
Hybridoma
14%
Alkalization
14%
Acidic Organelle
14%
Biochemistry, Genetics and Molecular Biology
Carbon Dioxide Tension
100%
Hyperosmotic Stress
100%
Neural Cell Adhesion Molecule
100%
Trimethylglycine
77%
Polysialic Acid
66%
Osmolality
44%
Chinese Hamster
44%
Proline
33%
Glycosylation
22%
Sialylation
22%
Hyperosmolality
22%
Cell Growth
22%
Threonine
22%
Environmental Stress
11%
Galactosidase
11%
Amino Acids
11%
Hybridoma
11%
Immunology and Microbiology
Carbon Dioxide Tension
100%
Hyperosmotic Stress
100%
Neural Cell Adhesion Molecule
100%
Osmolality
44%
Chinese Hamster
44%
Ovary
33%
Hyperosmolality
22%
Sialylation
22%
Cell Growth
22%
Glycosylation
22%
Ovary Cell
11%
Hybridoma
11%
Chemistry
Glycine Betaine
100%
Cell Adhesion Molecules
85%
Polysialic Acid
85%
Osmolality
57%
L-Proline
42%
L-Threonine
28%
Glycosylation
28%
Inhibition of Growth
14%
Sodium Chloride
14%
Amino Acid
14%
Protein
14%
Agricultural and Biological Sciences
Osmoprotectant
100%
Neural Cell Adhesion Molecule
100%
Polysialic Acid
66%
Chinese Hamster
33%
Proline
33%
Cell Growth
22%
Threonine
22%
Glycosylation
22%
Organelle
11%
Cultured Cells
11%
Hybridoma
11%
Galactosidase
11%
Chinese Hamster Ovary Cell
11%
Protein
11%
Pharmacology, Toxicology and Pharmaceutical Science
Nerve Cell Adhesion Molecule
100%
Trimethylglycine
77%
Polysialic Acid
66%
Chinese Hamster
44%
Proline
33%
Hyperosmolality
22%
Threonine
22%
Protein
11%
Amino Acid
11%
Galactosidase
11%