Effects of osmoprotectant compounds on NCAM polysialylation under hyperosmotic stress and elevated pCO₂

INIS

• glycine 100%
• betaine 77%
• molecules 66%
• adhesion 66%
• levels 55%
• growth 33%
• control 33%
• ovaries 33%
• chinese hamster 33%
• proline 33%
• threonine 22%
• proteins 11%
• comparative evaluations 11%
• inhibition 11%
• amino acids 11%
• concentration 11%
• increasing 11%
• indicators 11%
• ph value 11%
• organelles 11%
• sodium chlorides 11%
• hybridomas 11%
• galactosidase 11%
• chinese hamster ovary cells 11%

Chemistry

• Glycine Betaine 100%
• Polysialic Acid 85%
• Concentration 85%
• Cell Adhesion Molecules 85%
• Osmolality 57%
• L-Proline 42%
• Glycosylation 28%
• Glycine 28%
• L-Threonine 28%
• Protein 14%
• Inhibition of Growth 14%
• Amino Acid 14%
• Indicator 14%
• NaCl 14%

Neuroscience

• Neural Cell Adhesion Molecule 100%
• Hyperosmotic Stress 100%
• Trimethylglycine 77%
• Polysialic Acid 66%
• Proline 33%
• Cell Growth 22%
• Threonine 22%
• Glycosylation 22%
• Amino Acids 11%
• Protein 11%