Glutathione-induced recovery in chlorella cells from metal toxicity

Engineering & Materials Science

• Glutathione 100%
• Toxicity 64%
• Zinc 58%
• Nickel 50%
• Bioremediation 44%
• Copper 44%
• Chlorophyll 43%
• Algae 37%
• Recovery 36%
• Heavy metals 35%
• Metals 34%
• Ecosystems 29%

Earth & Environmental Sciences

• tolerance 48%
• nickel 47%
• zinc 44%
• toxicity 40%
• copper 38%
• ecotype 36%
• cell 33%
• metal 32%
• bioremediation 26%
• viability 25%
• chlorophyll 25%
• alga 22%
• heavy metal 19%
• ecosystem 15%
• effect 6%

Chemical Compounds

• Glutathione 48%
• Inhibitory Concentration 34%
• Ecosystem 32%
• Chlorophyll 29%
• Metal 24%
• Heavy Metal 22%
• Resistance 17%
• Application 8%