superoxide dismutase

The Effect of Plant Growth Promoting Rhizobacteria Bacillus thuringiensis LKT25 on Cadmium Accumulation and Physiological Responses in Solanum nigrum L

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Scientists discovered a beneficial bacterium called Bacillus thuringiensis LKT25 that helps black nightshade plants absorb cadmium from contaminated soil more effectively. When this bacterium is applied to the plant roots, it boosts plant growth and activates the plant’s natural defense systems against heavy metal toxicity. In tests with moderately contaminated soil, the bacterial treatment improved cadmium removal by nearly 50%, making it a promising solution for cleaning up polluted agricultural lands.

Comparative Genomics and Phylogenomics of Novel Radiation-Resistant Bacterium Paracoccus qomolangmaensis sp. nov. S3-43T, Showing Pyrethroid Degradation

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Scientists discovered a new type of bacteria called Paracoccus qomolangmaensis living on Mount Everest at extreme altitude where radiation is 10-20 times stronger than at sea level. This remarkable bacterium can survive intense radiation, oxidative stress, and can degrade harmful pesticides called pyrethroids. The bacteria’s genome contains special genes for repairing DNA damage and protecting itself from oxidative stress, making it a valuable resource for understanding how life survives in extreme conditions and potentially cleaning up pesticide contamination.

Bioactive Compound: superoxide dismutase

The Effect of Plant Growth Promoting Rhizobacteria Bacillus thuringiensis LKT25 on Cadmium Accumulation and Physiological Responses in Solanum nigrum L

Comparative Genomics and Phylogenomics of Novel Radiation-Resistant Bacterium Paracoccus qomolangmaensis sp. nov. S3-43T, Showing Pyrethroid Degradation