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Products distribution and contribution of (de)chlorination, hydroxylation and coupling reactions to 2,4-dichlorophenol removal in seven oxidation systems.
- Xiaoxue Pan, Junyan Wei, Mengting Zou, J. Chen, Ruijuan Qu, Zunyao Wang
- MedicineWater research
- 8 February 2021
Investigation of the transformation behavior of 2,4-dichlorophenol in seven different reaction systems revealed that complete removal could be reached in minutes, especially for Fe(VI), KMnO4, NaClO, Fenton and O3 system.
Effective degradation of 2,4-dihydroxybenzophenone by zero-valent iron powder (Fe0)-activated persulfate in aqueous solution: Kinetic study, product identification and theoretical calculations.
It is illustrated that BP-1 could be efficiently degraded in the Fe0/PS system, which may provide new insights into the removal of benzophenones in water and wastewater.
The S. pombe mitochondrial transcriptome.
This work uncovers the complexity of a fungal mitochondrial transcriptome and provides a framework for future studies of mitochondrial gene expression using S. pombe as a model system.
The fission yeast Schizosaccharomyces pombe Mtf2 is required for mitochondrial cox1 gene expression.
The results suggest that unlike its counterpart in S. cerevisiae which plays a general role in synthesis of mtDNA-encoded proteins, S. pombe Mtf2 primarily functions in cox1 translation and the effect of mtf2 deletion on splicing of introns in mtDNA is likely due to a deficiency in the synthesis of intron-encoding maturases.