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Bacterial extrachromosomal elements role in chemical detoxification and potential cancer therapy /

Table of Contents: “…Contents: Examples of degradative plasmids -- Xylene and toluene degradation by TOL plasmids -- The chloro-catechol orthocleavage pathway -- Catabolic pathways/genes in 2,4-D degradation -- Chemostatic evolution of 2,4,5-T degradative genes -- Unusual genomic structure of the 2,4,5-T genes -- Sequence characteristics of the clc element -- Evolution of s-triazine degradative plasmids -- Azurin interaction with different targets -- Structural features of azurin and immunoglobulins -- Secretion of azurin upon exposure to cancer cells -- Sequences in released extrachromosomal DNA -- Released CpG-rich DNA has anti-tumor activity.…”
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Bacterial extrachromosomal elements role in chemical detoxification and potential cancer therapy /

Table of Contents: “…Contents: Examples of degradative plasmids -- Xylene and toluene degradation by TOL plasmids -- The chloro-catechol orthocleavage pathway -- Catabolic pathways/genes in 2,4-D degradation -- Chemostatic evolution of 2,4,5-T degradative genes -- Unusual genomic structure of the 2,4,5-T genes -- Sequence characteristics of the clc element -- Evolution of s-triazine degradative plasmids -- Azurin interaction with different targets -- Structural features of azurin and immunoglobulins -- Secretion of azurin upon exposure to cancer cells -- Sequences in released extrachromosomal DNA -- Released CpG-rich DNA has anti-tumor activity.…”
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Bacterial extrachromosomal elements role in chemical detoxification and potential cancer therapy /

Table of Contents: “…Contents: Examples of degradative plasmids -- Xylene and toluene degradation by TOL plasmids -- The chloro-catechol orthocleavage pathway -- Catabolic pathways/genes in 2,4-D degradation -- Chemostatic evolution of 2,4,5-T degradative genes -- Unusual genomic structure of the 2,4,5-T genes -- Sequence characteristics of the clc element -- Evolution of s-triazine degradative plasmids -- Azurin interaction with different targets -- Structural features of azurin and immunoglobulins -- Secretion of azurin upon exposure to cancer cells -- Sequences in released extrachromosomal DNA -- Released CpG-rich DNA has anti-tumor activity.…”
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