Recent advances in degradation of chloronitrophenols.

Chloronitrophenols (CNPs) constitute a group of environmental pollutants that are widely distributed in our surrounding environment due to human based activities. This group of chemicals is highly toxic to living beings due to its mutagenic and carcinogenic nature. Examples include 2-chloro-4-nitrophenol, 4-chloro-2-nitrophenol, 2-chloro-5-nitrophenol, 4-chloro-3-nitrophenol and 2,6-dichloro-4-nitrophenol. Several methods including advanced oxidation processes, adsorption and bacterial degradation have been used for degradation of CNPs. Among, bacterial degradation is an eco-friendly and effective way to degrade CNPs. Several bacterial metabolic pathways have been proposed for degradation of CNPs and their genes and enzymes have been identified in bacteria. These bacteria were able to degrade CNPs in broth culture and soil. Therefore, CNPs-degrading bacteria are suitable candidates for bioremediation of CNPs-contaminated sites. Few CNP-degrading bacteria exhibited chemotaxis towards CNPs to enhance their biodegradation. The present review summarizes recent progress in degradation of CNPs.

Molecular characterization of Cucumber mosaic virus infecting Gladiolus, revealing its phylogeny distinct from the Indian isolate and alike the Fny strain of CMV.

The majority of Gladiolus plants growing in the botanical garden at NBRI, Lucknow, India and adjoining areas exhibited symptoms of mosaic, color breaking, stunting of spikes and reduction in flower size. The occurrence of Cucumber mosaic virus (CMV) was suspected in symptomatic Gladiolus plants. Cucumber mosaic virus, the type species of the genus Cucumovirus of the family Bromoviridae, is an important plant virus worldwide, which infects many plants and causes quantity and quality losses. For virus characterization, total RNA was isolated from leaves of infected plants and used in reverse transcriptase polymerase chain reaction with a primer set designed in the Cucumber mosaic virus coat protein region. Viral amplicons of the expected 657 bp size were obtained from infected plants. No viral amplicon was obtained from healthy control plants. Viral amplicons were cloned and sequenced (DQ295914). Molecular characterization was performed and phylogenetic relationship determined by the comparison of coat protein gene nucleotide and amino acid sequences with other Cucumber mosaic virus isolates reported from India and worldwide. The nucleotide and amino acid percentage comparison and phylogenetic tree results revealed that Cucumber mosaic virus infecting Gladiolus show resemblance with the Fny strain, which is not common in the Asian continent.