Decolorization
of p-nitrophenol and draft
genome
sequence of Pseudomonas sp.
strain
PNPG3: A preliminary report
S.K.
Aftabul Alam and P. Saha*
Department of Microbiology, The
University of Burdwan, Burdwan-713 104, India
*Corresponding
Author Email :
psaha@microbio.buruniv.ac.in *ORCiD:
https://orcid.org/0000-0003-2113-3198
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Abstract
Aim:
To study decolorization (with concomitant depletion) of p-nitrophenol by a
bacterial strain designated as PNPG3 and determination of draft genome
sequence of the strain to understand its potential.
Methodology: A comparative study of PNP’s decolorization (with
concomitant removal) in three different test conditions was undertaken. The
experiment was carried out in one-liter volume Schott Duran bottles. Genomic
DNA was extracted and draft genome sequence was determined using Illumina
HiSeqX platform. Raw reads were assembled and subjected to subsystem
classification using several bioinformatics tools (RAST, PATRIC, and NCBI’s
PGAP pipelines). The genome sequence was deposited at the NCBI Genome
database and the strain PNPG3 was also deposited at MTCC, IMTECH, Chandigarh.
Results:
The bacterial strain PNPG3 could carry out decolorization with concomitant
removal of PNP in all three sets of experiments, including one set, where
only distilled water was used. The best decolorization (with concomitant PNP
removal) capacity was recorded for set D (with Minimal Medium, MM; PNP, and
free cells) followed by set E (MM, PNP, and immobilized cells) and set B
(distilled water, PNP and free cells) conditions. The size of the draft
genome sequence of the strain PNPG3 was 6,566,321 bp, with 62.26% GC contents.
The genome had 6210 protein-coding sequences and 66 tRNA genes. The
predictive presence of different types of proteases and siderophore receptors
indicated its possible potential for industrial applications and plant
growth-promoting activities.
Interpretation: The bacterium Pseudomonas
sp. strain PNPG3 has the capacity to decolorize p-nitrophenol even in
presence of distilled water and it remains viable for up to twelve days. The
genome sequence revealed that the strain harbored genes responsible for the
metabolism of aromatic compounds, chemotaxis, protease, and siderophore
receptors indicating the versatile nature of the strain.
Key words: Decolorization, P-nitrophenol, Pseudomonas
sp., RAST, Xenobiotic
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