Devinder Kumar scite author profile

This paper reports the production of a cellulase-free and alkali-stable xylanase in high titre from a newly isolated Bacillus pumilus SV-85S using cheap and easily available agro-residue wheat bran. Optimization of fermentation conditions enhanced the enzyme production to 2995.20 +/- 200.00 IU/ml, which was 9.91-fold higher than the activity under unoptimized basal medium (302.2 IU/ml). Statistical optimization using response-surface methodology was employed to obtain a cumulative effect of peptone, yeast extract, and potassium nitrate (KNO(3)) on enzyme production. A 2(3) central composite design best optimized the nitrogen source at the 0 level for peptone and yeast extract and at the -alpha level for KNO(3), along with 5.38-fold increase in xylanase activity. Addition of 0.1% tween 80 to the medium increased production by 1.5-fold. Optimum pH for xylanase was 6.0. The enzyme was 100% stable over the pH range from 5 to 11 for 1 h at 37 degrees C and it lost no activity, even after 3 h of incubation at pH 7, 8, and 9. Optimum temperature for the enzyme was 50 degrees C, but the enzyme displayed 78% residual activity even at 65 degrees C. The enzyme retained 50% activity after an incubation of 1 h at 60 degrees C. Characteristics of B. pumilus SV-85S xylanase, including its cellulase-free nature, stability in alkali over a long duration, along with high-level production, are particularly suited to the paper and pulp industry.

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Synthesis, antimicrobial, and QSAR studies of substituted benzamides

Kumar

Narasimhan

Kumar

2007

Bioorganic & Medicinal Chemistry

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Evaluation of complexation of metal-mediated DNA-binding drugs to oligonucleotides via electrospray ionization mass spectrometry

Reyzer

Brodbelt²,

Kerwin³

et al. 2001

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The interactions of self-complementary oligonucleotides with a group of metal-mediated DNA-binding drugs, including chromomycin A(3), mithramycin and the novel compound UK-1, were examined via electrospray ionization quadrupole ion trap mass spectrometry. Both chromomycin and mithramycin were shown to bind preferentially to GC-rich oligonucleotide duplexes in a 2:1 drug:metal ratio, while UK-1 was shown to bind in a 1:1 drug:metal stoichiometric ratio without a strong sequence preference. These trends were observed in the presence of Co(2+), Ni(2+) and Zn(2+), with the exception that chromomycin-Zn(2+) complexes were not readily observed. The binding stoichiometries as well as the sequence specificities are in agreement with literature reports for solution studies. Binding selectivities and stabilities of the complexes were also probed using electrospray ionization mass spectrometry. Both of the GC-rich oligomers 5'-GCGCGC-3' and 5'-GCGCATGCGC-3' exhibited a binding preference for chromomycin over mithramycin in the presence of Co(2+) and Ni(2+). Energy-variable collisionally activated dissociation of the complexes was employed to determine the stabilities of the complexes. The relative metal-dependent binding energies were Ni(2+) > Zn(2+) > Co(2+) for UK-1-oligomer complexes and Ni(2+) > Co(2+) for both mithramycin and chromomycin complexes.

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Taxol–DNA interactions: fluorescence and CD studies of DNA groove binding properties of taxol

Krishna

Kumar

Khan

et al. 1998

Biochimica et Biophysica Acta (BBA) - General Subjects

108

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Devinder Kumar

Synthesis and evaluation of anticancer benzoxazoles and benzimidazoles related to UK-1

Production and optimization of cellulase-free, alkali-stable xylanase by Bacillus pumilus SV-85S in submerged fermentation

Synthesis, antimicrobial, and QSAR studies of substituted benzamides

Evaluation of complexation of metal-mediated DNA-binding drugs to oligonucleotides via electrospray ionization mass spectrometry

Taxol–DNA interactions: fluorescence and CD studies of DNA groove binding properties of taxol

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