NATURAL HYBRIDIZATION BETWEEN THE SYMPATRIC HAWAIIAN SPECIES
            <i>DROSOPHILA SILVESTRIS</i>
            AND
            <i>DROSOPHILA HETERONEURA</i>

Proteases are one of the largest groups of hydrolytic enzymes constituting about 60% of total worldwide sales of industrial enzymes due to their wide applications in detergent, leather, textile, food and pharmaceutical industry. Microbial proteases have been preferred over animal and plant proteases because of their fundamental features and ease in production. Bacillus infantis SKS1, an alkaline protease producing bacteria has been isolated from garden soil of north India and identified using morphological, biochemical and molecular methods. 16S rDNA sequence amplified using universal primers has 99% sequence identity with corresponding gene sequence of Bacillus infantis strain FM 34 and Bacillus sp. Beige. The bacterial culture and its 16S rDNA gene sequence have been deposited to Microbial Culture Collection (Pune, India) with accession number MCC 3035 and GenBank with accession number KR092197 respectively. The partially purified extract of Bacillus infantis SKS1 was thermostable and active in presence of Mg 2+ , acetyl acetone and laundry detergents implicating its application in industry. Production of these enzymes using this strain was maximized by optimization of various parameters including temperature, pH, media components and other growth conditions. Our results show that fructose and dextrose serve as the best carbon sources for production of these enzymes, highlighting the use of this strain for enzyme production utilizing relatively inexpensive substrates like beet molasses and corn steep liquor. Additionally, this strain showed maximum production of enzymes at 40˚C similar to bacterial species used for commercial production of alkaline proteases. Characterization of alkaline proteases from this strain of Bacillus infantis and optimization of parameters for its production would help in understanding its industrial application and large-scale production.

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Design, Synthesis, Antimicrobial Evaluation, and Molecular Modeling Studies of Novel Indolinedione–Coumarin Molecular Hybrids

Bhagat

Gupta

et al. 2019

ACS Omega

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Keeping in view various pharmacological attributes of indole and coumarin derivatives, a new series of indolindione–coumarin molecular hybrids was rationally designed and synthesized. All synthesized hybrid molecules were evaluated for their antimicrobial potential against Gram-negative bacterial strains ( Escherichia coli and Salmonella enterica ), Gram-positive bacterial strains ( Staphylococcus aureus and Mycobacterium smegmatis ), and four fungal strains ( Candida albicans , Alternaria mali , Penicillium sp., and Fusarium oxysporum ) by using the agar gel diffusion method. Among all synthetics, compounds K-1 and K-2 were found to be the best antimicrobial agents with the minimum inhibitory concentration values of 30 and 312 μg/mL, against Penicillium sp. and S. aureus , respectively. The biological data revealed some interesting facts about the structure–activity relationship which state that the electronic environment on the indolinedione moiety and carbon chain length between indolinedione and triazole moieties considerably affect the antimicrobial potential of the synthesized hybrids. Various types of binding interactions of K-2 within the active site of S. aureus dihydrofolate reductase were also streamlined by molecular modeling studies, which revealed the possible mechanism for potent antibacterial activity of the compound.

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Monocarbonyl Curcumin-Based Molecular Hybrids as Potent Antibacterial Agents

Singh

Rana³

et al. 2019

ACS Omega

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Keeping in view various pharmacological attributes of curcumin, coumarin, and isatin derivatives, triazole-tethered monocarbonyl curcumin–coumarin and curcumin–isatin molecular hybrids have been synthesized and evaluated for their antibacterial potential against Gram-positive ( Enterococcus faecalis and Staphylococcus aureus ) and Gram-negative ( Pseudomonas aeruginosa and Escherichia coli ) human pathogenic bacterial strains. Among all hybrid molecules, A-4 and B-38 showed the most potent antibacterial activity with inhibition zones of 29 and 31 mm along with MIC values of 12.50 and 6.25 μg/mL, respectively. Structure–activity relationship that emerged from biological data revealed that the two-carbon alkyl chain between triazole and coumarin/isatin moiety is well tolerable for the activity. Bromo substitution at the fifth position of isatin, para-cholo substitution in the case of curcumin–isatin, and para-methoxy in the case of curcumin–coumarin hybrids on ring A of curcumin are most suitable groups for the antibacterial activity. Various types of binding interactions of A-4 and B-38 within the active site of dihydrofolate reductase (DHFR) of S. aureus are also streamlined by molecular modeling studies, suggesting their capability in completely blocking DHFR.

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Rational approaches, design strategies, structure activity relationship and mechanistic insights for therapeutic coumarin hybrids

Singh

Bhagat

et al. 2019

Bioorganic & Medicinal Chemistry

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Production, purification and characterization of thermostable phytase from thermophilic fungus Thermomyces lanuginosus TL-7

Gulati

Chadha

Saini

2007

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Ten different strains of Thermomyces lanuginosus, isolated from composting soils were found to produce phytase when grown on PSM medium. The wild type strain CM was found to produce maximum amount ofphytase (4.33 units/g DW substrate). Culturing T. lanuginosus strain CM on medium containing wheat bran and optimizing other culture conditions (carbon source, media type, nitrogen source, level of nitrogen, temperature, pH, inoculum age, inoculum level and moisture), increased the phytase yield to 13.26 units/g substrate. This culture was further subjected to UV mutagenesis for developing phytase hyperproducing mutants. The mutant (TL-7) showed 2.29-fold increase in phytase activity as compared to the parental strain. Employing Box-Behnken factor factorial design of response surface methodology resulted in optimized phytase production (32.19 units/g of substrate) by mutant TL-7. A simple two-step purification (40.75-folds) ofphytase from mutant TL-7 was achieved by anion exchange and gel filtration chromatography. The purified phytase (approximately 54 kDa) was characterized to be optimally active at pH 5.0 and temperature 70 degrees C, though the enzyme showed approximately 70% activity over a wide pH and temperature range (2.0-10.0 and 30-90 degrees C, respectively). The phytase showed broad substrate specificity with activity against sodium phytate, ADP and riboflavin phosphate. The phytase from T. lanuginosus was thermoacidstable as it showed up to 70% residual activity after exposure to 70 degrees C at pH 3.0 for 120 min. The enzyme showed Km 4.55 microM and Vmax 0.833 microM/min/mg against sodium phytate as substrate.

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Harmandeep Kaur Gulati

Production and characterization of thermostable alkaline phytase from Bacillus laevolacticus isolated from rhizosphere soil

Design, Synthesis, Antimicrobial Evaluation, and Molecular Modeling Studies of Novel Indolinedione–Coumarin Molecular Hybrids

Monocarbonyl Curcumin-Based Molecular Hybrids as Potent Antibacterial Agents

Rational approaches, design strategies, structure activity relationship and mechanistic insights for therapeutic coumarin hybrids

Production, purification and characterization of thermostable phytase from thermophilic fungus Thermomyces lanuginosus TL-7

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