A Phase II study of gefitinib combined with docetaxel as first-line treatment in patients with advanced breast cance

Concrete is a strong and fairly inexpensive building substance, but has several disadvantages like cracking that allows corrosion, thus reducing its lifespan. To mitigate these complications, long-lasting microbial self-healing cement is an alternative that is eco-friendly and also actively repairs cracks. The present paper describes the detailed experimental investigation on compressive strength of cement mortars, mixed with six alkaliphilic bacteria, isolated from subsurface mica mines of high alkalinity. The experiments showed that the addition of alkaliphilic isolates at different cell concentrations (104 and 106 cells/ml) enhanced the compressive strength of cement mortar, because the rapid growth of bacteria at high alkalinity precipitates calcite crystals that lead to filling of pores and densifying the concrete mix. Thus, Bacillus subtilis (SVUNM4) showed the highest compressive strength (28.61%) of cement mortar at 104 cells/ml compared to those of other five alkaliphilic isolates (Brevibacillus sp., SVUNM15-22.1%; P. dendritiformis, SVUNM11-19.9%; B. methylotrophicus, SVUNM9-16%; B. licheniformis, SVUNM14-12.7% and S. maltophilia, SVUNM13-9.6%) and controlled cement mortar as well. This method resulted in the filling of cracks in concrete with calcite (CaCO3), which was observed by scanning electron microscopy (SEM). Our results showed that the alkaliphilic bacterial isolates used in the study are effective in self-healing and repair of concrete cracks.

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Synthesis, spectral characterization, antimicrobial activity and docking studies against DNA Gyrase-A of new 4-chloro-3-nitrobenzene sulfonamide derivatives

Kumar¹,

Kalla²,

Varalakshmi³

et al. 2020

Org.Commun.

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A series of new 4-chloro-3-nitrobenzene sulfonamide derivatives 3(a-j) were synthesized from 4-chloro-3-nitrobenzene sulfonyl chloride by reacting various amino acid esters and amines 2(a-j) in high yields. The structures of all the synthesized compounds were characterized by the IR, NMR (1H & 13C), mass and elemental analyses. Further, all the synthesized compounds were tested for the antimicrobial activity and docking studies were carried out with DNA Gyrase-A. Most of the compounds showed good to moderate antimicrobial activities and binding affinity towards DNA Gyrase-A structure.

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Jayakumar Kannali

Subsurface Endospore-Forming Bacteria Possess Bio-Sealant Properties

Synthesis, spectral characterization, antimicrobial activity and docking studies against DNA Gyrase-A of new 4-chloro-3-nitrobenzene sulfonamide derivatives

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