ABSTRACT
The quantitative evaluation of bacterial populations is required in many studies, particularly in the field of microbiology. The current techniques can be time-consuming and require a large volume of samples and trained laboratory personnel. In this regard, on-site, easy-to-use, and direct detection techniques are desirable. In this study, a quartz tuning fork (QTF) was investigated for the real-time detection of E. coli in different media, as well as the ability to determine the bacterial state and correlate the QTF parameters to the bacterial concentration. QTFs that are commercially available can also be used as sensitive sensors of viscosity and density by determining the QTFs' damping and resonance frequency. As a result, the influence of viscous biofilm adhered to its surface should be detectable. First, the response of a QTF to different media without E. coli was investigated, and Luria-Bertani broth (LB) growth medium caused the largest change in frequency. Then, the QTF was tested against different concentrations of E. coli (i.e., 102-105 colony-forming units per milliliter (CFU/mL)). As the E. coli concentration increased, the frequency decreased from 32.836 to 32.242 kHz. Similarly, the quality factor decreased with the increasing E. coli concentration. With a coefficient (R) of 0.955, a linear correlation between the QTF parameters and bacterial concentration was established with a 26 CFU/mL detection limit. Furthermore, a considerable change in frequency was observed against live and dead cells in different media. These observations demonstrate the ability of QTFs to distinguish between different bacterial states. QTFs allow real-time, rapid, low-cost, and non-destructive microbial enumeration testing that requires only a small volume of liquid sample.
ABSTRACT
The present study aimed to investigate the effect of different Agrobacterium rhizogenes on the induction of hairy root of Cucumis anguria and determine its total phenolic, flavonoids contents, antibacterial and antioxidant activity. In this investigation A. rhizogenes strains such as, 15834, 13333, A4, R1200, R1000, LBA9402, R1301 and R1601 are all investigated, were developing hairy root conception in cotyledon and leaf tissue explants. Polymerase chain response (PCR) and the converse transcription-PCR are transgenic clones of hairy roots has been utilized rolA and rolB particular primers. In the middle of the different attention of better regulators the extreme transformation frequency was achieved in (IBA + NAA) cotyledon explant. Transgenic hairy roots increase in MS liquid medium added to with IBA + NAA (2.46 + 1.07) displayed the maximum accumulation of biomass 0.68 g/l dry weight (DW) and 6.52 ± 0.49 g/l fresh weight (FW) were obtained at the 21 days of cotyledon explant. The flavonoid and total phenolic contents were estimated using aluminium chloride method and Folin-Ciocalteu method. The amount of phenolic compounds in Cucumis anguria L non transformed root (124.46 ± 6.13 mg GA/g) was lower than that in the methanol extracts of Cucumis anguria L. hairy roots (160.38 ± 5.0 mg GA/g), being was Cucumis anguria L non transformed root lower (42.93 ± 1.58 mg rutin/g) than that in the concentration of total flavonoids in Cucumis anguria L. hairy root (16.26 ± 1.84 mg rutin/g). Additionally, transgenic hairy roots professionally produced various phenolic and flavonoid composites. The total antimicrobial activity, phenolics, flavonoids content and antioxidant were more in the hairy roots related to non-transformed roots. In our discovery, the A. rhizogenes R1000 is promising candidate for hairy root initiation of C. anguria from cotyledone explants were realized large number of hairy roots compared with leaf explants. The antioxidant potential of methanol extracts of flavonoid and phenolic compounds from the hairy roots have great potential to treat various diseases.
