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Purpose Acanthamoeba is an opportunistic pathogen which is the causal agent of a sight-threatening ulceration of the cornea known as “ Acanthamoeba keratitis” (AK) and, more rarely, an infection of the central nervous system called “granulomatous amoebic encephalitis” (GAE). The symptoms of AK are non-specific, and so it can be misdiagnosed as a viral, bacterial, or fungal keratitis. Furthermore, current therapeutic measures against AK are arduous, and show limited efficacy against the cyst stage of Acanthamoeba . Moxifloxacin, a fourth generation fluoroquinolone, has been used with other drugs to treat GAE, but its efficacy as a treatment for AK is not known. Voriconazole has been used to treat AK; however, its cysticidal efficacy is not known. Both drugs are commercially available as eye-drops. The aim of this study was to evaluate the in-vitro activity of these eye-drops against Acanthamoeba compared to two reference drugs (chlorhexidine and amphotericin B) which are currently used to treat AK and GAE. Methods The sensitivity of two clinical and one type strain of Acanthamoeba to the commercial concentrations of the four drugs was evaluated with a colorimetric assay. Mature cysts were incubated with voriconazole to determine their sensitivity to this drug. The effects on cell proliferation and cell toxicity were determined using standard procedures with commercial kits. Results The four compounds were active against the Acanthamoeba strains in this study. Although it prevented encystation, moxifloxacin’s amoebicidal activity was low. Voriconazole activity was greater than that of the other drugs, even at a concentration lower than in commercial eye drops. It was effective against cysts and decreased cell proliferation, with low cellular cytotoxicity. Conclusion Voriconazole could be used against AK as a first-line treatment or in combination. Moxifloxacin is an interesting adjuvant to consider as it is effectively prevents encystation of the amoeba which often complicates infection resolution. In addition, moxifloxacin is effective in preventing secondary bacterial infections.

Severe acute respiratory syndrome coronavirus is a type 2 highly contagious, and transmissible among humans; the natural human immune response to severe acute respiratory syndrome-coronavirus-2 combines cell-mediated immunity (lymphocyte) and antibody production. In the present study, we analyzed the dynamic effects of adaptive immune system cell activation in the human host. The methodology consisted of modeling using a system of ordinary differential equations; for this model, the equilibrium free of viral infection was obtained, and its local stability was determined. Analysis of the model revealed that lymphocyte activation leads to total pathogen elimination by specific recognition of viral antigens; the model dynamics are driven by the interaction between respiratory epithelial cells, viral infection, and activation of helper T, cytotoxic T, and B lymphocytes. Numerical simulations showed that the model solutions match the dynamics involved in the role of lymphocytes in preventing new infections and stopping the viral spread; these results reinforce the understanding of the cellular immune mechanisms and processes of the organism against severe acute respiratory syndrome-coronavirus-2 infection, allowing the understanding of biophysical processes that occur in living systems, dealing with the exchange of information at the cellular level.

An ordinary system of differential equations leading to a simulation model is propose as methodological approach to analysis the incidence of infectious-contagious diseases, in this case using SARS-CoV-2 virus as pathogenic model. The dynamics of the model are drive by the interaction between susceptible cells contemplating respiratory epithelial cells and viral infection mediated by two types of lysis response. To perform the simulations, values of some variables and parameters were selected from referenced sources, considering that previous reports suggested that the viral load in the lower respiratory tract might reach its peak in the second week after the beginning of disease symptoms. The scenarios described in the simulations evidence the performance of the cell lysis response from susceptible cells that have been infected. The recommend model shows that an excess response from both the original virus and the mutated virus leads to an increase in the approximate time to control viral infection within the organism.

There have been few studies of agreement between seizure descriptions obtained from patients and observers. We investigated 220 patients and observers who completed structured questionnaires about patients’ semiological seizure features at the initial clinical visit. Inter‐rater reliability was assessed using Cohen’s kappa and indices of positive and negative agreement. Patients and observers had excellent agreement on the presence of memory impairment and generalized shaking and stiffness during seizures. In addition, patients under‐reported seizure descriptions more easily observed externally, whereas observers under‐reported change in patient location at seizure end. These findings may guide interpretation of clinical histories obtain in epilepsy care.

This study describes a system for the automatic recording of positioning data for public transport vehicles used on roads. With the data provided by this system, transportation-regulatory authorities can control, verify and improve the routes that vehicles use, while also providing new data to improve the representation of the transportation network and providing new services in the context of intelligent metropolitan areas. The system is executed autonomously in the vehicles, by recording their massive positioning data and transferring them to remote data banks for subsequent processing. To illustrate the utility of the system, we present a case of application that consists of identifying the points at which vehicles stop systematically, which may be points of scheduled stops or points at which traffic signals or road topology force the vehicle to stop. This identification is performed using pattern recognition techniques. The system has been applied under real operating conditions, providing the results discussed in the present study.

A procedure for producing pineapple [Ananas comosus (L.) Merr.] transgenic plants was developed that involved selection by micropropagation in temporary immersion bioreactors (TIBs). Pineapple calluses ranging in size from 1.5 mm to 2.0 mm that were co-cultivated with Agrobacterium tumefaciens strains AT2260 (pIG121Hm) and LBA4404 (pTOK233) for 24 h produced the highest percentage (40%) of GUS^sup +^ calluses. Phosphinothricin and hygromycin, but not kanamycin, were effective selection markers in TIBs. Large-scale transformation experiments with AT2260 (pHCA58) and AT2260 (pHCG59) resulted in up to a 6.6% efficiency of transgenic plant recovery. TIB technology was found to be more efficient for transgenic plant selection than conventional micropropagation. Polymerase chain reaction and genomic Southern blot analyses confirmed the non-chimeric nature of the transgenic plants recovered from TIBs.[PUBLICATION ABSTRACT]

This is the first successful report of the recovery of morphologically normal transgenic sugarcane plants from co-cultivation of calluses with Agrobacterium tumefaciens. Transformation frequencies (total of transgenic plants/number of cell clusters) were between 9.4 × 10-3 and 1.15 × 10-2. In our experiments, both LBA4404 (pTOK233) and EHA101 (pMTCA3IG), carrying a super-binary vector or supervirulent strain, respectively, were successful for sugarcane transformation. We found that three main factors: (1) the use of young regenerable calluses as target explants; (2) induction and/or improvement of the A. tumefaciens virulence system with sugarcane cell cultures and (3) pre-induction of organogenesis or somatic-embryogenesis-like sexual embryos, seem to be crucial in order to increase the cells competence for T-DNA transfer process. Patterns generated by Southern hybridization confirmed that T-DNAs were randomly integrated into sugarcane genome without th e persistence of A. tumefaciens in the transgenic plants[PUBLICATION ABSTRACT]

A population of 42 transgenic sugarcane ( hybrid, cv. Ja60-5) clones expressing a truncated cryIA(b) gene from Bacillus thuringiensis was evaluated in field trials under artificial borer (Diatraea saccharalis Fab.) infection. Five clones displaying the highest borer tolerance were selected and analysed with molecular tools (RAPD, AFLP and RAMP) to verify genomic changes. Results of field trials provided evidence both for the expression of the resistance trait and for the occurrence of limited but consistent morphological, physiological and phytopathological variation, as compared with control plants regenerated from dedifferentiated culture without transformation (C1-control) or with plants that were clonally propagated in the field (C2-control). The five elite transgenic clones, selected for consistent borer-resistance and good agronomic traits, were further evaluated in a large scale field trial. It was found that the majority of agronomic and industrial traits were those of the original cv. Ja60-5, but that a small number of qualitative traits was different. DNA changes were verified in the five selected clones. A total of 51 polymorphic DNA bands (out of the 1237 analysed bands) was identified by extensive AFLP and RAMP analysis, thus showing rare but consistent genomic changes in the transgenic plants, as compared with C1- and C2-control plants. It is proposed that the increased variability verified in transgenic plants by field trials and DNA analysis is essentially correlated with cell growth in the dedifferentiated state during the transformation procedure. The results, which are consistent with those published in the case of other transgenic plant populations, are discussed in the context of selecting approaches to gene transfer that minimize somaclonal variation. This is important especially in cases, such as that of sugarcane, where success of backcrosses to restore the original genotype is made difficult by the complex ploidy state of the plant.[PUBLICATION ABSTRACT]

A truncated cryIA(b) gene encoding the active region of the Bacillus thuringiensis δ-endotoxin was expressed in transgenic sugarcane plants (Saccharum officinarum L.) under the control of the CaMV 35S promoter. Genetic transformation was accomplished by electroporation of intact cells. The levels of recombinant toxin were established and biological activity tests were performed against neonate sugarcane borer (Diatraea saccharalis F.) larvae. Transgenic sugarcane plants showed significant larvicidal activity despite the low expression of CryIA(b).

In the present work we utilised some of the most discriminative molecular tools, such as RAPD, AFLP, AFRP and RAMP, to analyse the genome of independently derived transgenic plants from three elite Italian cultivars (cv. Lido, Carnaroli and Thaibonnet) and found that two methods for direct gene transfer, namely particle bombardment and intact cell electroporation (the latter being a procedure set up in this work), result in transgenic rice (Oryza sativa L.) plants that exhibit negligible genomic changes. This is in contrast with recently published results showing relevant changes in the DNA of transgenic rice plants generated through protoplasts electroporation and of transgenic poplar plants engineered through Agrobacterium tumefaciens infection. Implications of these findings are discussed in the context of selecting appropriate gene transfer methodologies to produce transgenic plants expressing genes of interest while retaining their genomic integrity and, thus, their superior agronomic and/or industrial traits.