6 research outputs found
A Molecular Study on the Prevalence and Virulence Potential of Aeromonas spp. Recovered from Patients Suffering from Diarrhea in Israel
Background: Species of the genus Aeromonas are native inhabitants of aquatic environments and have recently been considered emerging human pathogens. Although the gastrointestinal tract is by far the most common anatomic site from which aeromonads are recovered, their role as etiologic agents of bacterial diarrhea is still disputed. Aeromonas-associated diarrhea is a phenomenon occurring worldwide; however, the exact prevalence of Aeromonas infections on a global scale is unknown. Methodology/Principal Findings: The prevalence and virulence potential of Aeromonas in patients suffering from diarrhea in Israel was studied using molecular methods. 1,033 diarrheal stools were sampled between April and September 2010 and Aeromonas species were identified in 17 (,2%) patients by sequencing the rpoD gene. Aeromonas species identity and abundance was: A. caviae (65%), A. veronii (29%) and Aeromonas taiwanensis (6%). This is the first clinical record of A. taiwanensis as a diarrheal causative since its recent discovery from a wound infection in a patient in Taiwan. Most of the patients (77%) from which Aeromonas species were isolated were negative for any other pathogens. The patients ranged from 1 to 92 years in age. Aeromonas isolates were found to possess different virulence-associated genes: ahpB (88%), pla/ lip/lipH3/apl-1 (71%), act/hlyA/aerA (35%), alt (18%), ast (6%), fla (65%), lafA (41%), TTSS ascV (12%), TTSS ascF-ascG (12%), TTSS-dependent ADP-ribosylating toxins aexU (41%) and aexT (6%) in various combinations. Most of the identified strain
Anti-mycobacterium tuberculosis activity of esters of quinoxaline 1,4-Di-N-Oxide
Tuberculosis continues to be a public health problem in the world, and drug resistance has
been a major obstacle in its treatment. Quinoxaline 1,4-di-N-oxide has been proposed as a scaffold
to design new drugs to combat this disease. To examine the efficacy of this compound, this study
evaluates methyl, ethyl, isopropyl, and n-propyl esters of quinoxaline 1,4-di-N-oxide derivatives
in vitro against Mycobacterium tuberculosis (pansusceptible and monoresistant strains). Additionally,
the inhibitory effect of esters of quinoxaline 1,4-di-N-oxide on M. tuberculosis gyrase supercoiling
was examined, and a stability analysis by ultra performance liquid chromatography-tandem
mass spectrometry (UPLC-MS) was also carried out. Results showed that eight compounds
(T-007, T-018, T-011, T-069, T-070, T-072, T-085 and T-088) had an activity similar to that of the
reference drug isoniazid (minimum inhibitory concentration (MIC) = 0.12 µg/mL) with an effect
on nonreplicative cells and drug monoresistant strains. Structural activity relationship analysis
showed that the steric effect of an ester group at 7-position is key to enhancing its biological effects.
Additionally, T-069 showed a high stability after 24 h in human plasma at 37 â—¦C
Correct Identification of Ochrobactrum anthropi From Blood Culture Using 16rRNA Sequencing: A First Case Report in an Immunocompromised Patient in Mexico
The present report describes the misidentification of Brucella spp. from a positive blood culture using traditional microbiology tests. A molecular test identified the bacterium as Ochrobactrum anthropi. According to the information available, this report is the first to include this type of case in Mexico