Miranda Kamst scite author profile

Because methane-oxidizing bacteria (MOB) are the only biological sink for the greenhouse gas methane, knowledge of the functioning of these bacteria in various ecosystems is needed to understand the dynamics observed in global methane emission. The activity of MOB is commonly assessed by methane oxidation assays. The resulting methane depletion curves often follow a biphasic pattern of initial and induced methane oxidation activity, often interpreted as representing the in situ active and total MOB community, respectively. The application of quantitative-PCR on soil incubations, which were stopped before, at and after the transition point in the methane-depletion curve, demonstrated that both pmoA-mRNA was produced as well as substantial cell growth took place already in the initial phase. In addition, type Ia and II MOB displayed markedly different behaviour, which can be interpreted as ecologically different strategies. For the correct interpretation of methane oxidation assays, the use of small time windows is recommended to calculate methane oxidation activities to avoid substantial cell growth.

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WGS more accurately predicts susceptibility of Mycobacterium tuberculosis to first-line drugs than phenotypic testing

Jajou

Laan

Zwaan

et al. 2019

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Background Drug-susceptibility testing (DST) of Mycobacterium tuberculosis complex (MTBC) isolates by the Mycobacteria Growth Indicator Tube (MGIT) approach is the most widely applied reference standard. However, the use of WGS is increasing in many developed countries to detect resistance and predict susceptibility. We investigated the reliability of WGS in predicting drug susceptibility, and analysed the discrepancies between WGS and MGIT against the first-line drugs rifampicin, isoniazid, ethambutol and pyrazinamide. Methods DST by MGIT and WGS was performed on MTBC isolates received in 2016/2017. Nine genes and/or their promotor regions were investigated for resistance-associated mutations: rpoB, katG, fabG1, ahpC, inhA, embA, embB, pncA and rpsA. Isolates that were discrepant in their MGIT/WGS results and a control group with concordant results were retested in the MGIT, at the critical concentration and a lower concentration, and incubated for up to 45 days after the control tube became positive in the MGIT. Results In total, 1136 isolates were included, of which 1121 were routine MTBC isolates from the Netherlands. The negative predictive value of WGS was ≥99.3% for all four first-line antibiotics. The majority of discrepancies for isoniazid and ethambutol were explained by growth at the lower concentrations, and for rifampicin by prolonged incubation in the MGIT, both indicating low-level resistance. Conclusions Applying WGS in a country like the Netherlands, with a low TB incidence and low prevalence of resistance, can reduce the need for phenotypic DST for ∼90% of isolates and accurately detect mutations associated with low-level resistance, often missed in conventional DST.

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Molecular drug susceptibility testing in the Netherlands: performance of the MTBDR<I>plus</I> and MTBDR<I>sl</I> assays

Simons

Laan

Zwaan

et al. 2015

int j tuberc lung dis

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Whole‐community genome amplification (WCGA) leads to compositional bias in methane‐oxidizing communities as assessed by pmoA‐based microarray analyses and QPCR

Bodelier

Kamst

Meima-Franke

et al. 2009

Environ Microbiol Rep

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Whole-genome amplification (WGA) using multiple displacement amplification (MDA) has recently been introduced to the field of environmental microbiology. The amplification of single-cell genomes or whole-community metagenomes decreases the minimum amount of DNA needed for subsequent molecular community analyses. The resolution of profiling methods of environmental microbial communities will increase substantially by the use of the whole-community genome amplification (WCGA) procedure, assuming that the original community composition is not affected qualitatively as well as quantitatively. The present study aims to test if WCGA introduces a bias when applied to aerobic proteobacterial methanotrophic communities. For this, first, we subjected samples from freshwater lake sediment to WCGA, and amplified using primers targeting the pmoA gene coding for the α-subunit of the methane monooxygenase enzyme. Second, we analysed community composition using a diagnostic microarray and quantitative PCR (QPCR) assays. These methods clearly demonstrated that the WCGA amplification introduced a bias. Thus, numbers of γ-proteobacterial methanotrophs ('type Ia') increased significantly while the α-proteobacterial methanotrophs ('type II') were not amplified by the WCGA procedure. It is hypothesized that this bias is caused by the differences in GC content, which may compromise the efficiency of the MDA reaction.

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Miranda Kamst

Biphasic kinetics of âa methanotrophic community is a combination of growth and increased activity per cell

WGS more accurately predicts susceptibility of Mycobacterium tuberculosis to first-line drugs than phenotypic testing

Molecular drug susceptibility testing in the Netherlands: performance of the MTBDR<I>plus</I> and MTBDR<I>sl</I> assays

Whole‐community genome amplification (WCGA) leads to compositional bias in methane‐oxidizing communities as assessed by pmoA‐based microarray analyses and QPCR

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Miranda Kamst

Biphasic kinetics of âa methanotrophic community is a combination of growth and increased activity per cell

WGS more accurately predicts susceptibility of Mycobacterium tuberculosis to first-line drugs than phenotypic testing

Molecular drug susceptibility testing in the Netherlands: performance of the MTBDR<I>plus</I> and MTBDR<I>sl</I> assays

Whole‐community genome amplification (WCGA) leads to compositional bias in methane‐oxidizing communities as assessed by pmoA‐based microarray analyses and QPCR

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Product

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Biphasic kinetics of âa methanotrophic community is a combination of growth and increased activity per cell