Z. Tasker Hull scite author profile

Z. Tasker Hull

2Publications

30Citation Statements Received

132Citation Statements Given

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101

124

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University of Waterloo, Heidelberg University

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Recycling of Methylthioadenosine Is Essential for Normal Vascular Development and Reproduction in Arabidopsis

Waduwara-Jayabahu

Oppermann

Wirtz

et al. 2012

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5#-Methylthioadenosine (MTA) is the common by-product of polyamine (PA), nicotianamine (NA), and ethylene biosynthesis in Arabidopsis (Arabidopsis thaliana). The methylthiol moiety of MTA is salvaged by 5#-methylthioadenosine nucleosidase (MTN) in a reaction producing methylthioribose (MTR) and adenine. The MTN double mutant, mtn1-1mtn2-1, retains approximately 14% of the MTN enzyme activity present in the wild type and displays a pleiotropic phenotype that includes altered vasculature and impaired fertility. These abnormal traits were associated with increased MTA levels, altered PA profiles, and reduced NA content. Exogenous feeding of PAs partially recovered fertility, whereas NA supplementation improved fertility and also reversed interveinal chlorosis. The analysis of PA synthase crystal structures containing bound MTA suggests that the corresponding enzyme activities are sensitive to available MTA. Mutant plants that expressed either MTN or human methylthioadenosine phosphorylase (which metabolizes MTA without producing MTR) appeared wild type, proving that the abnormal traits of the mutant are due to MTA accumulation rather than reduced MTR. Based on our results, we propose that the key targets affected by increased MTA content are thermospermine synthase activity and spermidinedependent posttranslational modification of eukaryotic initiation factor 5A.

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Landmarking and strong Allee thresholds

et al. 2015

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Mate-finding difficulties in small populations are often postulated to create strong demographic Allee effects that increase the probability of extinction of native species or, similarly, decrease the probability that nonnative species will successfully invade. Many species make use of a restricted number of mating locations, detectable from long-distance, that are not selected for habitat reasons (e.g., hilltopping in butterflies). This 'landmarking' strategy may specifically address the problem of overcoming matefinding difficulties. Using a variant of the birthday problem, we demonstrate that populations which locate a restricted number of mate-finding sites using landmark features may have high probability of successful mating even at very low population densities. Therefore, a strong Allee threshold, if it exists, may be very small, and non-native species that make use of this strategy may have a very good chance of population establishment at low density.

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Z. Tasker Hull

Recycling of Methylthioadenosine Is Essential for Normal Vascular Development and Reproduction in Arabidopsis

Landmarking and strong Allee thresholds

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