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“P>Phosphate is a crucial and often limiting nutrient for plant growth. To obtain inorganic phosphate (P(i)), which is very insoluble, and is heterogeneously distributed in the soil, plants Selleck Rabusertib have evolved a complex network of morphological and biochemical processes. These processes
are controlled by a regulatory system triggered by P(i) concentration, not only present in the medium (external P(i)), but also inside plant cells (internal P(i)). A ‘split-root’ assay was performed to mimic a heterogeneous environment, after which a transcriptomic analysis identified groups of genes either locally or systemically selleck products regulated by P(i) starvation at the transcriptional level. These groups revealed coordinated regulations for various functions associated with P(i) starvation (including P(i) uptake, P(i) recovery, lipid metabolism, and metal uptake), and distinct roles for members in gene families. Genetic tools and physiological analyses revealed that genes that are locally regulated appear to be modulated mostly by root development
independently of the internal P(i) content. By contrast, internal P(i) was essential to promote the activation of systemic regulation. Reducing the flow of P(i) had no effect on the systemic response, suggesting that a secondary signal, independent of P(i), could be involved in the response. Furthermore, our results display a direct role for the transcription factor PHR1, as genes systemically controlled by low P(i) have promoters enriched with P1BS motif (PHR1-binding sequences). These data detail various regulatory systems regarding P(i) starvation responses (systemic versus local, and internal versus external P(i)), and provide tools to analyze and classify the effects of P(i) starvation
on plant physiology.”
“Kidney donors, similar to the general population, are at risk for development of type 2 diabetes mellitus (T2DM). The course of donors who develop T2DM has not been studied. We surveyed 3777 kidney donors regarding the development of T2DM. Of the 2954 who responded, 154 developed T2DM 17.7 +/- 9.0 years after donation. The JNJ-26481585 supplier multivariable risk of development of T2DM was associated with type 1 DM in the recipient, male gender and body mass index >30 kg/m(2) at time of donation. Compared to age, gender, duration after donation and body mass index (BMI)-matched nondiabetic donor controls; diabetic donors were more likely to have hypertension (70.8% vs. 36.2%, p = 0.005), proteinuria ( 18.8% vs. 3.9%, p < 0.0001) but had a similar serum creatinine. eGFR change after T2DM development was -0.80 +/- 0.94 mL/min/year, -0.70 +/- 0.86 in nondiabetic donors with similar duration after donation and -0.61 +/- 0.