https://www.selleckchem.com/products/iacs-010759-iacs-10759.html We found that warming and, to a lesser extent, drought decreased the ratio of inorganic nitrogen (N) to water-extractable organic carbon in the subsoil, intensifying N limitation at depth. Both SOC and litter mineralization were reduced in the subsoil, which may also be related to N limitation, as evidenced by lower hydrolase activity (especially leucine aminopeptidase) and reduced microbial efficiency (lower biomass synthesis and necromass accumulation relative to respiration). However, none of these effects were observed in the topsoil, suggesting that soil microbes became inactive and inefficient in subsoil but not topsoil environments. Given increasing belowground productivity in this alpine grassland under warming, both elevated root deposits and diminished microbial activity may contribute to new carbon accrual in the subsoil. However, the sustainability of plant growth and persistence of subsoil SOC pools deserve further investigation in the long term, given the aggravated N limitation at depth. Human epididymis protein 4 (HE4) has shown promising utility as a prognostic biomarker in endometrial cancer. Increased serum HE4 levels may be associated with deeper myometrial invasion, extrauterine disease and poorer prognosis. To evaluate the use of serum HE4 level, compared to and alongside other investigations, to accurately guide management in apparent early-stage endometrial cancer. This is a single-site prospective study of 100 patients with histologically confirmed endometrial cancer. All patients underwent preoperative measurements of HE4 and CA125 levels and a preoperative magnetic resonance imaging (MRI) to assess the depth of invasion, nodal status and tumour size. Correlation was sought between serum HE4 level, CA125 level, MRI findings and intra-operative frozen section with tumour type, grade and stage. While both median HE4 and CA125 levels were higher with worsening clinicopathological