Egy 14. századi új Salamon: V. (Bölcs) Károly francia király

The result of in-hospital all mortality (P < 0.001; RR 3.23; 95% CI 2.28–4.57). (DOCX 54 kb

Additional file 1: of Is Bulpa criteria suitable for the diagnosis of probable invasive pulmonary Aspergillosis in critically ill patients with chronic obstructive pulmonary disease? A comparative study with EORTC/ MSG and ICU criteria

“Three Key Factors” of the Included Patients. Note: The history of steroid use, abnormal radiology and mycological findings of the included 59 COPD patients were listed in Additional file 1, and patients were diagnosed as probable IPA using three criteria respectively. “Y” means that the case was could be diagnosed as probable/ putative IPA according to the criteria; “N” means that the case was could not be diagnosed as probable/ putative IPA according to the criteria. (DOCX 128 kb

Image_4_Tissue-specific transcriptomic analysis uncovers potential roles of natural antisense transcripts in Arabidopsis heat stress response.PDF

Natural antisense transcripts (NATs) are an important class of non-coding ribonucleic acids (RNAs) that have been shown to regulate gene expression. Using strand-specific RNA sequencing, 36,317 NAT pairs were identified, and 5,536 were specifically expressed under heat stress. We found distinct expression patterns between vegetative and reproductive tissues for both coding genes and genes encoding NATs. Genes for heat-responsive NATs are associated with relatively high levels of H3K4me3 and low levels of H3K27me2/3. On the other hand, small RNAs are significantly enriched in sequence overlapping regions of NAT pairs, and a large number of heat-responsive NATs pairs serve as potential precursors of nat-siRNAs. Collectively, our results suggest epigenetic modifications and small RNAs play important roles in the regulation of NAT expression, and highlight the potential significance of heat-inducible NATs.</p

Image_8_Tissue-specific transcriptomic analysis uncovers potential roles of natural antisense transcripts in Arabidopsis heat stress response.PDF

Natural antisense transcripts (NATs) are an important class of non-coding ribonucleic acids (RNAs) that have been shown to regulate gene expression. Using strand-specific RNA sequencing, 36,317 NAT pairs were identified, and 5,536 were specifically expressed under heat stress. We found distinct expression patterns between vegetative and reproductive tissues for both coding genes and genes encoding NATs. Genes for heat-responsive NATs are associated with relatively high levels of H3K4me3 and low levels of H3K27me2/3. On the other hand, small RNAs are significantly enriched in sequence overlapping regions of NAT pairs, and a large number of heat-responsive NATs pairs serve as potential precursors of nat-siRNAs. Collectively, our results suggest epigenetic modifications and small RNAs play important roles in the regulation of NAT expression, and highlight the potential significance of heat-inducible NATs.</p

Image_7_Tissue-specific transcriptomic analysis uncovers potential roles of natural antisense transcripts in Arabidopsis heat stress response.pdf

Natural antisense transcripts (NATs) are an important class of non-coding ribonucleic acids (RNAs) that have been shown to regulate gene expression. Using strand-specific RNA sequencing, 36,317 NAT pairs were identified, and 5,536 were specifically expressed under heat stress. We found distinct expression patterns between vegetative and reproductive tissues for both coding genes and genes encoding NATs. Genes for heat-responsive NATs are associated with relatively high levels of H3K4me3 and low levels of H3K27me2/3. On the other hand, small RNAs are significantly enriched in sequence overlapping regions of NAT pairs, and a large number of heat-responsive NATs pairs serve as potential precursors of nat-siRNAs. Collectively, our results suggest epigenetic modifications and small RNAs play important roles in the regulation of NAT expression, and highlight the potential significance of heat-inducible NATs.</p

Additional file 1: Figure S1. of Integrated metabolome and transcriptome analysis of Magnolia champaca identifies biosynthetic pathways for floral volatile organic compounds

Quality and KEGG analysis of champak RNA-seq. Figure S2. Proposed biosynthesis pathways of volatile ester 2-methylbutanoate and its derivatives via the catabolism of branched-chain amino acid L-isoleucine. Figure S3. Comparison of deduced amino acid sequence of representative genes from pathways responsible for the production of VOCs. Figure S4. Phylogenetic analysis and amino acid alignment of champak DXSs. Figure S5. Amino acid sequence alignment of McHDR. Figure S6. Amino acid sequence alignment of McTPS1. Figure S7. GC-MS chiral analysis of β-linalool emitted from champak flowers. Figure S8. Analysis of transgenic N. tabacum overexpressing McTPS1. Table S1. MEP pathway genes from champak RNA-seq. Table S2. TPS genes from champak RNA-seq. Table S3. Accession numbers of proteins used in the TPS phylogenetic analysis. Table S4. List of primers used in this study. Table S5. Accession numbers of proteins used in the amino acid sequence alignments. Table S6. Accession numbers of proteins used in the DXS phylogenetic analysis. (PDF 1708 kb

Membrane-less Paired Electrolysis for Cooperative Conversion of Complex NO in a Complexing Absorption System

The complexing absorption method serves as an important wet process for potential application in NO removal of industrial exhaust gas. However, gradual saturation of the absorbent severely limits its continuous operation and denitration efficiency. Herein, a membrane-less paired electrolysis (MLPE) process was first introduced for cooperative conversion of complex NO, thereby regenerating the absorbent. Fe(II)EDTA(NO) was converted on the anode and cathode directly and indirectly; namely, complex NO was not only oxidized to NO3–, but also reduced to NH4+, N2, and N2O. Furthermore, NO3– and NH4+ acted as the potentially valuable products for further reclamation and utilization. Compared with membrane anodic electrolysis (MAE) and membrane cathodic electrolysis (MCE) systems, the MLPE system achieved the lowest energy consumption and highest conversion efficiency of Fe(II)EDTA(NO). Finally, the influences of key process parameters on the complex NO electro-conversion were investigated. The MLPE process provided an efficient and convenient strategy for electro-conversion of complex NO together with absorbent regeneration and NO resource utilization

Additional file 5 of Predictive value of neutrophil to lymphocyte ratio in patients with acute ST segment elevation myocardial infarction after percutaneous coronary intervention: a meta-analysis

The result of in-hospital MACE (P < 0.001; RR 2.00; 95%CI 1.62–2.46). (DOCX 55 kb

Additional file 9 of Predictive value of neutrophil to lymphocyte ratio in patients with acute ST segment elevation myocardial infarction after percutaneous coronary intervention: a meta-analysis

The result of in-hospital cardiac mortality (P < 0.001; RR 3.22;95% CI 2.25–4.60). (DOCX 51 kb