Le/10 .3390/biology10111126/s1, Figure S1: The activities of key enzymes related with N metabolism in the leaves of two wheat NILs below distinct N therapies; Figure S2: qRT-PCR validation from the RNA-seq information of the 12 randomly selected DEGs; Figure S3: Distribution of DEGs among the GO terms in the 3 most important categories; Figure S4: Evaluation of KEGG enrichment in 4 pairwise groups; Figure S5: Scatter plot comparing the expression levels for the 4534 genes especially expressed within the N0_1Y vs. N1_1Y comparison among N treatment options in each wheat NIL; Figure S6: Scatter plot comparing the relative expression ratio for the 95 upregulated genes particularly expressed within the N0_1Y vs. N1_1Y comparison amongst wheat NILs beneath every single N remedy; Figure S7: Scatter plot comparing the relative expression ratio for the 93 downregulated genes specifically expressed within the N0_1Y vs. N1_1Y comparison in between wheat NILs under each and every N remedy; Figure S8: Comparison of GO classifications of DEGs between the two wheat NILs; Figure S9: Validation of 12 prospective DEGs identified from transcriptome evaluation by qRT-PCR; Figure S10: Gene expression correlation between the qRT-PCR and RNA-seq data. Table S1: Primer sequences utilised within this study; Table S2: Evaluation in the DEGs in pairwise comparisons; Table S3: GO enrichment evaluation of genes in pairwise comparisons; Table S4: Classification of N-Responsive Genes in 1Y revealed distinct responses to N-deficit circumstances; Table S5: Category of N-Responsive Genes in 1W showed distinctive responses to N deficiency. Author Contributions: Conceptualization, X.Z. (Xinbo Zhang), M.Z., J.D., C.L., W.G. and X.Z. (Xinkai Zhu); Investigation, X.Z. (Xinbo Zhang), Q.M., F.L., Y.D. and Y.Y.; Writing–original draft Evernic Acid web preparation, X.Z. (Xinbo Zhang); Writing–review and editing, X.Z. (Xinkai Zhu); Supervision, W.G. and X.Z. (Xinkai Zhu); Project administration, X.Z. (Xinkai Zhu). All authors have study and agreed for the published version on the manuscript. Funding: This analysis was funded by the National Key Analysis and Improvement System of China (2018YFD0200500); the Pilot Projects of the Central Cooperative Extension Program for Key Agricultural Technologies; the Priority Academic System Development of Jiangsu Higher Education Institutions; the Ro 106-9920 NF-��B Science and Technology Innovation Team of Yangzhou University; the Earmarked Fund for Jiangsu Agricultural Market Technology Method (JATS [2021] 503). Institutional Review Board Statement: Not applicable. Informed Consent Statement: Not applicable. Data Availability Statement: Raw sequencing information is often accessed via the Gene Expression Omnibus using the accession quantity GSE179179. Conflicts of Interest: The authors declare no conflict of interest.
SS symmetryArticleThe Unruh Effect in Slow MotionSilas Vriend 1 , Daniel Grimmer 2, and Eduardo Mart -Mart ez three,4,24Department of Mathematics Statistics, McMaster University, Hamilton, ON L8S 4S8, Canada; [email protected] Faculty of Philosophy, University of Oxford euben College, Oxford OX1 3QP, UK Institute for Quantum Computing, University of Waterloo, Waterloo, ON N2L 3G1, Canada; [email protected] Division of Applied Mathematics, University of Waterloo, Waterloo, ON N2L 3G1, Canada Perimeter Institute for Theoretical Physics, Waterloo, ON N2L 2Y5, Canada Correspondence: [email protected]: We show under what conditions an accelerated detector (e.g., an atom/ion/molecule) thermali.