Plant cell walls constitute the skeletal structures of plant bodies, and thus confer lodging resistance for grain crops.  While the basic cell wall synthesis machinery is relatively well established now, our understanding of how the process is regulated remains limited and fragmented.  In this study, we report the identification and characterization of the novel rice (Oryza sativa L.) brittle culm16 (brittle node; bc16) mutant.  The brittle node phenotype of the bc16 mutant appears exclusively at nodes, and resembles the previously reported bc5 mutant.  Combined histochemical staining and electron microscopy assays revealed that in the bc16 mutant, the secondary cell wall formation and thickening of node sclerenchyma tissues are seriously affected after heading.  Furthermore, cell wall composition assays revealed that the bc16 mutation led to a significant reduction in cellulose and lignin contents.  Using a map-based cloning approach, the bc16 locus is mapped to an approximately 1.7-Mb region of chromosome 4.  Together, our findings strengthen evidence for discretely spatial differences in the secondary cell wall formation within plant bodies.

The host intestinal microbiota has emerged as the third element in the interactions between hosts and enteric viruses, and potentially affects the infection processes of enteric viruses. However, the interaction of porcine enteric coronavirus with intestinal microorganisms during infection remains unclear. In this study, we used 16S-rRNA-based Illumina NovaSeq high-throughput sequencing to identify the changes in the intestinal microbiota of piglets mediated by porcine epidemic diarrhea virus (PEDV) infection and the effects of the alterations in intestinal bacteria on PEDV infection and its molecular mechanisms. The intestinal microbiota of PEDV-infected piglets had significantly less diversity than the healthy group and different bacterial community characteristics. Among the altered intestinal bacteria, the relative abundance of Clostridium perfringens was significantly increased in the PEDV-infected group. A strain of C. perfringens type A, named DQ21, was successfully isolated from the intestines of healthy piglets. The metabolites of swine C. perfringens type A strain DQ21 significantly enhanced PEDV replication in porcine intestinal epithelial cell clone J2 (IPEC-J2) cells, and PEDV infection and pathogenicity in suckling piglets. Palmitic acid (PA) was identified as one of those metabolites with metabolomic technology, and significantly enhanced PEDV replication in IPEC-J2 cells and PEDV infection and pathogenicity in suckling piglets. PA also increased the neutralizing antibody titer in the immune sera of mice. Furthermore, PA mediated the palmitoylation of the PEDV S protein, which improved virion stability and membrane fusion, thereby enhancing viral infection. Overall, our study demonstrates a novel mechanism of PEDV infection, with implications for PEDV pathogenicity.

Rapeseed mustard (Brassica juncea L.) is the third most important oilseed crop in the world but the genetic mechanism underlying its massive phenotypic variation remains largely unexplored. In this study, specific length amplified fragment sequencing (SLAF-Seq) was used to resequence a population comprising 197 F₈ recombinant inbred lines (RILs), derived from a cross between vegetable-type Qichi881 and oilseed-type YufengZC in B. juncea. In total, 438,895 high-quality SLAFs were discovered, of which 47,644 were polymorphic, and 3,887 of the polymorphic markers met the requirements for genetic map construction. The final map included 3,887 markers on 18 linkage groups and was 1,830.23 cM in length, with an average distance of 0.47 cM between adjacent markers. Using the newly constructed high-density genetic map, a total of 53 QTLs for erucic acid (EA), oleic acid (OA), and linolenic acid (LNA) were detected and integrated into 8 consensus QTLs with two for each of these traits. For each of these three traits, two candidate genes were cloned and sequence analyzed, indicating colocalization with their respective consensus QTLs. The co-dominant allele-specific markers for Bju.FAD3.A03 and Bju.FAD3.B07 were developed and showed co-localization with their consensus QTL and co-segregation with LNA content, further supporting the results of QTL mapping and bioinformatic analysis. The expression level for the cloned homologous genes was also identified, which was tightly correlated with the EA, OA and LNA contents of different lines. The results would facilitate the improvement of fatty acid traits and molecular breeding of B. juncea. More use of the high-density genetic map created in this study is also discussed.