Phytophthora root rot is one of the most prevalent diseases in the world, which can infect the seedlings and plants, withsubstantial negative impact on soybean yield and quality. MicroRNAs (miRNAs) are a class of post-transcriptionalregulators of gene expression during growth and development of organisms. A soybean disease-resistance varietySuinong 10 was inoculated with Phytophthora sojae race No. 1, and the specific miRNA resistant expression profile wasacquired by microarray for the first time. Different expressional miRNAs have been found after comparing the results ofthe treated sample with the control sample. Furthermore, the target genes of different expressional miRNAs were predicted.Two miRNAs, cbr-mir-241 and ath-miR854a, regulated the disease-resistance process directly through their targets, someenzymes. Another two miRNAs, gma-miR169a and ath-miR169h, participated in disease-resistance regulation as transcriptionfactors. Similarly, one miRNA, ptc-miR164f, has been reported to regulate the plant development. All of these studieswould be served as the foundation for exploring the resistance mechanism.

Soybean is a major cash crop in the world, and its oil content was one of the very important traits. Therefore, the study of gene mapping for oil content in soybean is very important for breeding application. At present, at least 130 QTL loci for soybean oil content have been published; however, the mapping results of oil content were dispersed and a coalescent public map should be established to integrate the published QTLs, and to more efficiently mine genes based on the metaanalysis method of the bioinformatics tools. This study was to construct an integrated map of QTLs for soybean oil content and accelerate the application of bioinformation resource related to oil content improvement in the practice of soybean breeding. We collected information of 130 QTLs reported over the past 20 yr for soybean oil content and used the Software BioMercator 2.1 to project QTLs from their own maps onto a reference map, which was an early-integrated map constructed by Song (2004) for oil-content quantitative trait loci (QTLs) in soybean. Gene mining was performed based on the meta-analysis by running the local ver. GENSCAN and InterProScan. The confidence interval of QTLs was efficaciously narrowed using the meta-analysis method, and 25 consensus QTLs were mapped on the reference map. Using a local version of GENSCAN, 12 805 sequences in the consensus QTL intervals were predicted. With BLAST, these predicted sequences were aligned to gene sequences from the International Protein Index database using InterProScan locally. Thirteen predicted genes were in the class of the geme ontology (GO) accession (0006631), which were involved in the fatty acid metabolic process. These genes were analyzed using BLAST at the NCBI website to examine whether they were related to oil content. Six genes were found in the oil-synthesis pathway. Twenty-five consensus QTLs and six genes were found in the oil-synthesis pathway. These results would lay the foundation for marker-assisted selection and mapping QTL precisely, and these genes will facilitate the researches on the gene mining of oil synthesis and molecular breeding in soybean.