Natural variation of the Dt2 promoter controls plant height and node number in semi-determinant soybean.

Soybean (Glycine max (L.) Merrill) is an important legume crop worldwide. Plant height (PH) is a quantitative trait that is closely related to node number (NN) and internode length (IL) on the main stem, which together affect soybean yield. To identify candidate genes controlling these three traits in soybean, we examined a recombinant inbred line (RIL) population derived from a cross between two soybean varieties with semi-determinate stems (Dt1Dt1Dt2Dt2), JKK378 and HXW. A quantitative trait locus (QTL) named qPH18 was identified that simultaneously controls PH, NN, and IL; this region harbors the semi-determinant gene Dt2. Sequencing of the Dt2 promoter from JKK378 identified three polymorphisms relative to HXW, including two single nucleotide polymorphism (SNPs) and an 18-bp insertion/deletion polymorphism (Indel). Dt2 expression was lower in the qPH18JKK378 group than in the qPH18HXW group, whereas the expression level of the downstream gene Dt1 showed the opposite tendency. A transient transfection assay confirmed that Dt2 promoter activity is lower in JKK378 compared to HXW. We propose that the polymorphisms in the dominant Dt2 promoter underlie the differences in Dt2 expression and its downstream gene Dt1 in the two parents, thereby affecting PH, NN, IL, and grain weight per plant without altering stem growth habit. Compared to the PH18HXW allele, the qPH18JKK378 allele suppresses Dt2 expression, which releases the inhibition of Dt1 expression, thus enhancing NN and grain yield. Our findings shed light on the mechanism underlying NN and PH in soybean and provide a molecular marker to facilitate breeding. Supplementary Information: The online version contains supplementary material available at 10.1007/s11032-021-01235-y.

Transcriptome analysis reveals the genetic basis underlying the development of skin appendages and immunity in hedgehog (Atelerix albiventris).

The expression of hair features is an evolutionary adaptation resulting from interactions between many organisms and their environment. Elucidation of the mechanisms that underlie the expression of such traits is a topic in evolutionary biology research. Therefore, we assessed the de novo transcriptome of Atelerix albiventris at three developmental stages and compared gene expression profiles between abdomen hair and dorsal spine tissues. We identified 328,576 unigenes in our transcriptome, among which 4,435 were differentially expressed between hair- and spine-type tissues. Dorsal and abdomen skin tissues 5 days after birth were compared and the resulting DEGs were mainly enriched in keratin filament, epithelium cell differentiation, and epidermis development based on GO enrichment analysis, and tight junction, p53, and cell cycle signaling pathways based on KEGG enrichment analysis. MBP8, SFN, Wnt1 and KRT1 gene may involve in the development of hedgehog skin and its appendages. Strikingly, DEGs in hair-type tissues were also significantly enriched in immune-related terms and pathways with hair-type tissues exhibiting more upregulated immune genes than spine-type tissues. Our study provided a list of potential genes involved in skin appendage development and differentiation in A. albiventris, and the candidate genes provided valuable information for further studies of skin appendages.