乙烯调控灵芝酸生物合成关键基因的筛选

灵芝是我国著名的药用真菌,灵芝酸是其主要活性成分,具有多种药理活性。乙烯可以促进灵芝酸的生物合成,但其调控机理尚不明确。本实验利用非靶向代谢组研究发现Top 20差异代谢物中含有6种灵芝的活性成分(灵芝酸η、赤芝酸F、赤芝酸N、丹芝酸A、灵芝酸V1和灵芝酸δ),其中有4种灵芝酸(灵芝酸η、赤芝酸F、赤芝酸N和灵芝酸V1)为上调积累,2种灵芝酸(灵芝酸δ和丹芝酸A)为下调积累。通过非靶向代谢组与转录组的关联分析发现基因GL23307、GL25546和GL29595同时与3种灵芝酸积累显著相关,并通过启动子顺式元件预测,发现分别编码泛素蛋白和抑肽酶基因GL25546、GL23307的启动子区域含有响应乙烯信号的顺式作用元件GCC-box,因此,推测这两个基因在乙烯调控灵芝酸生物合成中发挥重要作用。     

Climatic niche divergence explains angiosperm diversification across clades in China

Diversification rates are critically important for understanding patterns of species richness among clades. However, the effects of climatic niche width on plant diversification rates remain to be elucidated. Based on the phylogenetic, climatic, and distributional information of angiosperms in China, a total of 26 906 species from 182 families were included in this study. We aimed to test relationships between diversification rate and climatic niche width and climatic niche width related variables (including climatic niche divergence, climatic niche position, geographic extent, and climatic niche evolutionary rate) using phylogenetic methods. We found that climatic niche divergence had the largest unique contribution to the diversification rate, while the unique effects of climatic niche width, climatic niche position, geographic extent, and climatic niche evolutionary rate on the diversification rate were negligible. We also observed that the relationship between diversification rate and climatic niche divergence was significantly stronger than the null assumption (artefactual relationship between diversification and clade-level climatic niche width by sampling more species). Our study supports the hypothesis that wider family climatic niche widths explain faster diversification rates through a higher climatic niche divergence rather than through higher geographic extent, higher climatic niche evolutionary rate, or separated climatic niche position. Hence, the results provide a potential explanation for large-scale diversity patterns within families of plants.     

Genomic analyses reveal natural selection on reproduction related genes between two closely related Populus (Salicaceae) species

Identifying the factors that cause reproductive isolation and their relative importance in species divergence is crucial to our understanding of speciation processes. In most species, natural selection is commonly considered to play a large role in driving speciation. Based on whole genome re-sequencing data from 27 Populus alba and 28 Populus adenopoda individuals, we explored the factors related to reproductive isolation of these two closely related species. The results showed that the two species diverged ~5–10 million years ago (Ma), when the Qinghai–Tibet Plateau reached a certain height and the inland climate of the Asian continent became arid. In highly differentiated genomic regions, the relative divergence (F_ST) and absolute divergence (d_xy) were significantly higher than the genomic background, θπ and shared polymorphisms decreased whereas fixed differences increased, which indicated that natural selection played a key role in the reproductive isolation of the two species. In addition, we found several genes that were related to reproduction that may be involved in explaining the reproductive isolation. Using phylogenetic trees resolved from haplotype data of Populus tomentosa and P. adenopoda, the maternal origin of P. tomentosa from P. adenopoda was likely to be located in Hubei and Chongqing Provinces.