Jasmine [Jasminum sambac(L.) Ait.], a tropical and subtropical plant emits a sweet, heady fragrance during flower opening. However, the molecular mechanisms underlying this phenomenon remain largely unknown. In the pr...Jasmine [Jasminum sambac(L.) Ait.], a tropical and subtropical plant emits a sweet, heady fragrance during flower opening. However, the molecular mechanisms underlying this phenomenon remain largely unknown. In the present study, integrated Illumina sequencing, Pacbio sequencing, and high-throughput chromatin conformation capture(Hi-C) scaffolding was used to generate a 495.60 Mb genome assembly of J.sambac var. unifoliatum cultivar ‘Fuzhou Single-petal’(JSU-FSP), with contig N50 of 16.88 Mb;96.23% of the assembly was assigned to 13 pseudochromosomes. The genome harbors 30 989 protein-coding genes, and 49.47% of the assembled sequences are repetitive sequences. The analysis of duplication modes showed that 51% of genes were duplicated through dispersed duplication, and expanded gene families are mainly involved in photosynthesis, which may be responsible for the light-loving characteristic specific to jasmine. Transcriptome analysis revealed that at least 35 structural genes involved in the biosynthesis of volatile terpenes(VTs), volatile phenylpropanoid/benzenoids(VPBs),fatty acid-derived volatiles(FADVs), and indole were highly expressed in the flower-opening stage, both preharvest and postharvest, and are proposed to be important in endowing flower aroma. Additionally, at least 28 heat shock protein(HSP) and 11 β-glucosidase(BGLU) genes may be involved in the formation of floral fragrance. These findings provide insights into the formation of the floral fragrance of jasmine and will promote germplasm utilization for breeding improved jasmine varieties.展开更多
为解决并行应用程序使用FFTW(Fastest Fourier Transform in the West)并行软件包所面临的计算规模难以扩展、数据结构变动大、实现不同数据结构间通信难度大、接口不确定等问题,在JASMIN框架内设计实现FFT并行解法器.该解法器封装了数...为解决并行应用程序使用FFTW(Fastest Fourier Transform in the West)并行软件包所面临的计算规模难以扩展、数据结构变动大、实现不同数据结构间通信难度大、接口不确定等问题,在JASMIN框架内设计实现FFT并行解法器.该解法器封装了数据分布存储、数据通信等并行计算细节,通过重新分布存储数据,调用一维FFT变换实现高维FFT的并行计算,并提供规范接口,支撑用户简便地实现FFT的并行计算.数值测试表明,该解法器具有很好的并行性能.该解法器已应用于激光等离子体成丝不稳定性的数值模拟并行程序,它在2048个处理器上的并行效率可达80%以上.展开更多
基金supported by the Construction of Plateau Discipline of Fujian Province (Grant No. 102/71201801101)the Construction Project for Technological Innovation and Service System of Tea Industry Chain of Fujian Agriculture and Forestry University (Grant No. K1520005A01)。
文摘Jasmine [Jasminum sambac(L.) Ait.], a tropical and subtropical plant emits a sweet, heady fragrance during flower opening. However, the molecular mechanisms underlying this phenomenon remain largely unknown. In the present study, integrated Illumina sequencing, Pacbio sequencing, and high-throughput chromatin conformation capture(Hi-C) scaffolding was used to generate a 495.60 Mb genome assembly of J.sambac var. unifoliatum cultivar ‘Fuzhou Single-petal’(JSU-FSP), with contig N50 of 16.88 Mb;96.23% of the assembly was assigned to 13 pseudochromosomes. The genome harbors 30 989 protein-coding genes, and 49.47% of the assembled sequences are repetitive sequences. The analysis of duplication modes showed that 51% of genes were duplicated through dispersed duplication, and expanded gene families are mainly involved in photosynthesis, which may be responsible for the light-loving characteristic specific to jasmine. Transcriptome analysis revealed that at least 35 structural genes involved in the biosynthesis of volatile terpenes(VTs), volatile phenylpropanoid/benzenoids(VPBs),fatty acid-derived volatiles(FADVs), and indole were highly expressed in the flower-opening stage, both preharvest and postharvest, and are proposed to be important in endowing flower aroma. Additionally, at least 28 heat shock protein(HSP) and 11 β-glucosidase(BGLU) genes may be involved in the formation of floral fragrance. These findings provide insights into the formation of the floral fragrance of jasmine and will promote germplasm utilization for breeding improved jasmine varieties.
文摘为解决并行应用程序使用FFTW(Fastest Fourier Transform in the West)并行软件包所面临的计算规模难以扩展、数据结构变动大、实现不同数据结构间通信难度大、接口不确定等问题,在JASMIN框架内设计实现FFT并行解法器.该解法器封装了数据分布存储、数据通信等并行计算细节,通过重新分布存储数据,调用一维FFT变换实现高维FFT的并行计算,并提供规范接口,支撑用户简便地实现FFT的并行计算.数值测试表明,该解法器具有很好的并行性能.该解法器已应用于激光等离子体成丝不稳定性的数值模拟并行程序,它在2048个处理器上的并行效率可达80%以上.