Pineapple occupies an important phylogenetic position as its reference genome is a model for studying the evolution the Bromeliaceae family and the crassulacean acid metabolism(CAM)photosynthesis.Here,we developed a p...Pineapple occupies an important phylogenetic position as its reference genome is a model for studying the evolution the Bromeliaceae family and the crassulacean acid metabolism(CAM)photosynthesis.Here,we developed a pineapple genomics database(PGD,http://pineapple.angiosperms.org/pineapple/html/index.html)as a central online platform for storing and integrating genomic,transcriptomic,function annotation and genetic marker data for pineapple(Ananas comosus(L.)Merr.).The PGD currently hosts significant search tools and available datasets for researchers to study comparative genomics,gene expression,gene co-expression molecular marker,and gene annotation of A.comosus(L).PGD also performed a series of additional pages for a genomic browser that visualizes genomic data interactively,bulk data download,a detailed user manual,and data integration information.PGD was developed with the capacity to integrate future data resources,and will be used as a long-term and open access database to facilitate the study of the biology,distribution,and the evolution of pineapple and the relative plant species.An email-based helpdesk is also available to offer support with the website and requests of specific datasets from the research community.展开更多
Agricultural practices could affect bacterial diversity and community structure by altering soil physical and chemical properties. Straw returning and tillage practices are widely used in agriculture, however, the eff...Agricultural practices could affect bacterial diversity and community structure by altering soil physical and chemical properties. Straw returning and tillage practices are widely used in agriculture, however, the effects of these agricultural practices on microbiomes are still unclear. In the present study, we compared the 18 bacterial communities of soil with different straw returning and tillage treatment combinations. The V3-V4 regions of the 16S ribosomal RNA were amplified and analyzed by high-throughput sequencing technology. The results showed that the bacterial communities were consistently dominated by Acidobacteria, Proteobacteria, Actinobacteria, and Chloroflexi. Short-term straw returning and tillage practices significantly altered the diversity, relative abundance and functions of the soil microbiome. Soil subjected to rotary tillage and straw returning (RTS) combination possessed the highest bacterial diversity and lowest ratio of G+/G- bacteria, indicating that RTS could be an efficient integrated management system to improve microbiome in the short term. Double verifications based on relative abundance and network analysis, revealed close relationships of Mycobacterium and Methylibium with RTS, indicating they could serve as biomarkers for RTS. Investigating microbial changes under different agricultural practices will provide valuable foundations for land sustainable utilization and increase crop yields.展开更多
基金The authors would like to thank Irene Lavagi for editing the language.The study was supported by grants from the 863 program(2013AA102604),NSFC(31201260)Program for New Century Excellent Talents in Fujian Province and Science and Technology Major Project of Fujian Province(2016NZ0001).
文摘Pineapple occupies an important phylogenetic position as its reference genome is a model for studying the evolution the Bromeliaceae family and the crassulacean acid metabolism(CAM)photosynthesis.Here,we developed a pineapple genomics database(PGD,http://pineapple.angiosperms.org/pineapple/html/index.html)as a central online platform for storing and integrating genomic,transcriptomic,function annotation and genetic marker data for pineapple(Ananas comosus(L.)Merr.).The PGD currently hosts significant search tools and available datasets for researchers to study comparative genomics,gene expression,gene co-expression molecular marker,and gene annotation of A.comosus(L).PGD also performed a series of additional pages for a genomic browser that visualizes genomic data interactively,bulk data download,a detailed user manual,and data integration information.PGD was developed with the capacity to integrate future data resources,and will be used as a long-term and open access database to facilitate the study of the biology,distribution,and the evolution of pineapple and the relative plant species.An email-based helpdesk is also available to offer support with the website and requests of specific datasets from the research community.
基金supported by the Foundation of Shandong Province Modern Agricultural Technology System Innovation Team(SDAIT-25-02, SDAIT-02-07)the National Key R&D Program of China (2018YFD0300602)the National Natural Science Foundation of China (31771797)
文摘Agricultural practices could affect bacterial diversity and community structure by altering soil physical and chemical properties. Straw returning and tillage practices are widely used in agriculture, however, the effects of these agricultural practices on microbiomes are still unclear. In the present study, we compared the 18 bacterial communities of soil with different straw returning and tillage treatment combinations. The V3-V4 regions of the 16S ribosomal RNA were amplified and analyzed by high-throughput sequencing technology. The results showed that the bacterial communities were consistently dominated by Acidobacteria, Proteobacteria, Actinobacteria, and Chloroflexi. Short-term straw returning and tillage practices significantly altered the diversity, relative abundance and functions of the soil microbiome. Soil subjected to rotary tillage and straw returning (RTS) combination possessed the highest bacterial diversity and lowest ratio of G+/G- bacteria, indicating that RTS could be an efficient integrated management system to improve microbiome in the short term. Double verifications based on relative abundance and network analysis, revealed close relationships of Mycobacterium and Methylibium with RTS, indicating they could serve as biomarkers for RTS. Investigating microbial changes under different agricultural practices will provide valuable foundations for land sustainable utilization and increase crop yields.
