Long non-coding RNAs (lncRNAs) are emerging as important regulators in different biological processes through various ways. Because the related data, especially mutations in cancers, increased sharply, we updated the lncRNASNP to version 2 (http://bioinfo.life.hust.edu.cn/lncRNASNP2). lncRNASNP2 provides comprehensive information of SNPs and mutations in lncRNAs, as well as their impacts on lncRNA structure and function. lncRNASNP2 contains 7260238 SNPs on 141353 human lncRNA transcripts and 3921448 SNPs on 117405 mouse lncRNA transcripts. Besides the SNP information in the first version, the following new features were developed to improve the lncRNASNP2. (i) noncoding variants from COSMIC cancer data (859534) in lncRNAs and their effects on lncRNA structure and function; (ii) TCGA cancer mutations (315234) in lncRNAs and their impacts; (iii) lncRNA expression profiling of 20 cancer types in both tumor and its adjacent samples; (iv) expanded lncRNA-associated diseases; (v) optimized the results about lncRNAs structure change induced by variants; (vi) reduced false positives in miRNA and lncRNA interaction results. Furthermore, we developed online tools for users to analyze new variants in lncRNA. We aim to maintain the lncRNASNP as a useful resource for lncRNAs and their variants.
Biodiesel is an interesting alternative energy source and is used as substitute for petroleum-based diesel. Microorganisms have been used for biodiesel production due to their significant environmental and economic benefits. However, few researches have investigated the regulation of fatty acid composition of these microbial diesels. Fatty acid biosynthesis in Escherichia coli has provided a paradigm for other bacteria and plants. By overexpressing two genes (fabA and fabB) associated with unsaturated fatty acid (UFA) synthesis in E. coli, we have engineered an efficient producer of UFAs. Saturated fatty acid (SFA) contents decreased from 50.2% (the control strain) to 34.6% (the recombinant strain overexpressing fabA and fabB simultaneously) and the ratio of cis-vaccenate (18:1Delta11), a major UFA in E. coli, reached 51.1% in this recombinant strain. When an Arabidopsis thaliana thioesterase (AtFatA) was coexpressed with these two genes, 0.19 mmol l(-1) fatty acids was produced by this E. coli strain after 18-h culture under shake-flask conditions. Free fatty acids made up about 37.5% of total fatty acid concentration in this final engineered strain carrying fabA, fabB, and AtFatA, and the ratio of UFA/SFA reached 2.3:1. This approach offers a means to improve the fatty acid composition of microdiesel and might pave the way for production of biodiesel equivalents using engineered microorganisms in the near future.
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