Project description:While persistence in a dormant state is crucial for the life cycle of Mycobacterium tuberculosis, no investigation regarding dormancy survival of different strains across different lineages was performed so far. We analyzed responses to oxygen starvation and recovery in terms of growth, metabolism and transcription. All different strains belonging to the (Euro-American) lineage (L4) showed similar survival and resuscitation characteristics. Different clinical isolates from the Beijing (L2) , East African-Indian (L3), and Delhi/Central Asian (L1) did not survive oxygen starvation. We show that dormancy survival is lineage-dependent. Recovery from O2 starvation was observed in Euro-American (L4) but no other used strains (L1, L2, L3). Thus, resuscitation from dormancy after oxygen starvation is not a general feature of all M. tuberculosis strains as thought before. Our findings are of key importance to understand infection dynamics of non-Euro American vs Euro American strains and to develop drugs targeting the dormant state.

Project description:Identification of genes expressed in the germ line of C. elegans. This SuperSeries is composed of the following subsets: Direct comparison of fem-3(gf) vs fem-1(lf): GSE725: oocytes vs sperm Indirect comparisons between males and hermaphrodites with and without a germline: GSE715: glp-4 adults GSE716: glp-4 L2 GSE717: glp-4 L3 GSE718: glp-4 L4 GSE719: wt L2 GSE720: wt L3 GSE721: wt L4 GSE722: wt adults GSE723: adult males vs reference GSE724: no germline males vs reference Temporal analysis of wild-type larval and adult gene expression: GSE726: TP01 mid-L3 GSE727: TP02 late-L3 GSE728: TP03 late L3/early L4 GSE729: TP04 early L4 GSE730: TP05 late L4 GSE731: TP06 late L4/young adult GSE732: TP07 early young adult GSE733: TP08 late young adult GSE734: TP09 adult GSE735: TP10 adult with embs 1 GSE736: TP11 adult with emb 2 GSE737: TP12 adult with emb 3 Keywords: SuperSeries Refer to individual Series

Project description:Piwi-related Argonaute proteins play important roles in maintaining germline integrity and fertility and have been linked to a class of germline-enriched small RNAs termed piRNAs. Caenorhabditis elegans encodes two Piwi family proteins called PRG-1 and PRG-2, and PRG-1 interacts with the C. elegans piRNAs (21U-RNAs). Previous studies found that the prg-1 mutation causes a marked reduction in the expression of 21U-RNAs, temperature-sensitive defects in fertility and other phenotypic defects.To systematically demonstrate the function of PRG-1 on regulating small RNAs and their targets. We use recent advances in high-throughput sequencing technology to show that expression of non-coding small RNAs in six stages(embryo,L1,L2,L3,L4,young audlt) and mRNAs in four stages (L1,L2,L3,L4) after prg-1 mutation. prg-1 mutation can not only lead to a decrease in the expression of 21U-RNAs, but also cause 35~40% of miRNAs to be significantly down-regulated; approximately 3% (6.00% in L4) of protein-coding genes are differentially expressed after mutating prg-1, and 60~70% of these substantially changed protein-coding genes are up-regulated. Examination of small RNA expression in six different developmental stages (embryo, L1, L2, L3, L4, young adult) and mRNA expression in four stages (L1,L2,L3,L4) of C. elegans prg-1 mutant (wm161) .

Project description:Piwi-related Argonaute proteins play important roles in maintaining germline integrity and fertility and have been linked to a class of germline-enriched small RNAs termed piRNAs. Caenorhabditis elegans encodes two Piwi family proteins called PRG-1 and PRG-2, and PRG-1 interacts with the C. elegans piRNAs (21U-RNAs). Previous studies found that the prg-1 mutation causes a marked reduction in the expression of 21U-RNAs, temperature-sensitive defects in fertility and other phenotypic defects.To systematically demonstrate the function of PRG-1 on regulating small RNAs and their targets. We use recent advances in high-throughput sequencing technology to show that expression of non-coding small RNAs in six stages(embryo,L1,L2,L3,L4,young audlt) and mRNAs in four stages (L1,L2,L3,L4) after prg-1 mutation. prg-1 mutation can not only lead to a decrease in the expression of 21U-RNAs, but also cause 35~40% of miRNAs to be significantly down-regulated; approximately 3% (6.00% in L4) of protein-coding genes are differentially expressed after mutating prg-1, and 60~70% of these substantially changed protein-coding genes are up-regulated. Examination of small RNA expression in six different developmental stages (embryo, L1, L2, L3, L4, young adult) and mRNA expression in four stages (L1,L2,L3,L4) of C. elegans prg-1 mutant (wm161) .

Project description:Mycobacterium tuberculosis employs several strategies to combat and adapt to adverse conditions encountered inside the host. The non-replicative dormant state of the bacterium is linked to drug resistance and slower response to anti-tubercular therapy. It is known that alterations in lipid content allow dormant bacteria to acclimatize to cellular stress. Employing comparative lipidomic analysis we profiled the changes in lipid metabolism in M. tuberculosis using a modified Wayne's model of hypoxia-induced dormancy. Further we subjected the dormant bacteria to resuscitation, and analyzed their lipidomes until the lipid profile was similar to that of normoxially grown bacteria. An enhanced degradation of cell wall-associated and cytoplasmic lipids during dormancy, and their gradual restoration during reactivation, were clearly evident. This study throws light on distinct lipid metabolic patterns that M. tuberculosis undergoes to maintain its cellular energetics during dormancy and reactivation.

Project description:To identify the changes in gene expression profile caused by mechanical stress in the ligamentum flavum, we performed resection of the L3-4 supraspinal muscle and L2-3, L4-5 posterolateral fusion with instrumentation to concentrate the mechanical stress with segmental instability at the L3-4 level. The control group underwent only surgical exposure as a sham operation. Both groups of rabbits were sacrificed at 16 weeks after surgery and total RNA were extracted from ligamentum flavum.

Project description:To identify the changes in gene expression profile caused by mechanical stress in the ligamentum flavum, we performed resection of the L3-4 supraspinal muscle and L2-3, L4-5 posterolateral fusion with instrumentation to concentrate the mechanical stress with segmental instability at the L3-4 level. The control group underwent only surgical exposure as a sham operation. Both groups of rabbits were sacrificed at 1 year after surgery and total RNA were extracted from ligamentum flavum.

Project description:AIN-2::GFP IP were used to purify miRISC from stage sychronized C.elegans populations (Egg, L1, L2, L3 and L4 stages). The mRNA composition of the IP results and the corresponding total RNA samples were analyzed by WUSTL Caenorhabditis elegans Whole Genome 23k Oligo Array. The miRISC associated mRNAs (miRNA targets) in each stage were identified by measuring the relative enrichment of each mRNA in the IP sample versus the corresponding total RNA sample The mRNAs in AIN-2::GFP IP results (IP) and the corresponding input total lysate (tot) were analyzed for each stage (Egg, L1, L2, L3, and L4 stages). At least three independent biological replicates were analyzed for each stage.

Project description:We cultured D. immitis L3 and L4 of two laboratorial strains with different susceptibility status to macrocyclic lactone drugs in vitro. Excretory/secretory microRNAs were sequenced and analyzed.

Project description:Piwi-related Argonaute proteins play important roles in maintaining germline integrity and fertility and have been linked to a class of germline-enriched small RNAs termed piRNAs. Caenorhabditis elegans encodes two Piwi family proteins called PRG-1 and PRG-2, and PRG-1 interacts with the C. elegans piRNAs (21U-RNAs). Previous studies found that the prg-1 mutation causes a marked reduction in the expression of 21U-RNAs, temperature-sensitive defects in fertility and other phenotypic defects.To systematically demonstrate the function of PRG-1 on regulating small RNAs and their targets. We use recent advances in high-throughput sequencing technology to show that expression of non-coding small RNAs in six stages(embryo,L1,L2,L3,L4,young audlt) and mRNAs in four stages (L1,L2,L3,L4) after prg-1 mutation. prg-1 mutation can not only lead to a decrease in the expression of 21U-RNAs, but also cause 35~40% of miRNAs to be significantly down-regulated; approximately 3% (6.00% in L4) of protein-coding genes are differentially expressed after mutating prg-1, and 60~70% of these substantially changed protein-coding genes are up-regulated.