Project description:Characterization of microorganisms from oil-contaminated environments

Project description:Cerebellar ataxia with neuropathy and vestibular areflexia syndrome (CANVAS) is a late onset, recessively inherited neurodegenerative disorder caused by a biallelic, non-reference pentameric CCCTT(AAGGG) repeat expansion within the second intron of replication factor complex subunit 1 (RFC1). While rare compound heterozygous CANVAS cases harbor RFC1 loss-of-function mutations alongside monoallelic repeat-expansions, RFC1 expression is maintained at normal levels in the presence of biallelic expanded repeats. To investigate how these pentameric repeats cause disease, we generated CANVAS patient iPSC derived neurons and utilized calcium imaging and transcriptomic analysis to define repeat elicited gain-of-function and loss-of-function contributions to neuronal toxicity. AAGGG repeat expansions do not alter neuronal RFC1 splicing, expression, or DNA repair pathway functions. In reporter assays, AAGGG repeats are translated into pentapeptide repeat proteins that selectively accumulate in patient brains. However, neither these proteins nor repeat RNA foci were detected in iNeurons and overexpression of these repeats in isolation did not induce neuronal toxicity. CANVAS iNeurons exhibit defects in neuronal development and diminished synaptic connectivity that is rescued by CRISPR deletion of a single expanded allele. Importantly, these deficits were not replicated by knockdown of RFC1 in control neurons and showed incomplete or no rescue upon over-expression of RFC1. These findings support a repeat-dependent and RFC1-independent mechanism as the underlying cause of neurodegeneration in CANVAS, with important implications for therapeutic development in this currently untreatable condition.

Project description:Cerebellar ataxia with neuropathy and vestibular areflexia syndrome (CANVAS) is a late onset, recessively inherited neurodegenerative disorder caused by a biallelic, non-reference pentameric CCCTT(AAGGG) repeat expansion within the second intron of replication factor complex subunit 1 (RFC1). While rare compound heterozygous CANVAS cases harbor RFC1 loss-of-function mutations alongside monoallelic repeat-expansions, RFC1 expression is maintained at normal levels in the presence of biallelic expanded repeats. To investigate how these pentameric repeats cause disease, we generated CANVAS patient iPSC derived neurons and utilized calcium imaging and transcriptomic analysis to define repeat elicited gain-of-function and loss-of-function contributions to neuronal toxicity. AAGGG repeat expansions do not alter neuronal RFC1 splicing, expression, or DNA repair pathway functions. In reporter assays, AAGGG repeats are translated into pentapeptide repeat proteins that selectively accumulate in patient brains. However, neither these proteins nor repeat RNA foci were detected in iNeurons and overexpression of these repeats in isolation did not induce neuronal toxicity. CANVAS iNeurons exhibit defects in neuronal development and diminished synaptic connectivity that is rescued by CRISPR deletion of a single expanded allele. Importantly, these deficits were not replicated by knockdown of RFC1 in control neurons and showed incomplete or no rescue upon over-expression of RFC1. These findings support a repeat-dependent and RFC1-independent mechanism as the underlying cause of neurodegeneration in CANVAS, with important implications for therapeutic development in this currently untreatable condition.

Project description:Cerebellar ataxia with neuropathy and vestibular areflexia syndrome (CANVAS) is a late onset, recessively inherited neurodegenerative disorder caused by a biallelic, non-reference pentameric CCCTT(AAGGG) repeat expansion within the second intron of replication factor complex subunit 1 (RFC1). While rare compound heterozygous CANVAS cases harbor RFC1 loss-of-function mutations alongside monoallelic repeat-expansions, RFC1 expression is maintained at normal levels in the presence of biallelic expanded repeats. To investigate how these pentameric repeats cause disease, we generated CANVAS patient iPSC derived neurons and utilized calcium imaging and transcriptomic analysis to define repeat elicited gain-of-function and loss-of-function contributions to neuronal toxicity. AAGGG repeat expansions do not alter neuronal RFC1 splicing, expression, or DNA repair pathway functions. In reporter assays, AAGGG repeats are translated into pentapeptide repeat proteins that selectively accumulate in patient brains. However, neither these proteins nor repeat RNA foci were detected in iNeurons and overexpression of these repeats in isolation did not induce neuronal toxicity. CANVAS iNeurons exhibit defects in neuronal development and diminished synaptic connectivity that is rescued by CRISPR deletion of a single expanded allele. Importantly, these deficits were not replicated by knockdown of RFC1 in control neurons and showed incomplete or no rescue upon over-expression of RFC1. These findings support a repeat-dependent and RFC1-independent mechanism as the underlying cause of neurodegeneration in CANVAS, with important implications for therapeutic development in this currently untreatable condition.

Project description:The purpose of this study was to explore the mechanism of aerobic decay of whole-plant corn silage and the effect of Neolamarckia cadamba essential oil on aerobic stability of whole-plant corn silage. Firstly, the dynamic changes of temperature, microbial community and metabolite content after aerobic exposure of whole-plant corn silage were determined, and the main microbial species and mechanism leading to aerobic spoilage of whole-plant corn silage were analyzed. The N. cadamba essential oil was extracted from fresh N. cadamba leaves by steam distillation, and the minimal inhibitory concentration, antibacterial stability and bacteriostatic mechanism of N. cadamba essential oil against undesirable microorganisms in whole-plant corn silage were determined. According to the minimum inhibitory concentration of N. cadamba essential oil on undesirable microorganisms in silage, N. cadamba essential oil was added to whole-plant corn silage to explore the effect of N. cadamba essential oil on the aerobic stability of whole-plant corn silage.

Project description:The division rate of hematopoietic stem cells (HSCs) are promoted by estradiol. To identify the mechanism by which estradiol regulates HSCs, we performed gene expresssion profiling of HSCs isolated from mice of both sexes treated with either control vehicle (oil) or estradiol for one week.

Project description:The division rate of hematopoietic stem cells (HSCs) are promoted by estradiol. To identify the mechanism by which estradiol regulates HSCs, we performed gene expresssion profiling of HSCs isolated from mice of both sexes treated with either control vehicle (oil) or estradiol for one week. 4 groups were analyzed; 1) HSCs from male mice treated with oil, 2) HSCs from male mice treated with estradiol, 3) HSCs from female mice treated with oil, and 4) HSCs from female mice treated with estradiol. All groups include 3 biological replicates isolated from 3 mice.

Project description:To investigate the role of lncRNAs on lipid metabolism, we did RNAseq to find the difference among large yellow croaker fed with fish oil (FO), soybean oil (SO), olive oil (OO), and palm oil (PO) diets

Project description:To perform mRNA expression analysis through deep sequencing, RNA was isolated from prostate mice treated with normolipidic diets based on linseed oil, soybean oil or lard (varying saturated and unsaturated FA contents and ω-3/ω-6 ratios (ω ratio) for 12 or 32 weeks after weaning

Project description:Two isocaloric, isonitrogenous diets containing 10% (w/w) olive oil or unsaponifiable-enriched olive oil have been provided to male apo E knockout mice for 11 weeks. Then RNA was isolated and hepatic gene expression analyzed. Keywords: other