Your search keyword '"Chi-Yu Lu"' showing total 5 results

1. The proteomic response of the reef coral Pocillopora acuta to experimentally elevated temperatures.

Author

Anderson B Mayfield, Yi-Jyun Chen, Chi-Yu Lu, and Chii-Shiarng Chen

Subjects

Medicine, Science

Abstract

Although most reef-building corals live near the upper threshold of their thermotolerance, some scleractinians are resilient to temperature increases. For instance, Pocillopora acuta specimens from an upwelling habitat in Southern Taiwan survived a nine-month experimental exposure to 30°C, a temperature hypothesized to induce stress. To gain a greater understanding of the molecular pathways underlying such high-temperature acclimation, the protein profiles of experimental controls incubated at 27°C were compared to those of conspecific P. acuta specimens exposed to 30°C for two, four, or eight weeks, and differentially concentrated proteins (DCPs) were removed from the gels and sequenced with mass spectrometry. Sixty unique DCPs were uncovered across both eukaryotic compartments of the P. acuta-dinoflagellate (genus Symbiodinium) mutualism, and Symbiodinium were more responsive to high temperature at the protein-level than the coral hosts in which they resided at the two-week sampling time. Furthermore, proteins involved in the stress response were more likely to be documented at different cellular concentrations across temperature treatments in Symbiodinium, whereas the temperature-sensitive host coral proteome featured numerous proteins involved in cytoskeletal structure, immunity, and metabolism. These proteome-scale data suggest that the coral host and its intracellular dinoflagellates have differing strategies for acclimating to elevated temperatures.

Published

2018

2. Modulation the alternative splicing of GLA (IVS4+919G>A) in Fabry disease.

Author

Wen-Hsin Chang, Dau-Ming Niu, Chi-Yu Lu, Shyr-Yi Lin, Ta-Chih Liu, and Jan-Gowth Chang

Subjects

Medicine, Science

Abstract

While a base substitution in intron 4 of GLA (IVS4+919G>A) that causes aberrant alternative splicing resulting in Fabry disease has been reported, its molecular mechanism remains unclear. Here we reported that upon IVS4+919G>A transversion, H3K36me3 was enriched across the alternatively spliced region. PSIP1, an adapter of H3K36me3, together with Hsp70 and NONO were recruited and formed a complex with SF2/ASF and SRp20, which further promoted GLA splicing. Amiloride, a splicing regulator in cancer cells, could reverse aberrant histone modification patterns and disrupt the association of splicing complex with GLA. It could also reverse aberrant GLA splicing in a PP1-dependant manner. Our findings revealed the alternative splicing mechanism of GLA (IVS4+919G>A), and a potential treatment for this specific genetic type of Fabry disease by amiloride in the future.

Published

2017

3. Membrane labeling of coral gastrodermal cells by biotinylation: the proteomic identification of surface proteins involving cnidaria-dinoflagellate endosymbiosis.

Author

Hsing-Hui Li, Zi-Yu Huang, Shih-Png Ye, Chi-Yu Lu, Pai-Chiao Cheng, Shu-Hwa Chen, and Chii-Shiarng Chen

Subjects

Medicine, Science

Abstract

The cellular and molecular-scale processes underlying the stability of coral-Symbiodinium endosymbioses remain unclear despite decades of investigation. As the coral gastroderm is the only tissue layer characterized by this unique symbiotic association, the membranes of these symbiotic gastrodermal cells (SGCs) may play important roles in the initiation and maintenance of the endosymbiosis. In order to elucidate the interactions between the endosymbiotic dinoflagellates and their coral hosts, a thorough characterization of SGC membranes is therefore required. Cell surface proteins of isolated SGCs were biotinylated herein by a cell impermeant agent, biotin-XX sulfosuccinimidyl ester. The in situ distribution of these biotinylated proteins was uncovered by both fluorescence and transmission electron microscopic imaging of proteins bound to Alexa Fluor® 488-conjugated streptavidin. The identity of these proteins was then determined by two-dimensional gel electrophoresis followed by liquid chromatography-tandem mass spectrometry. Nineteen (19) proteins were identified, and they are known to be involved in the molecular chaperone/stress response, cytoskeletal remodeling, and energy metabolism. These results not only reveal the molecular characters of the host SGC membrane, but also provide critical insight into understanding the possible role of host membranes in this ecologically important endosymbiotic association.

Published

2014

4. Proteomics characterization of cytoplasmic and lipid-associated membrane proteins of human pathogen Mycoplasma fermentans M64.

Author

Yi-Chang Liu, I-Hsuan Lin, Wei-Jen Chung, Wensi S Hu, Wailap Victor Ng, Chi-Yu Lu, Tsung-Yen Huang, Hung-Wei Shu, Kwang-Jen Hsiao, Shih-Feng Tsai, Chuan-Hsiung Chang, and Chao-Hsiung Lin

Subjects

Medicine, Science

Abstract

Mycoplasma fermentans is a potent human pathogen which has been implicated in several diseases. Notably, its lipid-associated membrane proteins (LAMPs) play a role in immunomodulation and development of infection-associated inflammatory diseases. However, the systematic protein identification of pathogenic M. fermentans has not been reported. From our recent sequencing results of M. fermentans M64 isolated from human respiratory tract, its genome is around 1.1 Mb and encodes 1050 predicted protein-coding genes. In the present study, soluble proteome of M. fermentans was resolved and analyzed using two-dimensional gel electrophoresis. In addition, Triton X-114 extraction was carried out to enrich amphiphilic proteins including putative lipoproteins and membrane proteins. Subsequent mass spectrometric analyses of these proteins had identified a total of 181 M. fermentans ORFs. Further bioinformatics analysis of these ORFs encoding proteins with known or so far unknown orthologues among bacteria revealed that a total of 131 proteins are homologous to known proteins, 11 proteins are conserved hypothetical proteins, and the remaining 39 proteins are likely M. fermentans-specific proteins. Moreover, Triton X-114-enriched fraction was shown to activate NF-kB activity of raw264.7 macrophage and a total of 21 lipoproteins with predicted signal peptide were identified therefrom. Together, our work provides the first proteome reference map of M. fermentans as well as several putative virulence-associated proteins as diagnostic markers or vaccine candidates for further functional study of this human pathogen.

Published

2012

5. Modulation the alternative splicing of GLA (IVS4+919G>A) in Fabry disease

Author

Chi Yu Lu, Dau Ming Niu, Ta Chih Liu, Shyr Yi Lin, Jan-Gowth Chang, and Wen Hsin Chang

Subjects

0301 basic medicine, RNA splicing, lcsh:Medicine, Artificial Gene Amplification and Extension, Biochemistry, Polymerase Chain Reaction, Histones, Amiloride, Exon, Database and Informatics Methods, Transversion, lcsh:Science, Multidisciplinary, biology, Chemistry, Chromosome Biology, Chromatin Modification, Histone Modification, Genomics, Exons, Chromatin, Cell biology, Precipitation Techniques, Nucleic acids, Histone, Epigenetics, lipids (amino acids, peptides, and proteins), Sequence Analysis, Research Article, Bioinformatics, Research and Analysis Methods, Genome Complexity, 03 medical and health sciences, PSIP1, Sequence Motif Analysis, DNA-binding proteins, Genetics, Immunoprecipitation, Humans, RNA, Messenger, Molecular Biology Techniques, Molecular Biology, Alpha-galactosidase, 030102 biochemistry & molecular biology, Biology and life sciences, Alternative splicing, lcsh:R, Intron, Computational Biology, Proteins, nutritional and metabolic diseases, Cell Biology, Co-Immunoprecipitation, Introns, Alternative Splicing, 030104 developmental biology, RNA processing, alpha-Galactosidase, biology.protein, RNA, Fabry Disease, lcsh:Q, Gene expression

Abstract

While a base substitution in intron 4 of GLA (IVS4+919G>A) that causes aberrant alternative splicing resulting in Fabry disease has been reported, its molecular mechanism remains unclear. Here we reported that upon IVS4+919G>A transversion, H3K36me3 was enriched across the alternatively spliced region. PSIP1, an adapter of H3K36me3, together with Hsp70 and NONO were recruited and formed a complex with SF2/ASF and SRp20, which further promoted GLA splicing. Amiloride, a splicing regulator in cancer cells, could reverse aberrant histone modification patterns and disrupt the association of splicing complex with GLA. It could also reverse aberrant GLA splicing in a PP1-dependant manner. Our findings revealed the alternative splicing mechanism of GLA (IVS4+919G>A), and a potential treatment for this specific genetic type of Fabry disease by amiloride in the future.

Published

2017