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901.
Melissa Jean Wilking-Busch Mary Ann Ndiaye Wei Huang 《Cell cycle (Georgetown, Tex.)》2017,16(6):574-577
Melanoma is cancer of melanin-containing melanocyte cells. This neoplasm is one of the most deadly forms of skin cancer, and currently available therapeutic options are insufficient in significantly improve outcomes for many patients. Therefore, novel targets are required to effectively manage this neoplasm. Several sirtuins have previously been found to be upregulated in melanoma, so in this study, the expression profile of SIRT2 was determined. Employing a tissue microarray containing benign nevi, primary melanomas, and lymph node metastases, we have found that the tissue from lymph node metastases appears to have a significant upregulation of SIRT2 relative to primary tumors across the nuclear, cytoplasmic, and whole cell data. Additionally, SIRT2 staining was found to be higher in the nucleus of metastatic melanomas compared to cytoplasmic staining. As SIRT2 is considered to be a predominantly cytoplasmic protein, this is a novel and very interesting finding. This, combined with previous studies that show other sirtuins are increased in melanoma and involved in cellular proliferation and survival, leads to the suggestion that exploring pan-sirtuin inhibitors may be the best target for the next iteration of melanoma chemotherapeutics. 相似文献
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Steven Santino Leonardi Feng-Jun Li Melissa Su-Juan Chee John Anthony Yason Hui Yi Tay John Yu-Shen Chen Eileen Yiling Koh Cynthia Ying-Xin He Kevin Shyong-Wei Tan 《PLoS neglected tropical diseases》2021,15(9)
In recent years, the human gut microbiome has been recognised to play a pivotal role in the health of the host. Intestinal homeostasis relies on this intricate and complex relationship between the gut microbiota and the human host. While much effort and attention has been placed on the characterization of the organisms that inhabit the gut microbiome, the complex molecular cross-talk between the microbiota could also exert an effect on gastrointestinal conditions. Blastocystis is a single-cell eukaryotic parasite of emerging interest, as its beneficial or pathogenic role in the microbiota has been a subject of contention even to-date. In this study, we assessed the function of the Blastocystis tryptophanase gene (BhTnaA), which was acquired by horizontal gene transfer and likely to be of bacterial origin within Blastocystis. Bioinformatic analysis and phylogenetic reconstruction revealed distinct divergence of BhTnaA versus known bacterial homologs. Despite sharing high homology with the E. coli tryptophanase gene, we show that Blastocystis does not readily convert tryptophan into indole. Instead, BhTnaA preferentially catalyzes the conversion of indole to tryptophan. We also show a direct link between E. coli and Blastocystis tryptophan metabolism: In the presence of E. coli, Blastocystis ST7 is less able to metabolise indole to tryptophan. This study examines the potential for functional variation in horizontally-acquired genes relative to their canonical counterparts, and identifies Blastocystis as a possible producer of tryptophan within the gut. 相似文献
904.
Bokyung Son Jennifer Patterson-West Melissa Arroyo-Mendoza Revathy Ramachandran James
R Iben Jingen Zhu Venigalla Rao Emilios
K Dimitriadis Deborah
M Hinton 《Nucleic acids research》2021,49(16):9229
Nucleoid Associated Proteins (NAPs) organize the bacterial chromosome within the nucleoid. The interaction of the NAP H-NS with DNA also represses specific host and xenogeneic genes. Previously, we showed that the bacteriophage T4 early protein MotB binds to DNA, co-purifies with H-NS/DNA, and improves phage fitness. Here we demonstrate using atomic force microscopy that MotB compacts the DNA with multiple MotB proteins at the center of the complex. These complexes differ from those observed with H-NS and other NAPs, but resemble those formed by the NAP-like proteins CbpA/Dps and yeast condensin. Fluorescent microscopy indicates that expression of motB in vivo, at levels like that during T4 infection, yields a significantly compacted nucleoid containing MotB and H-NS. motB overexpression dysregulates hundreds of host genes; ∼70% are within the hns regulon. In infected cells overexpressing motB, 33 T4 late genes are expressed early, and the T4 early gene repEB, involved in replication initiation, is up ∼5-fold. We postulate that MotB represents a phage-encoded NAP that aids infection in a previously unrecognized way. We speculate that MotB-induced compaction may generate more room for T4 replication/assembly and/or leads to beneficial global changes in host gene expression, including derepression of much of the hns regulon. 相似文献
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Tropomyosins are believed to function in part by stabilizing actin filaments. However, accumulating evidence suggests that fundamental differences in function exist between tropomyosin isoforms, which contributes to the formation of functionally distinct filament populations. We investigated the functions of the high-molecular-weight isoform Tm3 and examined the molecular properties of Tm3-containing actin filament populations. Overexpression of the Tm3 isoform specifically induced the formation of filopodia and changes in actin solubility. We observed alterations in actin-binding protein recruitment to filaments, co-incident with changes in expression levels, which can account for this functional outcome. Tm3-associated filaments recruit active actin depolymerizing factor and are bundled into filopodia by fascin, which is both up-regulated and preferentially associated with Tm3-containing filaments in the Tm3 overexpressing cells. This study provides further insight into the isoform-specific roles of different tropomyosin isoforms. We conclude that variation in the tropomyosin isoform composition of microfilaments provides a mechanism to generate functionally distinct filament populations. 相似文献
909.
Development of Atlantic halibut (Hippoglossus hippoglossus) aquaculture will be enhanced with cryopreservation of halibut sperm by ensuring a reliable supply of sperm of desired quality and quantity. To assist in its commercial application, the cryopreservation of large volumes of halibut sperm was investigated. Three cryoprotectants were compared: dimethyl sulfoxide (DMSO), polyethylene glycol (PG) and glycerol (GLY) at two concentrations (10% or 15%). Two salt solutions, Hanks’ balanced salt solution (HBSS) and 0.1 M KHCO3 with 0.125 M sucrose solution (KS) were tested as diluents. Both factors were examined in 1.6 mL volumes. A cryopreservation volume of 4 mL and a low dilution ratio (1:1) were examined separately. Based on motility and fertilization rate, 10% and 15% DMSO diluted with HBSS or KS solution proved to be effective extenders with mean fertilization rates ranging from 52.2 ± 27.2% to 65.8 ± 26.1%; none of which were significantly different from that of the control. Four other extenders, 10% PG or 10% GLY with HBSS or KS, resulted in significantly lower fertilization rates. Use of a 4 mL cryopreservation volume did not exhibit a significant effect on fertilization rate or motility of post-thawed sperm compared to a 1.6 mL volume (P > 0.05); while the use of a dilution ratio of one part sperm with three parts cryopreservation solution (1:3 v/v with sperm concentration of 0.51 ± 0.11 × 1010 cells/ml) had a significantly better preservation effect than using a ratio of 1:1 with sperm concentration of 1.02 ± 0.21 × 1010 cells/ml (P < 0.05). From these results, an optimized protocol for the cryopreservation of Atlantic halibut sperm using a volume as large as 4 mL has been established. 相似文献
910.
Sephton CF Cenik C Kucukural A Dammer EB Cenik B Han Y Dewey CM Roth FP Herz J Peng J Moore MJ Yu G 《The Journal of biological chemistry》2011,286(2):1204-1215
TAR DNA-binding protein 43 (TDP-43) is associated with a spectrum of neurodegenerative diseases. Although TDP-43 resembles heterogeneous nuclear ribonucleoproteins, its RNA targets and physiological protein partners remain unknown. Here we identify RNA targets of TDP-43 from cortical neurons by RNA immunoprecipitation followed by deep sequencing (RIP-seq). The canonical TDP-43 binding site (TG)(n) is 55.1-fold enriched, and moreover, a variant with adenine in the middle, (TG)(n)TA(TG)(m), is highly abundant among reads in our TDP-43 RIP-seq library. TDP-43 RNA targets can be divided into three different groups: those primarily binding in introns, in exons, and across both introns and exons. TDP-43 RNA targets are particularly enriched for Gene Ontology terms related to synaptic function, RNA metabolism, and neuronal development. Furthermore, TDP-43 binds to a number of RNAs encoding for proteins implicated in neurodegeneration, including TDP-43 itself, FUS/TLS, progranulin, Tau, and ataxin 1 and -2. We also identify 25 proteins that co-purify with TDP-43 from rodent brain nuclear extracts. Prominent among them are nuclear proteins involved in pre-mRNA splicing and RNA stability and transport. Also notable are two neuron-enriched proteins, methyl CpG-binding protein 2 and polypyrimidine tract-binding protein 2 (PTBP2). A PTBP2 consensus RNA binding motif is enriched in the TDP-43 RIP-seq library, suggesting that PTBP2 may co-regulate TDP-43 RNA targets. This work thus reveals the protein and RNA components of the TDP-43-containing ribonucleoprotein complexes and provides a framework for understanding how dysregulation of TDP-43 in RNA metabolism contributes to neurodegeneration. 相似文献