Triple-negative breast cancer (TNBC) exhibits poor prognosis, with high metastasis and low survival. Long non-coding RNAs (lncRNAs) play critical roles in tumor progression. Here, we identified lncRNA MIR100HG as a pro-oncogene for TNBC progression. Knockdown of MIR100HG decreased cell proliferation and induced cell arrest in the G1 phase, whereas overexpression of MIR100HG significantly increased cell proliferation. Furthermore, MIR100HG regulated the p27 gene to control the cell cycle, and subsequently impacted the progression of TNBC. In analyzing its underlying mechanism, bioinformatics prediction and experimental data demonstrated that MIR100HG participated in the formation of RNA–DNA triplex structures. MIR100HG in The Cancer Genome Atlas (TCGA) and breast cancer cell lines showed higher expression in TNBC than in other tumor types with poor prognosis. In conclusion, our data indicated a novel working pattern of lncRNA in TNBC progression, which may be a potential therapeutic target in such cancers.
An anaerobic, Gram-stain-positive, rod-shaped, motile and spore-forming bacterium, designated strain LBM18003T, was isolated from pit clay used for making Chinese strong aroma-type liquor. Growth occurred at 20–40 °C (optimum, 30–37 °C), pH 4.5–9.5 (optimum, pH 6.5–7.0) and in the presence of 0.0–1.0 % (w/v) sodium chloride (optimum, 0 %). The predominant fatty acids were C16:0, C14:0, C14:0 DMA and C16:0 3-OH, and the major polar lipids were diphosphatidylglycerol, phosphatidylglycerol, two unidentified phospholipids and nine unidentified glycolipids. Phylogenetic analysis revealed that strain LBM18003T is a novel member of the family Oscillospiraceae . The 16S rRNA gene sequence similarities of strain LBM18003T to its two most closely related species were less than 94.5 % for distinguishing genera, i.e. closely related to Caproiciproducens galactitolivorans JCM 30532T (94.1 %) and Caproicibacter fermentans DSM 107079T (93.2 %). The genome size of strain LBM18003T was 2 996 201 bp and its DNA G+C content was 48.48 mol%. Strain LBM18003T exhibited 67.8 and 68.1% pairwise-determined whole-genome average nucleotide identity values to Caproiciproducens galactitolivorans JCM 30532T and Caproicibacter fermentans DSM 107079T, respectively; and showed 62.2 and 61.0 % the average amino acid identity values to Caproiciproducens galactitolivorans JCM 30532T and Caproicibacter fermentans DSM 107079T, respectively; and demonstrated 46.1 and 41.5 % conserved genes to Caproiciproducens galactitolivorans JCM 30532T and Caproicibacter fermentans DSM 107079T, respectively. The comparisons of 16S rRNA gene and genome sequences confirmed that strain LBM18003T represented a novel genus of the family Oscillospiraceae . Based on morphological, physiological, biochemical, chemotaxonomic, genotypic and phylogenetic results, strain LBM18003T represents a novel species of a novel genus of the family Oscillospiraceae , for which the name Caproicibacterium amylolyticum gen. nov., sp. nov. is proposed. The type strain is LBM18003T (=GDMCC 1.1626T=JCM 33783T).
Mn 3 O 4 nanowires with diameters of 30-60 nm and lengths of up to more than 100 µm were synthesized by decomposing the precursor MnCO 3 nanoparticles in NaCl flux. The X-ray diffraction (XRD), transmission electron microscopy (TEM), selected area electron diffraction (SAED), and high-resolution TEM (HRTEM) techniques were used to study structural features and chemical compositions of the prepared nanowires. The Raman optical property of the Mn 3 O 4 nanowires was investigated by Raman spectroscopy, the result indicated that the Raman peak is asymmetric and broadened and is red-shifted 13 cm -1 compared with that of bulk Mn 3 O 4 crystals. A rational explanation for the red shift and broadening of the Raman peak is discussed in detail according to phonon confinement model of an infinite crystal.
Based on first-principles plane-wave calculations, functionalization of the two-dimensional single-layered GaSe structure through vacancy and chemical element doping has been investigated. Our calculations show that the pristine GaSe monolayer, which is normally a non-magnetic, indirect-band-gap semiconductor, can induce net magnetic moments by introduction of Ga mono-vacancy, Ga di-vacancy, and GaSe3 and Ga2Se6 vacancy complexes. Magnetic moments can also be induced by selectively doping specific transition-metal atoms as well as A group atoms. The introduced donor or acceptor states are localized in the band gap, which expands the utilization of the single-layered GaSe in nanoelectronics and spintronics. In spite of the intrinsic p-type character of the two-dimensional GaSe material, substitution of Si for Ga and substitution of Cl for Se exhibit n-type character at relatively low dopant concentrations. These findings will provide useful supplements to the experimental studies on the newly synthesized two-dimensional layered metal monochalcogenides, which allows us to go beyond the current scope that is limited to applications within graphene, BN, and transition-metal dichalcogenide-based nanostructures.
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