Enhancer Reprogramming Reveals the Tumorigenic Role of PTPRZ1 in Lung Squamous Cell Carcinoma.

Lung squamous cell carcinoma (LUSC) remains a lethal malignancy with limited therapeutic advancements, underscoring the need to identify novel oncogenic drivers. This study integrates multi-omics analyses-including ChIP-seq, bulk RNA-seq, single-cell ATAC/RNA-seq, and spatial transcriptomics-to delineate enhancer-driven transcriptional networks in 59 matched LUSC tumors and adjacent normal tissues. The analyses identify 3,447 tumor-specific oncogenic enhancers (SOEs) enriched for master transcription factors (SOX2, TP63, KLF5, GRHL2) that orchestrate malignant programs.

Asymmetric waveguide and compressively strained quantum well-enabled high-power, polarization-dependent 850 nm gain chip.

The development of high-power gain chips is crucial for advancing hybrid-integrated narrow-linewidth lasers, which face power limitations in emerging applications such as quantum sensing and atomic cooling. This study designed a high-power GaAs-based gain chip based on an asymmetric waveguide and compressively strained quantum wells for the 850 nm wavelength band. By applying the epitaxial structure and low-loss waveguide, a record continuous-wave output power of 114.

Linewidth Measurement of a Narrow-Linewidth Laser: Principles, Methods, and Systems.

Narrow-linewidth lasers mainly depend on the development of advanced laser linewidth measurement methods for related technological progress as key devices in satellite laser communications, precision measurements, ultra-high-speed optical communications, and other fields. This manuscript provides a theoretical analysis of linewidth characterization methods based on the beat frequency power spectrum and laser phase noise calculations, and elaborates on existing research of measurement technologies. In addition, to address the technical challenges of complex measurement systems that commonly rely on long optical fibers and significant phase noise jitter in the existing research, a short-delay self-heterodyne method based on coherent envelope spectrum demodulation was discussed in depth to reduce the phase jitter caused by 1/ noise.

A 1-μm-Band Injection-Locked Semiconductor Laser with a High Side-Mode Suppression Ratio and Narrow Linewidth.

We demonstrate a narrow-linewidth, high side-mode suppression ratio (SMSR) semiconductor laser based on the external optical feedback injection locking technology of a femtosecond-apodized (Fs-apodized) fiber Bragg grating (FBG). A single frequency output is achieved by coupling and integrating a wide-gain quantum dot (QD) gain chip with a Fs-apodized FBG in a 1-μm band. We propose this low-cost and high-integration scheme for the preparation of a series of single-frequency seed sources in this wavelength range by characterizing the performance of 1030 nm and 1080 nm lasers.

Characterization of an autonomous pathway complex that promotes flowering in Arabidopsis.

Although previous studies have identified several autonomous pathway components that are required for the promotion of flowering, little is known about how these components cooperate. Here, we identified an autonomous pathway complex (AuPC) containing both known components (FLD, LD and SDG26) and previously unknown components (EFL2, EFL4 and APRF1). Loss-of-function mutations of all of these components result in increased FLC expression and delayed flowering.

High linear polarization, narrow linewidth hybrid semiconductor laser with an external birefringence waveguide Bragg grating.

We demonstrate a high linear polarization, narrow linewidth hybrid laser composed of a semiconductor gain chip and a high birefringence waveguide Bragg grating (WBG). The laser operates in the C-band, and a maximum output power of 8.07 mW is obtained in the fiber waveguide.

DREAM complex suppresses DNA methylation maintenance genes and precludes DNA hypermethylation.

The DNA methyltransferases MET1 and CMT3 are known to be responsible for maintenance of DNA methylation at symmetric CG and CHG sites, respectively, in Arabidopsis thaliana. However, it is unknown how the expression of methyltransferase genes is regulated in different cell states and whether change in expression affects DNA methylation at the whole-genome level. Using a reverse genetic screen, we identified TCX5, a tesmin/TSO1-like CXC domain-containing protein, and demonstrated that it is a transcriptional repressor of genes required for maintenance of DNA methylation, which include MET1, CMT3, DDM1, KYP and VIMs.

The HDA19 histone deacetylase complex is involved in the regulation of flowering time in a photoperiod-dependent manner.

Chromatin modifications are known to affect flowering time in plants, but little is known about how these modifications regulate flowering time in response to environmental signals like photoperiod. In Arabidopsis thaliana, HDC1, a conserved subunit of the RPD3-like histone deacetylase (HDAC) complex, was previously reported to regulate flowering time via the same mechanism as does the HDAC HDA6. Here, we demonstrate that HDC1, SNLs and MSI1 are shared subunits of the HDA6 and HDA19 HDAC complexes.

VCSEL mode and polarization control by an elliptic dielectric mode filter.

In this paper, we demonstrate the effectiveness of polarization mode control in vertical-cavity surface-emitting lasers (VCSELs) with integrated elliptic dielectric mode filters. The single-mode single-polarization laser operation is obtained by an irregularly shaped oval dielectric mode filter, aimed at cost-effective mass production. The orthogonal polarization suppression ratio was measured to be 16.

[Reliability Study of Grating Coupled Semiconductor Laser Based on Raman Spectra Technique].

Grating coupled semiconductor lasers (GCSLs) has a wide application prospect in many fields, such as optical free space communication, intersatellite communication, ranging for laser radar, atmospheric environmental testing and medical imaging. In order to verify the reliability of GCSLs, the chips in different preparation stages and products of GCSLs are tested based on Raman spectroscopy. It concluded that for unprocessed semiconductor laser chip, the longitudinal optical (LO) photons mode vibration of GaAs chip is strong but the transverse (TO) optical photons mode vibration of GaAs chip is weak.

Two novel NAC transcription factors regulate gene expression and flowering time by associating with the histone demethylase JMJ14.

The histone demethylase JMJ14 catalyzes histone demethylation at lysine 4 of histone 3 and is involved in transcriptional repression and flowering time control in Arabidopsis. Here, we report that JMJ14 is physically associated with two previously uncharacterized NAC transcription factors, NAC050 and NAC052. The NAC050/052-RNAi plants and the CRISPR-CAS9-mediated nac050/052 double mutant plants show an early flowering phenotype, which is similar to the phenotype of jmj14, suggesting a functional association between JMJ14 and NAC050/052.

IDN2 and its paralogs form a complex required for RNA-directed DNA methylation.

IDN2/RDM12 has been previously identified as a component of the RNA-directed DNA methylation (RdDM) machinery in Arabidopsis thaliana, but how it functions in RdDM remains unknown. By affinity purification of IDN2, we co-purified two IDN2 paralogs IDP1 and IDP2 (IDN2 PARALOG 1 and 2). The coiled-coil domain between the XS and XH domains of IDN2 is essential for IDN2 homodimerization, whereas the IDN2 C-terminal XH domain but not the coiled-coil domain is required for IDN2 interaction with IDP1 and IDP2.

[Broad-area vertical cavity semiconductor optical amplifiers].

Based on the broad-area vertical cavity semiconductor optical amplifiers (VCSOA) of 970 nm, the amplifier gain and bandwidth characteristics were experimentally investigated and analyzed in the reflection mode. For 970 nm broad-area VCSOA operated in reflective mode, the maximum gain amplification of 24.8 dB and optical bandwidth of 0.