SuperLight Luciferase Reporter Gene Assay Kit
- Known as:
- SuperLight Luciferase Reporter Gene Assay Kit
- Catalog number:
- sllu-01k
- Product Quantity:
- USD
- Category:
- -
- Supplier:
- BioAssay
- Gene target:
- SuperLight Luciferase Reporter Gene Assay Kit
Related genes to: SuperLight Luciferase Reporter Gene Assay Kit
- Gene:
- FOXD3 NIH gene
- Name:
- forkhead box D3
- Previous symbol:
- -
- Synonyms:
- Genesis, HFH2
- Chromosome:
- 1p31.3
- Locus Type:
- gene with protein product
- Date approved:
- 1999-12-22
- Date modifiied:
- 2015-08-25
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- Cancer stemness-related long non-coding RNAs (lncRNAs) play a crucial role in tumor initiation and progression. This study aimed to identify stemness-related lncRNAs in cervical cancer (CESC) and evaluate the prognostic significance, clinical relevance, and biological functions. - Source: PubMed
Publication date: 2026/04/20
Liu XiaochenLiao YuandongLiu YunyunHuang HuaZhang ChunyuHuang ShiyingQin ShuhangChen MingXia MengLiu TianyuLiang YanchunYao Shuzhong - Docetaxel (DTX) is a standard chemotherapy agent for castration-resistant prostate cancer (CRPC); however, DTX resistance remains a major clinical challenge, and the underlying molecular mechanisms are not fully understood. In our study, it was found that OTUB2 was highly expressed in DTX-resistant CRPC and could be served as a key driver of DTX resistance. Mechanistically, OTUB2 stabilizes the m5C reader ALYREF by removing its K48-linked polyubiquitin chains, leading to increased ALYREF protein levels. And then, ALYREF enhances the mRNA stability and expression of ABCG4, thereby promoting ATP-dependent efflux of DTX. Moreover, the expression of OTUB2 mRNA and protein could be regulated by FOXD3-AS1 derived from cancer-associated fibroblasts (CAFs). More importantly, treatment with OTUB2 inhibitor (OTUB2-IN-1) resensitized resistant CRPC to DTX. Together, our findings establish OTUB2 as a novel driver of DTX resistance in CRPC and highlight the role of CAFs-derived FOXD3-AS1 and OTUB2/ALYREF/ABCG4 axis in modulating DTX resistance of CRPC. - Source: PubMed
Publication date: 2026/03/17
Ke Zhi-BinChen Jia-YinLin BinChen Chao-RanXue Yu-TingSun Jiang-BoYan Zi-HengZhao Yu-XuanLiu Meng-XinWang ZhenXue Xue-YiZheng Qing-ShuiWei YongXu Ning - The neural crest is a vertebrate stem cell population with broad developmental potential. While a gene regulatory network describing establishment of these cells has been generated, much remains to be learned about the dynamics of this process. Here, we use fluorescent in situ hybridization chain reaction to quantify the spatiotemporal dynamics of neural crest formation in Xenopus. We find that the initial onset of neural crest genes is broad and partially overlapping, with distinct anterior-posterior and medio-lateral biases. A shared neural crest domain emerges, but some genes retain relative expression differences that persist into migratory stages, producing stream-specific gene expression patterns. These differences correlate with dynamic expression of the neural plate border factors pax3 and zic1. Correlating relative intensities of pax3 and zic1 with the presence or absence of nascent neural crest transcripts predicts that these factors can differentially regulate snai2 and sox8, which we confirm experimentally. Strikingly, later stages display an inverse correlation between neural crest and neural plate border factors, suggesting that pax3 and zic1 initially promote neural crest gene activation but are downregulated as neural crest identity emerges. - Source: PubMed
Publication date: 2026/02/20
Montequin AndrewLaBonne Carole - Motor Exit Point (MEP) glia are spinal cord-derived glial cells that myelinate peripheral motor axons, bridging the central and peripheral nervous systems. They have a hybrid profile, sharing features with oligodendrocytes and Schwann cells. Yet, significant gaps remain in our understanding of complex MEP glial lineage and identity. MEP glia express neural tube and canonical oligodendrocyte lineage markers and , as well as the neural crest marker . Here, we show that the oligodendrocyte markers and are not expressed in MEP glia. These findings refine the molecular signature of MEP glia, enhancing their peripheral identity. - Source: PubMed
Publication date: 2026/01/21
Dallo Tessa CFontenas Laura - Precise genome editing remains a major challenge in functional genomics, particularly for generating knock-in (KI) alleles in model organisms. Here, we introduce the mini-golden system, a versatile Golden Gate-based subcloning platform that enables rapid assembly of donor constructs containing homology arms and a gene of interest. This system offers a library of middle entry vectors including diverse genes, enhancing the preparation of donor minicircles for KI applications. Using the mini-golden system, we efficiently generated a foxd3CreER KI zebrafish line, allowing conditional recombination in neural crest cells. To further improve genome editing precision, we developed a synthetic exon-based donor template strategy combined with fluorescence screening. Using this approach, we successfully engineered a targeted isoleucine-to-valine substitution (Ile-to-Val) in hbaa1.2, one of the two adult hemoglobin alpha genes in zebrafish. Importantly, despite the high sequence similarity between hbaa1.2 and its paralog hbaa1.1, our strategy specifically edited hbaa1.2, demonstrating the effectiveness of the synthetic exon approach. This method minimized undesired recombination and significantly improved the identification of lines carrying the edited genome. Together, we provide a robust toolkit for efficient and precise genome engineering in zebrafish, with broad applicability to other model systems. - Source: PubMed
Publication date: 2026/02/18
Rodriguez-Parks AnjelicaBeezley Ella GraceManna SteffaniSilaban IsabellaAlmutawa Sarah ICao SiyangAhmed HossamGuyer MeganBaker SeanRichards Mark PKang Junsu