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Curated Optogenetic Publication Database

Search precisely and efficiently by using the advantage of the hand-assigned publication tags that allow you to search for papers involving a specific trait, e.g. a particular optogenetic switch or a host organism.

Qr: author:"Jingfang Liu"
Showing 1 - 2 of 2 results
1.

Optogenetic manipulation of estrogen receptor signaling to improve estrogen deficiency.

blue AsLOV2 HEK293T MCF7 mouse in vivo Signaling cascade control Transgene expression Endogenous gene expression
iScience, 20 Feb 2026 DOI: 10.1016/j.isci.2026.115105 Link to full text
Abstract: Estrogen receptor (ER)-mediated genomic actions are crucial for maintaining various physiological functions, and their dysfunction is associated with numerous human diseases. Traditional estrogen replacement therapy (ERT) is commonly used to manage estrogen deficiency-related conditions, such as vulvovaginal atrophy during menopause, but its systemic effects pose notable risks. This study introduces OptoER, an optogenetic tool engineered to precisely modulate ER-mediated genomic pathways through light-induced transcription regulation, offering spatial-temporal control over ER-dependent gene expression. Our in vitro studies demonstrate that OptoER significantly enhances ER-specific gene transcription and protein synthesis, leading to improved cell proliferation and migration. In a proof-of-principle study using ovariectomized (OVX) mice, OptoER demonstrated considerable therapeutic potential for vaginal atrophy, with observed improvement in epithelial thickness and keratinization. These findings suggest that OptoER provides a targeted therapeutic strategy for estrogen deficiency conditions, with significant implications for treating vaginal atrophy and promoting regenerative healing in estrogen-deprived tissues.
2.

Optogenetic Strategies for Optimizing the Performance of Phospholipids Biosensors.

blue cpLOV2 CRY2/CIB1 HEK293T HeLa Organelle manipulation
Adv Sci (Weinh), 29 Jul 2024 DOI: 10.1002/advs.202403026 Link to full text
Abstract: High-performance biosensors play a crucial role in elucidating the intricate spatiotemporal regulatory roles and dynamics of membrane phospholipids. However, enhancing the sensitivity and imaging performance remains a significant challenge. Here, optogenetic-based strategies are presented to optimize phospholipid biosensors. These strategies involves presequestering unbound biosensors in the cell nucleus and regulating their cytosolic levels with blue light to minimize background signal interference in phospholipid detection, particularly under conditions of high expression levels of biosensor. Furthermore, optically controlled phase separation and the SunTag system are employed to generate punctate probes for substrate detection, thereby amplifying biosensor signals and enhancing visualization of the detection process. These improved phospholipid biosensors hold great potential for enhancing the understanding of the spatiotemporal dynamics and regulatory roles of membrane lipids in live cells and the methodological insights in this study might be valuable for developing other high-performance biosensors.
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