Caixia Wang scite author profile

Detecting and imaging of ultratrace cyclooxygenase-2 in living biosystems could provide much important valuable information for the diagnosis and intervention of cancer. Molecular probes, whose fluorescent signals are generated by cyclooxygenase-2, hold great potential for identification and enumeration of cyclooxygenase-2 in living biosystems. Although quite a few fluorescent probes have been reported for cyclooxygenase-2, the use fluorogenic probe with the excellent two-photon properties for the determination of ultratrace cyclooxygenase-2 has been scarce. Herein, an "off-on" fluorescence probe (BTDAN-COX-2), able to report and image the presence of ultratrace cyclooxygenase-2 in living biosystems, has been designed and evaluated. In order to improve sensitivity and specific selectivity of probe for ultratrace cyclooxygenase-2, BTDAN-COX-2 employed cyclooxygenase-2's inhibitor as recognition group, because it is a classical and efficient recognition group for cyclooxygenase-2. A polarity-sensitive naphthalene derivative (BTDAN) as fluorophore was introduced into the molecule to enhance two-photon properties of BTDAN-COX-2. In the absent of cyclooxygenase-2, BTDAN-COX-2 mainly exists in a folded conformation where probe fluorescence is quenched through photoinduced electron transfer between the fluorophore and the recognition group. Under the condition of existence of cyclooxygenase-2, fluorescence of probe is turned on, because photoinduced electron transfer between the fluorophore and the recognition group is restrained. BTDAN-COX-2 provides high signal-to-background staining for the ultratrace cyclooxygenase-2 and has been successfully used to rapidly detect and image ultratrace cyclooxygenase-2 in living biosystems.

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Microtubule-Targetable Fluorescent Probe: Site-Specific Detection and Super-Resolution Imaging of Ultratrace Tubulin in Microtubules of Living Cancer Cells

Zhang

Wang

Jiang

et al. 2015

Anal. Chem.

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Tubulins in microtubules have been recognized as potential targets in cancer chemotherapy for several years. However, their detection and imaging in living cells, especially following exposure to anticancer drugs, remains difficult to achieve. This difficulty is due to the very small cross section of microtubules and the very small changes in tubulin concentration involved. Photoswitchable fluorescent probes combined with the "super-resolution" fluorescence imaging technique present an exciting opportunity for site-specific detection and super-resolution imaging of specific microscopic populations, such as tubulin. In this study, a tubulin specific photoswitchable fluorescent probe (Tu-SP), that labels and detects ultratrace levels of tubulin in microtubules of living biosystems, was designed and evaluated. To realize super-resolution fluorescence imaging, the spiropyran derivative (SP), a classic photoswitch, was introduced to Tu-SP as a fluorophore. To detect ultratrace tubulin, Tu-SP employed the tubulin inhibitor, alkaloid colchicine (Tu), as a recognition unit. Tu-SP exhibited nearly nonintrinsic fluorescence before binding to tubulin, even if there were divalent metal ions and 375 nm lasers, respectively. After binding to tubulin, a dramatic increase in fluorescence was detected within milliseconds when irradiated at 375 nm, this increase is a result of the transformation of Tu-SP into a colored merocyanine (Tu-SP-1) with fluorescence. Tu-SP was successfully used for site-specific imaging of tubulin at a resolution of 20 ± 5 nm in microtubules of living cancer cells. More importantly, the probe was suitable for site-specific and quantitative detection of trace tubulin in microtubules of living biological samples.

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Ultrasensitive fluorescent ratio imaging probe for the detection of glutathione ultratrace change in mitochondria of cancer cells

Zhang

Wang²,

Wang³

et al. 2016

Biosensors and Bioelectronics

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Highly Sensitive Fluorescence Molecular Switch for the Ratio Monitoring of Trace Change of Mitochondrial Membrane Potential

Wang

et al. 2017

Anal. Chem.

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As one of the earliest events in apoptosis, trace change of mitochondrial membrane potential (MMP) greatly affects cell health. The local MMP, as an intracellular variable factor, differs considerably from one area to another in an extremely fine cell structure-mitochondrial membrane, which increases the difficulty for the real-time monitoring of MMP trace change in living cells. More regrettably, so far, no ratio fluorescence probe for MMP is available. Such a probe is a kind of precision analysis tool that detects a trace change of MMP in the complex biological systems at subcellular level. In this study, a molecular switch (hemicyanine derivative, TPP-CY) was reported as a ratio fluorescence probe for real-time detection of trace change of MMP in living cells. Given the formation of the "C-O" bond in the probe molecule, the probe exhibits a remarkable ratio of fluorescence intensity change (I/I) within seconds during the response process for MMP, that is, TPP-CY transforming to TPP-SP. Furthermore, TPP-CY at a low concentration (0.23 μM) can present extremely high sensitivity for the trace change of MMP in living cells. The detection limit can be as low as -0.16 mV. More importantly, a trace change of MMP and mitochondrial morphology at the subcellular level during cell apoptosis can be accurately monitored by TPP-CY with excellent selectivity and high resolution. TPP-CY could be used as a potential tool for evaluating cell health.

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A preparation method for Al/AlN ceramics substrates by using a CuO interlayer

Meng

Agathopoulos

et al. 2017

Materials & Design

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Research on the Application of Sport Dance in Colleges and Universities in the Healthy Development of Sports

Wang

2021

Rev Bras Med Esporte

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Introduction: Immunity is closely related to health. When the body's immunity is strong, it is healthy. On the contrary, various diseases appear. Sports dance is an entertainment and fitness sports project that integrates sports, music, aesthetics, and dance, the body movement dance as the necessary content and two-person or collective exercises as the primary form of exercise. Studies have shown that long-term adherence to Tai Chi exercise can significantly increase the serum immunoglobulin IgA, IgG, and IgM levels. Objective: The paper explores the effect of physical dance exercise on serum immunoglobulin and T lymphocyte subsets of college students. Methods: The thesis randomly selected 16 male and female students in the first-grade physical dance optional course of public physical education as the experimental group. They performed physical dance exercises three times a week, 40 minutes each time, and the training intensity was controlled at a heart rate of 135-150 beats/min. Ten weeks; besides, 16 male and female students in the first grade were selected as the control group, and no physical dance exercise was performed; all the subjects were drawn from the elbow venous blood on an empty stomach at the same time before and after the experiment to measure serum immunoglobulin and T lymph Cell subpopulation content. Results: After ten weeks of sports dance training, the serum immunoglobulin IgG of both men and women in the experimental group increased significantly (P<0.01), and the CD4+% and CD4+/CD8+ ratio of T lymphocyte subgroups showed extremely significant and significant increases (P <0.01, P<0.05), serum IgM tended to increase, IgA, CD8+% tended to decrease, but there was no significant change. Conclusions: Long-term physical dance exercise can improve the body's immune function. Level of evidence II; Therapeutic studies - investigation of treatment results.

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Thrombin-mediated ratiometric two-photon fluorescent probe for selective imaging of endogenous ultratrace glutathione in platelet

Zhang

Wang

et al. 2016

Biosensors and Bioelectronics

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Caixia Wang

Correlates of quality of life in China rural–urban female migrate workers

Highly Sensitive Naphthalene-Based Two-Photon Fluorescent Probe for in Situ Real-Time Bioimaging of Ultratrace Cyclooxygenase-2 in Living Biosystems

Microtubule-Targetable Fluorescent Probe: Site-Specific Detection and Super-Resolution Imaging of Ultratrace Tubulin in Microtubules of Living Cancer Cells

Ultrasensitive fluorescent ratio imaging probe for the detection of glutathione ultratrace change in mitochondria of cancer cells

Highly Sensitive Fluorescence Molecular Switch for the Ratio Monitoring of Trace Change of Mitochondrial Membrane Potential

A preparation method for Al/AlN ceramics substrates by using a CuO interlayer

Research on the Application of Sport Dance in Colleges and Universities in the Healthy Development of Sports

Thrombin-mediated ratiometric two-photon fluorescent probe for selective imaging of endogenous ultratrace glutathione in platelet

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