Selenocysteine (Sec) carries out the majority of the functions of the various Se-containing species in vivo. Thus, it is of great importance to develop sensitive and selective assays to detect Sec. Herein, a carbon-dot-based fluorescent turn-on probe for highly selective detection of selenol in living cells is presented. The highly photoluminescent carbon dots that emit yellow-green fluorescence (Y-G-CDs; λ = 520 nm in water) were prepared by using m-aminophenol as carbon precursor through a facile solvothermal method. The surface of Y-G-CDs was then covalently functionalized with 2,4-dinitrobenzenesulfonyl chloride (DNS-Cl) to afford the 2,4-dinitrobenzene-functionalized CDs (CD-DNS) as a nanoprobe for selenol. CD-DNS is almost nonfluorescent. However, upon treating with Sec, the DNS moiety of CD-DNS can be readily cleaved by selenolate through a nucleophilic substitution process, resulting in the formation of highly fluorescent Y-G-CDs and hence leads to a dramatic increase in fluorescence intensity. The proposed nanoprobe exhibits high sensitivity and selectivity toward Sec over biothiols and other biological species. A preliminary study shows that CD-DNS can function as a useful tool for fluorescence imaging of exogenous and endogenous selenol in living cells.
The investigation of Fe(II)-EDTA chelate-induced aromatic hydroxylation of terephthalate in pH 7.4 phosphate buffer solution and a new method for the evaluation of hydroxyl radical-scavenging ability are reported. The method is based on attack of the hydroxyl radical on the terephthalate to produce highly fluorescent 2-hydroxyterephthalate, which is detected fluorimetrically. The formation of hydroxyl radical is believed to be the result of the reduction of molecular oxygen by Fe(II)-EDTA to form superoxide radical, which in turn dismutates to hydrogen peroxide, and then Fe(II)-EDTA catalyzes the decomposition of hydrogen peroxide to produce hydroxyl radical. The mechanism of the generation of hydroxyl radical in the proposed system was confirmed. This study established a simple and inexpensive method for the evaluation of the scavenging ability of some compounds on hydroxyl radicals.
Hydrogen sulfide (H2S)
is a vital endogenous signal
molecule that exerts critical physiological functions such as biological
regulation and cytoprotection. Despite significant progress in developing
H2S donors, site-specific delivery and controllable release
of H2S in biological systems remain a key challenge. Herein,
we develop new Cys-triggered fluorescent H2S donor Pro-S that is composed of a dicyanoisophorone-based near-infrared
(NIR) fluorescent dye and a thiocarbamate moiety. The H2S donor releases H2S under the attack of Cys, accompanied
by the release of a fluorescent reporter, which enables the real-time
capturing of H2S by fluorescence spectroscopy or microscopy. Pro-S exhibits strong NIR fluorescence enhancement (70-fold),
excellent controllable H2S release (30 min), high H2S release efficiency (62%), and well live-cell compatibility,
allowing for visualization of H2S release in cells and
zebrafish. Moreover, Pro-S presents a good effect of
anti-inflammation in RAW 264.7 cells. This work provides a new idea
for the design of H2S donors, which may be beneficial to
the comprehension of the potential mechanism of inflammation and optimization
of treatment strategies.
ObjectiveThis study was performed to investigate the prevalence of vitamin D
deficiency in pregnant women in Guizhou, China and its correlation with
adverse infant and maternal outcomes during the perinatal period.MethodsIn total, 220 pregnant women who received perinatal care and delivered in the
Affiliated Hospital of Guizhou Medical University from November 2014 to
April 2015 were enrolled. Each woman’s serum vitamin D concentration was
tested during early pregnancy, and its correlation with adverse infant and
maternal outcomes in the perinatal period was analyzed.ResultsThe mean serum vitamin D concentration was 29.5 ± 5.8 nmol/L. More than 90%
of pregnant women had vitamin D insufficiency. Additionally, 38.4% of women
with vitamin D deficiency and 22.2% with vitamin D inadequacy developed
adverse perinatal outcomes. The vitamin D level was negatively correlated
with adverse pregnancy outcomes.ConclusionVitamin D deficiency is highly prevalent among pregnant women in Guizhou,
China. The incidence of adverse perinatal outcomes was far higher in
association with vitamin D deficiency than sufficiency. A negative
correlation was found between the vitamin D level and the incidence of
adverse perinatal outcomes in pregnant women. Therefore, targeted screening
and proper supplementation are needed during early pregnancy.
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