Fluorescent probes,with their superior optical properties and labeling versatility,have greatly advanced the visualization of intracellular molecules and subcellular structures.However,poor cytoplasmic delivery,caused...Fluorescent probes,with their superior optical properties and labeling versatility,have greatly advanced the visualization of intracellular molecules and subcellular structures.However,poor cytoplasmic delivery,caused by charge,size,or targeting groups,limits the effective use of many fluorescent probes in live cells.Recently,cell-penetrating peptides(CPPs)have emerged as efficient carriers,offering great potential for the cytoplasmic delivery of fluorescent probes in live cells.This review provides a comprehensive overview of CPPs as vehicles for probe delivery,outlining advances in their development,conjugation chemistries,and intracellular delivery mechanisms.Recent applications in live-cell imaging are highlighted and organized according to major CPP modification strategies,including sequence engineering,cyclization,hybrid design and enhancement by chemical reagents.Finally,the challenges that remain and the future outlook of this rapidly evolvingfield are discussed.展开更多
The detection of amino acid enantiomers holds significant importance in biomedical,chemical,food,and other fields.Traditional chiral recognition methods using fluorescent probes primarily rely on fluorescence intensit...The detection of amino acid enantiomers holds significant importance in biomedical,chemical,food,and other fields.Traditional chiral recognition methods using fluorescent probes primarily rely on fluorescence intensity changes,which can compromise accuracy and repeatability.In this study,we report a novel fluorescent probe(R)-Z1 that achieves effective enantioselective recognition of chiral amino acids in water by altering emission wavelengths(>60 nm).This water-soluble probe(R)-Z1 exhibits cyan or yellow-green luminescence upon interaction with amino acid enantiomers,enabling reliable chiral detection of 14 natural amino acids.It also allows for the determination of enantiomeric excess through monitoring changes in luminescent color.Additionally,a logic operation with two inputs and three outputs was constructed based on these optical properties.Notably,amino acid enantiomers were successfully detected via dual-channel analysis at both the food and cellular levels.This study provides a new dynamic luminescence-based tool for the accurate sensing and detection of amino acid enantiomers.展开更多
Fluorescent probes have revolutionized optical imaging and biosensing by enabling real-time visualization, quantification, and tracking of biological processes at molecular and cellular levels. These probes, ranging f...Fluorescent probes have revolutionized optical imaging and biosensing by enabling real-time visualization, quantification, and tracking of biological processes at molecular and cellular levels. These probes, ranging from organic dyes to genetically encoded proteins and nanomaterials, provide unparalleled specificity, sensitivity, and multiplexing capabilities. However, challenges such as brightness, photobleaching, biocompatibility, and emission range continue to drive innovation in probe design and application. This special issue, comprising four review papers and seven original research studies, highlights cutting-edge advancements in fluorescent probe technologies and their transformative roles in super-resolution imaging, in vivo diagnostics, and cancer therapeutics.展开更多
The intricate pathological mechanisms of ischemia-reperfusion injury(IRI)are intimately associated with the imbalance of metabolic substance supply and demand.Investigation of the fluctuated molecules reveals the prog...The intricate pathological mechanisms of ischemia-reperfusion injury(IRI)are intimately associated with the imbalance of metabolic substance supply and demand.Investigation of the fluctuated molecules reveals the progression of reperfusion injury,facilitating earlier diagnosis and treatments.Fluorescence imaging is a powerful technique in fluorescent optical diagnosis,essential for detecting biomarker levels both in vitro and in vivo.By integrating multifunctional scaffolds with specific recognition groups,smallmolecule fluorescent probes(SMFPs)effectively monitor biomarkers related to IRI,providing valuable insights into pathological mechanisms and enhancing early diagnostic capabilities.This review systemically summarizes the recent developments of SMFPs,focusing on design strategies and their applications in the main types of IRI.Furthermore,we discuss the challenges and propose prospects based on existing SMFP applications in this area.We aim to provide a comprehensive analysis of SMFPs for disease diagnosis and inspire researchers to further innovate and develop effective tools for clinical applications.展开更多
The cell membrane,a fluid interface composed of self-assembled phospholipid molecules,is a vital component of biological systems that maintains cellular stability and prevents the invasion of foreign toxins.Due to its...The cell membrane,a fluid interface composed of self-assembled phospholipid molecules,is a vital component of biological systems that maintains cellular stability and prevents the invasion of foreign toxins.Due to its inherent fluidity,the cell membrane can undergo bending,shearing,and stretching,making membrane deformation crucial in processes like cell adhesion,migration,phagocytosis,and signal transduction.Within the plasma membrane are highly ordered dynamic structures formed by lipid molecules,known as“lipid rafts,”whose dynamic dissociation and reorganization are prerequisites for membrane deformation.Fluorescent probes have emerged as vital tools for studying these dynamic processes,offering a non-destructive,in situ,and real-time imaging method.By strategically designing these probes,researchers can image not only the microdomains of cell membranes but also explore more complex processes such as membrane fusion and fission.This review systematically summarizes the latest advancements in the application of fluorescent probes for cell membrane imaging.It also discusses the current challenges and provides insights into future research directions.We hope this review inspires further studies on the dynamic processes of complex cell membranes using fluorescent probes,ultimately advancing our understanding of the mechanisms underlying membrane dissociation,reorganization,fusion,and separation,and fostering research and therapeutic development for membrane-associated diseases.展开更多
Excited-state intramolecular proton-transfer(ESIPT)based fluorescence probes are particularly attractive due to their unique properties including environmental sensitivity,a large Stokes shift,and potential for ratiom...Excited-state intramolecular proton-transfer(ESIPT)based fluorescence probes are particularly attractive due to their unique properties including environmental sensitivity,a large Stokes shift,and potential for ratiometric sensing.In general,ESIPT-based fluorophore incorporates an intramolecular hydrogen bonding interaction between a hydrogen bond donor(-OH and NH_(2)are common)and a hydrogen bond acceptor(C=N and C=O).More,protection-deprotection of hydroxyl group as hydrogen bond donor could induce an off-on switch of ESIPT-based emission.Therefore,protection-deprotection of hydroxyl group has been the widely used strategy to design fluorescent probes,where the potential key issue is selecting a protective group that can specifically leave in the presence of the target analyte.In this review,we mainly summarize the specific protecting groups(sites)and deprotection mechanisms for biologically important species(including reactive sulfur species(RSS),reactive oxygen species(ROS),enzymes,etc.),and analyze the advantages and disadvantages of different protection mechanisms from some aspects including probe stability,selectivity,response rate and assay system,etc.Based on the aforementioned,we further point out the current challenges and the potential future direction for developing ESIPT-based probes.展开更多
Liver cancer, specifically hepatocellular carcinoma (HCC), is a malignant neoplasm of the digestive system, characterized by exceptionally high morbidity and mortality rates on a global scale. Early detection and diag...Liver cancer, specifically hepatocellular carcinoma (HCC), is a malignant neoplasm of the digestive system, characterized by exceptionally high morbidity and mortality rates on a global scale. Early detection and diagnosis are critical measures for enhancing the prognosis of patients diagnosed with HCC. An improved prognosis is significantly reliant on the timely diagnosis of the disease and effective therapeutic monitoring. Activatable fluorescent probes are essential for detecting and imaging biomarkers related to disease diagnosis and in vivo imaging. This paper reviews the fluorescent probes developed over the past five years for the detection and imaging of HCC. This noninvasive optical imaging modality demonstrates significant promise in targeting pathological sites and is anticipated to facilitate potential clinical translation.展开更多
To understand the gene-based biological processes in-depth,the single-molecule real-time sequencing has drawn increasing attention with promoted by the Human Genome Project.Herein,a set of newly designed canonical flu...To understand the gene-based biological processes in-depth,the single-molecule real-time sequencing has drawn increasing attention with promoted by the Human Genome Project.Herein,a set of newly designed canonical fluorescent bases(A_(y),tC,G_(b),T_(p))are proposed for four-color DNA sequencing.These quasi-intrinsic probes are derived from the fluorophore replacement and ring expansion on natural bases,which still keep the pyrimidine or purine underlying skeleton and Watson–Crick hydrogen bonding face to allow minimal perturbation to the native DNA duplex.More importantly,these nucleobase analogues possess red-shifted absorption and efficient photoluminescence due to the enhancedπ-conjugation in character.Meanwhile,the four analogues could generate distinct emission wavelength(Δλ~50 nm)for real-time sequencing.To assess the biological employment of the proposed biosensors,the effects of base pairing and linking deoxyribose are also considered.展开更多
Formaldehyde, as one of the simplest reactive carbonyl species(RCS), is regarded as a potential carcinogen and a sick house syndrome gas. Recent studies have shown that abnormally high levels of formaldehyde may res...Formaldehyde, as one of the simplest reactive carbonyl species(RCS), is regarded as a potential carcinogen and a sick house syndrome gas. Recent studies have shown that abnormally high levels of formaldehyde may result in cognitive decline and spatial memory deficits, asthmatic symptoms,Alzheimer's disease, and cancer. Due to the harmfulness of high levels of formaldehyde in nature and humans, it is of great significance to further elucidate the roles and functions of formaldehyde by a noninvasive detection approach. Fluorescence imaging has become a powerful and popular tool in monitoring bio-species owing to their high sensitivity and selectivity, excellent spatiotemporal resolution and non-invasion nature. Therefore, fluorescent probes are widely applied to track and detect formaldehyde in vitro and in vivo which have attracted more and more interest recently. This review focuses on various strategies to design the fluorescent probes for detecting formaldehyde based on different recognition groups.展开更多
Sulfur dioxide(SO_2) is a harmful environmental pollutant. Inhaled SO_2 can be rapidly hydrated into its derivatives, bisulfite(HSO_3^-) and sulfite(SO_3^(2-)). SO_2 derivatives are well known as preservatives...Sulfur dioxide(SO_2) is a harmful environmental pollutant. Inhaled SO_2 can be rapidly hydrated into its derivatives, bisulfite(HSO_3^-) and sulfite(SO_3^(2-)). SO_2 derivatives are well known as preservatives and antioxidants, which are used in food and beverages to prevent oxidation and bacterial growth. Although SO_2 can be endogenously generated in mammals and exhibits unique bioactivities in regulating cardiovascular function, excessive SO_2 and its derivatives have toxic effects on humans and animals for triggering adverse reactions and diseases. A large number of fluorescent probes for SO_2 and its derivatives have been designed and reported due to their high sensitivity and selectivity, high temporal and spatial resolution, non-invasive and non-destructive detection as well as real-time visualization in situ. In this review, we have summarized the recent progress of Michael addition-based fluorescent probes for SO_2 and its derivatives. These probes are categorized and concluded according to the different α,β-unsaturated compounds(i.e., Michael acceptors). The design strategies, sensing performances, detection mechanisms and applications of these probes are discussed in detailed. Finally, a general overview about the design of probes for SO_2 and its derivatives is provided, which will facilitate the development of ideal probes for SO_2 and its derivatives.展开更多
Highly sensitive methods are important for monitoring the concentration of metal ions in industrial wastewater.Here,we developed a new probe for the determination of metal ions by fluorescence quenching.The probe cons...Highly sensitive methods are important for monitoring the concentration of metal ions in industrial wastewater.Here,we developed a new probe for the determination of metal ions by fluorescence quenching.The probe consists of hydroxylated graphene quantum dots(H-GQDs),prepared from GQDs by electrochemical method followed by surface hydroxylation.It is a non-reactive indicator with high sensitivity and detection limits of 0.01μM for Cu2+,0.005μM for Al3+,0.04μM for Fe3+,and 0.02μM for Cr3+.In addition,the low biotoxicity and excellent solubility of H-GQDs make them promising for application in wastewater metal ion detection.展开更多
Kirsten rat sarcoma viral oncogene homolog(KRAS)-phosphodiesterase-delta(PDEδ)is a promising target for antitumor drug discovery.Herein,highly efficient and environmentally sensitive fluorescent probes of PDEδ(DS-Pr...Kirsten rat sarcoma viral oncogene homolog(KRAS)-phosphodiesterase-delta(PDEδ)is a promising target for antitumor drug discovery.Herein,highly efficient and environmentally sensitive fluorescent probes of PDEδ(DS-Probes)were rationally designed.As compared with the reported PDEδprobes,DS-Probes showed higher binding affinity and selectivity,which were able to conveniently and efficiently label PDEδin live cells as well as tumor tissues.Therefore,these fluorescent probes are expected to facilitate PDEδ-based mechanism elucidation,drug discovery and pathologic diagnosis.展开更多
Reactive oxygen species(ROS)production is a by-product of mitochondrial activity and is necessary for the acquisition of the capacitated state,a requirement for functional spermatozoa.However,an increase in oxidative ...Reactive oxygen species(ROS)production is a by-product of mitochondrial activity and is necessary for the acquisition of the capacitated state,a requirement for functional spermatozoa.However,an increase in oxidative stress,due to an abnormal production of ROS,has been shown to be related to loss of sperm function,highlighting the importance of an accurate detection of sperm ROS,given the specific nature of this cell.In this work,we tested a variety of commercially available fluorescent probes to detect ROS and reactive nitrogen species(RNS)in human sperm,to define their specificity.Using both flow cytometry(FC)and fluorescence microscopy(FM),we confirmed that MitoSOX™Red and dihydroethidium(DHE)detect superoxide anion(as determined using antimycin A as a positive control),while DAF-2A detects reactive nitrogen species(namely,nitric oxide).For the first time,we also report that RedoxSensor™Red CC-1,CellROX®Orange Reagent,and MitoPYl seem to be mostly sensitive to hydrogen peroxide,but not superoxide.Furthermore,mean fluorescence intensity(and not percentage of labeled cells)is the main parameter that can be reproducibly monitored using this type of methodology.展开更多
The works on the procedure of fluorescent sensors for the detection of biological analytes are extremely momentous.Among diverse analytical approaches,fluorescence is the most eye-catching due to its high sensitivity,...The works on the procedure of fluorescent sensors for the detection of biological analytes are extremely momentous.Among diverse analytical approaches,fluorescence is the most eye-catching due to its high sensitivity,selectivity,rapidity,robustness,ease of measurement and non-destructive approaches.Herein,we show different fluorescent probes synthesized for estimation and detection of biological analytes(H_(2)S,SO_(3)^(2-)/HSO_(3)^(-),H_(2)O_(2),HOCl,HNO,ONOO^(-)).These probes were constructed by masking the functional groups (hydroxyl and amino) of fluorophore and formation of active C=C,C=N,C=O and N=N for specific analytes.In this review we concentrate on synthesis of the probe,their photophysical properties and applications to biological studies.展开更多
α1-Adrenoceptors(α1-ARs), including at least three subtypes, α(1A), α(1B) and α(1D), which play essential roles in G protein-coupled receptors(GPCRs), can convey multiple pivotal extracellular signals i...α1-Adrenoceptors(α1-ARs), including at least three subtypes, α(1A), α(1B) and α(1D), which play essential roles in G protein-coupled receptors(GPCRs), can convey multiple pivotal extracellular signals in varied tissues and organs. In this research, a series of napthalimide-based small-molecule fluorescent probes(1a-1f) for α1-ARs, including two parts, a pharmacophore(quinazoline and phenylpiperazine) for α1-AR recognition and a fluorophore(naphthalimide) for visualization, were designed and synthesized successfully. These compounds display excellent fluorescence property and high affinity to receptors,which were used successfully for in vitro visualization of α1-adrenoceptors.展开更多
Breast cancer has become a common tumor worldwide which seriously endangers people's health. Earlydiagnosis and treatment are particularly urgent in order to reduce the onset risk, mortality, and prolongthe five-year...Breast cancer has become a common tumor worldwide which seriously endangers people's health. Earlydiagnosis and treatment are particularly urgent in order to reduce the onset risk, mortality, and prolongthe five-year survival rate. Therefore, we need a kind of diagnosis and treatment technology with highspecificity, sensitivity and selectivity. In recent years, because of its unique properties in biologicalapplications, fluorescence imaging has become an attractive research subject. Fluorescence imagingoffers innovative ideas of targetable recognition of breast cancer cells, breast cancer imaging in vivoanimal models, anticancer drugs delivery for guiding the mammary surgery via a noninvasive way withhigh sensitively and specifically. In this review, we summarized the recent advances of fluorescent probesfor breast cancer imaging, which were classified according to different biomarkers the probes recognized.Moreover, we discussed the strengths, built-in problems as well as the challenges about the fluorescentprobe as a unique potential method for the better application in breast cancer diagnosis and treatment.~ 2018 Chinese Chemical Society and Institute of Materia Medica, Chinese Academy of Medical Sciences.展开更多
Hydrazine,an essential chemical,has been used within a wide spectrum of industries,including pesticides,pharmaceuticals and even satellite-launching systems.However,the excessive consumption of hydrazine raised the ri...Hydrazine,an essential chemical,has been used within a wide spectrum of industries,including pesticides,pharmaceuticals and even satellite-launching systems.However,the excessive consumption of hydrazine raised the risk of environmental pollution accidents and occurrence of diseases because of its high toxicity and volatility.This led to the discovery of diverse fluorescent probes for the monitoring of the dangerous substance,including those based on organic small molecules and emerging nanomaterials.Herein,we are going to present a comprehensive review of recently reported hydrazine fluorescent probes,and discuss their structure design strategies and detection mechanisms.In particular,both organic small-molecule and nanomaterial fluorescent probes for hydrazine will be discussed together for the first time.展开更多
Adenosine 5'-triphosphate(ATP) not only participates in various physiological activities as the universal energy currency but also implicates in various pathological processes in living cells. Consequently,sensitiv...Adenosine 5'-triphosphate(ATP) not only participates in various physiological activities as the universal energy currency but also implicates in various pathological processes in living cells. Consequently,sensitive and selective detection ATP in live cells, tissues, as well as environmental samples, are urgently demanded. Due to the simple and convenient operation, economy cost, high selectivity for analyte, well biocompatibility and low cytotoxicity, fluorescent sensors for monitoring ATP have aroused great attention of researchers. In recent years, a large number of fluorescent sensors for detecting ATP have developed. This manuscript summarized most of these sensors and the interaction-mechanism between ATP and sensors, mainly including electrostatic interaction, p-p interaction, covalent bonding or hydrogen bond, or combinations of them, and the advantages of each strategy were also generalized.Here, a viewpoint of classification was shown where the sensors were divided into five typed ones according to the structure of probes used.展开更多
Direct measurement of dipole potential in biological membranes has been impossible and 3-hydroxyflavones(3HFs) have allowed detection of changes in dipole potential in biological systems.In the present study,sixteen d...Direct measurement of dipole potential in biological membranes has been impossible and 3-hydroxyflavones(3HFs) have allowed detection of changes in dipole potential in biological systems.In the present study,sixteen derivatives of 3HF with aliphatic hydrocarbon chains of different lengths at 4′-position and 6-position were synthesized.The basic fluorescence properties of 3HFs are maintained in all the probes in terms of strong blue shift in maximum fluorescence emission wavelength and>100 fold increase in quantum yield in organic solvents and in dioleoylphosphatidylcholine(DOPC) small unilamellar vesicles(SUV) in comparison to in aqueous Hepes buffer(15 mmol/L,pH 7.4).More importantly,the ability of the new compounds to report dipole potential changes in biological systems are also maintained,since all the new probes showed spectrum properties that are similar to yet different from that of F4N1,which potentially may allow more sensitive measurement of the dipole potential change in membranes.展开更多
Fluorescent molecules - p-dimethylaminobenzonitrile (DMABN) and trans-stilbene (TSB ) - were used as probes to investigate the inner structure of the nanotubular cavities contained in a new polyorganosiloxane (POS) wh...Fluorescent molecules - p-dimethylaminobenzonitrile (DMABN) and trans-stilbene (TSB ) - were used as probes to investigate the inner structure of the nanotubular cavities contained in a new polyorganosiloxane (POS) which was prepared by the hydrosilylation coupling reaction of cis-isotactic ladderlike polyvinylsilsesquioxane (Vi-T) with 1,1,3,3-tetramethyldisiloxane (H-MM) as coupling agent in the presence of catalyst dicyclopentadienyldichloroplatinum (Cp2PtCl2). The results from FTIR spectra and fluorescence spectra in combination with molecular simulation reveal that the cross-section of the nanotubular cavity is nearly rectangular in shape, and is about 0.62 nm in width and about 0.38 nm in height. This work gains in-depth knowledge into the inner structure of the nanotubular cavities of POS and furthermore provides a guide to the selection of proper vip molecules in constructing functional supramolecular clathrate based upon POS.展开更多
基金supported by the following grants:National Natural Science Foundation of China(Grant Nos.92354305 and 32271428),National Key R&D Program of China(Grant No.2022YFC3401100)Young Talent Program of Hubei Provincial Health Commission(WJ2025Q037)+1 种基金Interdisciplinary Research Program of HUST(Grant No.2023JCY5045)Director Fund of WNLO.
文摘Fluorescent probes,with their superior optical properties and labeling versatility,have greatly advanced the visualization of intracellular molecules and subcellular structures.However,poor cytoplasmic delivery,caused by charge,size,or targeting groups,limits the effective use of many fluorescent probes in live cells.Recently,cell-penetrating peptides(CPPs)have emerged as efficient carriers,offering great potential for the cytoplasmic delivery of fluorescent probes in live cells.This review provides a comprehensive overview of CPPs as vehicles for probe delivery,outlining advances in their development,conjugation chemistries,and intracellular delivery mechanisms.Recent applications in live-cell imaging are highlighted and organized according to major CPP modification strategies,including sequence engineering,cyclization,hybrid design and enhancement by chemical reagents.Finally,the challenges that remain and the future outlook of this rapidly evolvingfield are discussed.
基金the financial support from the National Natural Science Foundation of China(Nos.22377097,22307036,22074114)Natural Science Foundation of Hubei Province of China(Nos.2020CFB623,2021CFB556)Engineering Research Center of Phosphorus Resources Development and Utilization of Ministry of Education(No.LCX202305)。
文摘The detection of amino acid enantiomers holds significant importance in biomedical,chemical,food,and other fields.Traditional chiral recognition methods using fluorescent probes primarily rely on fluorescence intensity changes,which can compromise accuracy and repeatability.In this study,we report a novel fluorescent probe(R)-Z1 that achieves effective enantioselective recognition of chiral amino acids in water by altering emission wavelengths(>60 nm).This water-soluble probe(R)-Z1 exhibits cyan or yellow-green luminescence upon interaction with amino acid enantiomers,enabling reliable chiral detection of 14 natural amino acids.It also allows for the determination of enantiomeric excess through monitoring changes in luminescent color.Additionally,a logic operation with two inputs and three outputs was constructed based on these optical properties.Notably,amino acid enantiomers were successfully detected via dual-channel analysis at both the food and cellular levels.This study provides a new dynamic luminescence-based tool for the accurate sensing and detection of amino acid enantiomers.
文摘Fluorescent probes have revolutionized optical imaging and biosensing by enabling real-time visualization, quantification, and tracking of biological processes at molecular and cellular levels. These probes, ranging from organic dyes to genetically encoded proteins and nanomaterials, provide unparalleled specificity, sensitivity, and multiplexing capabilities. However, challenges such as brightness, photobleaching, biocompatibility, and emission range continue to drive innovation in probe design and application. This special issue, comprising four review papers and seven original research studies, highlights cutting-edge advancements in fluorescent probe technologies and their transformative roles in super-resolution imaging, in vivo diagnostics, and cancer therapeutics.
基金financially supported by the National Natural Science Foundation of China(Nos.62288102 and 62475216)Natural Science Foundation of Shaanxi Province(No.2022JM-130)+7 种基金Key Research and Development Program of Shaanxi(No.2024GHZDXM-37)Innovation Capability Support Program of Shaanxi(No.2023-CX-PT-23)Natural Science Basic Research Program of Shaanxi(No.2024JC-YBQN-0919)Fujian Provincial Natural Science Foundation of China(No.2024J01060)National High Level Hospital Clinical Research Funding(No.2023-NHLHCRF-YSPY-01)the Postdoctoral Fellowship Program of CPSF(No.GZC20240889)Innovation Foundation for Doctor Dissertation of Northwestern Polytechnical University(No.CX2023098)Fundamental Research Funds for the Central Universities。
文摘The intricate pathological mechanisms of ischemia-reperfusion injury(IRI)are intimately associated with the imbalance of metabolic substance supply and demand.Investigation of the fluctuated molecules reveals the progression of reperfusion injury,facilitating earlier diagnosis and treatments.Fluorescence imaging is a powerful technique in fluorescent optical diagnosis,essential for detecting biomarker levels both in vitro and in vivo.By integrating multifunctional scaffolds with specific recognition groups,smallmolecule fluorescent probes(SMFPs)effectively monitor biomarkers related to IRI,providing valuable insights into pathological mechanisms and enhancing early diagnostic capabilities.This review systemically summarizes the recent developments of SMFPs,focusing on design strategies and their applications in the main types of IRI.Furthermore,we discuss the challenges and propose prospects based on existing SMFP applications in this area.We aim to provide a comprehensive analysis of SMFPs for disease diagnosis and inspire researchers to further innovate and develop effective tools for clinical applications.
基金supported by the National Nature Science Foundation of China(22107028)State Key Laboratory of Fine Chemicals,Dalian University of Technology(KF2307)+4 种基金Central Guidance Fund for Local Science and Technology Development Project(2024FRD05069)Natural Science Foundation of Chongqing(CSTB2023NSCQ-MSX0335)ML.wishes to thank the support of the National Natural Science Foundation of China(22308220)Shenzhen Uni-versity Third-Phase Project of Constructing High-Level University(000001032104)the Research Team Culti-vation Program of Shenzhen University(2023QNT005).
文摘The cell membrane,a fluid interface composed of self-assembled phospholipid molecules,is a vital component of biological systems that maintains cellular stability and prevents the invasion of foreign toxins.Due to its inherent fluidity,the cell membrane can undergo bending,shearing,and stretching,making membrane deformation crucial in processes like cell adhesion,migration,phagocytosis,and signal transduction.Within the plasma membrane are highly ordered dynamic structures formed by lipid molecules,known as“lipid rafts,”whose dynamic dissociation and reorganization are prerequisites for membrane deformation.Fluorescent probes have emerged as vital tools for studying these dynamic processes,offering a non-destructive,in situ,and real-time imaging method.By strategically designing these probes,researchers can image not only the microdomains of cell membranes but also explore more complex processes such as membrane fusion and fission.This review systematically summarizes the latest advancements in the application of fluorescent probes for cell membrane imaging.It also discusses the current challenges and provides insights into future research directions.We hope this review inspires further studies on the dynamic processes of complex cell membranes using fluorescent probes,ultimately advancing our understanding of the mechanisms underlying membrane dissociation,reorganization,fusion,and separation,and fostering research and therapeutic development for membrane-associated diseases.
基金National Natural Science Foundation of China(Nos.22277104,22325703,22074084)the Natural Science Foundation of Shanxi Province(No.202203021212184)+3 种基金Research Project supported by Shanxi Scholarship Council of China(No.2022-002)the Basic Research Program of Shanxi Province(Free Exploration)(No.202203021221009)2022 Lvliang City science and technology plan project(Nos.2022SHFZ51,2022GXYF15)Scientific Instrument Center of Shanxi University(No.201512)。
文摘Excited-state intramolecular proton-transfer(ESIPT)based fluorescence probes are particularly attractive due to their unique properties including environmental sensitivity,a large Stokes shift,and potential for ratiometric sensing.In general,ESIPT-based fluorophore incorporates an intramolecular hydrogen bonding interaction between a hydrogen bond donor(-OH and NH_(2)are common)and a hydrogen bond acceptor(C=N and C=O).More,protection-deprotection of hydroxyl group as hydrogen bond donor could induce an off-on switch of ESIPT-based emission.Therefore,protection-deprotection of hydroxyl group has been the widely used strategy to design fluorescent probes,where the potential key issue is selecting a protective group that can specifically leave in the presence of the target analyte.In this review,we mainly summarize the specific protecting groups(sites)and deprotection mechanisms for biologically important species(including reactive sulfur species(RSS),reactive oxygen species(ROS),enzymes,etc.),and analyze the advantages and disadvantages of different protection mechanisms from some aspects including probe stability,selectivity,response rate and assay system,etc.Based on the aforementioned,we further point out the current challenges and the potential future direction for developing ESIPT-based probes.
基金supported by the National Natural Science Foundation of China (Grant Nos. 82202296, 82302277, and 32271520)Natural Science Foundation of Hunan Province (Grant Nos. 2022JJ30756, 2023JJ40087, and 2022RC1232)the Scientific Research Fund of Hunan Provincial Education Department (Grant No. 22B0896).
文摘Liver cancer, specifically hepatocellular carcinoma (HCC), is a malignant neoplasm of the digestive system, characterized by exceptionally high morbidity and mortality rates on a global scale. Early detection and diagnosis are critical measures for enhancing the prognosis of patients diagnosed with HCC. An improved prognosis is significantly reliant on the timely diagnosis of the disease and effective therapeutic monitoring. Activatable fluorescent probes are essential for detecting and imaging biomarkers related to disease diagnosis and in vivo imaging. This paper reviews the fluorescent probes developed over the past five years for the detection and imaging of HCC. This noninvasive optical imaging modality demonstrates significant promise in targeting pathological sites and is anticipated to facilitate potential clinical translation.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.11804195,11847224,11674198,and 12274265)the Natural Science Foundation of Shandong Province,China(Grant Nos.ZR2018BA034 and ZR2022MA006)。
文摘To understand the gene-based biological processes in-depth,the single-molecule real-time sequencing has drawn increasing attention with promoted by the Human Genome Project.Herein,a set of newly designed canonical fluorescent bases(A_(y),tC,G_(b),T_(p))are proposed for four-color DNA sequencing.These quasi-intrinsic probes are derived from the fluorophore replacement and ring expansion on natural bases,which still keep the pyrimidine or purine underlying skeleton and Watson–Crick hydrogen bonding face to allow minimal perturbation to the native DNA duplex.More importantly,these nucleobase analogues possess red-shifted absorption and efficient photoluminescence due to the enhancedπ-conjugation in character.Meanwhile,the four analogues could generate distinct emission wavelength(Δλ~50 nm)for real-time sequencing.To assess the biological employment of the proposed biosensors,the effects of base pairing and linking deoxyribose are also considered.
基金support from National Natural Science Foundation of China (Nos. 21676113, 21402057, 21472059, 81671803) Youth Chen-Guang Project of Wuhan(2016070204010098)+2 种基金 the 111 Project B17019the Ministry-Province Jointly Constructed Base for State Key Lab-Shenzhen Key Laboratory of Chemical Biology, Shenzhensupported by self-determined research funds of CCNU from the colleges’ basic research and operation of MOE (No. CCNU16A02004)
文摘Formaldehyde, as one of the simplest reactive carbonyl species(RCS), is regarded as a potential carcinogen and a sick house syndrome gas. Recent studies have shown that abnormally high levels of formaldehyde may result in cognitive decline and spatial memory deficits, asthmatic symptoms,Alzheimer's disease, and cancer. Due to the harmfulness of high levels of formaldehyde in nature and humans, it is of great significance to further elucidate the roles and functions of formaldehyde by a noninvasive detection approach. Fluorescence imaging has become a powerful and popular tool in monitoring bio-species owing to their high sensitivity and selectivity, excellent spatiotemporal resolution and non-invasion nature. Therefore, fluorescent probes are widely applied to track and detect formaldehyde in vitro and in vivo which have attracted more and more interest recently. This review focuses on various strategies to design the fluorescent probes for detecting formaldehyde based on different recognition groups.
基金financially supported by the National Key Research and Development Program of China (No. 2017YFD0501406)the National Natural Science Foundation of China (Nos. 31400301, 31560712)
文摘Sulfur dioxide(SO_2) is a harmful environmental pollutant. Inhaled SO_2 can be rapidly hydrated into its derivatives, bisulfite(HSO_3^-) and sulfite(SO_3^(2-)). SO_2 derivatives are well known as preservatives and antioxidants, which are used in food and beverages to prevent oxidation and bacterial growth. Although SO_2 can be endogenously generated in mammals and exhibits unique bioactivities in regulating cardiovascular function, excessive SO_2 and its derivatives have toxic effects on humans and animals for triggering adverse reactions and diseases. A large number of fluorescent probes for SO_2 and its derivatives have been designed and reported due to their high sensitivity and selectivity, high temporal and spatial resolution, non-invasive and non-destructive detection as well as real-time visualization in situ. In this review, we have summarized the recent progress of Michael addition-based fluorescent probes for SO_2 and its derivatives. These probes are categorized and concluded according to the different α,β-unsaturated compounds(i.e., Michael acceptors). The design strategies, sensing performances, detection mechanisms and applications of these probes are discussed in detailed. Finally, a general overview about the design of probes for SO_2 and its derivatives is provided, which will facilitate the development of ideal probes for SO_2 and its derivatives.
基金financially supported by the National Natural Science Foundation of China (No. 21674011)Beijing Municipal Natural Science Foundation (No. 2172040)
文摘Highly sensitive methods are important for monitoring the concentration of metal ions in industrial wastewater.Here,we developed a new probe for the determination of metal ions by fluorescence quenching.The probe consists of hydroxylated graphene quantum dots(H-GQDs),prepared from GQDs by electrochemical method followed by surface hydroxylation.It is a non-reactive indicator with high sensitivity and detection limits of 0.01μM for Cu2+,0.005μM for Al3+,0.04μM for Fe3+,and 0.02μM for Cr3+.In addition,the low biotoxicity and excellent solubility of H-GQDs make them promising for application in wastewater metal ion detection.
基金supported by the National Key Research and Development Program of China(No.2020YFA0509200 to C.Sheng)National Natural Science Foundation of China(Nos.81903436 to Y.Li,82204211 to W.Wang and 22077138 to S.Wu)Shanghai Rising-Star Program(No.22QA1411300 to S.Wu).
文摘Kirsten rat sarcoma viral oncogene homolog(KRAS)-phosphodiesterase-delta(PDEδ)is a promising target for antitumor drug discovery.Herein,highly efficient and environmentally sensitive fluorescent probes of PDEδ(DS-Probes)were rationally designed.As compared with the reported PDEδprobes,DS-Probes showed higher binding affinity and selectivity,which were able to conveniently and efficiently label PDEδin live cells as well as tumor tissues.Therefore,these fluorescent probes are expected to facilitate PDEδ-based mechanism elucidation,drug discovery and pathologic diagnosis.
基金the Portuguese funding agency for science and technology(PD/BD/128237/2016-PhD Programme in Experimental Biology and Biomedicine)CNC is funded by FEDER,through Programa Operacional Factores de Competitividade-COMPETE 2020 and National funds via FCT under the project POCI-01-0145-FEDER-007440+1 种基金the European Regional Development Fund(ERDF),through the Centro 2020 Regional Operational Programme:project CENTRO-01-0145-FEDER-000012-HealthyAging2020,the COMPETE 2020-Operational Programme for Competitiveness and Internationalisationthe Portuguese national funds via FCT-Foundation for Science and Technology LP:project POCI-01-0145-FEDER 007440 and UID/NEU/04539/2019.
文摘Reactive oxygen species(ROS)production is a by-product of mitochondrial activity and is necessary for the acquisition of the capacitated state,a requirement for functional spermatozoa.However,an increase in oxidative stress,due to an abnormal production of ROS,has been shown to be related to loss of sperm function,highlighting the importance of an accurate detection of sperm ROS,given the specific nature of this cell.In this work,we tested a variety of commercially available fluorescent probes to detect ROS and reactive nitrogen species(RNS)in human sperm,to define their specificity.Using both flow cytometry(FC)and fluorescence microscopy(FM),we confirmed that MitoSOX™Red and dihydroethidium(DHE)detect superoxide anion(as determined using antimycin A as a positive control),while DAF-2A detects reactive nitrogen species(namely,nitric oxide).For the first time,we also report that RedoxSensor™Red CC-1,CellROX®Orange Reagent,and MitoPYl seem to be mostly sensitive to hydrogen peroxide,but not superoxide.Furthermore,mean fluorescence intensity(and not percentage of labeled cells)is the main parameter that can be reproducibly monitored using this type of methodology.
基金the National Science Foundation of China (No. 21907025)。
文摘The works on the procedure of fluorescent sensors for the detection of biological analytes are extremely momentous.Among diverse analytical approaches,fluorescence is the most eye-catching due to its high sensitivity,selectivity,rapidity,robustness,ease of measurement and non-destructive approaches.Herein,we show different fluorescent probes synthesized for estimation and detection of biological analytes(H_(2)S,SO_(3)^(2-)/HSO_(3)^(-),H_(2)O_(2),HOCl,HNO,ONOO^(-)).These probes were constructed by masking the functional groups (hydroxyl and amino) of fluorophore and formation of active C=C,C=N,C=O and N=N for specific analytes.In this review we concentrate on synthesis of the probe,their photophysical properties and applications to biological studies.
基金supported by grants from the Fok Ying Tong Education Foundation (No. 122036)the Program of New Century Excellent Talents in University (No. NCET-11-0306)+1 种基金the Shandong Natural Science Foundation (No. JQ201019)the Independent Innovation Foundation of Shandong University, IIFSDU (No. 2010JQ005)
文摘α1-Adrenoceptors(α1-ARs), including at least three subtypes, α(1A), α(1B) and α(1D), which play essential roles in G protein-coupled receptors(GPCRs), can convey multiple pivotal extracellular signals in varied tissues and organs. In this research, a series of napthalimide-based small-molecule fluorescent probes(1a-1f) for α1-ARs, including two parts, a pharmacophore(quinazoline and phenylpiperazine) for α1-AR recognition and a fluorophore(naphthalimide) for visualization, were designed and synthesized successfully. These compounds display excellent fluorescence property and high affinity to receptors,which were used successfully for in vitro visualization of α1-adrenoceptors.
基金financial supports from the National Natural Science Foundation of China(Nos.31370391,81772812,21422606,21402191)Dalian Cultivation Fund for Distinguished Young Scholars(Nos.2014J11JH130 and 2015J12JH205)The Foundation of Dalian Science Department(No.2015E12SF149)
文摘Breast cancer has become a common tumor worldwide which seriously endangers people's health. Earlydiagnosis and treatment are particularly urgent in order to reduce the onset risk, mortality, and prolongthe five-year survival rate. Therefore, we need a kind of diagnosis and treatment technology with highspecificity, sensitivity and selectivity. In recent years, because of its unique properties in biologicalapplications, fluorescence imaging has become an attractive research subject. Fluorescence imagingoffers innovative ideas of targetable recognition of breast cancer cells, breast cancer imaging in vivoanimal models, anticancer drugs delivery for guiding the mammary surgery via a noninvasive way withhigh sensitively and specifically. In this review, we summarized the recent advances of fluorescent probesfor breast cancer imaging, which were classified according to different biomarkers the probes recognized.Moreover, we discussed the strengths, built-in problems as well as the challenges about the fluorescentprobe as a unique potential method for the better application in breast cancer diagnosis and treatment.~ 2018 Chinese Chemical Society and Institute of Materia Medica, Chinese Academy of Medical Sciences.
基金support from the National Natural Science Foundation of China(21977082 and 22037002)the Natural Science Basic Research Program of Shaanxi(2020JC-38).
文摘Hydrazine,an essential chemical,has been used within a wide spectrum of industries,including pesticides,pharmaceuticals and even satellite-launching systems.However,the excessive consumption of hydrazine raised the risk of environmental pollution accidents and occurrence of diseases because of its high toxicity and volatility.This led to the discovery of diverse fluorescent probes for the monitoring of the dangerous substance,including those based on organic small molecules and emerging nanomaterials.Herein,we are going to present a comprehensive review of recently reported hydrazine fluorescent probes,and discuss their structure design strategies and detection mechanisms.In particular,both organic small-molecule and nanomaterial fluorescent probes for hydrazine will be discussed together for the first time.
基金supported by the National Natural Science Foundation of China (Nos. 21676218, 21476185, 21472016, 21272030)the Fundamental Research Funds for the Central Universities (Nos. 2014YB027, 2452015447, 2452013py014)Shaanxi Province Science and Technology
文摘Adenosine 5'-triphosphate(ATP) not only participates in various physiological activities as the universal energy currency but also implicates in various pathological processes in living cells. Consequently,sensitive and selective detection ATP in live cells, tissues, as well as environmental samples, are urgently demanded. Due to the simple and convenient operation, economy cost, high selectivity for analyte, well biocompatibility and low cytotoxicity, fluorescent sensors for monitoring ATP have aroused great attention of researchers. In recent years, a large number of fluorescent sensors for detecting ATP have developed. This manuscript summarized most of these sensors and the interaction-mechanism between ATP and sensors, mainly including electrostatic interaction, p-p interaction, covalent bonding or hydrogen bond, or combinations of them, and the advantages of each strategy were also generalized.Here, a viewpoint of classification was shown where the sensors were divided into five typed ones according to the structure of probes used.
文摘Direct measurement of dipole potential in biological membranes has been impossible and 3-hydroxyflavones(3HFs) have allowed detection of changes in dipole potential in biological systems.In the present study,sixteen derivatives of 3HF with aliphatic hydrocarbon chains of different lengths at 4′-position and 6-position were synthesized.The basic fluorescence properties of 3HFs are maintained in all the probes in terms of strong blue shift in maximum fluorescence emission wavelength and>100 fold increase in quantum yield in organic solvents and in dioleoylphosphatidylcholine(DOPC) small unilamellar vesicles(SUV) in comparison to in aqueous Hepes buffer(15 mmol/L,pH 7.4).More importantly,the ability of the new compounds to report dipole potential changes in biological systems are also maintained,since all the new probes showed spectrum properties that are similar to yet different from that of F4N1,which potentially may allow more sensitive measurement of the dipole potential change in membranes.
基金This project was co-funded by National Natural Science Foundation of China,Research Foundation of Molecular Science Centre and Director of Institute of Chemistry,Chinese Academy of Sciences and Foundation of Organic Solid Laboratory,Chinese Academy of Sc
文摘Fluorescent molecules - p-dimethylaminobenzonitrile (DMABN) and trans-stilbene (TSB ) - were used as probes to investigate the inner structure of the nanotubular cavities contained in a new polyorganosiloxane (POS) which was prepared by the hydrosilylation coupling reaction of cis-isotactic ladderlike polyvinylsilsesquioxane (Vi-T) with 1,1,3,3-tetramethyldisiloxane (H-MM) as coupling agent in the presence of catalyst dicyclopentadienyldichloroplatinum (Cp2PtCl2). The results from FTIR spectra and fluorescence spectra in combination with molecular simulation reveal that the cross-section of the nanotubular cavity is nearly rectangular in shape, and is about 0.62 nm in width and about 0.38 nm in height. This work gains in-depth knowledge into the inner structure of the nanotubular cavities of POS and furthermore provides a guide to the selection of proper vip molecules in constructing functional supramolecular clathrate based upon POS.
