Researches on detection of human papillomavirus(HPV)high-risk samples were carried out by polymerase chain reaction(PCR)coupled with microchip electrophoresis(MCE).Herein,we introduced a simple,rapid,automated method ...Researches on detection of human papillomavirus(HPV)high-risk samples were carried out by polymerase chain reaction(PCR)coupled with microchip electrophoresis(MCE).Herein,we introduced a simple,rapid,automated method for detecting high-risk samples HPV16 and HPV18.In this research,general primers were initially selected to obtain sufficient detectable yield by PCR to verify feasibility of MCM method for HPV detection,then type-specific primers were further used to evaluate the specificity of MCE method.The results indicated MCE method was capable of specifically detecting high-risk HPV16 and HPV18,and also enabled simultaneous detection of multiplex samples.This MCE method described here has been successfully applied to HPV detection and displayed excellent reliability demonstrating by sequencing results.The inherent capability of MCE facilitated HPV detection conducted in a small chip with automated,high throughput,massive parallelized analysis.We envision that MCE method will definitely pave a way for clinical diagnosis,and even on-site screening of cervical cancer.展开更多
Triple-negative breast cancer,due to its aggressive nature and lack of targeted treatment,faces serious challenges in breast cancer treatment.Conventional therapies,such as chemotherapy,are encumbered by a range of li...Triple-negative breast cancer,due to its aggressive nature and lack of targeted treatment,faces serious challenges in breast cancer treatment.Conventional therapies,such as chemotherapy,are encumbered by a range of limitations,and there is an urgent need for more effective treatment strategies.Ferroptosis,as an iron-dependent form of cell death,has exhibited promising potential in cancer treatment.Combining ferroptosis with other cancer therapies offers new avenues for treatment.Tetrahedral DNA nanostructure(TDN),a novel DNA-based three-dimensional(3D)nanomaterial,is promising drug delivery vehicle and can be utilized for functionalizing inorganic nanomaterials.In this work,we have demonstrated the preparation of Fe_(3)O_(4)-PEI@TDN-DOX nanocomposites and elucidated their antitumor mechanism.The TDN facilitated the enhanced cellular uptake of polyetherimide(PEI)-modified Fe_(3)O_(4),and the delivery of the chemotherapeutic drug doxorubicin(DOX)further augmented their anti-tumor effect.This novel strategy can destroy the tumor redox homeostasis and produce overwhelming lipid peroxides,consequently sensitizing the tumor to ferroptosis.The integration of ferroptosis with other cancer therapies opens up new possibilities for treatment.This research provides valuable mechanistic insights and practical strategies for leveraging nanotechnology to induce ferroptosis and amplify its impact on tumor cells.展开更多
Rapid on-site detection of pathogenic bacteria with high sensitivity and specificity is becoming an urgent need in public health assurance, medical diagnostics, environmental monitoring, and food safety fields. Despit...Rapid on-site detection of pathogenic bacteria with high sensitivity and specificity is becoming an urgent need in public health assurance, medical diagnostics, environmental monitoring, and food safety fields. Despite being reliable and widely used, the existing methods of bacteria detection are cumbersome and time-consuming, which is not conducive to field detection. Microfluidic lab-on-a-chip technology has provided a detective tool for various analytes, due to its miniaturization, portability and low reagent consumption. Within this progress report, advances in the bacteria detection using microfluidic biosensors were discussed. Typical methods for pathogenic bacteria capture, separation and detection were introduced respectively in the first part. Then key applications of microfluidic biosensor-based rapid bacteria detection were presented. Finally, we made a conclusion and discussed possible research prospects in aspects of microfluidic biosensors for rapid detection of pathogenic bacteria.展开更多
This article presents sequential inkjet-based method to produce double emulsions as templates to fabricate morphology-controlled and inner-modified hole-shell microparticles. This sequential printing strategy for prod...This article presents sequential inkjet-based method to produce double emulsions as templates to fabricate morphology-controlled and inner-modified hole-shell microparticles. This sequential printing strategy for producing double emulsions circumvents complex wettability modification of the microchannels in lithography-based microfluidic device and largely saves the reagent in comparison to the coaxial two-phase jet in glass capillary. The formation of hole-shell structures is attributed to the diffusion of solvent out of droplets into butanol at the interface between oil and extract phase. The change of hole size is controlled by different diffusion rate, which is determined by changing the volume ratio of butanol and alcohol in extract phase.This presented flexible method can fabricate some functionalized microparticles in our future work.展开更多
Membrane tension plays a significant role in many cellular processes including cell adhesion, migration and spreading. Despite the importance of membrane tension, it remains difficult to measure in vivo. Recently, the...Membrane tension plays a significant role in many cellular processes including cell adhesion, migration and spreading. Despite the importance of membrane tension, it remains difficult to measure in vivo. Recently, the development of non-invasive fluorescent probes have made great progress, especially excitedstate deplanarization in molecular rotors has been applied to image membrane tension in living cells.Nevertheless, an intrinsic limitation of such kind of probe is that they depend on the lipid packing, and how the lipid packing responds to the membrane tension change remains unclear. Therefore, in this work,we used a polarity-sensitive membrane probe to investigate the possible response mechanism of lipid packing to the change of membrane tension that was regulated by osmotic shocks. The results showed that an increase in membrane tension could stretch the lipids apart with large displacements, and this change was not homogeneous on the whole membrane, instead, increase of membrane tension induced phase separation.展开更多
In this work, a reliable and sensitive method for detecting polybrominated diphenyl ethers (PBDEs) has been developed by the combination of liquid-liquid extraction and gas chromatography-mass spectrometry. PBDEs we...In this work, a reliable and sensitive method for detecting polybrominated diphenyl ethers (PBDEs) has been developed by the combination of liquid-liquid extraction and gas chromatography-mass spectrometry. PBDEs were extracted from a large volume of water by liquid-liquid extraction and purified by silica gel chromatography. In order to reduce the deviation, dibromobiphenyl was exploited as the internal standard to minimize differences among the injections. The quantification was performed using an external standard. Good linear correlation coefficients (〉0.991) and a wide linearity range ( 1,0- 500.0 ng/L) indicated the steadiness of the proposed method. Moreover, the satisfactory recovery (〉75%) suggested that successful determination of PBDEs in river water had been achieved. Furthermore, the deduction behavior of PBDEs in river water could be inferred according to the results.展开更多
基金This work was financially supported by the National Natural Science Foundation of China(Nos.21727814,81872829,21621003,21890740).
文摘Researches on detection of human papillomavirus(HPV)high-risk samples were carried out by polymerase chain reaction(PCR)coupled with microchip electrophoresis(MCE).Herein,we introduced a simple,rapid,automated method for detecting high-risk samples HPV16 and HPV18.In this research,general primers were initially selected to obtain sufficient detectable yield by PCR to verify feasibility of MCM method for HPV detection,then type-specific primers were further used to evaluate the specificity of MCE method.The results indicated MCE method was capable of specifically detecting high-risk HPV16 and HPV18,and also enabled simultaneous detection of multiplex samples.This MCE method described here has been successfully applied to HPV detection and displayed excellent reliability demonstrating by sequencing results.The inherent capability of MCE facilitated HPV detection conducted in a small chip with automated,high throughput,massive parallelized analysis.We envision that MCE method will definitely pave a way for clinical diagnosis,and even on-site screening of cervical cancer.
基金supported by the National Key R&D Program of China(No.2019YFA0110600)the National Natural Science Foundation of China(Nos.82370929 and 81970916)+3 种基金the Sichuan Science and Technology Program(Nos.2022NSFSC0002 and 2023YFG022)Sichuan Province Youth Science and Technology Innovation Team(No.2022JDTD0021)Research and Develop Program,West China Hospital of Stomatology Sichuan University(No.RD03202302)the Research Funding from West China School/Hospital of Stomatology Sichuan University(No.QDJF2022-2)。
文摘Triple-negative breast cancer,due to its aggressive nature and lack of targeted treatment,faces serious challenges in breast cancer treatment.Conventional therapies,such as chemotherapy,are encumbered by a range of limitations,and there is an urgent need for more effective treatment strategies.Ferroptosis,as an iron-dependent form of cell death,has exhibited promising potential in cancer treatment.Combining ferroptosis with other cancer therapies offers new avenues for treatment.Tetrahedral DNA nanostructure(TDN),a novel DNA-based three-dimensional(3D)nanomaterial,is promising drug delivery vehicle and can be utilized for functionalizing inorganic nanomaterials.In this work,we have demonstrated the preparation of Fe_(3)O_(4)-PEI@TDN-DOX nanocomposites and elucidated their antitumor mechanism.The TDN facilitated the enhanced cellular uptake of polyetherimide(PEI)-modified Fe_(3)O_(4),and the delivery of the chemotherapeutic drug doxorubicin(DOX)further augmented their anti-tumor effect.This novel strategy can destroy the tumor redox homeostasis and produce overwhelming lipid peroxides,consequently sensitizing the tumor to ferroptosis.The integration of ferroptosis with other cancer therapies opens up new possibilities for treatment.This research provides valuable mechanistic insights and practical strategies for leveraging nanotechnology to induce ferroptosis and amplify its impact on tumor cells.
基金supported by Research and Development Program in Key Areas of Guangdong Province,China (No.2019B020209009)the National Natural Science Foundation of China (Nos. 21727814, 81872829 and 21621003)。
文摘Rapid on-site detection of pathogenic bacteria with high sensitivity and specificity is becoming an urgent need in public health assurance, medical diagnostics, environmental monitoring, and food safety fields. Despite being reliable and widely used, the existing methods of bacteria detection are cumbersome and time-consuming, which is not conducive to field detection. Microfluidic lab-on-a-chip technology has provided a detective tool for various analytes, due to its miniaturization, portability and low reagent consumption. Within this progress report, advances in the bacteria detection using microfluidic biosensors were discussed. Typical methods for pathogenic bacteria capture, separation and detection were introduced respectively in the first part. Then key applications of microfluidic biosensor-based rapid bacteria detection were presented. Finally, we made a conclusion and discussed possible research prospects in aspects of microfluidic biosensors for rapid detection of pathogenic bacteria.
基金supported by the National Natural Science Foundation of China(21435002,21621003)the National Key R&D Program of China(2017YFC0906800)
文摘This article presents sequential inkjet-based method to produce double emulsions as templates to fabricate morphology-controlled and inner-modified hole-shell microparticles. This sequential printing strategy for producing double emulsions circumvents complex wettability modification of the microchannels in lithography-based microfluidic device and largely saves the reagent in comparison to the coaxial two-phase jet in glass capillary. The formation of hole-shell structures is attributed to the diffusion of solvent out of droplets into butanol at the interface between oil and extract phase. The change of hole size is controlled by different diffusion rate, which is determined by changing the volume ratio of butanol and alcohol in extract phase.This presented flexible method can fabricate some functionalized microparticles in our future work.
基金financially supported by Research and Development Program in Key Areas of Guangdong Province,China (No.2019B020209009)National Natural Science Foundation of China(Nos. 21727814, 22034005, 81872829)the China Postdoctoral Science Foundation (No. 2020M680502)。
文摘Membrane tension plays a significant role in many cellular processes including cell adhesion, migration and spreading. Despite the importance of membrane tension, it remains difficult to measure in vivo. Recently, the development of non-invasive fluorescent probes have made great progress, especially excitedstate deplanarization in molecular rotors has been applied to image membrane tension in living cells.Nevertheless, an intrinsic limitation of such kind of probe is that they depend on the lipid packing, and how the lipid packing responds to the membrane tension change remains unclear. Therefore, in this work,we used a polarity-sensitive membrane probe to investigate the possible response mechanism of lipid packing to the change of membrane tension that was regulated by osmotic shocks. The results showed that an increase in membrane tension could stretch the lipids apart with large displacements, and this change was not homogeneous on the whole membrane, instead, increase of membrane tension induced phase separation.
基金supported by the Research Fund for the Doctoral Program of Higher Education (No.20110002110052)China Equipment and Education Resources System (No.CERS-1-75)
文摘In this work, a reliable and sensitive method for detecting polybrominated diphenyl ethers (PBDEs) has been developed by the combination of liquid-liquid extraction and gas chromatography-mass spectrometry. PBDEs were extracted from a large volume of water by liquid-liquid extraction and purified by silica gel chromatography. In order to reduce the deviation, dibromobiphenyl was exploited as the internal standard to minimize differences among the injections. The quantification was performed using an external standard. Good linear correlation coefficients (〉0.991) and a wide linearity range ( 1,0- 500.0 ng/L) indicated the steadiness of the proposed method. Moreover, the satisfactory recovery (〉75%) suggested that successful determination of PBDEs in river water had been achieved. Furthermore, the deduction behavior of PBDEs in river water could be inferred according to the results.
