Solid-state zinc-ion capacitors are emerging as promising candidates for large-scale energy storage owing to improved safety,mechanical and thermal stability and easy-to-direct stacking.Hydrogel electrolytes are appea...Solid-state zinc-ion capacitors are emerging as promising candidates for large-scale energy storage owing to improved safety,mechanical and thermal stability and easy-to-direct stacking.Hydrogel electrolytes are appealing solid-state electrolytes because of eco-friendliness,high conductivity and intrinsic flexibility.However,the electrolyte/electrode interfacial contact and anti-freezing properties of current hydrogel electrolytes are still challenging for practical applications of zinc-ion capacitors.Here,we report a class of hydrogel electrolytes that couple high interfacial adhesion and anti-freezing performance.The synergy of tough hydrogel matrix and chemical anchorage enables a well-adhered interface between hydrogel electrolyte and electrode.Meanwhile,the cooperative solvation of ZnCl2 and LiCl hybrid salts renders the hydrogel electrolyte high ionic conductivity and mechanical elasticity simultaneously at low temperatures.More significantly,the Zn||carbon nanotubes hybrid capacitor based on this hydrogel electrolyte exhibits low-temperature capacitive performance,delivering high-energy density of 39 Wh kg^(-1)at-60°C with capacity retention of 98.7%over 10,000 cycles.With the benefits of the well-adhered electrolyte/electrode interface and the anti-freezing hydrogel electrolyte,the Zn/Li hybrid capacitor is able to accommodate dynamic deformations and function well under 1000 tension cycles even at-60°C.This work provides a powerful strategy for enabling stable operation of low-temperature zinc-ion capacitors.展开更多
Long QT syndrome(LQTS),which is caused by an ion channel–related gene mutation,is a malignant heart disease with a clinical course of a high incidence of ventricular fi brillation and sudden cardiac death in the youn...Long QT syndrome(LQTS),which is caused by an ion channel–related gene mutation,is a malignant heart disease with a clinical course of a high incidence of ventricular fi brillation and sudden cardiac death in the young.Mutations in KCNH2(which encodes potassium voltage-gated channel subfamily H member 2)are responsible for LQTS in many patients.Here we report the novel mutation c.1898A>C in KCNH2 in a Chinese family with LQTS through whole-exome sequencing.The c.916dupA mutation in JUP(which encodes junction plakoglobin)is also discovered.Mutations in JUP were found to be associated with arrhythmogenic right ventricular cardiomyopathy.The double mutation in the proband may help explain his severe clinical manifestations,such as sudden cardiac death at an early age.Sequencing for the proband’s family members revealed that the KCNH2 mutation descends from his paternal line,while the mutation in JUP came from his maternal line.The data provided in this study may help expand the spectrum of LQTS-related KCNH2 mutations and add support to the genetic diagnosis and counseling of families affected by malignant arrhythmias.展开更多
Objective:The purpose of this work was to obtain the phenotypes and detect potential mutations in three Chinese patients with Marfan syndrome(MFS)or incomplete MFS phenotypes.Methods:Three unrelated patients with a de...Objective:The purpose of this work was to obtain the phenotypes and detect potential mutations in three Chinese patients with Marfan syndrome(MFS)or incomplete MFS phenotypes.Methods:Three unrelated patients with a defi nite or suspected clinical diagnosis of MFS and their family members were recruited for research.Genomic DNA was extracted from peripheral blood of these patients and their family members.All the exons were sequenced by next-generation sequencing and the variants were further validated by Sanger sequencing.The functional consequences of the mutations were analyzed with various genomic resources and bioinformatics tools.Results:Three FBN1 mutations were identifi ed in the three patients,including one novel mutation(2125G>A)and two previously reported mutations(4786C>T and 6325C>T).It was interesting to note that the parents of these patients were normal as assessed by clinical features or genetic testing,but all these mutations were detected in their offspring,except for the variant 6325C>T.We also found that a few young members of the family of probands(proband 1 and proband 2)have exhibited no manifestations of MFS so far,although they carry the same disease-causing mutation.Conclusions:We found three FBN1 mutations in three unrelated Chinese families with MFS by genome sequencing,and the relationship between genotypes and phenotypes in MFS patients needs further exploration.展开更多
Familial dilated cardiomyopathy(DCM)is associated with numerous genes,especially those of the sarcomere family.The titin gene(TTN)consists of 365 exons and encodes the largest sarcomere protein(titin)in our bodies.Tit...Familial dilated cardiomyopathy(DCM)is associated with numerous genes,especially those of the sarcomere family.The titin gene(TTN)consists of 365 exons and encodes the largest sarcomere protein(titin)in our bodies.Titin is associated with many diseases,such as hypertrophic cardiomyopathy and DCM.Here we screened three Chinese families affected by DCM,and found that each harbors a stop-gain or splice site mutation in TTN(c.G20137T,c.G52522T,c.44610-2A>C).Assessment of the probands by electrocardiogram,B-mode echocardiography,and cardiac magnetic resonance imaging revealed impaired cardiac function,arrhythmia,or abnormal cardiac structure.In conclusion,using whole exome sequencing,we found three unreported TTN mutations associated with DCM.This has expanded the TTN mutation spectrum of Chinese DCM patients,especially in Henan,the most populous province.These data provide new genetic targets for the diagnosis and treatment of DCM,and will increase our understanding of the relationship between TTN mutation and DCM clinical symptoms.展开更多
基金This work was supported by the Natural Science Foundation of Jiangsu Province(BK20220213)the Fundamental Research Funds of Jiangsu Key Laboratory of Biomass Energy and Material(JSBEM-S-202210 and JSBEM-S-202102).
文摘Solid-state zinc-ion capacitors are emerging as promising candidates for large-scale energy storage owing to improved safety,mechanical and thermal stability and easy-to-direct stacking.Hydrogel electrolytes are appealing solid-state electrolytes because of eco-friendliness,high conductivity and intrinsic flexibility.However,the electrolyte/electrode interfacial contact and anti-freezing properties of current hydrogel electrolytes are still challenging for practical applications of zinc-ion capacitors.Here,we report a class of hydrogel electrolytes that couple high interfacial adhesion and anti-freezing performance.The synergy of tough hydrogel matrix and chemical anchorage enables a well-adhered interface between hydrogel electrolyte and electrode.Meanwhile,the cooperative solvation of ZnCl2 and LiCl hybrid salts renders the hydrogel electrolyte high ionic conductivity and mechanical elasticity simultaneously at low temperatures.More significantly,the Zn||carbon nanotubes hybrid capacitor based on this hydrogel electrolyte exhibits low-temperature capacitive performance,delivering high-energy density of 39 Wh kg^(-1)at-60°C with capacity retention of 98.7%over 10,000 cycles.With the benefits of the well-adhered electrolyte/electrode interface and the anti-freezing hydrogel electrolyte,the Zn/Li hybrid capacitor is able to accommodate dynamic deformations and function well under 1000 tension cycles even at-60°C.This work provides a powerful strategy for enabling stable operation of low-temperature zinc-ion capacitors.
基金the National Key R&D Plan under grant no.2018YFC1312505 to Xiaoyan Zhao and the Henan University of Chinese Medicine under grant no.00104311-2019-55 to Jinxin Miao.
文摘Long QT syndrome(LQTS),which is caused by an ion channel–related gene mutation,is a malignant heart disease with a clinical course of a high incidence of ventricular fi brillation and sudden cardiac death in the young.Mutations in KCNH2(which encodes potassium voltage-gated channel subfamily H member 2)are responsible for LQTS in many patients.Here we report the novel mutation c.1898A>C in KCNH2 in a Chinese family with LQTS through whole-exome sequencing.The c.916dupA mutation in JUP(which encodes junction plakoglobin)is also discovered.Mutations in JUP were found to be associated with arrhythmogenic right ventricular cardiomyopathy.The double mutation in the proband may help explain his severe clinical manifestations,such as sudden cardiac death at an early age.Sequencing for the proband’s family members revealed that the KCNH2 mutation descends from his paternal line,while the mutation in JUP came from his maternal line.The data provided in this study may help expand the spectrum of LQTS-related KCNH2 mutations and add support to the genetic diagnosis and counseling of families affected by malignant arrhythmias.
文摘Objective:The purpose of this work was to obtain the phenotypes and detect potential mutations in three Chinese patients with Marfan syndrome(MFS)or incomplete MFS phenotypes.Methods:Three unrelated patients with a defi nite or suspected clinical diagnosis of MFS and their family members were recruited for research.Genomic DNA was extracted from peripheral blood of these patients and their family members.All the exons were sequenced by next-generation sequencing and the variants were further validated by Sanger sequencing.The functional consequences of the mutations were analyzed with various genomic resources and bioinformatics tools.Results:Three FBN1 mutations were identifi ed in the three patients,including one novel mutation(2125G>A)and two previously reported mutations(4786C>T and 6325C>T).It was interesting to note that the parents of these patients were normal as assessed by clinical features or genetic testing,but all these mutations were detected in their offspring,except for the variant 6325C>T.We also found that a few young members of the family of probands(proband 1 and proband 2)have exhibited no manifestations of MFS so far,although they carry the same disease-causing mutation.Conclusions:We found three FBN1 mutations in three unrelated Chinese families with MFS by genome sequencing,and the relationship between genotypes and phenotypes in MFS patients needs further exploration.
基金the National Key R&D Program of China(grant no.018YFC1312505 to X.Z.)the Henan University of Chinese Medicine(grant no.00104311-2019-55 to J.M.).
文摘Familial dilated cardiomyopathy(DCM)is associated with numerous genes,especially those of the sarcomere family.The titin gene(TTN)consists of 365 exons and encodes the largest sarcomere protein(titin)in our bodies.Titin is associated with many diseases,such as hypertrophic cardiomyopathy and DCM.Here we screened three Chinese families affected by DCM,and found that each harbors a stop-gain or splice site mutation in TTN(c.G20137T,c.G52522T,c.44610-2A>C).Assessment of the probands by electrocardiogram,B-mode echocardiography,and cardiac magnetic resonance imaging revealed impaired cardiac function,arrhythmia,or abnormal cardiac structure.In conclusion,using whole exome sequencing,we found three unreported TTN mutations associated with DCM.This has expanded the TTN mutation spectrum of Chinese DCM patients,especially in Henan,the most populous province.These data provide new genetic targets for the diagnosis and treatment of DCM,and will increase our understanding of the relationship between TTN mutation and DCM clinical symptoms.