Y_(3)Fe_(5)O_(12)(YIG)crystals are highly desirable for the fabrication of mid-infrared isolators with the rapid growth of optical communications,although it is rather challenging to grow large size and high-quality s...Y_(3)Fe_(5)O_(12)(YIG)crystals are highly desirable for the fabrication of mid-infrared isolators with the rapid growth of optical communications,although it is rather challenging to grow large size and high-quality single crystals.Dy^(3+)doping is expected to improve the optical and magneto-optical prope rties.However,high quality Dy:YIG crystals and the adjustment of Dy^(3+)on the structure and optical behavior of YIG crystal remain unclear,impeding its practical applications.Herein,a series of Y_(3-x)Dy_(x)Fe_(5)O_(12)(x=0,0.5,1.0,1.5,3)solid solution crystals was grown by the flux-Bridgman method and single crystals up to 25 mm were obtained.With the introduction of Dy^(3+),lattice parameters are gradually enlarged from 1.2379 nm(YIG)to 1.2420 nm(DyIG).Typical Dy^(3+)absorption peaks are observed around 1070,1265 and 1670 nm.The refractive index decreases from 2.37(500 nm)to 2.10(2500 nm)for YIG crystal,and it reduces from 2.47(500 nm)to 2.16(2500 nm)for DyIG crystal.The optical bandgaps remain almost unchanged for Dy:YIG crystals.The optical dispersion of the refractive indices was finely fitted by the Wemple and DiDomenico(WDD)and the Sellmeier models,respectively.With the increase of Dy^(3+)content,the saturation magnetization(Ms)decreases significantly from 23.62 emu/g(YIG)to 5.33 emu/g(DyIG).Small coercive field is persisted for this system,endowing small external magnetic field.These results provide valuable references for the manipulation of rare earths on the properties of magnetooptical crystals,which is beneficial to the design of high-performance garnet crystals for the application of optical switching and non-reciprocal related devices.展开更多
Due to the virtues of no stutter peaks,low rates of mutation,and short amplicon sizes,insertion/deletion(InDei)polymorphism is an indispensable tool for analyzing degraded DNA samples from crime scenes for human ident...Due to the virtues of no stutter peaks,low rates of mutation,and short amplicon sizes,insertion/deletion(InDei)polymorphism is an indispensable tool for analyzing degraded DNA samples from crime scenes for human identifications(Wang et al.,2021).Herein,a self-developed panel of 43 InDei loci constructed previously by our group was utilized to evaluate the genetic diversities and explore the genetic background of the Han Chinese from Beijing(HCB)including 301 random healthy individuals.展开更多
The identification of tissue origin of body fluid can provide clues and evidence for criminal case investigations.To establish an efficient method for identifying body fluid in forensic cases,eight novel body fluid-sp...The identification of tissue origin of body fluid can provide clues and evidence for criminal case investigations.To establish an efficient method for identifying body fluid in forensic cases,eight novel body fluid-specific DNA methylation markers were selected in this study,and a multiplex single base extension reaction(SNaPshot)system for these markers was constructed for the identification of five common body fluids(venous blood,saliva,menstrual blood,vaginal fluid,and semen).The results indicated that the in-house system showed good species specificity,sensitivity,and ability to identify mixed biological samples.At the same time,an artificial body fluid prediction model and two machine learning prediction models based on the support vector machine(SVM)and random forest(RF)algorithms were constructed using previous research data,and these models were validated using the detection data obtained in this study(n=95).The accuracy of the prediction model based on experience was 95.79%;the prediction accuracy of the SVM prediction model was 100.00%for four kinds of body fluids except saliva(96.84%);and the prediction accuracy of the RF prediction model was 100.00%for all five kinds of body fluids.In conclusion,the in-house SNaPshot system and RF prediction model could achieve accurate tissue origin identification of body fluids.展开更多
In this research,genotyping data of 43 InDel loci in 311 Han individuals in Ankang City,Shaanxi Province,China were detected using a self-developed five-dye multiplex amplification panel.The allelic frequencies and fo...In this research,genotyping data of 43 InDel loci in 311 Han individuals in Ankang City,Shaanxi Province,China were detected using a self-developed five-dye multiplex amplification panel.The allelic frequencies and forensic parameters of all InDel loci were calculated.The combined power of discrimination and probability of exclusion values were 0.99999999999999999882739 and 0.999887424,respectively,which demonstrated that this 43-InDel panel was powerful for individual identifications in Ankang Han population.Moreover,genetic distances,pairwise F_(ST)values,principal component analyses,phylogenetic trees and STRUCTURE analyses were performed to investigate the genetic affinities between Ankang Han and reference groups.Population genetic investigations indicated that Ankang Han population had a close genetic relationship with Southern Han population compared with other reference groups.展开更多
Background:A difficulty associated with forensic applications is the detection of degraded biological materials.Due to the large amplicon sizes of short tandem repeat alleles,valid genotyping results cannot be obtaine...Background:A difficulty associated with forensic applications is the detection of degraded biological materials.Due to the large amplicon sizes of short tandem repeat alleles,valid genotyping results cannot be obtained from degraded biological materials.Recently,insertion/deletion(InDel)polymorphisms have been used in forensic applications for their widespread distributions in the human genome,short amplicon sizes,and low mutation rates.Purpose:Human identification InDel panels have mostly been designed for European populations.Therefore,our laboratory independently developed a multiplex polymerase chain reaction(PCR)system with 35 polymorphic InDel loci to be used for human identification in China.Forensic validation studies were conducted on this novel 35-InDel multiplex PCR system.Methods:The 35 InDel loci were screened in the database,and then used with the traditional PCR amplification and capillary electrophoresis platform combined with five-color fluorescence parallel detection technology.Validation studies were performed on this novel panel,including accuracy,repeatability and reproducibility,species specificity,sensitivity,stability,forensic case sample detection,and mixture studies.In addition,forensic efficiency assessments were conducted in populations from different continents.Results:The data of validated studies indicated that the novel 35-InDel panel was accurate,stable,and efficient for forensic purposes.For human identification,the cumulative power of discrimination values for the these 35 InDel loci in East Asian,South Asian,European,American,and African populations were 0.999999999999995,0.999999999999995,0.999999999999971,0.9999999999999960,and 0.999999999998166,respectively.Conclusions:In this study,a set of 35 InDel loci were conducted in a multiplex amplification system for human identification of degraded DNA sample,and this new assay was efficient and stable.The present results suggested that the 35-InDel panel was a reliable tool for forensic use and could be efficiently used for human identification in the East Asian populations.展开更多
基金Project supported by Joint Fund NSAF of National Natural Science Foundation of ChinaChina Academy ofEngineering Physics(U2130124)+1 种基金Shanghai Municipal Commission of Economy and Informatization,China(GYQJ-2020-1-19)theNational Natural Science Foundation of China(52172121)。
文摘Y_(3)Fe_(5)O_(12)(YIG)crystals are highly desirable for the fabrication of mid-infrared isolators with the rapid growth of optical communications,although it is rather challenging to grow large size and high-quality single crystals.Dy^(3+)doping is expected to improve the optical and magneto-optical prope rties.However,high quality Dy:YIG crystals and the adjustment of Dy^(3+)on the structure and optical behavior of YIG crystal remain unclear,impeding its practical applications.Herein,a series of Y_(3-x)Dy_(x)Fe_(5)O_(12)(x=0,0.5,1.0,1.5,3)solid solution crystals was grown by the flux-Bridgman method and single crystals up to 25 mm were obtained.With the introduction of Dy^(3+),lattice parameters are gradually enlarged from 1.2379 nm(YIG)to 1.2420 nm(DyIG).Typical Dy^(3+)absorption peaks are observed around 1070,1265 and 1670 nm.The refractive index decreases from 2.37(500 nm)to 2.10(2500 nm)for YIG crystal,and it reduces from 2.47(500 nm)to 2.16(2500 nm)for DyIG crystal.The optical bandgaps remain almost unchanged for Dy:YIG crystals.The optical dispersion of the refractive indices was finely fitted by the Wemple and DiDomenico(WDD)and the Sellmeier models,respectively.With the increase of Dy^(3+)content,the saturation magnetization(Ms)decreases significantly from 23.62 emu/g(YIG)to 5.33 emu/g(DyIG).Small coercive field is persisted for this system,endowing small external magnetic field.These results provide valuable references for the manipulation of rare earths on the properties of magnetooptical crystals,which is beneficial to the design of high-performance garnet crystals for the application of optical switching and non-reciprocal related devices.
基金This study was supported by the National Natural Science Foundation of China(No.81373248).
文摘Due to the virtues of no stutter peaks,low rates of mutation,and short amplicon sizes,insertion/deletion(InDei)polymorphism is an indispensable tool for analyzing degraded DNA samples from crime scenes for human identifications(Wang et al.,2021).Herein,a self-developed panel of 43 InDei loci constructed previously by our group was utilized to evaluate the genetic diversities and explore the genetic background of the Han Chinese from Beijing(HCB)including 301 random healthy individuals.
基金supported by the National Natural Science Foundation of China(Nos.81930055 and 81772031).
文摘The identification of tissue origin of body fluid can provide clues and evidence for criminal case investigations.To establish an efficient method for identifying body fluid in forensic cases,eight novel body fluid-specific DNA methylation markers were selected in this study,and a multiplex single base extension reaction(SNaPshot)system for these markers was constructed for the identification of five common body fluids(venous blood,saliva,menstrual blood,vaginal fluid,and semen).The results indicated that the in-house system showed good species specificity,sensitivity,and ability to identify mixed biological samples.At the same time,an artificial body fluid prediction model and two machine learning prediction models based on the support vector machine(SVM)and random forest(RF)algorithms were constructed using previous research data,and these models were validated using the detection data obtained in this study(n=95).The accuracy of the prediction model based on experience was 95.79%;the prediction accuracy of the SVM prediction model was 100.00%for four kinds of body fluids except saliva(96.84%);and the prediction accuracy of the RF prediction model was 100.00%for all five kinds of body fluids.In conclusion,the in-house SNaPshot system and RF prediction model could achieve accurate tissue origin identification of body fluids.
基金This study was supported by National Natural Science Foundation of China(NSFC,81930055 and 81772031)Guangdong Province Universities and Colleges Pearl River Scholar Funded Scheme(GDUPS,2017).
文摘In this research,genotyping data of 43 InDel loci in 311 Han individuals in Ankang City,Shaanxi Province,China were detected using a self-developed five-dye multiplex amplification panel.The allelic frequencies and forensic parameters of all InDel loci were calculated.The combined power of discrimination and probability of exclusion values were 0.99999999999999999882739 and 0.999887424,respectively,which demonstrated that this 43-InDel panel was powerful for individual identifications in Ankang Han population.Moreover,genetic distances,pairwise F_(ST)values,principal component analyses,phylogenetic trees and STRUCTURE analyses were performed to investigate the genetic affinities between Ankang Han and reference groups.Population genetic investigations indicated that Ankang Han population had a close genetic relationship with Southern Han population compared with other reference groups.
基金supported by the National Natural Science Foundation of China(82072122).
文摘Background:A difficulty associated with forensic applications is the detection of degraded biological materials.Due to the large amplicon sizes of short tandem repeat alleles,valid genotyping results cannot be obtained from degraded biological materials.Recently,insertion/deletion(InDel)polymorphisms have been used in forensic applications for their widespread distributions in the human genome,short amplicon sizes,and low mutation rates.Purpose:Human identification InDel panels have mostly been designed for European populations.Therefore,our laboratory independently developed a multiplex polymerase chain reaction(PCR)system with 35 polymorphic InDel loci to be used for human identification in China.Forensic validation studies were conducted on this novel 35-InDel multiplex PCR system.Methods:The 35 InDel loci were screened in the database,and then used with the traditional PCR amplification and capillary electrophoresis platform combined with five-color fluorescence parallel detection technology.Validation studies were performed on this novel panel,including accuracy,repeatability and reproducibility,species specificity,sensitivity,stability,forensic case sample detection,and mixture studies.In addition,forensic efficiency assessments were conducted in populations from different continents.Results:The data of validated studies indicated that the novel 35-InDel panel was accurate,stable,and efficient for forensic purposes.For human identification,the cumulative power of discrimination values for the these 35 InDel loci in East Asian,South Asian,European,American,and African populations were 0.999999999999995,0.999999999999995,0.999999999999971,0.9999999999999960,and 0.999999999998166,respectively.Conclusions:In this study,a set of 35 InDel loci were conducted in a multiplex amplification system for human identification of degraded DNA sample,and this new assay was efficient and stable.The present results suggested that the 35-InDel panel was a reliable tool for forensic use and could be efficiently used for human identification in the East Asian populations.
