Invasive stratified mucin-producing carcinoma(ISMC)is a recently described histologic variant of high-risk human papillomavirus(HPV)-associated endocervical adenocarcinoma,as the putative invasive counterpart of the s...Invasive stratified mucin-producing carcinoma(ISMC)is a recently described histologic variant of high-risk human papillomavirus(HPV)-associated endocervical adenocarcinoma,as the putative invasive counterpart of the stratified mucin-producing intraepithelial lesion(SMILE).ISMC can display variable architectural patterns and usually coexists with other more conventional types of HPV-associated carcinomas,which makes diagnosis and differential diagnosis of ISMC is difficult for pathologists.Moreover,the prognosis of ISMC is still controversial.We analyzed 6 ISMCs with detailed pathological and clinical information.Intraepithelial lesion,including 1 high-grade squamous intraepithelial lesion and 1 SMILE,was found.Various architectures were observed(including nest,glandular,solid,trabecular,and single cell).Nuclear peripheral palisading,apoptotic bodies and mitoses,and variable cytoplasmic mucin vacuoles were seen in all of our cases.The predominance of neutrophils infiltration was seen in only 1 tumor.All the tumors infiltrated the cervical stroma in Silva pattern C manner.p63 and/or p40 was characteristically expressed in the peripheral cells in only 2 cases.High-risk HPV infection was observed in 3/3 detected cases.All the patients were alive during the follow-up time.Recognition of this infrequent tumor may help pathologists and oncologists for an accurate diagnosis and a better understanding of the clinicopathological behavior.展开更多
Insect wings are developed from the wing disc during metamorphosis.Bombyx mori,a model lepidopteran insect,loses flight ability after long-term domestication from the wild silkworm,Bombyx mandarina.The mw mutant(ul 1 ...Insect wings are developed from the wing disc during metamorphosis.Bombyx mori,a model lepidopteran insect,loses flight ability after long-term domestication from the wild silkworm,Bombyx mandarina.The mw mutant(ul 1 strain)shows minute wings compared to wild type(e.g.,p50 strain)wings.RNA sequencing analysis previously revealed differential Hippo-pathway-related gene expression between the ull and p50strains.The Hippo pathway is an evolutionarily conserved signaling cascade that controls organ size during development in animals.In this study,the function of BmSd which has been characterized as one of the Hippo-pathway-related genes was analyzed for silkworm wing development.We found that mats,warts,and hippo expression levels were higher in u11 compared to p50 wing discs.BmSd(scalloped)expression,which encodes a prominent transcriptional partner to Yorkie(Yki),gradually decreased during the wandering stage in ull,but exhibited the opposite expression pattern in p50.When BmSd was knocked down by small interfering RNA during the wandering stage in the p50 strain,57.9%of the individuals showed minute wings.Additionally,ex,kibras and wingless expression levels decreased in the BmSd knockdown mutant.Further,BmSd deletion mediated by clustered regularly interspaced short palindromic repeats(CRISPR)/CRISPR-associated protein 9 induced 50%of individuals with minute wings,a phenotype similar to the mw mutant.This result demonstrates that BmSd plays pivotal roles in silkworm wing development.Our results show that the Hippo signaling pathway participates and plays crucial roles in the regulation of silkworm wing development,and our findings provide a basis for further research on B.mori wing development.展开更多
Circadian rhythms,which are ubiquitous and adaptive,occur across all species,from microbes to humans,in which they organize and modify behavior and physiology.timeless(im)is a canonical clock gene.The core composition...Circadian rhythms,which are ubiquitous and adaptive,occur across all species,from microbes to humans,in which they organize and modify behavior and physiology.timeless(im)is a canonical clock gene.The core composition of the Drosophila melanogaster endogenous circadian clock has been extensively investigated;however,in lepidopteran insects,including Bombyr mori,the mechanism is complicated and little is known regarding the participation of tim in the negative feedback loop responsible for behavioral activities.To arrive at a comprehensive understanding of the role of tim in the B.mori endogenous circadian clock,we exploited the clustered regularly interspaced short palindromic repeats(CRISPR)/CRISPR-associated protein 9 gene editing system.We attermpted to elucidate the functions of tim in the circadian clock of B.mori using Bmtim mutants.The knockouts affected two circadian behavioral activities:adult emergence and embryo hatching rhythms.Quantitative real-time polymerase chain reaction results confirmed that tim-knockouts induced relative reductions in the expression levels,and thereby the oscillation amplitudes,of Bmper and Bmclk messenger RNAs during both the photophase and scotophase.Additionally,the daily rhythmic expression of Bmndbt was up-regulated in the photophase and downregulated in the scotophase in a tim-knockout.Our study reveals that tim is integral to the B.mori circadian clock and may be involved in regulating eclosion and hatching rhythms.展开更多
The application of grooved surface structure is an emerging and effective means in turbulence flow control.However,for a realistic configuration,the global flow field described directly by simple application of massiv...The application of grooved surface structure is an emerging and effective means in turbulence flow control.However,for a realistic configuration,the global flow field described directly by simple application of massive grids makes it unfeasible to simulate.In this paper,a boundary surrogate model reproducing the effect of microscopic near-wall region is proposed to improve computational efficiency.The surrogate model trained with Lattice Boltzmann Method(LBM)considering the rarefied effect based on real micro/nanoflow field is new among literature,which accurately shows flow characteristics of the micro/nano structure.With this approach,numerical simulations via Reynolds-averaged Navier Stokes equations with modified wall boundary condition are performed in subsonic and transonic flow.The results show that micro/nano grooved surface structure has the effect of delaying transition from laminar to turbulence,thus reducing the skin friction significantly.Analysis of turbulence intensity and turbulence kinetic energy shows that the near-wall flow field of grooved airfoil is more stable compared with that of the smooth airfoil.The reducing rate of maximum turbulent intensity reaches 13.39%.The paper shows a perspective for further application of micro/nano groove structure to turbulence flow control in aircraft design by providing an accurate and efficient simulation method.展开更多
基金the Scientific Research Funds Project of the Science and Technology Department of Sichuan Province(Grant No.21YYJC1616 to Liu Y).
文摘Invasive stratified mucin-producing carcinoma(ISMC)is a recently described histologic variant of high-risk human papillomavirus(HPV)-associated endocervical adenocarcinoma,as the putative invasive counterpart of the stratified mucin-producing intraepithelial lesion(SMILE).ISMC can display variable architectural patterns and usually coexists with other more conventional types of HPV-associated carcinomas,which makes diagnosis and differential diagnosis of ISMC is difficult for pathologists.Moreover,the prognosis of ISMC is still controversial.We analyzed 6 ISMCs with detailed pathological and clinical information.Intraepithelial lesion,including 1 high-grade squamous intraepithelial lesion and 1 SMILE,was found.Various architectures were observed(including nest,glandular,solid,trabecular,and single cell).Nuclear peripheral palisading,apoptotic bodies and mitoses,and variable cytoplasmic mucin vacuoles were seen in all of our cases.The predominance of neutrophils infiltration was seen in only 1 tumor.All the tumors infiltrated the cervical stroma in Silva pattern C manner.p63 and/or p40 was characteristically expressed in the peripheral cells in only 2 cases.High-risk HPV infection was observed in 3/3 detected cases.All the patients were alive during the follow-up time.Recognition of this infrequent tumor may help pathologists and oncologists for an accurate diagnosis and a better understanding of the clinicopathological behavior.
基金This project was supported by the National Natural Science Foundation of China(grant No.31572320)the Postgraduate Research&Practice Innovation Program of Jiangsu Province(KYCX181881).
文摘Insect wings are developed from the wing disc during metamorphosis.Bombyx mori,a model lepidopteran insect,loses flight ability after long-term domestication from the wild silkworm,Bombyx mandarina.The mw mutant(ul 1 strain)shows minute wings compared to wild type(e.g.,p50 strain)wings.RNA sequencing analysis previously revealed differential Hippo-pathway-related gene expression between the ull and p50strains.The Hippo pathway is an evolutionarily conserved signaling cascade that controls organ size during development in animals.In this study,the function of BmSd which has been characterized as one of the Hippo-pathway-related genes was analyzed for silkworm wing development.We found that mats,warts,and hippo expression levels were higher in u11 compared to p50 wing discs.BmSd(scalloped)expression,which encodes a prominent transcriptional partner to Yorkie(Yki),gradually decreased during the wandering stage in ull,but exhibited the opposite expression pattern in p50.When BmSd was knocked down by small interfering RNA during the wandering stage in the p50 strain,57.9%of the individuals showed minute wings.Additionally,ex,kibras and wingless expression levels decreased in the BmSd knockdown mutant.Further,BmSd deletion mediated by clustered regularly interspaced short palindromic repeats(CRISPR)/CRISPR-associated protein 9 induced 50%of individuals with minute wings,a phenotype similar to the mw mutant.This result demonstrates that BmSd plays pivotal roles in silkworm wing development.Our results show that the Hippo signaling pathway participates and plays crucial roles in the regulation of silkworm wing development,and our findings provide a basis for further research on B.mori wing development.
基金the National Natural Sci-ence Foundation of China(grant No.31772523)the Earmarked fund for the China Agriculture Research Sys-tem(cars-18).
文摘Circadian rhythms,which are ubiquitous and adaptive,occur across all species,from microbes to humans,in which they organize and modify behavior and physiology.timeless(im)is a canonical clock gene.The core composition of the Drosophila melanogaster endogenous circadian clock has been extensively investigated;however,in lepidopteran insects,including Bombyr mori,the mechanism is complicated and little is known regarding the participation of tim in the negative feedback loop responsible for behavioral activities.To arrive at a comprehensive understanding of the role of tim in the B.mori endogenous circadian clock,we exploited the clustered regularly interspaced short palindromic repeats(CRISPR)/CRISPR-associated protein 9 gene editing system.We attermpted to elucidate the functions of tim in the circadian clock of B.mori using Bmtim mutants.The knockouts affected two circadian behavioral activities:adult emergence and embryo hatching rhythms.Quantitative real-time polymerase chain reaction results confirmed that tim-knockouts induced relative reductions in the expression levels,and thereby the oscillation amplitudes,of Bmper and Bmclk messenger RNAs during both the photophase and scotophase.Additionally,the daily rhythmic expression of Bmndbt was up-regulated in the photophase and downregulated in the scotophase in a tim-knockout.Our study reveals that tim is integral to the B.mori circadian clock and may be involved in regulating eclosion and hatching rhythms.
基金funded by AECC Commercial Aircraft Engine in the project of Laminar Flow Design and Turbulent Drag Reduction of Compressor Blade Profile and Experimental Verification。
文摘The application of grooved surface structure is an emerging and effective means in turbulence flow control.However,for a realistic configuration,the global flow field described directly by simple application of massive grids makes it unfeasible to simulate.In this paper,a boundary surrogate model reproducing the effect of microscopic near-wall region is proposed to improve computational efficiency.The surrogate model trained with Lattice Boltzmann Method(LBM)considering the rarefied effect based on real micro/nanoflow field is new among literature,which accurately shows flow characteristics of the micro/nano structure.With this approach,numerical simulations via Reynolds-averaged Navier Stokes equations with modified wall boundary condition are performed in subsonic and transonic flow.The results show that micro/nano grooved surface structure has the effect of delaying transition from laminar to turbulence,thus reducing the skin friction significantly.Analysis of turbulence intensity and turbulence kinetic energy shows that the near-wall flow field of grooved airfoil is more stable compared with that of the smooth airfoil.The reducing rate of maximum turbulent intensity reaches 13.39%.The paper shows a perspective for further application of micro/nano groove structure to turbulence flow control in aircraft design by providing an accurate and efficient simulation method.
