Objective:To detect common chromosomal aneuploidy variations in embryos from couples undergoing assisted reproductive technology and preimplantation genetic screening and their possible associations with embryo qualit...Objective:To detect common chromosomal aneuploidy variations in embryos from couples undergoing assisted reproductive technology and preimplantation genetic screening and their possible associations with embryo quality.Methods:In this study,359 embryos from 62 couples were screened for chromosomes 13,21,18,X,and Y by fluorescence insitu hybridization.For biopsy of blastomere,a laser was used to remove a significantly smaller portion of the zona pellucida.One blastomere was gently biopsied by an aspiration pipette through the hole.After biopsy,the embryo was immediately returned to the embryo scope until transfer.Embryo integrity and blastocyst formation were assessed on day 5.Results:Totally,282 embryos from 62 couples were evaluated.The chromosomes were normal in 199(70.57%)embryos and abnormal in 83(29.43%)embryos.There was no significant association between the quality of embryos and numerical chromosomal abnormality(P=0.67).Conclusions:Embryo quality is not significantly correlated with its genetic status.Hence,the quality of embryos determined by morphological parameters is not an appropriate method for choosing embryos without these abnormalities.展开更多
BACKGROUND Haploid embryonic stem cells(haESCs)have been established in many species.Differentiated haploid cell line types in mammals are lacking due to spontaneous diploidization during differentiation that compromi...BACKGROUND Haploid embryonic stem cells(haESCs)have been established in many species.Differentiated haploid cell line types in mammals are lacking due to spontaneous diploidization during differentiation that compromises lineage-specific screens.AIM To derive human haploid neural stem cells(haNSCs)to carry out lineage-specific screens.METHODS Human haNSCs were differentiated from human extended haESCs with the help of Y27632(ROCK signaling pathway inhibitor)and a series of cytokines to reduce diploidization.Neuronal differentiation of haNSCs was performed to examine their neural differentiation potency.Global gene expression analysis was conducted to compare haNSCs with diploid NSCs and haESCs.Fluorescence activated cell sorting was performed to assess the diploidization rate of extended haESCs and haNSCs.Genetic manipulation and screening were utilized to evaluate the significance of human haNSCs as genetic screening tools.RESULTS Human haESCs in extended pluripotent culture medium showed more compact and smaller colonies,a higher efficiency in neural differentiation,a higher cell survival ratio and higher stability in haploidy maintenance.These characteristics effectively facilitated the derivation of human haNSCs.These human haNSCs can be generated by differentiation and maintain haploidy and multipotency to neurons and glia in the long term in vitro.After PiggyBac transfection,there were multiple insertion sites in the human haNSCs’genome,and the insertion sites were evenly spread across all chromosomes.In addition,after the cells were treated with manganese,we were able to generate a list of manganese-induced toxicity genes,demonstrating their utility as genetic screening tools.CONCLUSION This is the first report of a generated human haploid somatic cell line with a complete genome,proliferative ability and neural differentiation potential that provides cell resources for recessive inheritance and drug targeted screening.展开更多
Objectives The objective of this study was to evaluate the role of genetic screening in a Chinese woman of childbearing age with hypertrophic cardiomyopathy.Methods and Results One 39 year-old woman with presyncope fo...Objectives The objective of this study was to evaluate the role of genetic screening in a Chinese woman of childbearing age with hypertrophic cardiomyopathy.Methods and Results One 39 year-old woman with presyncope for 10 years was admitted.Both of her father and her son died of sudden death and she strongly desire to get another baby. A series of clinical and laboratory studies were performed. Hypertrophic cardiomyopathy was diagnosed finally and implantable Cardioverter Defibrillator was implanted to prevent sudden cardiac death for her.Genomic DNA was isolated and the most common causal genes for hypertrophic cardiomyopathy were screened.A known pathogenetic heterozygous mutation c.700 g】a(p.Argl86Gln) in TNNI3 was found,which was not found in 100 normal control individuals matched for age,sex and geographical region.Because 50%probability of the pathogenetic mutation is inherited to the offsprings,she will get a healthy baby in vitro fertilization which the egg comes from a healthy female donor to prevent from the inherited HCM.Conclusions We found a pathogenetic TNNI3 mutation in a Chinese woman of childbearing age with hypertrophic cardiomyopathy.The genetic screening definite DNA-based diagnosis and help to design a healthy fertilization in vitro for female with hypertrophic cardiomyopathy.展开更多
The utilisation of polygenic scoring models may enhance the clinician’s ability to risk stratify an inflammatory bowel disease patient’s individual risk for venous thromboembolism(VTE)and guide the appropriate usage...The utilisation of polygenic scoring models may enhance the clinician’s ability to risk stratify an inflammatory bowel disease patient’s individual risk for venous thromboembolism(VTE)and guide the appropriate usage of VTE thromboprophylaxis,yet there is a need to validate such models in ethnically diverse populations.展开更多
The Saudi genome project started in 2013 with a great hope to improve medical care and disease prevention.Among the genes are those related to nutrition and fitness that can optimize an individual’s lifestyle.Our aim...The Saudi genome project started in 2013 with a great hope to improve medical care and disease prevention.Among the genes are those related to nutrition and fitness that can optimize an individual’s lifestyle.Our aim was to review the knowledge and acceptance of nutrition and fitness genetic testing to enhance the quality of life among the population of Saudi Arabia.For the study an electronic questionnaire consisting of 27 questions was prepared,and it was answered by 302 respondents.The respondents’demographics showed about 50% of respondents were aged 18-25 years and about 50% of respondents were aged 26-60 years.More than 50% of respondents were interested in having a genetic test to enhance their health,while 40% were interested in having a genetic test to enhance their fitness.Less than 50% of respondents had an understanding of the effects of coffee,macronutrition and micronutrition,elements,and enzyme activity.These results represented a contribution to the discussion on the relevance of genetic testing validity and acceptance among the population of Saudi Arabia.The results might help in producing specific guidelines on genetic testing and genomic analysis and help in the implementation of fitness and future health plans in cooperation with Saudi genome projects.Future study will focus on population structure and genetic frequency related to specific diets or fitness.展开更多
This paper offers a general review and comparative analysis of various types of Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) technologies. It evaluates the strengths and weaknesses of these techn...This paper offers a general review and comparative analysis of various types of Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) technologies. It evaluates the strengths and weaknesses of these technologies to identify the optimal approach for conducting genetic screens. Through an extensive literature review, this paper examines CRISPR nuclease, CRISPR activation (CRISPRa), and CRISPR interference (CRISPRi) screens. This study concludes that CRISPRa and CRISPRi are more advantageous due to their use of deactivated Cas9 proteins that only over-express or deactivate genes rather than irreversibly breaking genes like CRISPRn. Notably, CRISPRa is unique in its ability to over-express genes, while the other two technologies deactivate genes. Future studies may focus on inducing multiple mutations simultaneously—both gain-of-function and gene knockout—to carry out a more complete screen that can test the combinatorial effect of genes. Likewise, targeting both exons and introns can offer a more thorough understanding of a specific phenotype.展开更多
The breeding of herbicide-resistant wheat varieties has helped control weeds in wheat fields economically and effectively.Imidazolinone (IMI) herbicides are popular as they have low toxicity in mammals,are effective a...The breeding of herbicide-resistant wheat varieties has helped control weeds in wheat fields economically and effectively.Imidazolinone (IMI) herbicides are popular as they have low toxicity in mammals,are effective at small doses,and exhibit broad-spectrum herbicidal action in the field.Therefore,the isolation and genetic and molecular characterization of IMI-resistant wheat mutants will enhance weed management in wheat fields.In the present study,352 IMI-resistant plants were isolated by genetic screening from a mutant pool prepared by EMS-based random mutagenesis.Cloning of the mutated genes from the IMI-resistant plants indicated that ten taals alleles had been isolated,and mutation in one of three Ta ALS homolog genes conferred IMI resistance,and such a mutation is a dominant trait.Further analysis showed that taals-d exhibited the greatest IMI resistance,whereas taals-b exhibited the weakest resistance to IMI among three homologous taals mutants.In terms of IMI resistance,the taals triple mutant was stronger than the taals double mutants,and the taals double mutants were stronger than the single mutants,indicating a dose-dependent effect of the Ta ALS mutation on IMI resistance in wheat.Biochemical analysis indicated that the mutation in Ta ALS increased the tolerance of Ta ALS to inhibition by IMI.Our work details the genetic and molecular characterization of als wheat mutants,provides a foundation for understanding IMI resistance and breeding wheat varieties with herbicide resistance,and indicates that genetic screening using a mutagenized pool is an effective and important means of breeding crops with additional desired agricultural traits.展开更多
A Flp/FRT EMS mutagenesis screen was conducted in the eye of Drosophila melanogaster on chromosome 2R to identify negative regulators of cell growth and cell division. In addition to the EMS mutation in the mosaic eye...A Flp/FRT EMS mutagenesis screen was conducted in the eye of Drosophila melanogaster on chromosome 2R to identify negative regulators of cell growth and cell division. In addition to the EMS mutation in the mosaic eye, an ark loss of function allele (ark<sup>82</sup>) was utilized to block apoptosis in the homozygous mutant cells, setting up a screen for conditional regulators of cell growth and cell division. In the present study, we focus on the characterization and mapping of one mutant that resulted from this screen, Cruella (cru). A cross between flies with the flippase enzyme directed to the developing eye and flies with the mutations cru, ark<sup>82</sup>, revealed an unusual phenotype that resulted in the homozygous mutant tissue appearing black, in contrast to the expected red. To map the location of this mutation, complementation tests against the Bloomington deficiency kit were conducted. Cru failed to complement previously characterized alleles of capping protein α (cpa). Thus, cpa<sup>cru</sup> is a novel allele of cpa and displays phenotypes similar to previously characterized alleles such as cpa 107E, cpa 69E, and cpa<sup>scrd</sup> . The human homolog, Cap Z, is conserved in humans and serves a similar role in act in filament regulation.展开更多
Identification of the function of all genes in the mammalian genome is critical in understanding basic mechanisms of biology.However,the diploidy of mammalian somatic cells has greatly hindered efforts to elucidate th...Identification of the function of all genes in the mammalian genome is critical in understanding basic mechanisms of biology.However,the diploidy of mammalian somatic cells has greatly hindered efforts to elucidate the gene function in numerous biological processes by mutagenesis-based genetic approaches.Recently,mouse haploid embryonic stem(haES)cells have been successfully isolated from parthenogenetic and androgenetic embryos,providing an ideal tool for genetic analyses.In these studies,mouse haES cells have already shown that they could be used in cell-based forward or reverse genetic screenings and in generating gene-targeting via homologous recombination.In particular,haES cells from androgenetic embryos can be employed as novel,renewable form of fertilization agent for yielding live-born mice via injection into oocytes,thus showing the possibility that genetic analysis can be extended from cellular level to organism level.展开更多
Background:Reciprocal translocation(RCP)causes male infertility and female recurrent pregnancy loss.Male and female carriers have different responses to meiotic disturbances.Gender difference in outcomes of the RCP co...Background:Reciprocal translocation(RCP)causes male infertility and female recurrent pregnancy loss.Male and female carriers have different responses to meiotic disturbances.Gender difference in outcomes of the RCP couples undergoing preimplantation genetic testing(PGT)is unknown.Methods:We conducted a retrospective analysis of 238 RCP couples(124 female and 114 male carriers)divided by gender of carrier from March 2014 to March 2017.Blastocysts were divided by day 5 and day 6.Females were divided into older(≥38 years)and younger(<38 years).Logistic regression was fitted for the relationship between gender of carriers and euploidy.Euploidy rate of each group,pregnancy rate,and live birth rate between different genders were analyzed.Results:The sperm live rate,forward motile sperm rate,and normal morphology rate of serum in male RCP group were significantly decreased.The euploidy rate was 30.30%in female group and 34.90%in male group(P=0.131);34.50%in day 5 group and 27.50%in day 6 group(P=0.039);33.40%in age<38 years group and 22.40%in age≥38 years group(P=0.063).Day 5(odds ratio[OR]=1.388,95%confidence interval[CI]=1.012-1.904;P=0.042)and younger age(OR=1.753,95%CI=0.97-3.17;P=0.063)were associated with euploidy.The clinical pregnancy rate(37.90%vs.41.20%),ongoing pregnancy rate(33.10%vs.37.70%),and live birth rate(25.80%vs.31.60%)per initiated were not significantly different in two gender groups.Conclusions:Although gender influence is not significant,couples with male carrier showed better clinical outcomes.The embryo growing rate and female age are important predictions estimating euploidy in RCP couples.展开更多
The Zika virus(ZIKV)and dengue virus(DENV)flaviviruses exhibit similar replicative processes but have distinct clinical outcomes.A systematic understanding of virus–host protein–protein interaction networks can reve...The Zika virus(ZIKV)and dengue virus(DENV)flaviviruses exhibit similar replicative processes but have distinct clinical outcomes.A systematic understanding of virus–host protein–protein interaction networks can reveal cellular pathways critical to viral replication and disease pathogenesis.Here we employed three independent systems biology approaches toward this goal.First,protein array analysis of direct interactions between individual ZIKV/DENV viral proteins and20,240 human proteins revealed multiple conserved cellular pathways and protein complexes,including proteasome complexes.Second,an RNAi screen of 10,415 druggable genes identified the host proteins required for ZIKV infection and uncovered that proteasome proteins were crucial in this process.Third,high-throughput screening of 6016 bioactive compounds for ZIKV inhibition yielded 134 effective compounds,including six proteasome inhibitors that suppress both ZIKV and DENV replication.Integrative analyses of these orthogonal datasets pinpoint proteasomes as critical host machinery for ZIKV/DENV replication.Our study provides multi-omics datasets for further studies of flavivirus–host interactions,disease pathogenesis,and new drug targets.展开更多
文摘Objective:To detect common chromosomal aneuploidy variations in embryos from couples undergoing assisted reproductive technology and preimplantation genetic screening and their possible associations with embryo quality.Methods:In this study,359 embryos from 62 couples were screened for chromosomes 13,21,18,X,and Y by fluorescence insitu hybridization.For biopsy of blastomere,a laser was used to remove a significantly smaller portion of the zona pellucida.One blastomere was gently biopsied by an aspiration pipette through the hole.After biopsy,the embryo was immediately returned to the embryo scope until transfer.Embryo integrity and blastocyst formation were assessed on day 5.Results:Totally,282 embryos from 62 couples were evaluated.The chromosomes were normal in 199(70.57%)embryos and abnormal in 83(29.43%)embryos.There was no significant association between the quality of embryos and numerical chromosomal abnormality(P=0.67).Conclusions:Embryo quality is not significantly correlated with its genetic status.Hence,the quality of embryos determined by morphological parameters is not an appropriate method for choosing embryos without these abnormalities.
基金Supported by the National Natural Science Foundation of China,No.81901476.
文摘BACKGROUND Haploid embryonic stem cells(haESCs)have been established in many species.Differentiated haploid cell line types in mammals are lacking due to spontaneous diploidization during differentiation that compromises lineage-specific screens.AIM To derive human haploid neural stem cells(haNSCs)to carry out lineage-specific screens.METHODS Human haNSCs were differentiated from human extended haESCs with the help of Y27632(ROCK signaling pathway inhibitor)and a series of cytokines to reduce diploidization.Neuronal differentiation of haNSCs was performed to examine their neural differentiation potency.Global gene expression analysis was conducted to compare haNSCs with diploid NSCs and haESCs.Fluorescence activated cell sorting was performed to assess the diploidization rate of extended haESCs and haNSCs.Genetic manipulation and screening were utilized to evaluate the significance of human haNSCs as genetic screening tools.RESULTS Human haESCs in extended pluripotent culture medium showed more compact and smaller colonies,a higher efficiency in neural differentiation,a higher cell survival ratio and higher stability in haploidy maintenance.These characteristics effectively facilitated the derivation of human haNSCs.These human haNSCs can be generated by differentiation and maintain haploidy and multipotency to neurons and glia in the long term in vitro.After PiggyBac transfection,there were multiple insertion sites in the human haNSCs’genome,and the insertion sites were evenly spread across all chromosomes.In addition,after the cells were treated with manganese,we were able to generate a list of manganese-induced toxicity genes,demonstrating their utility as genetic screening tools.CONCLUSION This is the first report of a generated human haploid somatic cell line with a complete genome,proliferative ability and neural differentiation potential that provides cell resources for recessive inheritance and drug targeted screening.
文摘Objectives The objective of this study was to evaluate the role of genetic screening in a Chinese woman of childbearing age with hypertrophic cardiomyopathy.Methods and Results One 39 year-old woman with presyncope for 10 years was admitted.Both of her father and her son died of sudden death and she strongly desire to get another baby. A series of clinical and laboratory studies were performed. Hypertrophic cardiomyopathy was diagnosed finally and implantable Cardioverter Defibrillator was implanted to prevent sudden cardiac death for her.Genomic DNA was isolated and the most common causal genes for hypertrophic cardiomyopathy were screened.A known pathogenetic heterozygous mutation c.700 g】a(p.Argl86Gln) in TNNI3 was found,which was not found in 100 normal control individuals matched for age,sex and geographical region.Because 50%probability of the pathogenetic mutation is inherited to the offsprings,she will get a healthy baby in vitro fertilization which the egg comes from a healthy female donor to prevent from the inherited HCM.Conclusions We found a pathogenetic TNNI3 mutation in a Chinese woman of childbearing age with hypertrophic cardiomyopathy.The genetic screening definite DNA-based diagnosis and help to design a healthy fertilization in vitro for female with hypertrophic cardiomyopathy.
文摘The utilisation of polygenic scoring models may enhance the clinician’s ability to risk stratify an inflammatory bowel disease patient’s individual risk for venous thromboembolism(VTE)and guide the appropriate usage of VTE thromboprophylaxis,yet there is a need to validate such models in ethnically diverse populations.
文摘The Saudi genome project started in 2013 with a great hope to improve medical care and disease prevention.Among the genes are those related to nutrition and fitness that can optimize an individual’s lifestyle.Our aim was to review the knowledge and acceptance of nutrition and fitness genetic testing to enhance the quality of life among the population of Saudi Arabia.For the study an electronic questionnaire consisting of 27 questions was prepared,and it was answered by 302 respondents.The respondents’demographics showed about 50% of respondents were aged 18-25 years and about 50% of respondents were aged 26-60 years.More than 50% of respondents were interested in having a genetic test to enhance their health,while 40% were interested in having a genetic test to enhance their fitness.Less than 50% of respondents had an understanding of the effects of coffee,macronutrition and micronutrition,elements,and enzyme activity.These results represented a contribution to the discussion on the relevance of genetic testing validity and acceptance among the population of Saudi Arabia.The results might help in producing specific guidelines on genetic testing and genomic analysis and help in the implementation of fitness and future health plans in cooperation with Saudi genome projects.Future study will focus on population structure and genetic frequency related to specific diets or fitness.
文摘This paper offers a general review and comparative analysis of various types of Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) technologies. It evaluates the strengths and weaknesses of these technologies to identify the optimal approach for conducting genetic screens. Through an extensive literature review, this paper examines CRISPR nuclease, CRISPR activation (CRISPRa), and CRISPR interference (CRISPRi) screens. This study concludes that CRISPRa and CRISPRi are more advantageous due to their use of deactivated Cas9 proteins that only over-express or deactivate genes rather than irreversibly breaking genes like CRISPRn. Notably, CRISPRa is unique in its ability to over-express genes, while the other two technologies deactivate genes. Future studies may focus on inducing multiple mutations simultaneously—both gain-of-function and gene knockout—to carry out a more complete screen that can test the combinatorial effect of genes. Likewise, targeting both exons and introns can offer a more thorough understanding of a specific phenotype.
基金financially supported by the National Key Research and Development Program of China (2017YFD0101001)Beijing Municipal Government Science Foundation (IDHT20170513)Peking University Institute of Advanced Agricultural Sciences。
文摘The breeding of herbicide-resistant wheat varieties has helped control weeds in wheat fields economically and effectively.Imidazolinone (IMI) herbicides are popular as they have low toxicity in mammals,are effective at small doses,and exhibit broad-spectrum herbicidal action in the field.Therefore,the isolation and genetic and molecular characterization of IMI-resistant wheat mutants will enhance weed management in wheat fields.In the present study,352 IMI-resistant plants were isolated by genetic screening from a mutant pool prepared by EMS-based random mutagenesis.Cloning of the mutated genes from the IMI-resistant plants indicated that ten taals alleles had been isolated,and mutation in one of three Ta ALS homolog genes conferred IMI resistance,and such a mutation is a dominant trait.Further analysis showed that taals-d exhibited the greatest IMI resistance,whereas taals-b exhibited the weakest resistance to IMI among three homologous taals mutants.In terms of IMI resistance,the taals triple mutant was stronger than the taals double mutants,and the taals double mutants were stronger than the single mutants,indicating a dose-dependent effect of the Ta ALS mutation on IMI resistance in wheat.Biochemical analysis indicated that the mutation in Ta ALS increased the tolerance of Ta ALS to inhibition by IMI.Our work details the genetic and molecular characterization of als wheat mutants,provides a foundation for understanding IMI resistance and breeding wheat varieties with herbicide resistance,and indicates that genetic screening using a mutagenized pool is an effective and important means of breeding crops with additional desired agricultural traits.
文摘A Flp/FRT EMS mutagenesis screen was conducted in the eye of Drosophila melanogaster on chromosome 2R to identify negative regulators of cell growth and cell division. In addition to the EMS mutation in the mosaic eye, an ark loss of function allele (ark<sup>82</sup>) was utilized to block apoptosis in the homozygous mutant cells, setting up a screen for conditional regulators of cell growth and cell division. In the present study, we focus on the characterization and mapping of one mutant that resulted from this screen, Cruella (cru). A cross between flies with the flippase enzyme directed to the developing eye and flies with the mutations cru, ark<sup>82</sup>, revealed an unusual phenotype that resulted in the homozygous mutant tissue appearing black, in contrast to the expected red. To map the location of this mutation, complementation tests against the Bloomington deficiency kit were conducted. Cru failed to complement previously characterized alleles of capping protein α (cpa). Thus, cpa<sup>cru</sup> is a novel allele of cpa and displays phenotypes similar to previously characterized alleles such as cpa 107E, cpa 69E, and cpa<sup>scrd</sup> . The human homolog, Cap Z, is conserved in humans and serves a similar role in act in filament regulation.
基金supported by grants from the Ministry of Science and Technology of China(No.2009CB941101 to J.L.)the "Strategic Priority Research Program" of the Chinese Academy of Sciences(No.XDA01010403 to J.L.).
文摘Identification of the function of all genes in the mammalian genome is critical in understanding basic mechanisms of biology.However,the diploidy of mammalian somatic cells has greatly hindered efforts to elucidate the gene function in numerous biological processes by mutagenesis-based genetic approaches.Recently,mouse haploid embryonic stem(haES)cells have been successfully isolated from parthenogenetic and androgenetic embryos,providing an ideal tool for genetic analyses.In these studies,mouse haES cells have already shown that they could be used in cell-based forward or reverse genetic screenings and in generating gene-targeting via homologous recombination.In particular,haES cells from androgenetic embryos can be employed as novel,renewable form of fertilization agent for yielding live-born mice via injection into oocytes,thus showing the possibility that genetic analysis can be extended from cellular level to organism level.
基金sponsored by the Shanghai Municipal Commission of Health and Family Planning Project(No.201640365).
文摘Background:Reciprocal translocation(RCP)causes male infertility and female recurrent pregnancy loss.Male and female carriers have different responses to meiotic disturbances.Gender difference in outcomes of the RCP couples undergoing preimplantation genetic testing(PGT)is unknown.Methods:We conducted a retrospective analysis of 238 RCP couples(124 female and 114 male carriers)divided by gender of carrier from March 2014 to March 2017.Blastocysts were divided by day 5 and day 6.Females were divided into older(≥38 years)and younger(<38 years).Logistic regression was fitted for the relationship between gender of carriers and euploidy.Euploidy rate of each group,pregnancy rate,and live birth rate between different genders were analyzed.Results:The sperm live rate,forward motile sperm rate,and normal morphology rate of serum in male RCP group were significantly decreased.The euploidy rate was 30.30%in female group and 34.90%in male group(P=0.131);34.50%in day 5 group and 27.50%in day 6 group(P=0.039);33.40%in age<38 years group and 22.40%in age≥38 years group(P=0.063).Day 5(odds ratio[OR]=1.388,95%confidence interval[CI]=1.012-1.904;P=0.042)and younger age(OR=1.753,95%CI=0.97-3.17;P=0.063)were associated with euploidy.The clinical pregnancy rate(37.90%vs.41.20%),ongoing pregnancy rate(33.10%vs.37.70%),and live birth rate(25.80%vs.31.60%)per initiated were not significantly different in two gender groups.Conclusions:Although gender influence is not significant,couples with male carrier showed better clinical outcomes.The embryo growing rate and female age are important predictions estimating euploidy in RCP couples.
基金supported by the National Institutes of Health(NIH),USA(Grant Nos.U19AI131130,R01GM111514,R21AI131706,R35NS097370,and R37NS047344)the Intramural Research Program of the NCATS/NIH,USA
文摘The Zika virus(ZIKV)and dengue virus(DENV)flaviviruses exhibit similar replicative processes but have distinct clinical outcomes.A systematic understanding of virus–host protein–protein interaction networks can reveal cellular pathways critical to viral replication and disease pathogenesis.Here we employed three independent systems biology approaches toward this goal.First,protein array analysis of direct interactions between individual ZIKV/DENV viral proteins and20,240 human proteins revealed multiple conserved cellular pathways and protein complexes,including proteasome complexes.Second,an RNAi screen of 10,415 druggable genes identified the host proteins required for ZIKV infection and uncovered that proteasome proteins were crucial in this process.Third,high-throughput screening of 6016 bioactive compounds for ZIKV inhibition yielded 134 effective compounds,including six proteasome inhibitors that suppress both ZIKV and DENV replication.Integrative analyses of these orthogonal datasets pinpoint proteasomes as critical host machinery for ZIKV/DENV replication.Our study provides multi-omics datasets for further studies of flavivirus–host interactions,disease pathogenesis,and new drug targets.