Flowering time is a critical agronomic trait with a profound effect on the productivity and adaptabillity of rapeseed(Brassica napus L.).Strategically advancing flowering time can reduce the risk of yield losses due t...Flowering time is a critical agronomic trait with a profound effect on the productivity and adaptabillity of rapeseed(Brassica napus L.).Strategically advancing flowering time can reduce the risk of yield losses due to extreme climatic conditions and facilitate the cultivation of subsequent crops on the same land,thereby enhancing overall agricultural efficiency.In this review,we synthesize current information on flowering time regulation in rapeseed through an integrated analysis of its genetic,hormonal,and environmental dimensions,emphasizing their crosstalk and implications for yield.We consolidate multi-omics evidence from population genetics,functional genomics,and systems biology to create a haplotype-based framework that overcomes the trade-off between flowering time and yield,providing support for the precision breeding of early-maturing cultivars.The insights presented here could inform future research on flowering time regulation and guide strategies for increasing rapeseed productivity.展开更多
Chili fermentation is one of the most important processes in the production of Pixian Douban(PXDB),which determines the flavor and product quality of PXDB.However,the maturity of fermented chili mainly depends on empi...Chili fermentation is one of the most important processes in the production of Pixian Douban(PXDB),which determines the flavor and product quality of PXDB.However,the maturity of fermented chili mainly depends on empirical judgment,which can not satisfy the need for standardized production of PXDB.Therefore,this study aimed to investigate volatile and non-volatile substances during the maturation process and to find markers related to the maturity of fermented chili.Two-dimensional gas chromatography-mass spectrometry(GC×GC-MS)combined with multivariate statistical analysis and relative odor activity values(ROAV)analysis revealed that 2-methoxy-3-isobutyl pyrazine,linalool,3-(methylthio)propionaldehyde,myrcene,and decanal(ROAV≥1,VIP>1,P<0.05)were regarded as potentially active aromatic markers for differentiating fermentation time.Additionally,ultra-high performance liquid chromatography coupled with quadrupole time-of-flight mass spectrometry(UPLCQTOF-MS)combined with multivariate statistical analysis revealed that 25 compounds could serve as differentiated non-volatile compounds.The correlation of maturity-related physicochemical indicators with volatile and nonvolatile compounds revealed that four volatile compounds(2-methoxy-3-isobutylpyrazine,linalool,myrcene,and decanal)along with seven non-volatile compounds could serve as markers for evaluating the maturity of fermented chili.This study is expected to establish a standard for the determination of the maturity the fermented chili and lay the foundation for intelligent production of PXDB.展开更多
Objectives:B-cell maturation antigen(BCMA)-targeted antibody–drug conjugates(ADCs)have emerged as promising therapies for relapsed/refractory multiple myeloma(RRMM),but the overall efficacy and safety profile is uncl...Objectives:B-cell maturation antigen(BCMA)-targeted antibody–drug conjugates(ADCs)have emerged as promising therapies for relapsed/refractory multiple myeloma(RRMM),but the overall efficacy and safety profile is unclear.This study aimed to synthesize the available evidence on the safety and efficacy of BCMA-ADCs in development for RRMM.Methods:A systematic search was conducted using six bibliographic databases and ClinicalTrials.gov up to November 2024.Studies were eligible if they were human clinical trials or animal studies evaluating BCMA-ADCs and reported efficacy and safety outcomes.Data extraction and quality assessments were conducted using validated tools,including ROBINS-I and SYRCLE’s risk of bias tool.Results:A total of 21 studies were included:16 clinical trials and five animal studies.Key findings included that belantamab mafodotin demonstrated variable but generally durable response rates(32%–85%)and a broad range of progression-free survival(PFS)(2.8–36.6 months),albeit with ocular toxicities in 51%–96%.Among newer candidates,MEDI2228 showed median PFS 5.1–6.6 months with 14%discontinuation for ocular symptoms,while AMG 224 had an overall response rate(ORR)of 23%(9/40)with anemia 21%,thrombocytopenia 24%,and ocular adverse events(AEs)21%.Animal studies supported the tumor-eradicating potential of all BCMA-ADC candidates,although safety signals such as hepatic and renal toxicity were noted with HDP-101.The risk of bias assessment revealed generally moderate to serious concerns in human trials,while the overall quality of the animal studies was acceptable.Conclusions:BCMA-targeted ADC candidates show encouraging efficacy in RRMM,particularly belantamab mafodotin.However,frequent AEs,especially ocular and hematologic toxicities,underscore the need for optimization in ADC design.Further research should prioritize enhancing safety while maintaining clinical benefit.展开更多
Background: Biological maturation refers to the progressive process through which individuals transition toward an adult state during growth and development. To address the challenges posed by differences in biologica...Background: Biological maturation refers to the progressive process through which individuals transition toward an adult state during growth and development. To address the challenges posed by differences in biological maturity and the limitations of existing testing methods, particularly in adolescent sports contexts, there is a pressing need for a non-invasive method that is convenient, accurate, and broadly applicable to monitor the biological maturity of adolescent athletes comprehensively. In response to this need, a maturity assessment method based on the smartphone application Maturo has been developed. This study evaluates the accuracy and validity of the Maturo software, an automated tool for estimating biological age and related maturation metrics.Methods: A sample of 103 actively training teenage athletes aged 9-17 years. The sample included 76 males(age = 11.74 ± 1.55 years, mean ±SD) and 27 females(age = 13.95 ± 1.40 years), all without medical conditions that might impact growth or development.Results: Compared to traditional expert evaluations, the intraclass correlation coefficients(ICCs) and Pearson correlation coefficients demonstrated reliable positive correlations and significant agreement between the Maturo software and expert methods across multiple metrics, such as biological age(ICC = 0.965, R = 0.97), corrected biological age(ICC = 0.973, R = 0.99), predicted adult height(ICC = 0.991, R = 0.99), and percentage of adult height achieved(ICC = 0.955, R = 0.97). The Bland-Altman plots provided additional evidence of the validity of the Maturo software estimations, showing low systematic error in most measures. The linear regression analysis produced excellent adjusted R2values: 0.95for biological age and 0.99 for anticipated adult height. The Maturo approach demonstrated a high level of dependability in classifying teenagers into groups based on their maturity status and timing. The κ coefficients of 0.93 for maturity status and 0.82 for maturity timing indicate a nearly perfect agreement with the expert technique.Conclusion: While the Maturo software's non-invasive nature, cost-effectiveness, and ease of use could make it a potential tool for regular monitoring of growth and maturation in young athletes, its promising results in assessing maturation should be interpreted with caution due to limitations such as sample size and demographic constraints. Further longitude research with larger and more diverse populations is needed to validate these preliminary findings and strengthen the evidence for its broader applicability.展开更多
Sexual maturation heterosis has been widely exploited in animal crossbreeding.However,the underlying mechanism has been rarely explored in chicken.In the present study,we performed the reciprocal crossing between Whit...Sexual maturation heterosis has been widely exploited in animal crossbreeding.However,the underlying mechanism has been rarely explored in chicken.In the present study,we performed the reciprocal crossing between White Leghorn and Beijing You chicken to evaluate the phenotypes related to sexual maturation,and profiled the ovary circRNAs of purebreds(WW,YY)and crossbreds(WY,YW)to elucidate the molecular mechanism underlying heterosis for sexual maturation.Pubic space and oviduct length exhibited positive heterosis,and age at first egg(AFE)exhibited negative heterosis in the crossbreds.We identified 3,025 known circRNAs and 624 putative circRNAs,which were mainly derived from the exons.Among these circRNAs,141 and 178circRNAs were specially expressed in WY and YW,respectively.There were 52.38 and 64.63%of total circRNAs in WY and YW exhibited non-additive expression pattern,respectively.GO enrichment and KEGG pathway analysis showed that the host genes of non-additive circRNAs were mainly involved in TGF-beta signaling pathway,oocyte development,ATPase activator activity,oocyte meiosis,progesterone-mediated oocyte maturation and GnRH signaling pathway.Weighted gene co-expression network analysis identified that 4 modules were significantly(P<0.05)correlated with oviduct length and pubic space.The host genes of non-additive circRNAs harbored in the 4 modules were associated with MAPK signaling pathway and Wnt signaling pathway.Furthermore,competing endogenous RNAs(ceRNA)network analysis characterized non-additive circRNAs gal-FGFR2_0005 and galMAPKAP1_0004 could interact with gga-miR-1612 and gga-miR-12235-5p to regulate CNOT6,COL8A1,and FHL2,which were essential for ovary development,indicating that the non-additive circRNAs involved in the formation of sexual maturation heterosis through regulating genes related to the reproductive and developmental process.The findings would provide a deeper understanding of the molecular mechanism underlying sexual maturation heterosis from a novel perspective.展开更多
Tumor-associated neutrophils(TANs)exhibit highly func-tional heterogeneity across cancers.Although TANs pro-mote inflammatory responses and contribute to tumor clearance,they frequently undergo context-dependent repro...Tumor-associated neutrophils(TANs)exhibit highly func-tional heterogeneity across cancers.Although TANs pro-mote inflammatory responses and contribute to tumor clearance,they frequently undergo context-dependent reprogramming within the tumor microenvironment(TME)into highly immunosuppressive phenotypes that facilitate cancer dissemination and immunotherapy resist-ance1,2.We contend that an underappreciated,upstream determinant of this divergence is the maturation stage of TANs3,4.The developmental stage of TANs determines the migration patterns and constrains the functional capacity,and the developmental stage also constrains the extent of TME-driven re-education,together shaping pro-or anti-tu-mor outcomes3-5.In this Perspective,we place maturation at the core of TAN biology and discuss current definitions for TAN developmental stages and the measurable mark-ers that researchers and clinicians can use(Figure 1).In addition,spatial and temporal transitions in TAN matu-ration stages and the factors that govern these transitions are elucidated.We explain how maturation status shapes TAN function and articulate the key differences between mouse and human TAN maturation systems to highlight the value of human immune system(HIS)mouse models.Based on this framework,functional biomarkers and signa-tures of TAN maturation are introduced and we show how to embed them into patient stratification and longitudinal monitoring.Finally,we outline immunotherapy strategies targeting TAN maturation,selecting interventions guided by maturation markers to reinforce treatment benefits for cancer patients.展开更多
Rising global energy needs have intensified the search for unconventional hydrocarbon sources,especially in under-selected areas like the Northeast Java Basin.This region harbors promising unconventional hydrocarbon r...Rising global energy needs have intensified the search for unconventional hydrocarbon sources,especially in under-selected areas like the Northeast Java Basin.This region harbors promising unconventional hydrocarbon reserves,where source rocks function as dual-phase systems for both hydrocarbon generation and storage.This research investigates how metal-based catalysts,particularly iron(Fe),can expedite hydrocarbon maturation in such reservoirs.Combining well logging,geochemical assessments,seismic data,and advanced lab techniques,including X-ray Diffraction(XRD),we pinpoint optimal zones for exploration.Results indicate that the Tuban,Kujung,and Ngimbang formations contain economically viable unconventional deposits,exhibiting tight reservoir properties(permeability:0.01–1 md)and moderate to good Total Organic Carbon(TOC)levels(1%–2%).Spatial analysis reveals elevated density concentrations in the northern sector,indicative of high-viscosity hydrocarbons typical of unconventional plays.Crucially,Fe additives were found to markedly enhance organic matter conversion,shortening maturation periods and boosting hydrocarbon yield.XRD data confirms that Fe alters crystalline configurations,increasing reactivity and speeding up thermal breakdown(shifting immature organic compounds toward maturity at an accelerated rate).These findings contribute to the evolving discourse on unconventional resource exploitation by proposing an innovative recovery enhancement strategy.The study also sets a precedent for investigating metal-assisted hydrocarbon conversion in geologically comparable basins globally.展开更多
Seed maturation is a critical development transition and it largely affects the final yield and quality of crops.Abscisic acid(ABA)-activated sucrose-non-fermentation kinase subfamily 2(SnRK2s)constitute a well-known ...Seed maturation is a critical development transition and it largely affects the final yield and quality of crops.Abscisic acid(ABA)-activated sucrose-non-fermentation kinase subfamily 2(SnRK2s)constitute a well-known regulatory network that modulate seed maturation in Arabidopsis;however,the underlying genetic and regulatory mechanisms in cereal crops remain largely unknown.Here,we found that ABA levels exhibited two distinct peaks during kernel development in maize,corresponding to the lag and maturation phase,respectively.Integrated transcriptome and proteome profiling of kernels treated with exogenous ABA at the pre-maturation stage suggested that the second peak of ABA acts as a trigger for kernel maturation program.Knockout of ZmSnRK2s demonstrated that subclassⅢZmSnRK2s are required for kernel maturation in maize,and the loss-of-function of subclassⅢZmSnRK2s showed a disruption in kernel dehydration and dormancy.We identified a conserved ABA–SnRK2–b ZIP signaling pathway mediating this process in maize.Additionally,ZmSnRK2.10 overexpression accelerates kernel dehydration during maturity,achieving reduced kernel moisture content(KMC)at physiological maturity(PM).Overall,our findings establish ABA-activated SnRK2s as central regulators of kernel maturation in maize and provide valuable genetic resources for breeding maize varieties with low moisture content at harvest.展开更多
Pharyngeal cartilage morphogenesis is crucial for the formation of craniofacial structures.Cranial neural crest cells are specified at the neural plate border,migrate to pharyngeal arches,and differentiate into pharyn...Pharyngeal cartilage morphogenesis is crucial for the formation of craniofacial structures.Cranial neural crest cells are specified at the neural plate border,migrate to pharyngeal arches,and differentiate into pharyngeal chondrocytes,which subsequently flatten,elongate,and stack like coins during maturation.Although the developmental processes prior to chondrocyte maturation have been extensively studied,their subsequent changes in morphology and organization remain largely elusive.Here,we show that wnt2bb is expressed in the pharyngeal ectoderm adjacent to the chondrogenic precursor cells in zebrafish.Inactivation of Wnt2bb leads to a reduction in nuclearβ-catenin,which impairs chondrogenic precursor proliferation and disrupts chondrocyte morphogenesis and organization,eventually causing a severe shrinkage of pharyngeal cartilages.Moreover,the decrease ofβ-catenin in wnt2bb^(-/-)mutants is accompanied by the reduction of Yap expression.Reactivation of Yap can restore the proliferation of chondrocyte progenitors as well as the proper size,shape,and stacking of pharyngeal chondrocytes.Our findings suggest that Wnt/β-catenin signaling promotes Yap expression to regulate pharyngeal cartilage formation in zebrafish.展开更多
Peanut(Arachis hypogaea L.)exhibits an unusually asynchronous reproductive cycle,in which flowering,peg penetration,pod development,and seed filling occur over an extended period.This results in the simultaneous prese...Peanut(Arachis hypogaea L.)exhibits an unusually asynchronous reproductive cycle,in which flowering,peg penetration,pod development,and seed filling occur over an extended period.This results in the simultaneous presence of immature and preharvest sprouted(PHS)pods on the same plant a dual challenge that undermines yield,compromises seed quality,and complicates postharvest management.Immature pods reduce harvest efficiency,while PHS diminishes flavor,uniformity,and storage stability.Both genetic and environmental determinants ranging from temporal variation in peg initiation and hormonal gradients to microenvironmental heterogeneity and differential seed dormancy shape this variability.However,despite advances in pod biology,systematic field-based quantification of intra-plant temporal variation,genotype×environment interactions,and localized microclimatic influences remains limited.This review aims to synthesize current understanding of within-plant variability in pod maturation and PHS in peanut,to elucidate critical knowledge gaps at physiological and field scales,and to evaluate emerging strategies for mitigation.Particular emphasis is given for underexplored interface between physiological mechanisms and field-scale dynamics.Emerging innovations including hyperspectral imaging,soil and canopy moisture sensing,and molecular markers offer promising avenues for precise monitoring of pod maturity and early detection of PHS risk.Integrating these tools with targeted breeding strategies for synchronous flowering,enhanced dormancy,and late-season stress resilience,alongside adaptive agronomic practices such as optimized sowing,irrigation scheduling,nutrient management,and harvest timing,could substantially reduce yield and quality losses.Future progress will depend on bridging molecular insights with predictive models that capture mixed maturity and sprouting risk under variable environments.展开更多
In vitro maturation(IvM)of human oocytes offers cost efficiency and minimal invasiveness,serving as a valuable supplementary tool in assisted reproduction for fertility preservation,ovarian hyperstimulation syndrome p...In vitro maturation(IvM)of human oocytes offers cost efficiency and minimal invasiveness,serving as a valuable supplementary tool in assisted reproduction for fertility preservation,ovarian hyperstimulation syndrome prevention,and other reproductive strategies.Despite its availability for three decades,the clinical use of IVM remains limited due to efficacy and safety concerns.This study examines the DNA methylation profile of IVM oocytes collected during laparoscopic/hysteroscopic surgeries compared to in vivo matured oocytes via reduced representation bisulfite sequencing.Results indicate IVM oocytes exhibit a higher global methylation level.Differentially methylated regions(DMRs)analysis reveals that the in vitro group displays more hypermethylated and fewer hypomethylated DMRs compared to the in vivo group.Additionally,the in vitro group exhibits a higher level of non-CpG methylation than the in vivo group.However,no significant correlation between methylation levels and transcriptional activity in these oocytes is found,especially for those specific imprinted genes or genes related to embryonic development.These findings shed light on the epigenetic landscape of IvM oocytes,contributing to the ongoing assessment of their clinical feasibility and safety in assisted reproduction.展开更多
In-situ heating conversion is the most practical recovery method for lacustrine low-to-medium maturity shale oil.However,the energy output-input ratio must exceed the economic threshold to achieve commercial developme...In-situ heating conversion is the most practical recovery method for lacustrine low-to-medium maturity shale oil.However,the energy output-input ratio must exceed the economic threshold to achieve commercial development.This paper systematically investigates the mechanism of super-rich accumulation of organic matter in continental shale,sweet spot evaluation,optimal heating windows,and appropriate well types and patterns from the perspectives of enhancing energy output and reducing energy input.(1)The super-rich accumulation of organic matter in lacustrine shale is primarily controlled by the intensity,frequency,and preservation of external material inputs,and is related to moderate volcanic and hydrothermal activities,marine transgressions,with total organic carbon content greater than or equal to 6%.(2)The quality of organic-rich intervals is related to the type of source material and hydrocarbon generation potential.The in-situ conversion-derived hydrocarbon quality index(HQI)is established,and the zones exhibiting HQI>450 are defined as sweet spots.(3)Considering the characteristics of the organic matter conversion material field and seepage field,the temperature interval 300-370℃is recommended as the optimal heating window for the Chang 7_(3)sub-member of the Triassic Yanchang Formation in the Ordos Basin.Based on the advantages of thermal conductivity,permeability,and hydrocarbon expulsion efficiency along the bedding direction during in-situ heating,the“horizontal well heating+vertical well development”scheme is proposed,which has demonstrated significant enhancement in both recovery factor and energy output-input ratio,making it the optimal in-situ conversion process.The research findings provide a theoretical and technical foundation for the economical and efficient development of low-to-medium maturity shale oil.展开更多
[Objective] The study aimed to provide references for the time of oocyte maturation in vitro and enucleation in the course of sheep nuclear transfer(NT).[Method] Compared the effects of different maturation time of oo...[Objective] The study aimed to provide references for the time of oocyte maturation in vitro and enucleation in the course of sheep nuclear transfer(NT).[Method] Compared the effects of different maturation time of oocytes on enucleation efficiency and reconstructed embryo development by means of blind enucleation and fluorescence microscopy.[Result] Treatment of IVM(in vitro maturation)19-21 h was significantly higher than IVM 16-18 h treatment in oocyte maturation rate(P<0.05)and was significantly higher than IVM 22-24 h treatment in enucleation rate(P<0.05).Three treatments had no significant difference in cleavage rate and blastocyst rate(P>0.05),but IVM 19-21 h treatment was significantly higher than the other 2 treatments in average cell number of blastocysts(P<0.05).[Conclusion] The appropriate in vitro maturation time of oocytes was 19-21 h for sheep nuclear transfer,which could significantly improve the quality of blastocysts according to the cell number per blastocyst(P<0.05).展开更多
[Objective] This study aimed to improve the in vitro maturation quality of denuded porcine oocytes and provide scientific basis for establishing a stable and efficient denuded oocyte culture system. [Method] The first...[Objective] This study aimed to improve the in vitro maturation quality of denuded porcine oocytes and provide scientific basis for establishing a stable and efficient denuded oocyte culture system. [Method] The first polar body extrusion rate, oocyte glutathione (GSH) content, positive rate of brilliant cresyl blue (BCB) staining and development potential of activated oocytes or fertilized oocytes were employed as main indicators to investigate the effects of follicular mural granulosa cell (MGC) coculture on cytoplasmic maturation of cumulus cell-removal oocytes (Denuded Oocyte, DO). [Result] According to in vitro maturation results, compared with DO group, the first polar body extrusion rate of porcine oocytes in DO+MGC group was not significantly different, but the nuclear maturation process was improved and was more similar to that in COC (cumulus-oocyte complex) group. Detection of GSH content in mature oocytes showed that there was no significant difference between DO+ MGC group (optical density of 1 053.67) and COC group (optical density of 1 426.00) or between DO+MGC group and COC+GC group (optical density of 1 541.00), however, GSH content in mature oocytes of DO group (optical density of 724.67) was significantly lower than that of COC group and COC+GC group (P0.05). Detection of glucose-6-phosphate dehydrogenase (G6PDH) activity showed that there was no significant difference in BCB positive oocyte rate between DO +MGC group (88.26% ) and COC group (92.75%) or between DO+MGC group and DO group (82.86% ), however, BCB positive oocyte rate of DO group was significantly lower than that of COC group (P0.05). Furthermore, the cleavage rate and blastocyst rate of activated mature oocytes derived from DO +MGC group (94.98% and 43.67% , respectively) were significantly higher than those from DO group (52.54% and 8.97%, respectively) (P0.05), and were not significantly different compared with those from COC group (97.11% and 38.30%, respectively). In addition, the cleavage rate of fertilized oocytes derived from DO+MGC group (72.65%) showed no significant difference compared with that from DO group (63.59%), but the blastocyst rate of DO+MGC group was significantly higher than that of DO group (9.88%) (P0.05). [Conclusion] MGC coculture can significantly improve the in vitro cytoplasmic maturation quality of denuded porcine oocytes, thereby enhancing the subsequent developmental potential.展开更多
[Objective] This study aimed to investigate the appropriate concentrations of follicle-stimulating hormone(FSH), luteotropic hormone(LH) and estrodiol(E2) during in vitro maturation of Tan sheep oocytes. [Method...[Objective] This study aimed to investigate the appropriate concentrations of follicle-stimulating hormone(FSH), luteotropic hormone(LH) and estrodiol(E2) during in vitro maturation of Tan sheep oocytes. [Method] Tan sheep oocytes were divided into five groups for in vitro maturation culture: control group, FSH group(10,50, 100, 200 and 300 μg/ml FSH, respectively), LH group(5, 10, 20, 50 and 100μg/ml LH, respectively), E2group(5, 10, 25, 50 and 100 μg/ml E2, respectively), and FSH + LH group(100 μg/ml FSH + 20 μg/ml LH). The releasing rate of first polar bodies was analyzed. [Result] The maturation rate of Tan sheep oocytes in 100 μg/ml FSH + 20 μg/ml LH group reached the highest(64.64%), which was significantly higher than that in other four groups(P〈0.05); among different FSH concentrations,100 μg/ml FSH was superior to other four concentrations and the control group, exhibiting significant differences(P〈0.05); among different LH concentrations, 20 μg/ml LH was superior to other four concentrations and the control group, exhibiting significant differences(P〈0.05); among different E2 concentrations, 50 μg/ml E2 was superior to other four concentrations and the control group, exhibiting significant differences(P〈0.05). [Conclusion] Under the experimental conditions, 100 μg/ml FSH +20 μg/ml LH was the most appropriate hormone combination for in vitro maturation of Tan sheep oocytes.展开更多
The osmotic challenges facing maturing spermatozoa and their responses to them are discussed in relation to the concept of sperm maturation, defined as the increased ability of more distally recovered epididymal sperm...The osmotic challenges facing maturing spermatozoa and their responses to them are discussed in relation to the concept of sperm maturation, defined as the increased ability of more distally recovered epididymal spermatozoa to fertilize eggs when inseminated into the female tract. One explanation could be that the more distal cells are better able to regulate their volume, and reach the oviducts, as a consequence of uptake of epididymal osmolytes. Increased motility, zona binding and oolemma fusion capacities are also acquired within the epididymis and are necessary for those cells that finally arrive at the site of fertilization. (Asian J Androl 2007 July; 9: 533-539)展开更多
Cholesterol is a key molecule in the mammalian physiology of especial particular importance for the reproductive system as it is the common precursor for steroid hormone synthesis. Cholesterol is also a recognized mod...Cholesterol is a key molecule in the mammalian physiology of especial particular importance for the reproductive system as it is the common precursor for steroid hormone synthesis. Cholesterol is also a recognized modulator of sperm functions, not only at the level of gametogenesis. Cholesterol homeostasis regulation is crucial for posttesticular sperm maturation, and imbalanced cholesterol levels may particularly affect these posttesticular events. Metabolic lipid disorders (dyslipidemia) affect male fertility but are most of the time studied from the angle of endocrine/testicular consequences. This review will focus on the deleterious effects of a particular dyslipidemia, Le., hypercholesterolemia, on posttesticular maturation of mammalian spermatozoa.展开更多
To investigate the longitudinal sagittal growth changes of maxilla and mandible according to the quantitative cervical vertebral maturation (QCVM) for adolescents with normal occlusion, mixed longitudinal data were ...To investigate the longitudinal sagittal growth changes of maxilla and mandible according to the quantitative cervical vertebral maturation (QCVM) for adolescents with normal occlusion, mixed longitudinal data were used. The samples included 87 adolescents aged from 8 to 18 y old with normal occlusion (32 males, 55 females) selected from 901 candidates. Sequential lateral cephalograms and hand-wrist films were taken once a year, lasting for 6 y. The longitudinal sagittal growth changes of maxilla and mandible according to QCVM were measured. There were some significant differences between maxilla and mandible according to QCVM. The sagittal growth change of maxilla showed a trend towards high velocity→decelerating velocity→completing velocity from QCVM stage Ⅰ to stage Ⅳ. The sagittal growth change of mandible showed a trend towards accelerating velocity→high velocity→decelerating velocity→completing velocity from QCVM stage Ⅰ to stage Ⅳ. With sagittal relationship, growth magnitude was almost the same between maxilla and mandible at QCVM stage Ⅰ . At stage Ⅱ the growth of mandible exceeded that of maxilla and growth in mandible continued at stages Ⅲ and IV, while the maxilla ceased to grow. Growth magnitude was greater and the growth duration was longer with male mandible. It is concluded that the longitudinal sagittal growth changes of maxilla and mandible on the basis of QCVM is of value in the orthodontic practice.展开更多
p28, a 28kD protein from toad (Bufo bufo gargarizans) oocytes, was identified by using p13sucl-agarose affinity chromatography. Sequence homology analysis of the full-length cDNA of p28 (Gene Bank accession number: AF...p28, a 28kD protein from toad (Bufo bufo gargarizans) oocytes, was identified by using p13sucl-agarose affinity chromatography. Sequence homology analysis of the full-length cDNA of p28 (Gene Bank accession number: AF 314091) indicated that it encodes a protein containing 224 amino-acids with about 55% identities and more than 70% positives to human, rat or mouse UCH-L1, and contains homological functional domains of UCH family. Anti-p28 monoclonal antibody, on injecting into the oocytes, could inhibit the progesterone-induced resumption of meiotic division in a dose-dependent manner. The recombinant protein p28 showed similar SDS/PAGE behaviors to the native one, and promoted ubiquitin ethyl ester hydrolysis, a classical catalytic reaction for ubiquitin carboxyl terminal hydrolases (UCHs). The results in this paper reveal that a novel protein, p28, exists in the toad oocytes, is a UCH L1 homolog, was engaged in the process of progesterone-induced oocyte maturation possibly through an involvement in protein turnover and degradation.展开更多
With embryogenic callus of Larix olgensisis, we investigated the effects of inositol, glutamine, casein hydrolysate, carbohydrate, abscisic acid and silver nitrate concentration on the maturation of the somatic embryo...With embryogenic callus of Larix olgensisis, we investigated the effects of inositol, glutamine, casein hydrolysate, carbohydrate, abscisic acid and silver nitrate concentration on the maturation of the somatic embryo.Three dominant factors emerged, and we developed a response surface model based on the Box-Behnken design.We defined the optimal conditions for the maturation of somatic embryos. The contents of abscisic acid, silver nitrate, sucrose and casein hydrolysis significantly affected the amount of maturing embryos, but inositol, maltose and glutamine had no effect. By establishing a response surface model with multiple factors, we predicted that the optimal number of L. olgensis somatic embryos was 204 ± 4 gon basal medium, containing 18.28 mg Labscisic acid,5.46 mg Lsilver nitrate and 82.67 g Lsucrose. In the verification experiments, the addition of 20 mg Labscisic acid, 5 mg Lsilver nitrate and 80 g Lsucrose to BM yielded an average of 202.06 somatic embryos per gram. These results should guide large-scale breeding of L. olgensis.展开更多
基金supported by the National Key Research and Development Program of China(2022YFD1200400)the National Natural Science Foundation of China(32272111)+4 种基金Special fund for youth team of the Southwest Universities(SWU-XJPY202306)Chongqing Natural Science Foundation(CSTB2024NSCQLZX0012)Modern Agro-industry Technology Research System(CARS-12)Chongqing Modern Agricultural Industry Technology System(COMAITS202504)Biological Breeding-National Science and Technology Major Project(2022ZD04008).We sincerely appreciate the Plant Editors team for English language editing of the manuscript,which significantly improved its clarity and overall quality.
文摘Flowering time is a critical agronomic trait with a profound effect on the productivity and adaptabillity of rapeseed(Brassica napus L.).Strategically advancing flowering time can reduce the risk of yield losses due to extreme climatic conditions and facilitate the cultivation of subsequent crops on the same land,thereby enhancing overall agricultural efficiency.In this review,we synthesize current information on flowering time regulation in rapeseed through an integrated analysis of its genetic,hormonal,and environmental dimensions,emphasizing their crosstalk and implications for yield.We consolidate multi-omics evidence from population genetics,functional genomics,and systems biology to create a haplotype-based framework that overcomes the trade-off between flowering time and yield,providing support for the precision breeding of early-maturing cultivars.The insights presented here could inform future research on flowering time regulation and guide strategies for increasing rapeseed productivity.
基金supported by the Sichuan Provincial Department of Science and Technology(2024ZHCG0086)the Chongqing Science and Technology Commission(cstc2021jscx-cylhX0014).
文摘Chili fermentation is one of the most important processes in the production of Pixian Douban(PXDB),which determines the flavor and product quality of PXDB.However,the maturity of fermented chili mainly depends on empirical judgment,which can not satisfy the need for standardized production of PXDB.Therefore,this study aimed to investigate volatile and non-volatile substances during the maturation process and to find markers related to the maturity of fermented chili.Two-dimensional gas chromatography-mass spectrometry(GC×GC-MS)combined with multivariate statistical analysis and relative odor activity values(ROAV)analysis revealed that 2-methoxy-3-isobutyl pyrazine,linalool,3-(methylthio)propionaldehyde,myrcene,and decanal(ROAV≥1,VIP>1,P<0.05)were regarded as potentially active aromatic markers for differentiating fermentation time.Additionally,ultra-high performance liquid chromatography coupled with quadrupole time-of-flight mass spectrometry(UPLCQTOF-MS)combined with multivariate statistical analysis revealed that 25 compounds could serve as differentiated non-volatile compounds.The correlation of maturity-related physicochemical indicators with volatile and nonvolatile compounds revealed that four volatile compounds(2-methoxy-3-isobutylpyrazine,linalool,myrcene,and decanal)along with seven non-volatile compounds could serve as markers for evaluating the maturity of fermented chili.This study is expected to establish a standard for the determination of the maturity the fermented chili and lay the foundation for intelligent production of PXDB.
文摘Objectives:B-cell maturation antigen(BCMA)-targeted antibody–drug conjugates(ADCs)have emerged as promising therapies for relapsed/refractory multiple myeloma(RRMM),but the overall efficacy and safety profile is unclear.This study aimed to synthesize the available evidence on the safety and efficacy of BCMA-ADCs in development for RRMM.Methods:A systematic search was conducted using six bibliographic databases and ClinicalTrials.gov up to November 2024.Studies were eligible if they were human clinical trials or animal studies evaluating BCMA-ADCs and reported efficacy and safety outcomes.Data extraction and quality assessments were conducted using validated tools,including ROBINS-I and SYRCLE’s risk of bias tool.Results:A total of 21 studies were included:16 clinical trials and five animal studies.Key findings included that belantamab mafodotin demonstrated variable but generally durable response rates(32%–85%)and a broad range of progression-free survival(PFS)(2.8–36.6 months),albeit with ocular toxicities in 51%–96%.Among newer candidates,MEDI2228 showed median PFS 5.1–6.6 months with 14%discontinuation for ocular symptoms,while AMG 224 had an overall response rate(ORR)of 23%(9/40)with anemia 21%,thrombocytopenia 24%,and ocular adverse events(AEs)21%.Animal studies supported the tumor-eradicating potential of all BCMA-ADC candidates,although safety signals such as hepatic and renal toxicity were noted with HDP-101.The risk of bias assessment revealed generally moderate to serious concerns in human trials,while the overall quality of the animal studies was acceptable.Conclusions:BCMA-targeted ADC candidates show encouraging efficacy in RRMM,particularly belantamab mafodotin.However,frequent AEs,especially ocular and hematologic toxicities,underscore the need for optimization in ADC design.Further research should prioritize enhancing safety while maintaining clinical benefit.
文摘Background: Biological maturation refers to the progressive process through which individuals transition toward an adult state during growth and development. To address the challenges posed by differences in biological maturity and the limitations of existing testing methods, particularly in adolescent sports contexts, there is a pressing need for a non-invasive method that is convenient, accurate, and broadly applicable to monitor the biological maturity of adolescent athletes comprehensively. In response to this need, a maturity assessment method based on the smartphone application Maturo has been developed. This study evaluates the accuracy and validity of the Maturo software, an automated tool for estimating biological age and related maturation metrics.Methods: A sample of 103 actively training teenage athletes aged 9-17 years. The sample included 76 males(age = 11.74 ± 1.55 years, mean ±SD) and 27 females(age = 13.95 ± 1.40 years), all without medical conditions that might impact growth or development.Results: Compared to traditional expert evaluations, the intraclass correlation coefficients(ICCs) and Pearson correlation coefficients demonstrated reliable positive correlations and significant agreement between the Maturo software and expert methods across multiple metrics, such as biological age(ICC = 0.965, R = 0.97), corrected biological age(ICC = 0.973, R = 0.99), predicted adult height(ICC = 0.991, R = 0.99), and percentage of adult height achieved(ICC = 0.955, R = 0.97). The Bland-Altman plots provided additional evidence of the validity of the Maturo software estimations, showing low systematic error in most measures. The linear regression analysis produced excellent adjusted R2values: 0.95for biological age and 0.99 for anticipated adult height. The Maturo approach demonstrated a high level of dependability in classifying teenagers into groups based on their maturity status and timing. The κ coefficients of 0.93 for maturity status and 0.82 for maturity timing indicate a nearly perfect agreement with the expert technique.Conclusion: While the Maturo software's non-invasive nature, cost-effectiveness, and ease of use could make it a potential tool for regular monitoring of growth and maturation in young athletes, its promising results in assessing maturation should be interpreted with caution due to limitations such as sample size and demographic constraints. Further longitude research with larger and more diverse populations is needed to validate these preliminary findings and strengthen the evidence for its broader applicability.
基金funded by the National Natural Science Foundation of China(32172721)the China Agriculture Research System(CARS-40)+1 种基金the Central Publicinterest Scientific Institution Basal Research Fund,China(2021-YWF-ZYSQ-12)the Agricultural Science and Technology Innovation Program of Chinese Academy of Agricultural Sciences(ASTIP-IAS04)。
文摘Sexual maturation heterosis has been widely exploited in animal crossbreeding.However,the underlying mechanism has been rarely explored in chicken.In the present study,we performed the reciprocal crossing between White Leghorn and Beijing You chicken to evaluate the phenotypes related to sexual maturation,and profiled the ovary circRNAs of purebreds(WW,YY)and crossbreds(WY,YW)to elucidate the molecular mechanism underlying heterosis for sexual maturation.Pubic space and oviduct length exhibited positive heterosis,and age at first egg(AFE)exhibited negative heterosis in the crossbreds.We identified 3,025 known circRNAs and 624 putative circRNAs,which were mainly derived from the exons.Among these circRNAs,141 and 178circRNAs were specially expressed in WY and YW,respectively.There were 52.38 and 64.63%of total circRNAs in WY and YW exhibited non-additive expression pattern,respectively.GO enrichment and KEGG pathway analysis showed that the host genes of non-additive circRNAs were mainly involved in TGF-beta signaling pathway,oocyte development,ATPase activator activity,oocyte meiosis,progesterone-mediated oocyte maturation and GnRH signaling pathway.Weighted gene co-expression network analysis identified that 4 modules were significantly(P<0.05)correlated with oviduct length and pubic space.The host genes of non-additive circRNAs harbored in the 4 modules were associated with MAPK signaling pathway and Wnt signaling pathway.Furthermore,competing endogenous RNAs(ceRNA)network analysis characterized non-additive circRNAs gal-FGFR2_0005 and galMAPKAP1_0004 could interact with gga-miR-1612 and gga-miR-12235-5p to regulate CNOT6,COL8A1,and FHL2,which were essential for ovary development,indicating that the non-additive circRNAs involved in the formation of sexual maturation heterosis through regulating genes related to the reproductive and developmental process.The findings would provide a deeper understanding of the molecular mechanism underlying sexual maturation heterosis from a novel perspective.
基金funded by grants from the National Natural Science Foundation of China(Grant Nos.82373263 and 82403835)the National Key Research and Development Program of China(Grant No.2023YFC2506400)+2 种基金China Postdoctoral Science Foundation(Grant No.2024M751405)Jiangsu Provincial Natural Science Foundation Youth Project(Grant No.BK20240247)General Project of Nanjing Health Science and Technology Development Program(Grant No.YKK24084).
文摘Tumor-associated neutrophils(TANs)exhibit highly func-tional heterogeneity across cancers.Although TANs pro-mote inflammatory responses and contribute to tumor clearance,they frequently undergo context-dependent reprogramming within the tumor microenvironment(TME)into highly immunosuppressive phenotypes that facilitate cancer dissemination and immunotherapy resist-ance1,2.We contend that an underappreciated,upstream determinant of this divergence is the maturation stage of TANs3,4.The developmental stage of TANs determines the migration patterns and constrains the functional capacity,and the developmental stage also constrains the extent of TME-driven re-education,together shaping pro-or anti-tu-mor outcomes3-5.In this Perspective,we place maturation at the core of TAN biology and discuss current definitions for TAN developmental stages and the measurable mark-ers that researchers and clinicians can use(Figure 1).In addition,spatial and temporal transitions in TAN matu-ration stages and the factors that govern these transitions are elucidated.We explain how maturation status shapes TAN function and articulate the key differences between mouse and human TAN maturation systems to highlight the value of human immune system(HIS)mouse models.Based on this framework,functional biomarkers and signa-tures of TAN maturation are introduced and we show how to embed them into patient stratification and longitudinal monitoring.Finally,we outline immunotherapy strategies targeting TAN maturation,selecting interventions guided by maturation markers to reinforce treatment benefits for cancer patients.
文摘Rising global energy needs have intensified the search for unconventional hydrocarbon sources,especially in under-selected areas like the Northeast Java Basin.This region harbors promising unconventional hydrocarbon reserves,where source rocks function as dual-phase systems for both hydrocarbon generation and storage.This research investigates how metal-based catalysts,particularly iron(Fe),can expedite hydrocarbon maturation in such reservoirs.Combining well logging,geochemical assessments,seismic data,and advanced lab techniques,including X-ray Diffraction(XRD),we pinpoint optimal zones for exploration.Results indicate that the Tuban,Kujung,and Ngimbang formations contain economically viable unconventional deposits,exhibiting tight reservoir properties(permeability:0.01–1 md)and moderate to good Total Organic Carbon(TOC)levels(1%–2%).Spatial analysis reveals elevated density concentrations in the northern sector,indicative of high-viscosity hydrocarbons typical of unconventional plays.Crucially,Fe additives were found to markedly enhance organic matter conversion,shortening maturation periods and boosting hydrocarbon yield.XRD data confirms that Fe alters crystalline configurations,increasing reactivity and speeding up thermal breakdown(shifting immature organic compounds toward maturity at an accelerated rate).These findings contribute to the evolving discourse on unconventional resource exploitation by proposing an innovative recovery enhancement strategy.The study also sets a precedent for investigating metal-assisted hydrocarbon conversion in geologically comparable basins globally.
基金supported by the National Natural Science Foundation of China(32201696)the Natural Science Foundation of Sichuan Province(23NSFSC4071)。
文摘Seed maturation is a critical development transition and it largely affects the final yield and quality of crops.Abscisic acid(ABA)-activated sucrose-non-fermentation kinase subfamily 2(SnRK2s)constitute a well-known regulatory network that modulate seed maturation in Arabidopsis;however,the underlying genetic and regulatory mechanisms in cereal crops remain largely unknown.Here,we found that ABA levels exhibited two distinct peaks during kernel development in maize,corresponding to the lag and maturation phase,respectively.Integrated transcriptome and proteome profiling of kernels treated with exogenous ABA at the pre-maturation stage suggested that the second peak of ABA acts as a trigger for kernel maturation program.Knockout of ZmSnRK2s demonstrated that subclassⅢZmSnRK2s are required for kernel maturation in maize,and the loss-of-function of subclassⅢZmSnRK2s showed a disruption in kernel dehydration and dormancy.We identified a conserved ABA–SnRK2–b ZIP signaling pathway mediating this process in maize.Additionally,ZmSnRK2.10 overexpression accelerates kernel dehydration during maturity,achieving reduced kernel moisture content(KMC)at physiological maturity(PM).Overall,our findings establish ABA-activated SnRK2s as central regulators of kernel maturation in maize and provide valuable genetic resources for breeding maize varieties with low moisture content at harvest.
基金support of the National Natural Science Foundation of China(32025014 and 32330029 to Q.W.)the National Key Research and Development Program of China(2020YFA0804000 to Q.W.)+2 种基金Guangdong Excellent Youth Team Project(2024B1515040019 to Q.W.)Guangzhou Science and Technology Plan Project(202201010323 to X.H.)the Fundamental Research Funds for the Central Universities(to Q.W.).
文摘Pharyngeal cartilage morphogenesis is crucial for the formation of craniofacial structures.Cranial neural crest cells are specified at the neural plate border,migrate to pharyngeal arches,and differentiate into pharyngeal chondrocytes,which subsequently flatten,elongate,and stack like coins during maturation.Although the developmental processes prior to chondrocyte maturation have been extensively studied,their subsequent changes in morphology and organization remain largely elusive.Here,we show that wnt2bb is expressed in the pharyngeal ectoderm adjacent to the chondrogenic precursor cells in zebrafish.Inactivation of Wnt2bb leads to a reduction in nuclearβ-catenin,which impairs chondrogenic precursor proliferation and disrupts chondrocyte morphogenesis and organization,eventually causing a severe shrinkage of pharyngeal cartilages.Moreover,the decrease ofβ-catenin in wnt2bb^(-/-)mutants is accompanied by the reduction of Yap expression.Reactivation of Yap can restore the proliferation of chondrocyte progenitors as well as the proper size,shape,and stacking of pharyngeal chondrocytes.Our findings suggest that Wnt/β-catenin signaling promotes Yap expression to regulate pharyngeal cartilage formation in zebrafish.
基金supported by the National Natural Science Foundation of China(Grant No.32171997)the Earmarked Fund for China Agricultural Research System(CARS-13)+2 种基金the Nanfan special project of CAAS(Grant No.YBXM2552)the Central Public-interest Scientific Institution Basal Research Fund(Grant No.Y2025YC112)the Agricultural Science and Technology Innovation Program of the Chinese Academy of Agricultural Sciences(Grant No.CAAS-ASTIP-2021-OCRI)。
文摘Peanut(Arachis hypogaea L.)exhibits an unusually asynchronous reproductive cycle,in which flowering,peg penetration,pod development,and seed filling occur over an extended period.This results in the simultaneous presence of immature and preharvest sprouted(PHS)pods on the same plant a dual challenge that undermines yield,compromises seed quality,and complicates postharvest management.Immature pods reduce harvest efficiency,while PHS diminishes flavor,uniformity,and storage stability.Both genetic and environmental determinants ranging from temporal variation in peg initiation and hormonal gradients to microenvironmental heterogeneity and differential seed dormancy shape this variability.However,despite advances in pod biology,systematic field-based quantification of intra-plant temporal variation,genotype×environment interactions,and localized microclimatic influences remains limited.This review aims to synthesize current understanding of within-plant variability in pod maturation and PHS in peanut,to elucidate critical knowledge gaps at physiological and field scales,and to evaluate emerging strategies for mitigation.Particular emphasis is given for underexplored interface between physiological mechanisms and field-scale dynamics.Emerging innovations including hyperspectral imaging,soil and canopy moisture sensing,and molecular markers offer promising avenues for precise monitoring of pod maturity and early detection of PHS risk.Integrating these tools with targeted breeding strategies for synchronous flowering,enhanced dormancy,and late-season stress resilience,alongside adaptive agronomic practices such as optimized sowing,irrigation scheduling,nutrient management,and harvest timing,could substantially reduce yield and quality losses.Future progress will depend on bridging molecular insights with predictive models that capture mixed maturity and sprouting risk under variable environments.
基金supported by funding from the National Natural Science Foundation of China(81971349 and 81300456).
文摘In vitro maturation(IvM)of human oocytes offers cost efficiency and minimal invasiveness,serving as a valuable supplementary tool in assisted reproduction for fertility preservation,ovarian hyperstimulation syndrome prevention,and other reproductive strategies.Despite its availability for three decades,the clinical use of IVM remains limited due to efficacy and safety concerns.This study examines the DNA methylation profile of IVM oocytes collected during laparoscopic/hysteroscopic surgeries compared to in vivo matured oocytes via reduced representation bisulfite sequencing.Results indicate IVM oocytes exhibit a higher global methylation level.Differentially methylated regions(DMRs)analysis reveals that the in vitro group displays more hypermethylated and fewer hypomethylated DMRs compared to the in vivo group.Additionally,the in vitro group exhibits a higher level of non-CpG methylation than the in vivo group.However,no significant correlation between methylation levels and transcriptional activity in these oocytes is found,especially for those specific imprinted genes or genes related to embryonic development.These findings shed light on the epigenetic landscape of IvM oocytes,contributing to the ongoing assessment of their clinical feasibility and safety in assisted reproduction.
基金Supported by the National Natural Science Foundation of China Enterprise Innovation and Development Joint Fund Project(U22B6004)National Natural Science Foundation of China and Youth Science Fund Project(4250021468)CNPC Changqing Oilfield Company Key Core Technology Research Project(KJZX2023-01)。
文摘In-situ heating conversion is the most practical recovery method for lacustrine low-to-medium maturity shale oil.However,the energy output-input ratio must exceed the economic threshold to achieve commercial development.This paper systematically investigates the mechanism of super-rich accumulation of organic matter in continental shale,sweet spot evaluation,optimal heating windows,and appropriate well types and patterns from the perspectives of enhancing energy output and reducing energy input.(1)The super-rich accumulation of organic matter in lacustrine shale is primarily controlled by the intensity,frequency,and preservation of external material inputs,and is related to moderate volcanic and hydrothermal activities,marine transgressions,with total organic carbon content greater than or equal to 6%.(2)The quality of organic-rich intervals is related to the type of source material and hydrocarbon generation potential.The in-situ conversion-derived hydrocarbon quality index(HQI)is established,and the zones exhibiting HQI>450 are defined as sweet spots.(3)Considering the characteristics of the organic matter conversion material field and seepage field,the temperature interval 300-370℃is recommended as the optimal heating window for the Chang 7_(3)sub-member of the Triassic Yanchang Formation in the Ordos Basin.Based on the advantages of thermal conductivity,permeability,and hydrocarbon expulsion efficiency along the bedding direction during in-situ heating,the“horizontal well heating+vertical well development”scheme is proposed,which has demonstrated significant enhancement in both recovery factor and energy output-input ratio,making it the optimal in-situ conversion process.The research findings provide a theoretical and technical foundation for the economical and efficient development of low-to-medium maturity shale oil.
基金Supported by School Program of Henan Institute of Science and Technology(20060516)~~
文摘[Objective] The study aimed to provide references for the time of oocyte maturation in vitro and enucleation in the course of sheep nuclear transfer(NT).[Method] Compared the effects of different maturation time of oocytes on enucleation efficiency and reconstructed embryo development by means of blind enucleation and fluorescence microscopy.[Result] Treatment of IVM(in vitro maturation)19-21 h was significantly higher than IVM 16-18 h treatment in oocyte maturation rate(P<0.05)and was significantly higher than IVM 22-24 h treatment in enucleation rate(P<0.05).Three treatments had no significant difference in cleavage rate and blastocyst rate(P>0.05),but IVM 19-21 h treatment was significantly higher than the other 2 treatments in average cell number of blastocysts(P<0.05).[Conclusion] The appropriate in vitro maturation time of oocytes was 19-21 h for sheep nuclear transfer,which could significantly improve the quality of blastocysts according to the cell number per blastocyst(P<0.05).
基金Supported by National Natural Science Foundation of China (30871431)Outstanding Youth Fund of Heilongjiang Province (JC200905)~~
文摘[Objective] This study aimed to improve the in vitro maturation quality of denuded porcine oocytes and provide scientific basis for establishing a stable and efficient denuded oocyte culture system. [Method] The first polar body extrusion rate, oocyte glutathione (GSH) content, positive rate of brilliant cresyl blue (BCB) staining and development potential of activated oocytes or fertilized oocytes were employed as main indicators to investigate the effects of follicular mural granulosa cell (MGC) coculture on cytoplasmic maturation of cumulus cell-removal oocytes (Denuded Oocyte, DO). [Result] According to in vitro maturation results, compared with DO group, the first polar body extrusion rate of porcine oocytes in DO+MGC group was not significantly different, but the nuclear maturation process was improved and was more similar to that in COC (cumulus-oocyte complex) group. Detection of GSH content in mature oocytes showed that there was no significant difference between DO+ MGC group (optical density of 1 053.67) and COC group (optical density of 1 426.00) or between DO+MGC group and COC+GC group (optical density of 1 541.00), however, GSH content in mature oocytes of DO group (optical density of 724.67) was significantly lower than that of COC group and COC+GC group (P0.05). Detection of glucose-6-phosphate dehydrogenase (G6PDH) activity showed that there was no significant difference in BCB positive oocyte rate between DO +MGC group (88.26% ) and COC group (92.75%) or between DO+MGC group and DO group (82.86% ), however, BCB positive oocyte rate of DO group was significantly lower than that of COC group (P0.05). Furthermore, the cleavage rate and blastocyst rate of activated mature oocytes derived from DO +MGC group (94.98% and 43.67% , respectively) were significantly higher than those from DO group (52.54% and 8.97%, respectively) (P0.05), and were not significantly different compared with those from COC group (97.11% and 38.30%, respectively). In addition, the cleavage rate of fertilized oocytes derived from DO+MGC group (72.65%) showed no significant difference compared with that from DO group (63.59%), but the blastocyst rate of DO+MGC group was significantly higher than that of DO group (9.88%) (P0.05). [Conclusion] MGC coculture can significantly improve the in vitro cytoplasmic maturation quality of denuded porcine oocytes, thereby enhancing the subsequent developmental potential.
基金Supported by Natural Science Foundation of Ningxia Hui Autonomous Region(NZ12150)~~
文摘[Objective] This study aimed to investigate the appropriate concentrations of follicle-stimulating hormone(FSH), luteotropic hormone(LH) and estrodiol(E2) during in vitro maturation of Tan sheep oocytes. [Method] Tan sheep oocytes were divided into five groups for in vitro maturation culture: control group, FSH group(10,50, 100, 200 and 300 μg/ml FSH, respectively), LH group(5, 10, 20, 50 and 100μg/ml LH, respectively), E2group(5, 10, 25, 50 and 100 μg/ml E2, respectively), and FSH + LH group(100 μg/ml FSH + 20 μg/ml LH). The releasing rate of first polar bodies was analyzed. [Result] The maturation rate of Tan sheep oocytes in 100 μg/ml FSH + 20 μg/ml LH group reached the highest(64.64%), which was significantly higher than that in other four groups(P〈0.05); among different FSH concentrations,100 μg/ml FSH was superior to other four concentrations and the control group, exhibiting significant differences(P〈0.05); among different LH concentrations, 20 μg/ml LH was superior to other four concentrations and the control group, exhibiting significant differences(P〈0.05); among different E2 concentrations, 50 μg/ml E2 was superior to other four concentrations and the control group, exhibiting significant differences(P〈0.05). [Conclusion] Under the experimental conditions, 100 μg/ml FSH +20 μg/ml LH was the most appropriate hormone combination for in vitro maturation of Tan sheep oocytes.
文摘The osmotic challenges facing maturing spermatozoa and their responses to them are discussed in relation to the concept of sperm maturation, defined as the increased ability of more distally recovered epididymal spermatozoa to fertilize eggs when inseminated into the female tract. One explanation could be that the more distal cells are better able to regulate their volume, and reach the oviducts, as a consequence of uptake of epididymal osmolytes. Increased motility, zona binding and oolemma fusion capacities are also acquired within the epididymis and are necessary for those cells that finally arrive at the site of fertilization. (Asian J Androl 2007 July; 9: 533-539)
文摘Cholesterol is a key molecule in the mammalian physiology of especial particular importance for the reproductive system as it is the common precursor for steroid hormone synthesis. Cholesterol is also a recognized modulator of sperm functions, not only at the level of gametogenesis. Cholesterol homeostasis regulation is crucial for posttesticular sperm maturation, and imbalanced cholesterol levels may particularly affect these posttesticular events. Metabolic lipid disorders (dyslipidemia) affect male fertility but are most of the time studied from the angle of endocrine/testicular consequences. This review will focus on the deleterious effects of a particular dyslipidemia, Le., hypercholesterolemia, on posttesticular maturation of mammalian spermatozoa.
基金supported by a grant from the National Natural Sciences Foundation of China (No.30801314)
文摘To investigate the longitudinal sagittal growth changes of maxilla and mandible according to the quantitative cervical vertebral maturation (QCVM) for adolescents with normal occlusion, mixed longitudinal data were used. The samples included 87 adolescents aged from 8 to 18 y old with normal occlusion (32 males, 55 females) selected from 901 candidates. Sequential lateral cephalograms and hand-wrist films were taken once a year, lasting for 6 y. The longitudinal sagittal growth changes of maxilla and mandible according to QCVM were measured. There were some significant differences between maxilla and mandible according to QCVM. The sagittal growth change of maxilla showed a trend towards high velocity→decelerating velocity→completing velocity from QCVM stage Ⅰ to stage Ⅳ. The sagittal growth change of mandible showed a trend towards accelerating velocity→high velocity→decelerating velocity→completing velocity from QCVM stage Ⅰ to stage Ⅳ. With sagittal relationship, growth magnitude was almost the same between maxilla and mandible at QCVM stage Ⅰ . At stage Ⅱ the growth of mandible exceeded that of maxilla and growth in mandible continued at stages Ⅲ and IV, while the maxilla ceased to grow. Growth magnitude was greater and the growth duration was longer with male mandible. It is concluded that the longitudinal sagittal growth changes of maxilla and mandible on the basis of QCVM is of value in the orthodontic practice.
基金This work is supported by National Natural Sci-ence Fundation of China (Grant 39770370), and National Laboratory of Contraceptives and Devices Re-search affiliated with Shanghai lnstitute of Planned Parenthood Research.
文摘p28, a 28kD protein from toad (Bufo bufo gargarizans) oocytes, was identified by using p13sucl-agarose affinity chromatography. Sequence homology analysis of the full-length cDNA of p28 (Gene Bank accession number: AF 314091) indicated that it encodes a protein containing 224 amino-acids with about 55% identities and more than 70% positives to human, rat or mouse UCH-L1, and contains homological functional domains of UCH family. Anti-p28 monoclonal antibody, on injecting into the oocytes, could inhibit the progesterone-induced resumption of meiotic division in a dose-dependent manner. The recombinant protein p28 showed similar SDS/PAGE behaviors to the native one, and promoted ubiquitin ethyl ester hydrolysis, a classical catalytic reaction for ubiquitin carboxyl terminal hydrolases (UCHs). The results in this paper reveal that a novel protein, p28, exists in the toad oocytes, is a UCH L1 homolog, was engaged in the process of progesterone-induced oocyte maturation possibly through an involvement in protein turnover and degradation.
基金supported by the National High-tech R&D Program(863 Program)of China(2013AA102704)
文摘With embryogenic callus of Larix olgensisis, we investigated the effects of inositol, glutamine, casein hydrolysate, carbohydrate, abscisic acid and silver nitrate concentration on the maturation of the somatic embryo.Three dominant factors emerged, and we developed a response surface model based on the Box-Behnken design.We defined the optimal conditions for the maturation of somatic embryos. The contents of abscisic acid, silver nitrate, sucrose and casein hydrolysis significantly affected the amount of maturing embryos, but inositol, maltose and glutamine had no effect. By establishing a response surface model with multiple factors, we predicted that the optimal number of L. olgensis somatic embryos was 204 ± 4 gon basal medium, containing 18.28 mg Labscisic acid,5.46 mg Lsilver nitrate and 82.67 g Lsucrose. In the verification experiments, the addition of 20 mg Labscisic acid, 5 mg Lsilver nitrate and 80 g Lsucrose to BM yielded an average of 202.06 somatic embryos per gram. These results should guide large-scale breeding of L. olgensis.
