A cell transcriptomic profile p ovides insights into adipocytes of porcine mammary gland across development

Background Studying the composition and developmental mechanisms in mammary gland is crucial for healthy growth of newborns. The mammary gland is inherently heterogeneous, and its physiological function dependents on the gene expression of multiple cell types. Most studies focused on epithelial cells, disregarding the role of neighboring adipocytes.Results Here, we constructed the largest transcriptomic dataset of porcine mammary gland cells thus far. The dataset captured 126,829 high-quality nuclei from physiological mammary glands across five developmental stages(d 90 of gestation, G90;d 0 after lactation, L0;d 20 after lactation, L20;2 d post natural involution, PI2;7 d post natural involution, PI7). Seven cell types were identified, including epithelial cells, adipocytes, endothelial cells, fibroblasts cells, immune cells, myoepithelial cells and precursor cells. Our data indicate that mammary glands at different developmental stages have distinct phenotypic and transcriptional signatures. During late gestation(G90), the differentiation and proliferation of adipocytes were inhibited. Meanwhile, partly epithelial cells were completely differentiated. Pseudo-time analysis showed that epithelial cells undergo three stages to achieve lactation, including cellular differentiation, hormone sensing, and metabolic activation. During lactation(L0 and L20), adipocytes area accounts for less than 0.5% of mammary glands. To maintain their own survival, the adipocyte exhibited a poorly differentiated state and a proliferative capacity. Epithelial cells initiate lactation upon hormonal stimulation. After fulfilling lactation mission, their undergo physiological death under high intensity lactation. Interestingly, the physiological dead cells seem to be actively cleared by immune cells via CCL21-ACKR4 pathway. This biological process may be an important mechanism for maintaining homeostasis of the mammary gland. During natural involution(PI2 and PI7), epithelial cell populations dedifferentiate into mesenchymal stem cells to maintain the lactation potential of mammary glands for the next lactation cycle.Conclusion The molecular mechanisms of dedifferentiation, proliferation and redifferentiation of adipocytes and epithelial cells were revealed from late pregnancy to natural involution. This cell transcriptomic profile constitutes an essential reference for future studies in the development and remodeling of the mammary gland at different stages.

高选择性PEI@MOF-808吸附剂在潮湿烟气中的碳捕集性能研究

以Zr基金属有机框架MOF-808为载体,采用聚乙烯亚胺(polyethylenimine, PEI)进行官能化,得到PEI@M-808复合材料,用于选择性捕集潮湿烟气(10%CO_(2)+90%N_(2)+10 kPa H_(2)O)中的低浓度CO_(2)。采用XRD、FT-IR、SEM以及BET等表征了吸附剂的物理化学性质,并评估改性方案的可行性。由于MOF-808表面PEI的负载引入了丰富胺基官能团,使复合吸附剂在低浓度CO_(2)下的吸附性能大幅提升。PEI300-30@M-808在典型烟气温度(343 K)的低压CO_(2)吸附量相比原材料由0.052 mmol/g上升到0.89 mmol/g,增加了约16倍。此外,CO_(2)/N_(2)吸附选择性在0.1 bar (1 bar=10~5 Pa)时能达到5524.65,相比原材料提升了约56倍。更重要的是,当吸附剂放置到5%RH工况中时吸附量由0.89 mmol/g提高到1.47 mmol/g,证明了水分对其CO_(2)吸附起着良好的促进作用。经过5次循环后,PEI300-30@M-808的CO_(2)饱和吸附量仍可维持在90.7%。

沙漠地形下无人机激光扫描开采沉陷监测方法

针对传统测量手段在沙漠地形中难以开展的问题,本文将无人机激光扫描技术应用到沙漠地形下的煤矿开采沉陷监测中,采用了一种在工作面走向及倾向线上布设岩移观测靶标的方法,通过点云滤波、插值和数字高程模型对比分析,以及提取处理激光点云中的靶标高程两种方式,分别得到了开采沉陷区面状和点状两种形式的地表变形信息;最后通过面状沉降数据与单点沉降值的一致性分析,排除了沙丘移动对开采沉陷监测的影响,从而验证了技术的可行性。研究表明,无人机激光扫描技术在沙漠地形下进行煤矿开采沉陷监测具有极大优势,文章中提出的地表变形监测方法对于研究沙漠地形下的矿区地表变形规律有很高的应用与推广价值。

Recognition mechanism and sequence optimization of organophosphorus pesticides aptamers for better monitoring contaminations in food

Aptamers as a kind of biological recognition element have shown great potential in monitoring and the rapid quantification of organophosphorus pesticides(OPPs). However, molecules of OPPs are structurally similar and original aptamers selected by systematic evolution of ligands by exponential enrichment are usually long-chain bases, which hamper the further application under OPPs-aptamer recognition. The aim of the research was to develop a new strategy to design oligonucleotide sequences for binding OPPs by combination of experimental and molecular modeling methods. 3D models of aptamers binding OPPs were constructed, and binding energy and the most probable binding site for the OPPs were then determined by molecular docking, and the binding sites were further confirmed by the results of 2-AP replaced experiments. Based on the docking results, a new aptamer for detection 4 representative OPPs with only 29 bases was designed by reasonable truncation and mutation of the reported aptamer(named S4-29). The interaction between this new aptamer and OPPs were analyzed by molecular docking, microscale thermophoresis, circular dichroism and fluorometric analysis. The results revealed that the new aptamer exhibit more superior recognition performance to OPPs, which can be promote the monitoring ability of OPPs contaminations in food.

人类卫生健康共同体理念的国际法建构功能

世界卫生组织体系下的国际卫生法存在诸多缺陷,无法有效控制疫情,亟须时代性变革。在此背景下,中国以人类命运共同体理念为价值渊源,主动参与全球公共卫生治理,积极倡导共建人类卫生健康共同体,为国际卫生法的法理建构确立了主体性和价值观。以其历时的发展逻辑为进路、共时的现实互动为框架,该理念在国际法实践中可发展出"共同安全、互利共赢、环境共建、和谐互助"的新型国际卫生法原则,进而在国际合作中建构全球卫生健康安全制度、全球卫生健康经济保障和互助制度、全球生态环境保护机制和全球卫生合作制度,并沿着理念—价值—原则—规则的路径推动国际卫生法规范体系的建构。

安徽校园女子足球开展现状分析

现阶段青少年校园足球活动已成为丰富学生日常生活,提高学生体质及培养团队意识最有效的途经,安徽省在青少年校园足球活动开展中以男足为主,教育主管部门对青少年女子足球的培养与重视亟待加强。其存在问题不仅制约了安徽女子足球运动在新时期的健康发展,同时也无法充分发挥出青少年校园足球活动的教育功能。

校园足球发展的问题与对策研究

以文献法、定性分析结合定量分析法为主,从普及体系、竞赛体系、师资培育与培养以及基础设施保障四个层面概述校园足球的发展现状,并深入分析校园足球发展的主要问题,并给出对策与建议。研究指出,校园足球发展的问题在于:校园足球人口基数不牢且学段差异大、重竞赛轻训练降低了教育与体育的融合度、专业师资队伍相对匮乏、基础设施建设资金扶持水平不一。因此,应构建基于我国国情的校园足球人才培养体系、建立健全多元化校园足球竞赛体系、加强校园足球师资力量的培训与引进多元吸纳社会力量对校园足球发展的资金支持。

基于沉积相控的优质储层预测——以鄂尔多斯盆地X区块下石盒子组致密砂岩气为例

X区块致密砂岩气受储层非均质性及地震资料品质的影响,优质储层预测存在多解性。文中在岩心相、测井相、地震储层预测的基础上,结合厚度串珠法、地质知识库及水动力与物性的关系,综合开展沉积微相平面展布研究。研究发现:沉积微相控制着储层岩性、结构、物性及含气模式;在沉积相控下,结合产能情况进行优质储层预测。依据水平井资料钻遇及新投产井产能验证,优质储层预测准确度较高,表明该技术在X区块具有较好的应用价值。

甲基转移酶dSet1调控果蝇生殖细胞发育

[目的]探究表观遗传调控在细胞增殖和分化过程中的调控作用。[方法]雌性果蝇幼虫性腺的发育涉及到原始生殖细胞(PGC)增殖及分化,为细胞生物学研究提供了绝佳的在体研究模型。利用UAS-Gal4二元表达系统和果蝇组蛋白H3K4甲基转移酶dSet1-RNAi果蝇品系,分别降低果蝇性腺中生殖细胞谱系和体细胞谱系中dSet1表达量,研究表观遗传调控因子dSet1在细胞增殖和分化中的功能。[结果]本研究发现组蛋白H3K4甲基转移酶dSet1参与调控雌性果蝇幼虫PGC有序分化的证据,dSet1表达量下调的三龄期幼虫雌性果蝇,PGC的分化被提前开启。不仅如此,特异性将果蝇性腺体细胞谱系中dSet1下调可致PGC增殖异常,该基因型的果蝇性腺中包含更多的PGC。[结论]本研究的结果证明,表观遗传调控因子dSet1参与调控雌性果蝇幼虫性腺发育,以细胞自治性与非自治两种方式调控原始生殖细胞的有序分化,不仅如此,性腺体细胞谱系中的dSet1参与调控原始生殖细胞增殖。

RMAST微创通道下减压椎间融合单边固定与双边固定治疗腰椎间盘突出症疗效比较

通过比较RMAST微创通道下单边固定和双边固定椎间Cage植骨融合方法观察治疗腰椎间盘突出症的临床疗效。将40例腰椎间盘突出症患者按手术方法分为两组:观察组(A组,n=20例)采用RMAST微创通道下减压单边椎弓根钉棒内固定联合椎间Cage植骨融合术;对照组(B组,n=20例)采用RMAST通道下双边椎弓根钉棒内固定联合椎间Cage植骨融合术。对比分析A、B两组的一般资料、手术时间、术中出血量、术后引流量、术后下地时间、住院天数、住院费用、VAS评分、ODI评分及并发症,对手术疗效进行评估。评估结果表明:A组术中出血量少于B组,手术时间短于B组,术后下地活动时间长于B组,住院费用低于B组,差异均有统计学意义(P<0.05);术后引流量两组差异均无统计学意义(P>0.05),A组术后3d、术后3个月及末次随访的VAS评分和ODI评分均显著优于B组,差异有统计学意义(P<0.05)。RMAST微创通道下单边椎弓根钉棒内固定联合椎间Cage植骨融合术治疗腰椎间盘突出症也可获得较好的疗效。

sPLA2-IB Level Correlates with Hyperlipidemia and the Prognosis of Idiopathic Membranous Nephropathy

Summary:Recent studies suggested that serum secretory phospholipase A2 group IB(sPLA2-IB)was increased in idiopathic membranous nephropathy(IMN).However,the interference of high lipemia on the sPL.A2-IB levels was not taken into account in these studies.The present study aimed to investigate the correlation between sPLA2-IB and lipemia,and the clinical merit of sPLA2-IB in the prediction of prognosis of IMN patients.A total of 64 IMN patients,39 immunoglobulin A nephropathy(IgAN)patients and 64 healthy controls were included in the study.The levels of serum sPLA2-IB,lipemia and proteinuria were measured.Fifty IMN patients were followed up for 6 months.Pathologic stages were made for all IgAN and IMN patients.The results showed that the levels of serum sPLA2-IB,cholesterol and low-density lipoprotein cholesterol(LDL-C)were significantly higher,and the levels of albumin and high-density lipoprotein cholesterol(HDL-C)were significantly lower in IMN patients than in healthy controls and IgAN patients.Serum sPLA2-IB levels were also found to be higher in IgAN patients than in heathy controls,but the association of serum sPLA2-IB levels with proteinuria,cholesterol and albumin was only shown in IMN patients.Antibody against M-type receptor for secretory phospholipase A2(PLA2R1)was positive in 813%IMN patients.Glomerular sPLA2-IB deposition,podocyte fused processes,and density deposition on thickened basement membrane were seen in IMN patients,but not in IgAN patients.IMN patients with lower sPLA2-IB and proteinuria levels were found to have better outcome after the 6-month follow-up.In IMN patients,sPLA2-IB levels were significantly increased in both serum and renal tissue.In conclusion,serum sPLA2-IB was closely correlated with proteinuria,albumin and cholesterol,and IMN patients with lower sPLA2-IB levels were more likely to achieve a better outcome.

异常高压弱水驱凝析气藏改建储气库库容量评价

在废弃的异常高压弱边水凝析气藏建立储气库,库容量评价面临动储量计算方法优选和实际有效孔隙空间评价的问题。在生产动态资料的基础上,采用考虑弱水侵异常高压物质平衡法、流动物质平衡法和Blasingame分析法等综合方法评价区块原有效孔隙体积;利用改进物质平衡法评价水侵量;通过等容衰竭实验、生产动态计算气藏反凝析液量,定量评价区块当前剩余有效孔隙体积;建立物质平衡注采动态预测模型,确定库容量大小。实践表明:研究区动储量为70.3×10^(8) m^(3),库容量为64.4×10^(8) m^(3),受水侵及反凝析影响,库容量与动储量相差约8%。该库容量评价流程及方法能够充分考虑气藏开发过程中造成储层有效孔隙空间变化的影响因素,为后续方案设计中准确评估库容量提供依据。

多因素影响下地下储气库工作气量优化方法

储气库工作气量设计是多因素综合优化的结果,工作气量的大小与研究区内井的数量、最低外输压力、井径大小等条件相关,最终影响储气库建设成本。如何从多因素角度优化工作气量大小,达到储气库设计各参数全局最优化具有重要意义。以海上H岩性气藏为例,通过地层-井筒-井口多节点分析方法,考虑冲蚀气量与最小携液气量限制,优化单井不同地层压力下最大合理产能,根据注采物质平衡原理,建立储气库库存量注采动态预测模型;最后采用注采周期内平均产量法模拟不同井数下采气末期外输最低井口压力,建立不同井径下工作气量-井数-外输最低井口压力图板,结合图板与海上储气库井数限制要求,优化H气藏改建储气库工作气量。结果表明,H储气库采用7 in(177.8 mm)管柱,当区块注采井井数为10口,运行下限压力为23 MPa时,工作气量为26.1×108 m3,工作气比例为34.7%,区块采气量2179.1×104 m3/d,单井采气量217.9×104 m3/d,采气末期井口压力约15.3 MPa,满足外输压力与井口数量的控制要求。该技术能够实现井径、井数、工作气量、最低外输井口压力等参数全面优化。

不连续、薄互层煤层气地质建模技术--以澳大利亚苏拉特盆地为例

澳大利亚苏拉特盆地煤层气具有纵向煤层层数多、横向连续性差、厚度薄、煤阶低、渗透率高、含气饱和度高等特点,运用三维地质建模技术精确定量表征这种不连续的薄互煤层挑战难度大。利用地震、测井、地质解释成果,充分挖掘煤系地层特点与三维建模技术的相关性。首先利用地震构造解释与分层数据,采用“井震结合”方式建立地层构造格架;其次利用井间煤层对比统计煤层延展长度,作为模型变差函数的变程大小主要依据,采用煤层厚度分布图作为模型平面趋势约束,运用岩相垂向概率分布作为模型垂向上的趋势约束,通过序贯指示模拟方法建立薄互煤层的岩相模型;基于岩心标定下测井解释的含气量与埋深、密度的相关关系建立含气量模型;利用中途测试解释的渗透率建立渗透率模型;利用等温吸附曲线与压力梯度曲线,建立埋深与最大吸附含气量相关关系,从而建立含气饱和度模型。运用薄互煤层厚度累加的等效网格粗化方法,有效解决了薄互煤层精确三维地质建模与数值模拟运算速度耦合难的问题。实践表明:该套薄互煤层气地质建模技术能够较准确表征煤层发育地质特征,为后续产能模拟、方案设计提供可靠支撑。

鄂尔多斯盆地东缘临兴地区太原组太2段致密砂岩储层孔隙结构及渗流特征分析

为了更加高效地开发鄂尔多斯盆地东缘临兴地区太2段致密砂岩气藏,针对储层渗流能力较弱、孔隙结构复杂的问题,利用薄片、扫描电镜、常规物性、高压压汞及核磁共振等实验分析对研究区储层砂岩的孔隙类型、结构、物性及渗流特征进行研究,并对储层进行分类评价。结果表明,太2段储层主要为岩屑砂岩;储集空间主要为溶蚀粒间孔及颗粒溶蚀孔;物性差,孔喉半径细小,细歪度,分选差,排驱压力较高。可将储层分为3种类型Ⅰ类为偏粗类—双峰a型,孔喉偏粗,气水两相共渗区相对最大,渗流能力较好;Ⅱ类为偏细类—双峰b型,孔喉中等,气水两相共渗区变窄,渗流能力一般;Ⅲ类为细态类—单峰型孔喉较小,气水两相干扰严重,渗流能力较弱。综上所述,可知孔喉大小是决定渗流能力的关键。

基于深入类比的致密气区块快速评价技术

鄂尔多斯盆地东缘致密气区块纵向发育气层多、横向连续性差、产水积液、产能差异大,在静态资料较少情况下,快速有效的评价新区块产能规模难度大。以鄂尔多斯盆地东缘ZJS新区块为例,挑选地质条件类似且已开发生产的邻区,采用不稳定产能法得到单井典型层有效渗透率、经济可采储量等动态参数;结合ZJS区块气层厚度、孔隙度等静态参数以及类比得到的动态参数,建立ZJS典型层单井数值模拟,考虑实际生产水气比对产能的影响,预测ZJS区块单井产能剖面及经济累产;类比邻区各层系采收率,确定ZJS区块经济可采储量,结合数值模拟预测的ZJS区块单井经济累产,确定新区块开发投产井数;最后在单井产能剖面基础上,预测ZJS区块产能规模。结果表明,在动用储量相同情况下,有效渗透率,单井泄气半径、考虑水气比的单井经济累产等动态参数对新区块最终布置井数、产能规模影响大。新区产能规模评价时,充分利用地质条件相似区块分类分层深入类比,可实现新区块快速有效评价,为区块高效开发奠定基础。

低渗透油田水驱开发效果模糊综合评价

为了准确认识低渗透油田的开发规律、开发状况,运用模糊理论,针对采出程度比、综合递减率、含水上升率、采油速度、存水率、耗水率等6个指标进行综合评价。采用层次分析法确定各个指标的权重系数,应用模糊综合评判法对开发效果进行综合评价,从而克服了当前普遍采用的简单评价的局限性,既可方便地看出各指标因素的影响大小,指导进一步挖潜,又有利于横向对比,针对不同区块采取不同措施方案。以X油田试验区为例进行了分析,有效地指导后续开发工作,同样对其它同类型油藏提高采收率研究具有重要的指导意义。

拟南芥HSP1调节CERK1蛋白水平影响几丁质激发的防御反应

几丁质是真菌细胞壁的主要成分,同时也是微生物相关分子模式(MAMP),通过定位于细胞膜上的模式识别受体CERK1和LYK5识别,激发植物的先天防御反应。该研究克隆了CERK1的胞内激酶域,在酵母文库中筛选到1个分子伴侣HSP1与CERK1胞内域互作。通过CRISPR-Cas介导的基因编辑技术,我们在野生型拟南芥(Arabidopsis thaliana)Col-0中敲除HSP1基因,获得hsp1 v63删除突变体。使用几丁质处理Col-0和hsp1 v63删除突变体后发现,下游防御相关基因的表达及丝裂原活化蛋白激酶磷酸化通路受到抑制。此外,我们还发现CERK1蛋白水平在hsp1v63删除突变体中低于野生型,并且该突变体中CERK1含量降低与内质网降解系统有关。以上结果表明,HSP1是几丁质激发防御反应通路中的1个关键基因。该研究揭示了分子伴侣调控膜受体蛋白含量对植物防御反应的重要意义,为农作物广谱抗性遗传改良奠定了理论基础。

海上废弃气藏改建地下储气库可行性——以琼东南盆地H气田为例

目前离岸远、水深较深的海上废弃气藏改建地下储气库的研究尚处于起步阶段。为此,以琼东南盆地H气田岩性气藏为例,以气藏构造特征、密封性评价、储层特征及气藏特征等静态特征研究为基础,结合气藏开发过程中产能评价、动储量评价、连通性分析研究,开展储气库库容参数、注采能力、工作气量、井数及井网等储气库运行参数设计论证,最后以数值模拟为手段,依据设计注采方案,模拟储气库运行指标。分析及模拟结果表明:(1)该区块是一个圈闭封闭性好,储层内部连通,属于高渗—特高渗气藏,圈闭内充满气,无可动水的常压高温岩性气藏,区块储气规模大,产能高,不产地层水,低含凝析油;(2)储气库运行压力介于23~34.5 MPa之间,库容量75.1×10^(8)m^(3),工作气量26.1×^(8)m^(3),注采井数仅需10口,最低外输压力15.3 MPa,区块日均采气量2094×10^(4)m^(3),调峰日采气量达3200×10^(4)m^(3)。结合海上配套工艺技术,认为其设计井数少、工作气量大、外输压力大,与国内已运行的陆地储气库地质气藏条件相比,H气田非常适合建设地下储气库。

Structural Insight into the Substrate Gating Mechanism by Staphylococcus aureus Aldehyde Dehydrogenase

Staphylococcus aureus produces staphyloxanthin,a C30 carotenoid with golden color,as an antioxidant to promote bacterial resistance to reactive oxygen species.The biosynthesis pathway of staphyloxanthin involves a series of catalytic enzymes.Aldehyde dehydrogenase(AldH)is a dehydrogenase recently identified to convert 4,4’-diaponeurosporenaldehyde into 4,4’-diaponeurosporenoic acid during staphyloxanthin biosynthesis.Here,we present the crystallographic structures of apo-and holo-forms of S.aureus AldH.The dimeric enzyme contains a unique C-terminal helix,which resembles a“gatekeeper”helix found in human membrane-bound fatty aldehyde dehydrogenase(FALDH).Particularly,the helix adopts“open”and“closed”conformations in apo-and holo-AldH,respectively,to control the access of the substrate tunnel.Mutagenesis in combination with in vitro and in vivo activity assays identifies several residues essential for S.aureus AldH substrate recognition and enzyme catalytic turnover.Our results provide insights into substrate recognition of S.aureus AldH toward polyunsaturated long-chain aldehydes at atomic resolution.