“Yolk-shell”结构中高效双酶级联催化体系的构筑

合成了一种生物-无机杂化材料ZIF-8@GOx-CPO@ZIF-8,该材料以具有“蛋黄-壳(Yolk-shell)”结构的金属有机框架(MOF)为载体,将葡萄糖氧化酶(GOx)和氯过氧化物酶(CPO)封装在不同隔离空间中构建了双酶纳米反应器.“Yolk-shell”结构可为封装的酶提供纳米邻近效应,GOx催化底物原位生成的H_(2)O_(2)可启动相邻的CPO催化反应,有效减少了反应物的扩散阻力和H_(2)O_(2)的分解和逃逸,同时避免了两种酶催化反应的相互影响.与均相缓冲液中的游离酶相比,ZIF-8@GOx-CPO@ZIF-8的级联催化效率更高.由于MOF的屏蔽效应,酶的热稳定性和有机溶剂耐受性显著提高.“Yolk-shell”结构还可有效抑制材料重复使用过程中酶分子的泄漏,经过20次重复使用后,ZIF-8@GOx-CPO@ZIF-8仍可保持初始级联催化效率的72%.将ZIF-8@GOx-CPO@ZIF-8双酶级联反应生成的HClO应用于偶氮染料的高效脱色和水果保鲜.在1 mg/mL ZIF-8@GOx-CPO@ZIF-8水溶液中,橙黄G(0.3 mmol/L)在15 min内可完成脱色(脱色率>98%).在新鲜草莓的杀菌保鲜实验中,ZIF-8@GOx-CPO@ZIF-8也显示出良好效果.ZIF-8@GOx-CPO@ZIF-8双酶级联催化体系具有高效、稳定、温和及绿色的特点,极具应用潜力.

Yolk free egg substitute improves the serum phospholipid profile of mice with metabolic syndrome based on lipidomic analysis

In this study,the impacts of egg consumption on mice model of metabolic syndrome(Met S)were comparatively investigated.Mice were divided into five groups(n=8):normal diet group(ND),high-fat diet group(HFD),HFD with whole egg group(WE),HFD with free-yolk egg substitute group(YFES),and HFD with lovastatin group(Lov).Main biochemical indexes and a non-targeted lipidomic analysis were employed to insight the lipid profile changes in serum.It was revealed that WE could significantly improve serum biochemical indexes by reducing body weight,low-density lipoprotein cholesterol(LDL-C)and total cholesterol(TC),while increasing high-density lipoprotein cholesterol.YFES exhibited remarkably better performance in increasing phosphatidylglycerol and phosphatidic acids,while decreasing phosphatidylinositol than WE.A total of 50 differential lipids biomarkers tightly related to glycerophospholipids metabolism were screened out.Carnitine C18:2 and C12:1,SM(d18:0/12:0),and SM(d18:1/14:1)were significantly upregulated in YFES compared to WE.YFES reduced expression of SREBP-1c and Cpt1a,while did not affect the expression of PPAR-α.Sphingomyelin biomarkers were positively related to the TC(|r|>0.6),while PPAR-αwas negatively correlated with triglyceride and LDL-C levels.To sum up,YFES attenuated HFD-induced Met S by improving the serum phospholipids,which account for its modulation of glycerophospholipid metabolism.

介孔yolk-shell型Co_3O_4@mSiO_2纳米反应器降解水中的苯酚

本文分别采用双溶液注射法和选择性刻蚀法合成了单核和多核两种介孔yolk-shell型Co_3O_4@mSiO_2(介孔Si O2)纳米反应器.并对比了两种纳米反应器和纳米Co_3O_4颗粒催化过一硫酸氢钾(KHSO_5)去除水中苯酚的效果.结果显示,两种纳米反应器催化KHSO_5降解苯酚的效率在相同反应条件下分别比纳米Co_3O_4颗粒提高18.8%和26.7%,说明多核型纳米反应器催化性能更好.进一步研究pH值、KHSO_5与苯酚物质的量之比n_(KHSO_5)∶n_(C_6H_6O)和材料投加量m_(cata)对苯酚降解的影响,发现多核型纳米反应器的最佳反应条件为pH=7,n_(KHSO_5)∶n_(C_6H_6O)=10∶1,m_(cata)=0.8 g·L^(-1).最后,结合催化活性和吸附实验,以及XRD、XPS、STEM、BET等手段,分析了纳米反应器的形貌、结构、元素形态和比表面积,并推断反应机理.结果显示,纳米反应器的主体结构为均匀分散的SiO_2中空微球,粒径约为300 nm,表面布满介孔,并拥有极大的比表面积,能有效吸附水中的苯酚并将其富集于纳米反应器中,同时mSiO_2微球中形成的Co_3O_4内核催化KHSO_5产生硫酸根自由基(SO_4^(·-))降解水中的苯酚,纳米反应器的吸附、富集和限域作用强化了苯酚的降解.

Primary Study of Egg Yolk Antibody for Detection of King Cobra Venom Antigens

Aim To study whether antivenom from laying hens can be used for the detection of venom antigens, Methods Chickens （white Leghorn） were immunized with detoxicated king cobra venom by formaldehyde and egg yolk immunoglobulin （IgY） isolated from yolk; IgY was labelled with the horseradish peroxidase （HRP）. Experimental condition and parameters were determined by chessboard test. The specificity, sensitivity, precision, and stability of this method were assayed in the experiment. Results This method could detect as low as 32 μg· L^-1 of the king cobra antigens. A good linear relation was found within 32 ～ 750 μg· L^-1 of king cobra venom concentrations （ r = 0. 963）. There was no cross reactivity for the reagents with Agkistrodon acutus Guenther venom or Vipera russelli siamensis Smith venom;slight cross reactivity .with Bungarus multicinctus Blyth venom or Bungarus fasciatus Chmeider venom; and notable cross reactivity with cobra venom. The average intra-assay relative standard deviation （RSD） was 1% - 3%, and the inter-assay RSD was less than 8%. The reagents （including IgY and HRP-IgY） were stable; no differences （P 〉 0.05） were observed for the detection of venom antigens when the reagents were stored at 37 ℃ up to 6 d. Conclusion IgY is a good reagent for diagnosis of snakebite after eliminating the genus cross reactivity.

多核yolk-shell型Co_3O_4@mSiO_2纳米反应器降解双酚A

采用阳离子表面活性剂协助的自模板法合成了中空介孔Si O_2微球(HMSS),然后向含HMSS的悬浮液中加入醋酸钴溶液和氨水,让两种溶液经HMSS表面介孔进入空腔中反应生成Co_3O_4内核,合成了多核yolk-shell型Co_3O_4@m Si O_2(介孔Si O_2)纳米反应器.结合XRD、XPS、SEM、STEM、BET等手段,分析了纳米反应器的形貌、结构、元素形态和比表面积.结果显示纳米反应器均匀分散,粒径约为300nm,表面布满介孔,内部分布大量Co_3O_4纳米粒子,拥有极大的比表面积161m^2/g,远大于Co_3O_4纳米粒子的比表面积35m^2/g,能有效吸附双酚A(BPA),1h吸附容量达12.7mg/g.多核yolk-shell型Co_3O_4@m Si O_2纳米反应器能高效催化过一硫酸氢盐(PMS)降解BPA,2h降解率达81.8%,远高于Co_3O_4纳米粒子的降解率51.3%,同时能节省PMS的投加量,避免水中盐度过高.此外,合成的纳米反应器具有很好的再利用性,在p H值3~9范围内表现出稳定而高效的催化性能.

斑翅果蝇YolkProtein1基因原核表达及抗体制备

斑翅果蝇(Drosophilasuzukii)是一种农业害虫,在世界范围内分布广泛,可对多种水果产生不可逆损害,造成巨大经济损失。本试验对斑翅果蝇YolkProtein1(Ds-YP1)基因进行原核表达,并对Ds-YP1蛋白的功能结构域和信号肽进行预测,克隆多肽并构建pET-32a-c(+)-Ds-YP1原核表达载体,IPTG诱导表达并免疫小鼠制备抗体;用成功制备的抗体进行斑翅果蝇蛋白WesternBlot验证。结果表明构建的pET-32a-c(+)-Ds-YP1表达载体在大肠杆菌中表达了His-Ds-YP1融合蛋白,通过免疫小鼠成功制备并纯化了Ds-YP1多克隆抗体。制备的Ds-YP1多克隆抗体不但能识别His-Ds-YP1融合蛋白,而且能识别斑翅果蝇Ds-YP1蛋白,具有较好的特异性。本研究成功制备了斑翅果蝇Ds-YP1的多克隆抗体,对进一步研究YolkProtein蛋白作用机制具有重要意义。

Chicken egg yolk antibodies (IgY) as non-antibiotic production enhancers for use in swine production： a review

In recent years, the use of in-feed antibiotics for growth and disease prevention in livestock production has been under severe scrutiny. The use and misuse of in-feed antibiotics has led to problems with drug residues in animal products and increased bacterial resistance. Chicken egg yolk antibodies （IgY） have attracted considerable attention as an alternative to antibiotics to maintain swine health and performance. Oral administration of IgY possesses many advantages over mammalian IgG such as cost-effectiveness, convenience and high yield. This review presents an overview of the potential to use IgY immunotherapy for the prevention and treatment of swine diarrhea diseases and speculates on the future of IgY technology. Included are a review of the potential applications of IgY in the control of enteric infections of either bacterial or viral origin such as enterotoxigenic Escherichia coil, Salmonella spp., rotavirus, porcine transmissible gastroenteritis virus, and porcine epidemic diarrhea virus. Some potential obstacles to the adoption of IgY technology are also discussed.

Design and Synthesis of Cu@CuS Yolk–Shell Structures with Enhanced Photocatalytic Activity

Non-spherical Cu@Cu S yolk–shell structures are successfully obtained using Cu_2 O cube templates in a process combining rapid surface sulfidation followed by disproportionation of the Cu_2 O core upon treatment with a hydrochloric acid solution. By employing the above method,Cu@Cu S yolk–shell structures with different morphologies,including octahedral, truncated octahedral, and cuboctahedral shapes, can be synthesized. The void space within the hollow structures provides a unique confined space, where the metallic copper present in the core of a shell can be protected from agglomeration and oxidation. Furthermore,the presence of metal copper in these hollow structurescontributes to improvement in the photocatalytic properties of these materials. The application of these Cu@Cu S structures indeed shows clearly improved photocatalytic performance.

2D hierarchical yolk-shell heterostructures as advanced host-interlayer integrated electrode for enhanced Li-S batteries

Lithium sulfur(Li-S)batteries hold great promising for high-energy-density batteries,but appear rapid capacity fading due to the lack of overall and elaborated design of both sulfur host and interlayer.Herein,we developed a novel two-dimensional(2D)hierarchical yolk-shell heterostructure,constructed by a graphene yolk,2D void and outer shell of vertically aligned carbon-mediated MoS2 nanosheets(G@void@MoS2/C),as advanced host-interlayer integrated electrode for Li-S batteries.Notably,the 2D void,with a typical thickness of^80 nm,provided suitable space for loading and confining nano sulfur,and vertically aligned ultrathin MoS2 nanosheets guaranteed enriched catalytically active sites to effectively promote the transition of soluble polysulfides.The conductive graphene yolk and carbon mediated shell sufficiently accelerated electron transport.Therefore,the integrated electrode of G@void@MoS2/C not only exceptionally confined the sulfur/polysulfides in 2D yolk-shell heterostructures,but also achieved catalytic transition of the residual polysulfides dissolved in electrolyte to solid Li2S2/Li2S,both of which synergistically achieved an extremely low capacity fading rate of 0.05%per cycle over 1000 times at 2C,outperforming most reported Mo based cathodes and interlayers for Li-S batteries.2D hierarchical yolkshell heterostructures developed here may shed new insight on elaborated design of integrated electrodes for Li-S batteries.

The role of low-density lipoprotein （LDL） and high-density lipoprotein （HDL） in comparison with whole egg yolk for sperm cryopreservation in rhesus monkeys

Low-density lipoprotein （LDL） extracted from hen egg yolk has recently been considered to be superior to whole egg yolk in sperm cryopreservation of various animal species. Meanwhile, there was a notion that high-density lipoprotein （HDL） in egg yolk may have a negative effect on post-thaw survival. The role of LDL and HDL in sperm cryopreservation of rhesus monkeys has not been explored. The present study evaluates their effect in comparison with egg yolk with or without the addition of permeable cryoprotectant （glycerol） on sperm cryopreservation of rhesus macaques. In addition, various additives intended to change the lipid composition of LDL-sperm membrane complex have also been tested for their effectiveness in preserving post-thaw viability. Our findings indicated that LDL is the main component in egg yolk that is responsible for its protective role for sperm cryopreservation in rhesus monkeys. Regardless of the presence or absence of glycerol, the protective role of LDL is similar to that of egg yolk and we did not observe any superiority in post-thaw survival with LDL when compared to egg yolk. Modifying the lipid composition of LDL-sperm membrane complex with the addition of cholesterol, cholesterol loaded cyclodextrin and phosphatidylcholine also did not yield any improvements in pest-thaw survival; while addition of methyl-β-cyclodextrin reduced post-thaw motility. HDL plays a neutral role in sperm cryopreservation of rhesus monkeys. The present study suggests that egg yolk may still hold advantages when compared with LDL as effective components in extenders for sperm cryopreservation in rhesus monkeys.

Facile Approach to Synthesize Gold Nanorod@Polyacrylic Acid/Calcium Phosphate Yolk–Shell Nanoparticles for Dual-Mode Imaging and pH/NIR-Responsive Drug Delivery

A facile strategy to fabricate gold nanorod@polyacrylic acid/calcium phosphate(Au NR@-PAA/Ca P) yolk–shell nanoparticles(NPs) composed with a PAA/Ca P shell and an Au NR yolk is reported. The asobtained Au NR@PAA/Ca P yolk–shell NPs possess ultrahigh doxorubicin(DOX) loading capability(1 mg DOX/mg NPs), superior photothermal conversion property(26%)and p H/near-infrared(NIR) dual-responsive drug delivery performance. The released DOX continuously increased due to the damage of the Ca P shell at low p H values. When the DOX-loaded Au NR@PAA/Ca P yolk–shell NPs wereexposed to NIR irradiation, a burst-like drug release occurs owing to the heat produced by the Au NRs. Furthermore,Au NR@PAA/Ca P yolk–shell NPs are successfully employed for synergic dual-mode X-ray computed tomography/photoacoustic imaging and chemo-photothermal cancer therapy. Therefore, this work brings new insights for the synthesis of multifunctional nanomaterials and extends theranostic applications.

A Review: Enhanced Anodes of Li/Na-Ion Batteries Based on Yolk–Shell Structured Nanomaterials

Lithium-ion batteries(LIBs) and sodium-ion batteries(SIBs) have received much attention in energy storage system. In particular, among the great efforts on enhancing the performance of LIBs and SIBs, yolk–shell(YS) structured materials have emerged as a promising strategy toward improving lithium and sodium storage. YS structures possess unique interior void space, large surface area and short diffusion distance, which can solve the problems of volume expansion and aggregation of anode materials, thus enhancing the performance of LIBs and SIBs. In this review, we present a brief overview of recent advances in the novel YS structures of spheres, polyhedrons and rods with controllable morphology and compositions. Enhanced electrochemical performance of LIBs and SIBs based on these novel YS structured anode materials was discussed in detail.

Clinicopathologic Characteristics and Survival of Patients with Rare Malignant Ovarian Yolk Sac Tumors:A Population-based Analysis

Yolk sac tumors (YSTs) are rare malignant germ cell tumors that usually affect youngfemales. To date, there have been few studies on YSTs. We evaluated the relationship betweenclinicopathologic characteristics of patients with ovarian YSTs and disease outcome based onSurveillance, Epidemiology, and End Results data. The K aplan-Meier method and log-rank testwere used to evaluate differences in survival rates. Data for 269 patients were analyzed. Theincidence of YSTs among ovarian germ cell tumors (OGCTs) cases was 0.4%;median patient agewas 22.0 years, and most tumors were unilateral. Patients presented with distant metastasis (37.5%),localized disease (49. 1%), and regional spread (8.9%). American Joint Committee on Cancer stagewas available for 13 patients (stage IA, n=2;stage IC, n=1;stage IA, n=1;stage IB, n=3;stageIlC, n=2;and stage IV, n=4). Survival rates at 1, 3, and 5 years were 91.0%, 84.0%, and 83.2%,respectively, for overall survival (OS) and 92.0%, 85.4%, and 84.5%, respectively, for disease-specific survival (DSS). The 5-year OS and DSS of patients with ovary tumors were 91.5% and92.9%, respectively, compared to 74.8% and 77.2%, respectively, for those with extra-ovarianspread (P<0.001 for both OS and DSS). Age >50 years was associated with shorter OS and DSS(both P<0.001), whereas no associatios of OS and DSS were observed with pathologic grade (P=0.49for OS and 0.52 for DSS). In summary, YSTs are typically unilateral, of a high grade, and localizedto the ovary;extra-ovarian spread has a poor outcome, and postmenopausal women have worseprognosis than premenopausal women.

Protection of Carassius auratus Gibelio against infection by Aeromonas hydrophila using specific immunoglobulins from hen egg yolk

Specific immunoglobulin (IgY) from egg yolk against Aeromonas hydrophila was produced by immunization of White Leghorn hens with formalin-killed whole cells of A. hydrophila. ELISA test using A. hydrophila as the coating antigen revealed that the specific antibody titer started to increase in the egg yolk at the 13th day post-immunization (P/N=2.18), reached the peak at the 56th day (P/N=13.82), and remained at high level until day 133 (P/N=7.03). The antibody was purified by saturated ammonium sulphate with a recovery rate of 63.5%. The specific IgY inhibited the growth of A. hydrophila at a concentration of 1.0 mg/ml during the 18 h incubation. Pre-treatment of polyploid gibel carps Carassius auratus Gibelio with specific IgY had a protection rate of 60% (6/10) against challenge with A. hydrophila, while none of the fishes in the control groups receiving sterile phosphate buffered saline (PBS) or non-specific IgY survived the challenge. Treatment of fishes with the specific IgY 4 h after the challenge also had lower mortality (70%, 7/10), a 30% reduction against the control PBS or non-specific IgY groups (10/10). These results indicate that specific IgY antibodies could be obtained easily from hens immunized with an inactivated A. hydrophila and could provide a novel alternative approach to control of diseases in fishes caused by this organism.

Au@SiO_2纳米Yolk/shell结构的可控合成及表征

在合成贵金属Au纳米颗粒的基础上,利用种子生长法制备Au@ZnO纳米核壳结构,以正硅酸四乙酯(TEOS)为前驱体,并利用酸刻蚀ZnO包裹层得到Au@SiO2纳米Yolk/shell结构,采用透射电子显微镜、紫外–可见分光光度仪等对样品的形貌、结构及稳定性进行了系统的表征。

The Effect of Different Levels of Sesame Oil on Productive Performance, Egg Yolk and Blood Serum Lipid Profile in Laying Hens

Addition of sesame oil into layer diets has been proved to enrich the proportion of polyunsatu-rated fatty acids in animal’s products. In this study, the effects of different levels of sesame oil in the diets on the performance, egg yolk and blood serum lipid profile of Isa Brown laying hens were investigated. A total of 96 layers were assigned into 4 groups to receive either 1 of 4 different diets contained 0.0%, 1.5%, 3.0% and 4.5% sesame oil, respectively. Sample of 12 eggs obtained from each groups were assessed for egg quality. The egg yolk fatty acid profile was determined with gas chromatography. Results revealed that the higher levels of sesame oil in the diet decreased egg production, egg weight, and egg yolk color except feed conversion ratio. In addition, supplementation of sesame oil increased the flow index of the eggs and the Haugh unite. The egg yolk lipid profile was not significantly different in the sesame oil fed groups, whereas, compare to control, it decreased the level of cholesterol. The blood serum lipid profile decreased in the sesame oil groups compare to control group. Meanwhile, monoacildigliserol also decreased in the sesame addition groups. In parallel with increasing levels of sesame oil, monounsaturated fatty acid (oleic acid) in the egg yolks significantly increased compared to the control (37.00%, 42.89%, 42.20% and 43.48%, respectively). It can be implied that sesame oil supplementation into the laying hens diet is necessary to produce monounsaturated fatty acid (MUFA) enriched eggs.

High performance columnar-like Fe2O3@carbon composite anode via yolk@shell structural design

Conversion-type reaction anode materials with high specific capacity are attractive candidates to improve lithium ion batteries(LIBs), yet the rapid capacity fading and poor rate capability caused by drastic volume change and low electronic conductivity greatly hinder their practical applications. To circumvent these issues, the successful design of yolk@shell Fe2 O3@C hybrid composed of a columnar-like Fe2O3 core within a hollow cavity completely surrounded by a thin, self-supported carbon(C) shell is presented as an anode for high-performance LIBs. This yolk@shell structure allows each Fe2O3 core to swell upon lithiation without deforming the carbon shell. This preserves the structural and electrical integrity against pulverization, as revealed by in situ transmission electron microscopy(TEM) measurement. Benefiting from these structural advantages, the resulting electrode exhibits a high reversible capacity(1013 m Ah g-1 after80 cycles at 0.2 A g-1), outstanding rate capability(710 m Ah g-1 at 8 A g-1) and superior cycling stability(800 m Ah g-1 after 300 cycles at 4 A g-1). A Li-ion full cell using prelithiated yolk@shell Fe2 O3@C hybrid as the anode and commercial Li CoO2(LCO) as the cathode demonstrates impressive cycling stability with a capacity retention of 84.5% after 100 cycles at 1 C rate, holding great promise for future practical applications.

Rational architecture design of yolk/double-shells Si-based anode material with double buffering carbon layers for high performance lithium-ion battery

Among the many strategies to fabricate the silicon/carbon composite,yolk/double-shells structure can be regarded as an effective strategy to overcome the intrinsic defects of Si-based anode materials for Li-ion batteries(LIBs).Hereon,a facile and inexpensive technology to prepare silicon/carbon composite with yolk/double-shells structure is proposed,in which the double buffering carbon shells are fabricated.The silicon/carbon nanoparticles with core-shell structure are encapsulated by SiO_(2)and external carbon layer,and it shows the yolk/double-shells structure via etching the SiO_(2)sacrificial layer.The multiply shells structure not only significantly improves the electrical conductivity of composite,but also effectively prevents the exposure of Si particles from the electrolyte composition.Meanwhile,the yolk/double-shells structure can provide enough space to accommodate the volume change of the electrode during charge/discharge process and avoid the pulverization of Si particles.Moreover,the as-prepared YDS-Si/C shows excellent performance as anode of LIBs,the reversible capacity is as high as 1066 mA h g^(-1) at the current density of 0.5 A g^(-1) after 200 cycles.At the same time,the YDS-Si/C has high capacity retention and good cyclic stability.Therefore,the unique architecture design of yolk/double-shells for Si/C composite provides an instructive exploration for the development of next generation anode materials of LIBs with high electrochemical performances and structural stability.

Effects on the Early Development of the Pearl Sac by Cytochrome c,Yolk Lecithin and Polyvinyplyrro

Mantle pieces of Hyriopisis cumingii was treated by three kinds of solution,These mantle pieces were inserted together with paraffin nucleuses into the connective tissue of three groups of Hyriopisis cumingii.These operated animals were cultured in a pool for a month.Several pearl sacs were put out and immersed by Bouin's solution after every five days.Sections of each animals were made by histological method.Those without treatment were in a control group.Observations of these sections showed that cytochrome c and yolk lecithin have an accelerated roles on pearl sac development and pearl layer secretion.No effects on pearl sac development by polyvinyplyrrolidone(PVP).