High Thermoelectric Performance in p‐type Polycrystalline Cd‐doped SnSe Achieved by a Combination of Cation Vacancies and Localized Lattice Engineering

Herein, a high figure of merit (ZT) of ≈1.7 at 823 K is reported in p‐type polycrystalline Cd‐doped SnSe by combining cation vacancies and localized‐lattice engineering. It is observed that the introduction of Cd atoms in SnSe lattice induce Sn vacancies, which act as p‐type dopants. A combination of facile solvothermal synthesis and fast spark plasma sintering technique boosts the Sn vacancy to a high level of ≈2.9%, which results in an optimum hole concentration of ≈2.6 × 10¹⁹ cm^?3 and an improved power factor of ≈6.9 µW cm^?1 K^?2. Simultaneously, a low thermal conductivity of ≈0.33 W m^?1 K^?1 is achieved by effective phonon scattering at localized crystal imperfections, as observed by detailed structural characterizations. Density functional theory calculations reveal that the role of Cd atoms in the SnSe lattice is to reduce the formation energy of Sn vacancies, which in turn lower the Fermi level down into the valence bands, generating holes. This work explores the fundamental Cd‐doping mechanisms at the nanoscale in a SnSe matrix and demonstrates vacancy and localized‐lattice engineering as an effective approach to boosting thermoelectric performance. The work provides an avenue in achieving high‐performance thermoelectric properties of materials.     

Insights into the Effects of Electrolyte Composition on the Performance and Stability of FeF2 Conversion‐Type Cathodes

As an alternative to commercial Ni‐ and Co‐based intercalation‐type cathode materials, conversion‐type metal fluoride (MF_x) cathodes are attracting more interest due to their promises to increase cell‐level energy density when coupled with lithium (Li) or silicon (Si)‐based anodes. Among metal fluorides, iron fluorides (FeF₂ and FeF₃) are regarded as some of the most promising candidates due to their high capacity, moderately high potential and the very low cost of Fe. In this study, the impacts of electrolyte composition on the performance and stability of nanostructured FeF₂ cathodes are systematically investigated. Dramatic impacts of Li salt composition, Li salt concentration, solvent composition, and cycling potential range on the cathode's most critical performance parameters—stability, capacity, rate, and voltage hysteresis are discovered. In contrast to previous beliefs, it is observed that even if the Fe²⁺ cation dissolution could be avoided, the dissolution of F^? anions may still negatively affect cathode performance. Formation of the more favorable cathode solid electrolyte interface (CEI) is found to minimize both processes.     

叶面喷施PP_(333)和6-BA对甜荞花芽分化及内源激素的影响

以甜荞品种‘北早生’和‘赤甜荞1号’为材料,利用多效唑(PP_(333))和6-苄基腺嘌呤(6-BA)在不同幼苗时期进行叶片喷施处理,并采用扫描电镜观察花芽分化过程,记录开花时间,调查开花和结实数,通过液质联用方法检测3种内源激素生长素(IAA)、赤霉素(GA_3)、脱落酸(ABA)及人工合成细胞分裂素(6-BA)含量,探究两种植物生长调节剂对甜荞的花芽分化及内源激素含量的影响,为甜荞花期调控提供依据。结果显示:(1)第二片真叶期喷施100mg·L~(-1)PP_(333)和150mg·L~(-1)6-BA能显著提高甜荞结实率和单株产量,两种处理的结实率分别较对照提高49.5%、39.4%,单株产量分别提高41.8%、23.0%。(2)观察甜荞花芽分化过程并将其划分5个时期,分别为生长锥分化前期、生长锥分化期、小花原基分化期、雌雄蕊分化期和雌雄蕊形成期,在第二片真叶期喷施PP_(333)和6-BA均加快了甜荞花芽分化进程,使其开花时间提前。(3)喷施PP_(333)在幼苗期和现蕾期降低了内源IAA、6-BA含量,增加GA_3、ABA含量,而在盛花期增加内源IAA、6-BA含量,降低ABA、GA_3含量;喷施6-BA在幼苗期和现蕾期增加了内源GA_3、IAA含量,在盛花期降低了内源GA_3、IAA含量,3个时期均降低了内源ABA含量,增加了6-BA含量。研究发现,第二片真叶期是调控甜荞小花发育的关键时期,在此时叶面喷施100mg·L~(-1)PP_(333)和150mg·L~(-1)6-BA的调控效果最佳,可加快甜荞花芽分化进程,使开花时间提前,增加单株结实粒数,提高甜荞品种的结实率和单株产量;PP_(333)主要是通过减少甜荞开花数,增强弱势小花活力来提高结实粒数,而6-BA主要是利用增加开花数,提高有效可孕小花数来增加结实粒数。     

丝绸之路经济带核心区新疆城镇建设用地扩展的时空演变特征及影响机理

将丝绸之路经济带核心区新疆城镇建设用地扩展作为一个时空变化系统进行分析,提取1980—2015年7个年份用地演变信息,结合10 km×10 km方格网构建,从总量趋势、分地州市级区域、分用地类型及特殊性全面认知扩展的时空演变特征,采用地理探测器模型,在县域尺度定量诊断城镇建设用地扩展的人文要素和自然要素的影响程度及各要素间的交互影响作用,进而识别其主控要素并探讨其作用机理,对比分析天山北坡城市群和喀什都市圈两个重点发展区域的分异性。研究结果表明:近35年以来,丝绸之路经济带核心区新疆城镇建设用地扩展约2.9倍,扩展强度波动增长且以分散小斑块为主,各地州市扩展规模和强度的时空差异性显著,次一级城镇建设用地类型扩展呈现动态变化特征,用地扩展受自然本底胁迫条件和经济社会发展过程多重影响有其特殊性;全域城镇建设用地在县域尺度以低水平扩展与各级人文要素和自然要素水平的耦合匹配关系为主;综合地理探测器因子分析模块和交互作用模块的探测结果,判定地形位指数、城镇化率、地形起伏度、二三产业比重为影响丝绸之路经济带核心区新疆县域城镇建设用地扩展的主控要素,并探寻各主控要素的作用机理;在重点发展区域天山北坡城市群和喀什都市圈的驱动要素有共性也有明显分异性。该研究为丝绸之路经济带核心区新疆城镇建设用地因地因城因类的差别化调控及区域可持续发展提供科学支撑和决策依据。     

Neuropilin-1 modulates p53/caspases axis to promote endothelial cell survival

Vascular permeability factor/vascular endothelial growth factor (VPF/VEGF), one of the crucial pro-angiogenic factors, functions as a potent inhibitor of endothelial cell (EC) apoptosis. Previous progress has been made towards delineating the VPF/VEGF survival signaling downstream of the activation of VEGFR-2. Here, we seek to define the function of NRP-1 in VPF/VEGF-induced survival signaling in EC and to elucidate the concomitant molecular signaling events that are pivotal for our understanding of the signaling of VPF/VEGF. Utilizing two different in vitro cell culture systems and an in vivo zebrafish model, we demonstrate that NRP-1 mediates VPF/VEGF-induced EC survival independent of VEGFR-2. Furthermore, we show here a novel mechanism for NRP-1-specific control of the anti-apoptotic pathway in EC through involvement of the NRP-1-interacting protein (NIP/GIPC) in the activation of PI-3K/Akt and subsequent inactivation of p53 pathways and FoxOs, as well as activation of p21. This study, by elucidating the mechanisms that govern VPF/VEGF-induced EC survival signaling via NRP-1, contributes to a better understanding of molecular mechanisms of cardiovascular development and disease and widens the possibilities for better therapeutic targets.     

ARF-GTPase as a Molecular Switch for Polar Auxin Transport Mediated by Vesicle Trafficking in Root Development

Polar auxin transport (PAT), which is controlled precisely by both auxin efflux and influx facilitators and mediated by the cell trafficking system, modulates organogenesis, development and root gravitropism. ADP-ribosylation factor (ARF)-GTPase protein is catalyzed to switch to the GTP-bound type by a guanine nucleotide exchange factor (GEF) and promoted for hybridization to the GDP-bound type by a GTPase-activating protein (GAP). Previous studies showed that auxin efflux facilitators such as PIN1 are regulated by GNOM, an ARF-GEF, in Arabidopsis. In the November issue of The Plant Journal, we reported that the auxin influx facilitator AUX1 was regulated by ARF-GAP via the vesicle trafficking system.¹ In this addendum, we report that overexpression of OsAGAP leads to enhanced root gravitropism and propose a new model of PAT regulation: a loop mechanism between ARF-GAP and GEF mediated by vesicle trafficking to regulate PAT at influx and efflux facilitators, thus controlling root development in plants.Key Words: ADP-ribosylation factor (ARF), ARF-GAP, ARF-GEF, auxin, GNOM, polar transport of auxinPolar auxin transport (PAT) is a unique process in plants. It results in alteration of auxin level, which controls organogenesis and development and a series of physiological processes, such as vascular differentiation, apical dominance, and tropic growth.² Genetic and physiological studies identified that PAT depends on efflux facilitators such as PIN family proteins and influx facilitators such as AUX1 in Arabidopsis.Eight PIN family proteins, AtPIN1 to AtPIN8, exist in Arabidopsis. AtPIN1 is located at the basal side of the plasma membrane in vascular tissues but is weak in cortical tissues, which supports the hypothesis of chemical pervasion.³ AtPIN2 is localized at the apical side of epidermal cells and basally in cortical cells.^1,4 GNOM, an ARF GEF, modulates the localization of PIN1 and vesicle trafficking and affects root development.^5,6 The PIN auxin-efflux facilitator network controls root growth and patterning in Arabidopsis.⁴ As well, asymmetric localization of AUX1 occurs in the root cells of Arabidopsis plants,⁷ and overexpression of OsAGAP interferes with localization of AUX1.¹ Our data support that ARF-GAP mediates auxin influx and auxin-dependent root growth and patterning, which involves vesicle trafficking.¹ Here we show that OsAGAP overexpression leads to enhanced gravitropic response in transgenic rice plants. We propose a model whereby ARF GTPase is a molecular switch to control PAT and root growth and development.Overexpression of OsAGAP led to reduced growth in primary or adventitious roots of rice as compared with wild-type rice.¹ Gravitropism assay revealed transgenic rice overxpressing OsAGAP with a faster response to gravity than the wild type during 24-h treatment. However, 1-naphthyl acetic acid (NAA) treatment promoted the gravitropic response of the wild type, with no difference in response between the OsAGAP transgenic plants and the wild type plants (Fig. 1). The phenotype of enhanced gravitropic response in the transgenic plants was similar to that in the mutants atmdr1-100 and atmdr1-100/atpgp1-100 related to Arabidopsis ABC (ATP-binding cassette) transporter and defective in PAT.⁸ The physiological data, as well as data on localization of auxin transport facilitators, support ARF-GAP modulating PAT via regulating the location of the auxin influx facilitator AUX1.¹ So the alteration in gravitropic response in the OsAGAP transgenic plants was explained by a defect in PAT.Open in a separate windowFigure 1Gravitropism of OsAGAP overexpressing transgenic rice roots and response to 1-naphthyl acetic acid (NAA). (A) Gravitropism phenotype of wild type (WT) and OsAGAP overexpressing roots at 6 hr gravi-stimulation (top panel) and 0 hr as a treatment control (bottom panel). (B) Time course of gravitropic response in transgenic roots. (C and D) results correspond to those in (A and B), except for treatment with NAA (5 × 10⁻⁷ M).The polarity of auxin transport is controlled by the asymmetric distribution of auxin transport proteins, efflux facilitators and influx carriers. ARF GTPase is a key member in vesicle trafficking system and modulates cell polarity and PAT in plants. Thus, ARF-GDP or GTP bound with GEF or GAP determines the ARF function on auxin efflux facilitators (such as PIN1) or influx ones (such as AUX1).ARF1, targeting ROP2 and PIN2, affects epidermal cell polarity.⁹ GNOM is involved in the regulation of PIN1 asymmetric localization in cells and its related function in organogenesis and development.⁶ Although VAN3, an ARF-GAP in Arabidopsis, is located in a subpopulation of the trans-Golgi transport network (TGN), which is involved in leaf vascular network formation, it does not affect PAT.¹⁰ OsAGAP possesses an ARF GTPase-activating function in rice.¹¹ Specifically, our evidence supports that ARF-GAP bound with ARF-GTP modulates PAT and gravitropism via AUX1, mediated by vesicle trafficking, including the Golgi stack.¹Therefore, we propose a loop mechanism between ARF-GAP and GEF mediated by the vascular trafficking system in regulating PAT at influx and efflux facilitators, which controls root development and gravitropism in plants (Fig. 2). Here we emphasize that ARF-GEF catalyzes a conversion of ARF-bound GDP to GTP, which is necessary for the efficient delivery of the vesicle to the target membrane.¹² An opposite process of ARF-bound GDP to GTP is promoted by ARF-GTPase-activating protein via binding. A loop status of ARF-GTP and ARF-GDP bound with their appurtenances controls different auxin facilitators and regulates root development and gravitropism.Open in a separate windowFigure 2Model for ARF GTPase as a molecular switch for the polar auxin transport mediated by the vesicle traffic system.     

三种蚜虫的线粒体基因组数据

完整的线粒体基因组已被广泛应用于分子进化、基因组学、系统发育等方面的研究。蚜虫是一类重要的农林业害虫, 但目前公开报道的蚜虫完整线粒体基因组非常有限, 因此获得更多的基因组数据对相关研究具有重要价值。本文报道了榕毛管蚜(Greenidea ficicola)、橘二叉蚜(Aphis aurantia)和油杉纩蚜(Mindarus keteleerifoliae) 3种蚜虫的完整线粒体基因组的序列、详细注释信息、基因结构图、密码子使用情况等。该数据集可为昆虫系统发育关系、种群分化格局、害虫防治等方面的工作提供帮助。     

桑树内生拮抗菌的分离鉴定及其对桑断枝烂叶病的生防初探

【目的】本研究从健康桑树茎中分离筛选对桑断枝烂叶病菌具显著拮抗作用的内生细菌,为该病生物防治奠定研究基础。【方法】采用组织培养法分离桑树内生菌,抑菌圈法和平板对峙法筛选抑菌活性稳定的内生拮抗菌;根据形态学、生理生化特征检测和基于16SrDNA、gyrA和gyrB基因的系统发育分析对拮抗菌进行菌种鉴定;利用抑菌圈法测定拮抗菌株活性发酵液热稳定性,菌丝生长速率法检测活性发酵液抑菌谱;并通过观察拮抗菌对桑断枝烂叶病菌BoeremiaexiguaGXH1菌株生长及菌丝形态的影响,扩增抑菌活性物质合成关键基因,以及采用酸沉淀法提取拮抗菌株脂肽类化合物并进行高效液相色谱串联质谱分析(LC-MS),初步探究可能的抑菌机制。【结果】从健康桑树茎中共分离获得17株桑树内生细菌,并从中筛选获得一株对桑断枝烂叶病菌B.exiguaGXH1有稳定拮抗作用的桑树内生细菌NPJ13菌株。该菌株形态学、生理生化特征与芽孢杆菌属一致,基于16SrDNA、gyrA和gyrB基因序列的系统发育分析结果显示该菌株与贝莱斯芽孢杆菌(Bacillusvelezensis)的亲缘关系最近,且处于系统发育树的最小分枝,故将NPJ13菌株鉴定为贝莱斯芽孢杆菌,命名为B. velezensis NPJ13。NPJ13菌株对灰霉病菌SWU5、核地杖菌SXSG-5、核盘菌PZ-2及烟草疫霉SWU20等12种病原真菌具有不同程度的拮抗作用,其活性发酵液具有较好的热稳定性。NPJ13菌株会导致桑断枝烂叶病菌GXH1菌丝发生扭曲、膨大、透明度增加、断裂等畸变现象;基因检测结果显示NPJ13菌株基因组中具有PKSI、NRPS、Sfp、ItuD、Srfc等5种抑菌活性物质合成关键基因,LC-MS检测结果表明菌株NPJ13脂肽类粗提物中含有表面活性素和伊枯草菌素。【结论】本研究分离筛选获得一株对桑断枝烂叶病菌具有显著拮抗作用的桑树内生细菌B. velezensis NPJ13菌株,为桑断枝烂叶病的生物防治提供了候选菌株。