24种鳞毛蕨科植物叶表皮形态特征的研究

该研究利用光学显微镜对鳞毛蕨科24种植物的叶表皮形态特征进行观察。结果表明:(1)24种鳞毛蕨科植物的上表皮细胞形状为长条形或不规则形,垂周壁为深波状或浅波状,下表皮细胞均为无规则形,垂周壁均为深波状;上表皮细胞长宽比在1.5~5.7之间,下表皮细胞长宽比在2.2~3.9之间。(2)在24种鳞毛蕨科植物中共观察到8种气孔器类型,分别为不等细胞型、无规则四细胞型、极细胞型、腋下细胞型、横列型、无规则型、聚腋下细胞型和聚合极细胞型,每种植物具有2~8种气孔器类型,气孔均为下生型,多为椭圆形;气孔的长宽比在1.2~1.8之间,气孔密度在17.4~86.0个/mm~2之间,气孔指数为8.60%~37.4%。(3)通过对24种鳞毛蕨科植物的观察可将其上表皮细胞形状、垂周壁形状、上表皮细胞长宽比、主要气孔器类型及衍生类型等作为叶表皮形态特征的分类依据。(4)根据叶表皮形态特征可将24种鳞毛蕨科植物分为2类:即耳蕨类和鳞毛蕨类。该研究在一定程度上支持秦仁昌分类系统对鳞毛蕨科的划分,为鳞毛蕨科植物的系统分类及演化研究提供基础资料。     

Analysis of Evolutionarily Independent Protein-RNA Complexes Yields a Criterion to Evaluate the Relevance of Prebiotic Scenarios

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AMPK promotes survival and adipogenesis of ischemia-challenged ADSCs in an autophagy-dependent manner

Some studies have shown that transplanted fat tissues usually cannot survive for long if adipose-derived stem cells (ADSCs) are removed from the tissues in advance. It is more meaningful to explore the mechanism mediating survival and differentiation of ADSCs in the transplanted microenvironment. AMP-activated protein kinase (AMPK) has been shown to be one of the energy receptors that regulate many aspects of cellular metabolism. AMPK activation has been implicated in models of adult ischemic injury, but the mechanism and the regulating effects of AMPK on survival and adipogenesis of transplanted ADSCs are still little known. In this study, we simulated the transplanted microenvironment using oxygen-glucose deprivation (OGD) to test the survival and adipogenesis of ADSCs. We found that OGD treatment triggered significant apoptosis and promoted autophagy. Simultaneously, OGD hindered the differentiation of ADSCs into mature adipocytes. After inhibiting AMPK, the OGD-induced apoptosis rate increased but autophagy was inhibited. The adipogenesis level also decreased. To show that the effects of AMPK on apoptosis and adipogenesis were autophagy-dependent, we pre-inhibited or pre-promoted autophagy with siATG7 or rapamycin while blocking AMPK. We found that inhibiting or improving autophagy exacerbated or alleviated the role of AMPK prohibition in apoptosis and adipogenesis. Furthermore, we showed that AMPK inhibition significantly lowered ULK1 activity but promoted mTOR activity, so that to inhibit autophagy. Our study shows that AMPK plays a protective role in maintaining survival and adipogenesis of OGD-challenged ADSCs partly by positively regulating autophagy. AMPK positively regulates autophagy by inhibiting mTOR but promoting ULK1 activity in OGD condition.     

热带假丝酵母脂肪醛脱氢酶基因CtAld1和CtAld2的功能评价

【目的】热带假丝酵母是发酵法生产二元酸的重要工业菌株,具有较高的ω-氧化活性。脂肪醛脱氢酶在ω-氧化途径中起重要作用,催化脂肪醛生成脂肪酸,但其具体催化功能及对细胞生理影响还未被系统研究。本文通过删除脂肪醛脱氢酶基因CtAld1和CtAld2鉴定了其在ω-氧化途径中的功能。【方法】通过基因组信息挖掘获得热带假丝酵母脂肪醛脱氢酶基因CtAld1和CtAld2序列,在此基础上,通过同源重组敲除CtAld1和CtAld2基因。考察突变株的生长和胞内脂肪醛脱氢酶活性变化,并评价CtAld1和CtAld2基因敲除对细胞二元酸合成能力的影响。【结果】分别获得了热带假丝酵母突变株XZX-1(ΔCtAld1/ΔCtAld1)、XZX-2(ΔCtAld2/ΔCtAld2)和XZX-12(ΔCtAld1/ΔCtAld1,ΔCtAld2/ΔCtAld2)。在以十二烷为唯一碳源的培养基中,敲除CtAld2基因显著抑制细胞的生长,胞内脂肪醛脱氢酶活性降低为出发菌株的30%;敲除CtAld1基因尽管会使细胞损失一部分醛脱氢酶活性,但能够一定程度地提升细胞在十二烷中的生长性能。敲除CtAld1或CtAld2会降低菌株二元酸产量,组合敲除CtAld1和CtAld2严重削弱菌株十二碳二元酸的合成能力。【结论】CtAld2对热带假丝酵母细胞的生长和十二碳二元酸的合成具有重要作用,缺失CtAld1或CtAld2基因降低细胞的二元酸合成能力。CtAld1和CtAld2可作为热带假丝酵母ω-氧化途径代谢工程改造的潜在靶点。     

The Expression Alteration of BC1 RNA and its Interaction with Eukaryotic Translation Initiation Factor eIF4A Post-Status Epilepticus

Abnormal dendritic sprouting and synaptic remodelling are important pathological features of temporal lobe epilepsy. BC1 RNA is a translation repressor involved in the regulation of the dendritic protein synthesis and mRNA transport, which is essential for dendritic development and plasticity. The expression alteration of BC1 RNA in the pilocarpine induced epilepsy model remains unknown. It is unclear if the interactions between BC1 RNA and eukaryotic initiation factor 4A (eIF4A) exists in this model. The purpose of this study was to investigate the expression changes of BC1 RNA and its interactions with eIF4A post-status epilepticus (SE). Chloride lithium and pilocarpine were used to induce the SE rat model. Either a whole brain or hippocampus tissues were collected at different time points after SE. The expression patterns of BC1 was detected by qPCR and in situ hybridization. The levels of eIF4AI/II protein expression were analyzed via western blotting and immunohistochemistry. The BC1 RNA-eIF4AI/II interaction was determined by electrophoretic mobility shift assay (EMSA). We found that the BC1 RNA levels decreased in hippocampus 3d, 1w and 2w post-SE before the levels recovered. The eIF4AI/II began to rise 3d post-SE and reached the maximum level 1w post-SE. After 1w post-SE the levels decreased in the hippocampal CA1, CA3 and DG subregions. EMSA analysis showed that BC1 RNA specifically interacted with the eIF4AI/II. The BC1 RNA-eIF4AI/II complex reduced to the lowest level 1w post-SE. Our results suggested that BC1 has a negative regulatory correlation with eIF4AI/II, where BC1 RNA could be involved in epileptogenesis by regulating dendritic protein synthesis.     

Acidithiobacillus ferrooxidans and its potential application

The widely distributed Acidithiobacillus ferrooxidans (A. ferrooxidans) lives in extremely acidic conditions by fixing CO₂ and nitrogen, and by obtaining energy from Fe²⁺ oxidation with either downhill or uphill electron transfer pathway and from reduced sulfur oxidation. A. ferrooxidans exists as different genomovars and its genome size is 2.89–4.18 Mb. The chemotactic movement of A. ferrooxidans is regulated by quorum sensing. A. ferrooxidans shows weak magnetotaxis due to formation of 15–70 nm magnetite magnetosomes with surface functional groups. The room- and low-temperature magnetic features of A. ferrooxidans are different from other magnetotactic bacteria. A. ferrooxidans has potential for removing sulfur from solids and gases, metals recycling from metal-bearing ores, electric wastes and sludge, biochemical production synthesizing, and metal workpiece machining.

     

Depositional facies and cyclic patterns in a subtidal-dominated ramp during the Early-Middle Ordovician in the western Tarim Basin (NW China)

Due to a long-term transgression since the Early Cambrian, an extensive shallow-water carbonate platform was developed in the entire Tarim Basin (NW China). During the deposition of the Yingshan Formation (Early-Middle Ordovician), a carbonate ramp system was formed in the intrashelf basin in the Bachu-Keping area of the western basin. Four well-exposed outcrop sections were selected to investigate their depositional facies, cycles, and sequences, as well as the depositional evolution. Detailed facies analyses permit the recognition of three depositional facies associations, including peritidal, semi-restricted subtidal, and open-marine subtidal facies, and eleven types of lithofacies. These are vertically arranged into meter-scale, shallowing-upward peritidal, semi-restricted subtidal, and open-marine subtidal cycles, in the span of Milankovitch frequency bands, suggesting a dominant control of Earth’s orbital forcing on the cyclic sedimentation on the platform. On the basis of vertical facies (or lithofacies) and cycle stacking patterns, as well as accommodation changes illustrated graphically by Fischer plots at all studied sections, six third-order depositional sequences are recognized and consist of lower transgressive and upper regressive parts. In shallow depositional settings, the transgressive packages are dominated by thicker-than-average, shallow subtidal cycles, whereas the regressive parts are mainly represented by thinner-than-average, relatively shallow subtidal to peritidal cycles. In relatively deep environments, however, the transgressive and regressive successions display the opposite trends of cycle stacking patterns, i.e., thinner-than-average subtidal cycles of transgressive packages. Sequence boundaries are mainly characterized by laterally traceable, transitional zones without apparent subaerial exposure features. Good correlation of the long-term changes in accommodation space inferred from vertical facies and cycle stacking patterns with sea-level fluctuations elsewhere around the world suggests an overriding eustatic control on cycle origination, platform building-up and evolution during the Early-Middle Ordovician, although with localized influences of syndepositional faulting and depositional settings.     

Adsorption of Ni2+ and Cu2+ using Bio-Mineral: Adsorption Isotherms and Mechanisms

Heavy metal pollution has become one of the most serious environmental pollution problems. This study aimed to determine the adsorption and desorption characteristics of Ni²⁺ and Cu²⁺ by bio-mineral which was induced by Bacillus subtilis, and to explore the effect of pH on adsorption characteristics. The results showed that the Langmuir model gave a better fit to the experimental data than the Freundlich model, which demonstrated the adsorption was of a single-molecule layer form. The maximum adsorption capacities of the bio-mineral for Ni²⁺ and Cu²⁺ were determined as 67.114 mg/g and 69.930 mg/g, respectively. The desorption rates of Ni²⁺ and Cu²⁺ were very low, especially for Ni²⁺ which was almost 0. Besides, the bio-mineral maintained high adsorption capability for metals ions within a wide pH range (pH ≥ 3). It did not show any new phases after adsorption of Ni²⁺ and Cu²⁺ tested by FTIR, indicating that the bio-mineral and heavy metal ions might mainly physically be adsorbed. The bio-mineral has a larger internal and external specific surface area, pore volume and colloidal properties which are beneficial for the adsorption of metals ions, but shows limits in desorption. This study provides a theoretical basis for the utilization of bio-mineral and opens a new perspective for the remediation of heavy metals pollution.