典型功能层带-填埋场覆盖层中四氯化碳代谢机制及功能微生态响应

垃圾填埋场是四氯化碳(carbon tetrachloride, CT)污染的重要来源,明晰覆盖层功能层带中CT的转化机制对其污染控制尤为重要。本研究通过构建模拟覆盖层系统,开展了CT沿程生物降解及微生态研究。覆盖层理化特性分析表明,长期生物氧化使覆盖层形成了稳定存在的厌氧层(>45 cm)、缺氧层(15–45 cm)和好氧层(0–15 cm)功能层带,各特征层带氧化还原电位、微生物群落结构差异显著,为CT降解提供了生物资源和有利条件。降解结果显示,CT在厌氧层和缺氧层脱氯产生氯仿(chloroform,CF)和二氯甲烷(dichloromethane,DCM)及氯离子(Cl–),副产物在30 cm处浓度最大,好氧层中CF和DCM迅速发生好氧降解;CT降解速率为13.2–103.6μg/(m2·d),随填埋气通量增大而增大。多样性测序结果表明,不同层带功能菌属差异显著,中慢生根瘤菌(Mesorhizobium)为好氧层CT潜在降解菌属,硫杆菌(Thiobacillus)和间孢囊菌(Intrasporangium)为厌氧层和缺氧层潜在功能菌属;覆盖土中6种脱氯菌属和18种甲烷氧化菌...     

低氧mtDNA3010A/G基因型变异诱导的lncRNA-mRNA共表达网络变化

目的: 分析mtDNA3010A/G变异在急性缺氧条件下的长链非编码RNA(lncRNA)和信使RNA(mRNA)的共表达网络变化,探讨关键lncRNA和mRNA在低氧诱导的基因表达调控中的作用。方法: 筛选线粒体DNA(mtDNA)3010-5178-10400的基因型组合A-C-C和G-C-C,以骨肉瘤细胞经溴化乙锭处理后形成的无线粒体细胞(ρ⁰206细胞)为供体,构建mtDNA3010A和mtDNA3010G基因型融合细胞。经1%O₂处理24 h后,采用lncRNA-mRNA共表达芯片检测两种融合细胞的差异表达lncRNA和mRNA,荧光定量聚合酶链式法验证差异显著的mRNA,运用生物信息学方法构建lncRNA-mRNA共表达网络,预测差异lncRNA的靶基因,并对差异显著的mRNA和预测靶基因进行基因本体(GO)和京都基因与基因组大百科全书(KEGG)预测分析。结果: 经1%O₂处理24 h后,与mtDNA3010G融合细胞相比,mtDNA3010A融合细胞表达上调的lncRNA有688个,超过2倍的有21个,表达下调的lncRNA有1098个,超过2倍的有4个;表达上调的mRNA有1151个,超过2倍的有14个,表达下调的mRNA有539个,超过2倍的有3个。结论: mtDNA3010A/G基因型变异在缺氧条件下能够影响lncRNA-mRNA调控网络的变化,差异表达的lncRNA和mRNA可能在低氧诱导的基因表达调控网络中发挥重要作用,有望成为从线粒体角度调控低氧反应的靶点。     

Identification of differentially expressed microRNAs and their PKC-isoform specific gene network prediction during hypoxic pre-conditioning and focal cerebral ischemia of mice

We previously reported the involvement of conventional protein kinase C (cPKC) βII, γ, novel PKC (nPKC) ε and their interacting proteins in hypoxic pre-conditioning (HPC)-induced neuroprotection. In this study, the large-scale miRNA microarrays and bioinformatics analysis were used to determine the differentially expressed miRNAs and their PKC-isoform specific gene network in mouse brain after HPC and 6?h middle cerebral artery occlusion (MCAO). We found 4 up-regulated and 13 down-regulated miRNAs in the cortex of HPC mice, 26 increased and 39 decreased gene expressions of miRNAs in the peri-infarct region of 6?h MCAO mice, and 11 up-regulated and 22 down-regulated miRNAs in the peri-infarct region of HPC and 6?h MCAO mice. Based on Diff Score, 19 differentially expressed miRNAs were identified in HPC and 6?h MCAO mouse brain. Then the miRNA-gene-network of 19 specified miRNAs target genes of cPKCβII, γ and nPKCε-interacting protein was predicted by using bioinformatics analysis of genome databases. Furthermore, the down-regulated miR-615-3p during HPC had a detrimental effect on the oxygen-glucose deprivation (OGD)-induced N2A cell injury. These results suggested that the identified 19 miRNAs, notably miR-615-3p, might target these genes of cPKCβII, γ and nPKCε-interacting proteins involved in HPC-induced neuroprotection.     

Patterns of peroxidative ethane emission from submerged rice seedlings indicate that damage from reactive oxygen species takes place during submergence and is not necessarily a post-anoxic phenomenon

Using ethane as a marker for peroxidative damage to membranes by reactive oxygen species (ROS) we examined the injury of rice seedlings during submergence in the dark. It is often expressed that membrane injury from ROS is a post-submergence phenomenon occurring when oxygen is re-introduced after submergence-induced anoxia. We found that ethane production, from rice seedlings submerged for 24–72 h, was stimulated to 4–37 nl gFW⁻¹, indicating underwater membrane peroxidation. When examined a week later the seedlings were damaged or had died. On de-submergence in air, ethane production rates rose sharply, but fell back to less than 0.1 nl gFW⁻¹ h⁻¹ after 2 h. We compared submergence-susceptible and submergence-tolerant cultivars, submergence starting in the morning (more damage) and in the afternoon (less damage) and investigated different submergence durations. The seedlings showed extensive fatality whenever total ethane emission exceeded about 15 nl gFW⁻¹. Smaller amounts of ethane emission were linked to less extensive injury to leaves. Partial oxygen shortage (O₂ levels <1%) imposed for 2 h in gas phase mixtures also stimulated ethane production. In contrast, seedlings under anaerobic gas phase conditions produced no ethane until re-aerated: then a small peak was observed followed by a low, steady ethane production. We conclude that damage during submergence is not associated with extensive anoxia. Instead, injury is linked to membrane peroxidation in seedlings that are partially oxygen deficient while submerged. On return to air, further peroxidation is suppressed within about 2 h indicating effective control of ROS production not evident during submergence itself.     

低氧预处理对新生大鼠脑低氧缺血时海马区Bcl-2和Bax表达的影响

目的：观察低氧预处理对新生大鼠脑低氧缺血时海马区Bcl-2和Bax表达的影响,探讨低氧预处理对新生大鼠脑低氧缺血损伤的保护机制。方法：7日龄新生SD大鼠随机分为正常对照组、假手术组、低氧缺血组（HIBD组）和低氧预处理组（HPC＋HIBD组）。采用免疫组织化学方法,检测各组脑组织海马区Bcl-2和Bax表达的变化。结果：与正常对照组、假手术组相比．HIBD组和HPC＋HIBD组海马区Bcl-2蛋白和Bax蛋白表达明显增多;与HIBD组相比,HPC＋HIBD组海马区Bcl-2蛋白表达明显增多,Bax蛋白表达明显减少。结论：低氧预处理后Bcl-2表达上调,Bax表达下调,可能是其保护随后脑低氧缺血损伤的机制之一。     

Novel role for the δ-opioid receptor in hypoxic preconditioning in rat retinas

δ-Opioid receptor (DOR) is an oxygen-sensitive protein whose function in the rat retina is unknown. We examined whether DOR is involved in hypoxic preconditioning (HPC)-mediated retinoprotection following intraocular pressure (IOP) elevation. Rats were exposed to intermittent hypoxia (10% oxygen) to induce HPC. Unilateral retinal ischemia/reperfusion injury was induced by elevating IOP to 100 mmHg for 1 h. HPC attenuated the loss of neuronal marker expression and increased pro-apoptotic caspase 3 activity in the IOP retina. Excess superoxide production and 8-iso-prostaglandin F2α accumulation caused by enhanced oxidant protein expression and reduced antioxidant enzyme level after IOP elevation were largely abrogated by HPC. HPC markedly increased the expression of hypoxia-inducible factor-1α (HIF-1α) and DOR, but intravitreal administration of HIF-1α-specific small interfering RNA abrogated the up-regulation of DOR. This suggested that DOR functions downstream of HIF-1α. However, the endogenous content of leucine enkephalin in retinas was not affected by HPC or IOP. Treatment of retinas with the DOR antagonist naltrindole attenuated the HPC-induced protection and activation of extracellular signal-regulated kinase. These results suggest a novel mechanism of HPC-mediated retinoprotection whereby HIF-1α induces the expression of DOR, and DOR-mediated activation of extracellular signal-regulated kinase triggers cellular events that correct the redox imbalance in the post-ischemic retina.     

急性缺氧性缺氧时心脏功能的改变

F_(IO_2)(吸入气氧浓度)为12.35、9.87及7.7l％,分别吸入10、8及5min时,心功能呈代偿性增强改变。F_(IO_2)为9.37％、吸入20min时心功能的变化趋势与9.87％8min时仍基本相同。继发性缺二氧化碳对缺氧引起的心功能代偿性增强,在一定程度上起抵消作用。F_(IO_2)为9.87％时的缺氧程度约相当于18km高空加压供氧总压值为15.3kPa(115mmHg)时的缺氧。单纯从缺氧因素考虑,将总压值由常用的17.3kPa(130mmHg)降低为15.3kPa是可允许的。     

北京城区公园的植物种类构成及空间结构

对植物种类构成及空间结构的研究,可为公园植物多样性保护及公园的科学管理提供重要依据.采用分层随机抽样调查法,调查了北京市五环以内的53处公园,共记录维管束植物96科283属492种.基于研究区乔、灌、草共21个调查项目的大量数据及相关统计分析,对北京城区公园绿地各层植物的常见结构型式进行了阐述.结果表明：北京城区公园植物中,本地种占5386%,植物属的区系地理分布很广泛,优势植物的优势性明显;研究区大部分公园的草本植物种类较为丰富、盖度较高,而灌木盖度偏低、树冠下的灌木也偏少,乔灌植物种类丰富度和密度不高,乔木冠幅、胸径、灌幅及乔灌高度基本在2级水平,但乔木冠层结构比较丰满、受光良好、生长状况良好,灌木叶层缺失不明显.通过相关分析和北京市园林绿化史调研结果推测,北京城区公园植物种类构成及其空间结构主要受园林设计、植物引种、种植管理的影响.     

低氧脑水肿大鼠脑组织VEGF和AQPs基因及蛋白表达的变化

目的：探讨低氧脑水肿时血管内皮细胞生长因子（VEGF）、水通道蛋白（AQP1和AQP4）基因和蛋白表达变化,为阐明急性低氧对脑组织的损伤及低氧脑水肿的发病机制提供实验依据。方法：Wistar大鼠随机分为4个组：常氧对照组（Control）、低氧暴露4 000 m组（4 000 m）、低氧暴露6 000 m组（6 000 m）和低氧暴露8 000 m组（8 000 m）,低氧组于低压舱中模拟相应海拔高度持续暴露8 h建立低氧脑水肿模型。用干-湿重法测定脑组织水含量,常规光镜观察脑组织形态学的改变;用RT-PCR法和免疫组化法检测低氧脑水肿时大鼠脑组织VEGF、AQP1和AQP4mRNA和蛋白表达的变化。结果：①干-湿重法测定表明,低氧（≥6 000 m）暴露后,大鼠脑组织水含量明显增加（P〈0.01）。②常规光镜检测结果表明,低氧暴露4 000 m时大鼠脑神经细胞、血管内皮细胞和星形胶质细胞足突轻度肿胀,组织中出现漏出液;低氧暴露6 000 m时脑血管内皮细胞和星形胶质细胞足突肿胀加重,血管与组织间隙扩大,组织中漏出液增多;低氧暴露8 000m时脑血管内皮细胞和星形胶质细胞足突重度肿胀,血管与组织间隙进一步扩大,组织中漏出液明显增多。③低氧脑水肿时,VEGF、AQP1、AQP4mRNA表达水平增高,AQP1在内皮细胞异常表达,内皮细胞VEGF和AQP1、星形胶质细胞足突AQP4蛋白质表达水平增高。结论：低氧脑水肿时,VEGF、AQP1和AQP4表达和分布的变化可能是引起血脑屏障损伤、导致低氧脑水肿的发病机制之一。