Effects of biodiversity,stand factors and functional identity on biomass and productivity during the restoration of subtropical forests in Central China

恢复梯度上华中亚热带森林生物多样性、林分因子及功能特性对生物量、生产力的影响 草地群落上进行的控制实验大都发现生物多样性对生态系统功能有显著促进作用。然而,在天然林中,多样性与林分因子、群落功能特性的相对作用大小仍存在争议。本文在森林恢复梯度上,研究这3类因素对生物量和生产力的相对影响。我们在湖北神农架设置了处于不同恢复阶段的24块(600 m²)亚热 带森林样地,计算了林分生物量和生产力。选择5个关键的植物功能性状,并计算了群落的功能多样性(功能丰富度、功能均匀度和功能离散度)和性状的加权平均值(CWM)。使用一般线性模型(GLMs)、变异分离等方法探究林分因子(密度、林龄、群落最大树高等)、功能特性、物种和功能多样性对生物量和生产力的相对重要性。研究结果表明,随着森林恢复,林分生物量和生产力显著增加,群落物种丰富度显著增加,而功能离散度显著降低。变异分离结果表明,多样性对生物量和生产力的单独效应不显著,但可能通过与林分因子和功能特性的协同效应来影响生物量和生产力。总体而言,我们发现林分因子对亚热带森林生物量和生产力的影响最大,功能特性显著影响生产力,但不影响生物量。这些结果说明,在森林经营中,调整林分结构和群落物种特性是提高森林碳储量和固碳潜力的有效途径。     

肿瘤转移的分子机制及靶向干预研究新进展

肿瘤转移是一个多阶段的恶性进展过程,涉及肿瘤细胞从原发部位逃逸,侵入脉管系统并在其中存活,随循环系统到达远处靶器官并穿出脉管系统播散定植,最终克隆性生长形成转移瘤。转移过程的每一阶段与肿瘤细胞本身遗传和表观遗传改变以及微环境中诸多因素的综合调控密切相关。本综述概要介绍了恶性肿瘤转移多步骤过程中所涉的分子调控机制以及肿瘤转移靶向干预新措施等方面的研究进展;同时,就未来肿瘤转移研究相关的新技术和新方向作一简单的展望。     

植物功能着丝粒DNA研究进展

着丝粒（centromere）是真核生物染色体的重要功能结构。在细胞有丝分裂和减数分裂过程中,着丝粒通过招募动粒蛋白行使功能,保障染色体正确分离和传递。真核生物中,含有着丝粒特异组蛋白的CenH3区域被定义为功能着丝粒区,即真正意义上的着丝粒。近年来,借助染色质免疫沉淀技术,人们对功能着丝粒DNA开展了深入研究,揭示其组成、结构及演化特征,并发现功能着丝粒区存在具有转录活性的基因,且部分基因具有重要生物学功能。由于存在大量重复DNA,着丝粒演化之谜一直未能完全揭示。对植物功能着丝粒DNA序列研究进展进行了概述,并重点阐述了着丝粒重复DNA研究的新方法和新进展,以期为深入开展相关研究提供借鉴。     

适合免疫治疗的大鼠抗肾小球基底膜肾炎模型的建立

以线性表位肽P14（a3_127-148）作为抗原建立适合免疫治疗的抗肾小球基底膜（anti-glomerular basement membrane,GBM）病大鼠模型。采用大鼠后脚垫三点注射P14（a3_127-148）与弗氏佐剂乳化物的方法进行单次免疫,免疫前后每周采集24 h尿样和血样,所有大鼠在免疫后7 w处死。大鼠免疫后,肾炎模型组在各时间点的24 h尿蛋白、尿蛋白肌酐比值（albumin/urine creatinine ratio,ACR）、血肌酐及血尿素氮均明显高于对照组（P<0.05）;循环抗P14（a3_127-148）IgG抗体水平明显高于对照组(P<0.001);PAS染色可见节段性纤维素样坏死,富于细胞型新月体;免疫组化染色可见肾小球有明显的中性粒细胞和巨噬细胞浸润;免疫荧光检测可见IgG沿GBM呈强线性沉积;电镜观察到GBM的断裂和收缩;而对照组均未见改变。HE染色在所有大鼠中均未观察到肺部病变。使用P14（a3_127-148）线性肽免疫WKY大鼠成功建立了大鼠抗GBM病模型,有助于开发更为特异的免疫疗法。     

巴洛沙星的合成研究

合成新型抗菌药——巴洛沙星。以3-溴吡啶为原料,在催化剂作用下经氨解、加氢还原制备关键中间体3-甲胺基哌啶,并考察加氢过程中催化剂类型和反应温度的影响,再以甲氧环合酯(1-环丙基-6,7-二氟-8-甲氧基-1,4二氢-4-氧代喹啉-3-羧酸乙酯)为起始物,在乙酐中与硼酸螯合,并与3-甲胺基哌啶缩合,最后水解制备巴洛沙星。合成巴洛沙星的总质量收率58.7%,合成3-甲胺基哌啶的质量收率为74.1%。使用乙腈作为缩合的溶剂和后期水解反应的碱性物质,改进合成巴洛沙星的路线,提高了收率;制备3-甲胺基哌啶的加氢反应,在选择Rh/C为催化剂、反应温度为80℃时,质量收率为78%。     

Two New Sesquiterpenoid Glucosides from the Aerial Parts of Saussurea involucrate

Two new sesqulterpenoid glucosides, namely α-hydroxycostic acid 6-β-D-glucopyranoside （compound 1） and 11 βH-11,13-dlhydrodehydrocostuslactone 8α-O-（6＇-acetyl）-β-D-glucopyranoside （compound 2）, along with 11 known sesqulterpenoids （compounds 3-13） were isolated from the aerial parts of Saussurea involucrate （Kar. et Kir.） Sch.- BIp. The structures of the new sesquiterpenoid glucosides were established by one- and two-dimensional nuclear magnetic resonance and mass spectrometry analysis.     

Efficiency for Gene Silencing Induction in Nicotiana Species by a Viral Satellite DNA Vector

Virus-induced gene silencing （VIGS） is a useful technique for rapid plant gene function analysis. We recently reported a new VIGS vector modified from Tomato yellow leaf curl China virus （TYLCCNV） DNAβ （DNAm β）. In this study we compared in detail DNAmβ-induced gene silencing in four Nicotiana species including N. benthamiana, N. glutinosa, N. tabacum and N. paniculata. We found that DNAmβ-induced gene silencing in the four species was distinct in developing dynamics, tissue specificity, efficiency, and constancy in the plant life span. It was most efficient in N. benthamiana, where development of VIGS was most rapid, without tissue specificity and nearly 100% efficient. DNAmβ-induced gene silencing in N. glutinosa was also efficient despite being slightly less than in N. benthamiana. It initially occurred in veins, later was scattered to mesophyll, finally led to complete silencing in whole leaves. In both species, VIGS constantly expressed until the plants died. However, DNAmβ-mediated VIGS in the other two Nicotiana species, N. tabacum and N. paniculata, was significantly less efficient. It was strictly limited within the veins of the silenced leaves, and constantly occurred only over 3-4 weeks. The upper leaves that emerged later stopped showing the silencing phenotype. DNAmβ-induced gene silencing in N. benthamiana and N. glutinosa was not significantly influenced by the growth stage when the plants were agro-inoculated, and was not sensitive to high growth temperature up to 32℃. Our results indicate that this system has great potential as a versatile VIGS system for routine functional analysis of genes in some Nicotiana species.     

Endless Hide-and-Seek： Dynamic Co-evolution in Plant-Bacterium Warfare

Plants possess innate Immune systems to prevent most potential Infections. The ancient and conserved innate immune responses are triggered by microbe-associated molecular patterns （MAMPs） and play important roles in broad-spectrum defenses. However, successful bacterial pathogens evolved type Ⅲ virulence effectors to suppress MAMP-medlated immunity. To survive, plants further developed highly specific resistance （R） genes to trigger gene-for-gene-mediated immunity and turn the virulent pathogens into avirulent ones. We summarize here the very recent advances in this dynamic coevolution of plantbacterium interaction.     

Purification and characterization of cytosolic glyceraldehyde-3-phosphate dehydrogenase from the dromedary camel

Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) (EC 1.2.1.12),a key enzyme ofcarbon metabolism,was purified and characterized to homogeneity from skeletal muscle of Camelusdromedarius.The protein was purified approximately 26.8 folds by conventional ammonium sulphatefractionation followed by Blue Sepharose CL-6B chromatography,and its physical and kinetic propertieswere investigated.The native protein is a homotetramer with an apparent molecular weight of approximately146 kDa.Isoelectric focusing analysis showed the presence of only one GAPDH isoform with an isoelectricpoint of 7.2.The optimum pH of the purified enzyme was 7.8.Studies on the effect of temperature onenzyme activity revealed an optimal value of approximately 28-32 ℃ with activation energy of 4.9 kcal/mol.The apparent K_m values for NAD~ and DL-glyceraldehyde-3-phophate were estimated to be 0.025±0.040mM and 0.21±0.08 mM, respectively. The V_(max) of the purified protein was estimated to be 52.7±5.9 U/mg.These kinetic parameter values were different from those described previously, reflecting protein differencesbetween species.     

1,3-丙二醇发酵中甘油代谢及产物抑制作用

对微生物法甘油转化成1,3-丙二醇过程中代谢规律及代谢控制的相关酶作以简述,并着重分析了丁酸梭菌发酵生产中乙酸、丁酸等副产物对细胞的抑制作用,对未来的研究发展方向进行了展望。