利用普通怯寄蝇防治菜粉蝶初探

1 前言 从外地引进寄蝇或人工助长当地寄蝇种类防治农林害虫,是有效的生防手段之一,国外已有很多成功的报道。King等(1981)在路易斯安娜州蔗田中人工大量释放螟利索寄蝇(Lixophaga diatraeae)成虫防治第1代小蔗杆草螟(Diatraea saccharalis),不同地区的寄生率分别达到4.1、8.7和35.7％;由于降低了农药的使用量,奇痣窄径茧蜂(Agathis stigmatera)的自然寄生率也相应提高,很好地控制了蔗田害虫的发生。在寄蝇的田间释放技术方面,国外还没有详细的报道。在我国,利用寄蝇防治害虫的工作也是刚刚起步,很多具体问题有待于进一步研究。     

典型黑土区农田土壤线虫群落的纬度分布格局及其驱动机制

东北黑土区是保障我国粮食安全的重要土壤资源, 了解该区域内农田土壤线虫的群落组成及其对环境驱动因子的响应机制, 对于研究黑土区农田土壤生态系统的生物多样性分布格局具有重要意义。2018年9月, 我们在42°50°‒49°08° N的典型黑土区采集了93个农田土壤样品, 利用形态学鉴定技术分析了土壤线虫群落的组成与结构。共鉴定出47个线虫属(相对丰度 > 1%), 其中食细菌线虫中的拟丽突属(Acrobeloides)是典型黑土区农田土壤中的优势属(相对丰度 > 5%)。土壤线虫总丰富度和总多度均随纬度增加而显著增加, 然而类似的变化趋势只出现在食细菌和杂食/捕食线虫中。土壤有机碳是影响土壤线虫丰富度和多度最为重要的环境因子, 其次是月平均温度。典型黑土区农田土壤线虫群落结构以47° N为分界线分为南部和北部两类, 主要归因于线虫群落中植物寄生和杂食/捕食线虫的相对多度在南、北特征属中存在差异。土壤pH值和容重分别是影响南部与北部黑土区线虫群落最重要的环境因子。本研究明确了典型黑土区农田土壤线虫群落的纬度分布格局及其与环境因素的关系, 可为揭示农业活动干扰下土壤生物对环境因子的响应机制提供基础数据和理论参考。     

干旱半干旱区不同林型人工林水源涵养能力比较研究

通过引入模糊物元模型优化水源涵养能力估算方法,从而为研究区林分结构调整、水源涵养能力提升提供科学依据。运用欧式贴近度,以青海省大通县塔尔沟小流域6种不同林型人工林云杉×白桦混交林（YB）、云杉×青杨混交林（YQ）、云杉×落叶松混交林（YL）、云杉纯林（Y）、落叶松纯林（L）、青杨纯林（Q）作为研究对象,定量评价其水源涵养能力。结果表明：欧式贴近度大小排序为YB （0.794） > YQ （0.723） > YL （0.655） > Y （0.494） > L （0.416） > Q （0.270）,欧式贴近度越大,该林分类型水源涵养能力更强。6种林型中,白桦×青杨混交林水源涵养能力最强,青杨林水源涵养能力最差。     

MICAL1 facilitates breast cancer cell proliferation via ROS‐sensitive ERK/cyclin D pathway

Molecule interacting with CasL 1 (MICAL1) is a multidomain flavoprotein mono‐oxygenase that strongly involves in cytoskeleton dynamics and cell oxidoreduction metabolism. Recently, results from our laboratory have shown that MICAL1 modulates reactive oxygen species (ROS) production, and the latter then activates phosphatidyl inositol 3‐kinase (PI3K)/protein kinase B (Akt) signalling pathway which regulates breast cancer cell invasion. Herein, we performed this study to assess the involvement of MICAL1 in breast cancer cell proliferation and to explore the potential molecular mechanism. We noticed that depletion of MICAL1 markedly reduced cell proliferation in breast cancer cell line MCF‐7 and T47D. This effect of MICAL1 on proliferation was independent of wnt/β‐catenin and NF‐κB pathways. Interestingly, depletion of MICAL1 significantly inhibited ROS production, decreased p‐ERK expression and unfavourable for proliferative phenotype of breast cancer cells. Likewise, MICAL1 overexpression increased p‐ERK level as well as p‐ERK nucleus translocation. Moreover, we investigated the effect of MICAL1 on cell cycle‐related proteins. MICAL1 positively regulated CDK4 and cyclin D expression, but not CDK2, CDK6, cyclin A and cyclin E. In addition, more expression of CDK4 and cyclin D by MICAL1 overexpression was blocked by PI3K/Akt inhibitor LY294002. LY294002 treatment also attenuated the increase in the p‐ERK level in MICAL1‐overexpressed breast cancer cells. Together, our results suggest that MICAL1 exhibits its effect on proliferation via maintaining cyclin D expression through ROS‐sensitive PI3K/Akt/ERK signalling in breast cancer cells.     

功能膜微域在七烯甲萘醌合成过程中的作用解析

功能膜微域(functional membrane microdomains, FMMs)是细菌细胞质膜上富含脚手架蛋白和聚异戊二烯类物质的结构域,参与细胞生命活动的多个过程。本研究主要聚焦于揭示FMMs与MK-7之间的相关性,并对MK-7合成进行代谢调控。首先,通过荧光标记初步确定FMMs和MK-7在细胞膜上存在相关性;其次通过分析FMMs破坏前后细胞膜上MK-7含量的变化以及细胞膜有序度的变化情况,明确MK-7是FMMs的聚异戊二烯类关键组分;接下来,采用可视化分析探究MK-7合成过程中部分关键酶的亚细胞定位,并通过FloA将胞内游离的途径酶Fni、IspA、HepT和YuxO定位至FMMs中,进而实现MK-7合成途径的区室化,最终成功获得一株高产MK-7的枯草芽孢杆菌(Bacillus subtilis)菌株BS3AT,摇瓶水平MK-7产量达到300.3 mg/L,3 L发酵罐中MK-7产量为464.2 mg/L。     

A Novel Synthesized Sulfonamido-Based Gallate—JEZ-C as Potential Therapeutic Agents for Osteoarthritis

Gallic acid (GA) and its derivatives are anti-inflammatory agents reported to have an effect on osteoarthritis (OA). However, GA has much weaker anti-oxidant effects and inferior bioactivity compared with its derivatives. We modified GA with the introduction of sulfonamide to synthesize a novel compound named JEZ-C and analyzed its anti-arthritis and chondro-protective effects. Comparison of JEZ-C with its sources i.e. GA and Sulfamethoxazole (SMZ) was also performed. Results showed that JEZ-C could effectively inhibit the IL-1-mediated induction of MMP-1 and MMP-13 and could induce the expression of TIMP-1, which demonstrated its ability to reduce the progression of OA. JEZ-C can also exert chondro-protective effects by promoting cell proliferation and maintaining the phenotype of articular chondrocytes, as evidenced by improved cell growth, enhanced synthesis of cartilage specific markers such as aggrecan, collagen II and Sox9. Meanwhile, expression of the collagen I gene was effectively downregulated, revealing the inhibition of chondrocytes dedifferentiation by JEZ-C. Hypertrophy that may lead to chondrocyte ossification was also undetectable in JEZ-C groups. The recommended dose of JEZ-C ranges from 6.25×10^-7 μg/ml to 6.25×10^-5 μg/ml, among which the most profound response was observed with 6.25×10^-6 μg/ml. In contrast, its source products of GA and SMZ have a weak effect not only in the inhibition of OA but also in the bioactivity of chondrocytes, which indicated the significance of this modification. This study revealed JEZ-C as a promising novel agent in the treatment of chondral and osteochondral lesions.     

Sequence variations of mitochondrial DNA D-loop region are associated with familial nasopharyngeal carcinoma

Mitochondrial DNA (mtDNA) D-loop has been identified as a frequent hot spot of mutations in various tumors. The aim here was to investigate the sequence variations of mitochondrial D-loop region in familial nasopharyngeal carcinoma (FNPC) and their possible associations with cancer risk. 29 subjects from 4 Chinese NPC families and 20 sporadic NPC as well as 122 cases of normal control were recruited. mtDNA extracted from peripheral blood was examined by PCR-based assay for D-loop sequence variations, followed by sequencing analysis. Compared with normal control, four high variations and 6 unrepoted novel polymorphisms were found. Particularly, the np16362 and 16519T to C variants show significantly higher (100%, 81.8%) and lower (0, 22.7%) frequencies in FNPC and unaffected pedigree members, respectively. The occurrence of mitochondrial microsatellite instability (mtMSI) at D310 in experimental groups was statistically significantly higher than in normal control (53.3%). Likewise, in Base Variation Rate consistent with the result, there was a statistically significant difference compared with NC (6.05%). Our results indicated that mtDNA exhibited a high rate of sequence variants in patients with NPC and pedigree members and the mtDNA np16362, np16519 variants and mtMSI at D310 are associated with an increased risk of familial nasopharyngeal carcinoma in pedigree members from families with NPC, which might be involved in the NPC carcinogenesis.     

兴隆山自然保护区马麝春季生境选择

于2006年3月和2007年4月,采用样线样带结合调查法,在甘肃兴隆山自然保护区对野生马麝(Moschus Sifanicus)的春季生境选择和栖息地利用格局进行了研究,共布设280个空白对照样地和52个利用样地,对海拔和郁闭度等17个生境变量进行了计测和比较,结果表明,与对照的非利用样地相比,兴隆山马麝春季利用样地的海拔相对较低(2280.94±17.06)m、乔木平均高度较高(9.36±1.21)m、乔木胸径较大(102.44±14.25)cm及地表植被盖度较好(26.67±3.27)%,上述差异均达显著程度(P0.05);此外,马麝春季趋于利用南坡(44.23%)和西坡(36.54%)的中下坡位(86.54%)的坡度适中(30°—60°,55.77%)的生境,其避风性(63.46%)和隐蔽度(76.92%)均较差,距离水源(1000m,80.77%)和人为干扰距离(1000m,76.92%)也较近(P0.05)。马麝春季生境变量的主成分分析结果表明,前4个主成分可以解释76.08%的数据差异,灌木因子(由灌木盖度组成)、乔木因子(由乔郁闭度和乔木密度组成)、食物因子(由坡位、乔木高度、食物多度组成)和隐蔽因子(由植被类型、隐蔽度组成)是影响马麝春季生境选择的重要因素。兴隆山马麝的生境选择是多维度进行的,是对其春季生境的食物可得性、隐蔽性、水资源及栖息基底等生态需求的综合适应。     

保护性耕作对东北黑土微生物碳循环功能基因的影响

土壤微生物既参与土壤有机碳的分解也是土壤有机碳转化和固定的驱动者,是影响土壤碳循环和有机碳稳定性的关键因素。然而,保护性耕作（秸秆还田）如何通过调节土壤微生物碳循环功能基因组成来影响土壤CO₂释放的机理尚不明确。因此,依托中国科学院东北地理与农业生态研究所长春保护性耕作观测站,借助鸟枪法宏基因组测序技术,分析了玉米连作系统不同耕作方式（免耕（NT）、秋翻（MP）以及常规耕作（CT））对土壤CO₂释放速率、碳水化合物活性酶（CAZy）、碳循环功能基因（碳固定、甲烷代谢以及碳水化合物代谢）组成的影响。研究表明：基于生长季节土壤CO₂释放速率6年平均值分析发现,生长季前期免耕土壤的平均CO₂释放速率显著低于秋翻和常规耕作,分别比秋翻低28%（5月份）、11%（6月份）和23%（7月份）;比常规耕作低31%（5月份）、19%（6月份）和7%（7月份）。基于CAZy数据库注释结果,发现耕作处理显著影响一些糖苷水解酶（如GH102、GH5_38和GH13_17）、糖基转移酶（如GT39）和多糖裂解酶（如PL17和PL5_1）的基因丰度,与常规耕作相比,秸秆还田的免耕和秋翻处理的这些差异基因的相对丰度较高。基于京都基因与基因组百科全书（KEGG）数据库注释结果,发现耕作方式显著影响土壤碳循环功能基因组成（Adonis,多元方差分析,R²=0.45;P=0.006）,且免耕处理土壤的碳固定、甲烷代谢以及碳水化合物代谢功能基因组成不同于常规耕作和秋翻处理,单独聚为一类。免耕土壤上调的碳固定功能基因的相对丰度（所有上调功能基因相对丰度的平均值）分别比常规耕作和秋翻高17%和11%,而下调的2个功能基因（K01007和K00170）的丰度分别低19%（CT）、21%（MP）和14%（CT）、17%（MP）。免耕土壤上调的甲烷代谢基因相对丰度分别较常规耕作和秋翻高15%和10%;下调基因的丰度分别低13%（CT）和11%（MP）。免耕土壤上调的碳水化合物代谢功能基因丰度较常规耕作和秋翻高23%和14%;下调的基因丰度分别低25%（CT）和18%（MP）。冗余分析（db-RDA）表明土壤容重及土壤水溶性有机碳（DOC）是驱动土壤碳循环功能基因组成差异的主要因子（P<0.05）,且免耕土壤上调的碳固定功能基因（K00625、K01676、K09709、K00925和K14470等）、甲烷代谢基因（K03520、K00830、K10713、K15633和K00625等）和碳水化合物代谢功能基因（K00886、K00830、K01676、K00117和K00114等）与土壤DOC、容重或含水量呈显著正相关。此外,研究发现土壤CO₂释放速率与土壤碳循环功能基因组成显著相关（R²=0.80;P<0.01）,尤其是与一些碳水化合物代谢功能基因显著相关。这些结果说明免耕处理通过影响土壤理化性质改变土壤碳循环过程,且推断免耕秸秆还田和减少干扰的叠加效应通过调节碳循环功能基因组成来提高土壤固碳潜力。