若尔盖人-狼冲突现状与管理研究

大中型食肉动物肇事事件导致人类与野生动物关系恶化,给生物多样性保护工作带来巨大的挑战。若尔盖湿地是我国三大湿地之一,湿地、草原分布广泛,生物多样性丰富,畜牧业发达,但近年来狼(Canis lupus)捕杀牲畜的肇事事件时有发生。为了解若尔盖野生狼肇事件的空间分布以及牧民对人-狼冲突管理的看法,本研究于2022年对若尔盖县13个乡镇83个行政村进行走访调查。结果表明：(1)多数受访者(66.0%)认为在过去5年内,若尔盖县野生狼数量有所增加;(2)狼肇事事件具有明显的空间分异性,最严重的是包座乡。包座乡临近山区,该区域牧场面积广阔、牧民饲养牲畜数量多等原因导致该镇发生狼肇事事件较多;(3)对于狼肇事,绝大多数牧民(85.0%)更希望采取经济补偿或者驱赶措施,只有少数牧民(9.4%)希望采取捕杀的措施;(4)影响牧民对狼肇事管理措施的偏好因子中,受教育程度、年龄、民族以及被杀牲畜数量有显著影响。建议加强狼种群监测管理,采取措施减少狼捕杀牲畜,优化补偿机制,缓解当地牧民与狼之间的矛盾。本研究为当前若尔盖县野生动物保护和管理决策提供了依据,对其他地区大型食肉动物与当地居民冲突管理具有借鉴意义。     

莳萝蒿适应盐渍环境的Na~+区域化方式和生理特征

莳萝蒿是广泛分布在我国北方的一种特殊类型的菊科盐生植物,阐明莳萝蒿特殊的耐盐机制和生理特征有助于丰富植物抗盐性研究的内容。用0、100、200、300、400 mmol/L Na Cl处理莳萝蒿7 d后,比较莳萝蒿盐处理植株与对照植株在生长和生理方面的差异,并详细分析了Na+在莳萝蒿体内的积累水平和区域化方式。结果显示:莳萝蒿虽然能够耐受400 mmol/L Na Cl,但盐处理显著抑制了莳萝蒿的生长,整株鲜重随着盐处理浓度的升高逐渐减小。在水分生理方面,随着盐处理浓度的升高,莳萝蒿叶片细胞的渗透调节能力逐渐增强,其叶片肉质化程度却呈逐渐降低的趋势。分析盐处理对光合作用的影响发现,盐处理后莳萝蒿叶片光合速率与气孔导度显著下降,而其PSⅡ光化学活性并未受到抑制,叶绿素含量甚至逐渐增大,说明盐处理后莳萝蒿叶片光合速率的降低主要是由于气孔因素造成的,而不是由于光合结构被破坏。莳萝蒿体内的Na+含量随着盐处理浓度的升高显著增加,400 mmol/L Na Cl条件下叶、茎、根中的Na+含量分别高达321.4、242.1和182.3μmol/g鲜重;莳萝蒿体内的Na+70%以上积累在叶片内,而叶片内98%左右的Na+积累在叶片原生质体中,叶片原生质体中的Na+平均浓度是质外体1.2—1.8倍,推测其叶片细胞内存在着有效的Na+区域化机制。盐处理后莳萝蒿叶片液泡膜V-H+-ATPase的质子泵活性比对照增加了30%—50%,液泡膜Na+/H+逆向转运活性则增加至对照的4—7倍,进一步证实莳萝蒿叶片具有较强的液泡Na+区域化能力。随着盐处理浓度的升高,Na+在叶片中的分布比例相对减少,V-H+-ATPase的质子泵活性和Na+/H+逆向转运活性增幅也减缓。这种Na+区域化能力使莳萝蒿获得了较强的耐盐性,有效保护了其光系统,降低了细胞汁液渗透势。但是盐处理后这种耐盐方式并不能阻止莳萝蒿叶片肉质化程度和光合活性下降,莳萝蒿生长仍然受盐抑制,说明Na+区域化是莳萝蒿适应盐渍环境的必要条件而非充分条件。     

Methods for Studying the Mechanisms of Action of Antipsychotic Drugs in Caenorhabditis elegans

Caenorhabditis elegans is a simple genetic organism amenable to large-scale forward and reverse genetic screens and chemical genetic screens. The C. elegans genome includes potential antipsychotic drug (APD) targets conserved in humans, including genes encoding proteins required for neurotransmitter synthesis and for synaptic structure and function. APD exposure produces developmental delay and/or lethality in nematodes in a concentration-dependent manner. These phenotypes are caused, in part, by APD-induced inhibition of pharyngeal pumping^1,2. Thus, the developmental phenotype has a neuromuscular basis, making it useful for pharmacogenetic studies of neuroleptics. Here we demonstrate detailed procedures for testing APD effects on nematode development and pharyngeal pumping. For the developmental assay, synchronized embryos are placed on nematode growth medium (NGM) plates containing APDs, and the stages of developing animals are then scored daily. For the pharyngeal pumping rate assay, staged young adult animals are tested on NGM plates containing APDs. The number of pharyngeal pumps per unit time is recorded, and the pumping rate is calculated. These assays can be used for studying many other types of small molecules or even large molecules.     

TRAIL-R2 (DR5) mediates apoptosis of synovial fibroblasts in rheumatoid arthritis

TRAIL has been proposed as an anti-inflammatory cytokine in animal models of rheumatoid arthritis (RA). Using two agonistic mAbs specific for TRAIL-R1 (DR4) and TRAIL-R2 (DR5), we examined the expression and function of these death receptors in RA synovial fibroblast cells. The synovial tissues and primary synovial fibroblast cells isolated from patients with RA, but not those isolated from patients with osteoarthritis, selectively expressed high levels of cell surface DR5 and were highly susceptible to anti-DR5 Ab (TRA-8)-mediated apoptosis. In contrast, RA synoviocytes did not show increased expression of TRAIL-R1 (DR4), nor was there any difference in expression of Fas between RA and osteoarthritis synovial cells. In vitro TRA-8 induced apoptosis of RA synovial cells and inhibited production of matrix metalloproteinases induced by pro-inflammatory cytokines. In vivo TRA-8 effectively inhibited hypercellularity of a SV40-transformed RA synovial cell line and completely prevented bone erosion and cartilage destruction induced by these cells. These results indicate that increased DR5 expression and susceptibility to DR5-mediated apoptosis are characteristic of the proliferating synovial cells in RA. As highly proliferative transformed-appearing RA synovial cells play a crucial role in bone erosion and cartilage destruction in RA, the specific targeting of DR5 on RA synovial cells with an agonistic anti-DR5 Ab may be a potential therapy for RA.     

Altered levels of histone deacetylase OsHDT1 affect differential gene expression patterns in hybrid rice

Hybrids between different inbred varieties display novel patterns of gene expression resulted from parental variation in allelic nucleotide sequences. To study the function of chromatin regulators in hybrid gene expression, the histone deacetylase gene OsHDT1 whose expression displayed a circadian rhythm was over-expressed or inactivated by RNAi in an elite rice parent. Increased OsHDT1 expression did not affect plant growth in the parent but led to early flowering in the hybrid. Nonadditive up-regulation of key flowering time genes was found to be related to flowering time of the hybrid. Over-expression of OsHDT1 repressed the nonadditive expression of the key flowering repressors in the hybrid (i.e. OsGI and Hd1) inducing early flowering. Analysis of histone acetylation suggested that OsHDT1 over-expression might promote deacetylation on OsGI and Hd1 chromatin during the peak expression phase. High throughput differential gene expression analysis revealed that altered OsHDT1 levels affected nonadditive expression of many genes in the hybrid. These data demonstrate that nonadditive gene expression was involved in flowering time control in the hybrid rice and that OsHDT1 level was important for nonadditive or differential expression of many genes including the flowering time genes, suggesting that OsHDT1 may be involved in epigenetic control of parental genome interaction for differential gene expression.     

来源卤化二型聚酮类生物合成基因簇的两种关键功能基因鉴定与表达

为催化卤化产物,挖掘具有生物活性的新卤化物提供新的方法途径,拟构建卤化酶原核表达载体催化天然卤化物的卤化过程.对链霉菌Streptomyces sp.FJS31-2基因组中一个II型PKS类产物zunyimycin生物合成基因簇进行系列分析,针对其中的后修饰酶卤化酶基因和单加氧酶基因进行原核表达纯化.通过分子生物学手段...     

Upregulation of P53 promotes nucleus pulposus cell apoptosis in intervertebral disc degeneration through upregulating NDRG2

P53 is an apoptosis marker which is involved in determining nucleus pulposus (NP) cell fate. Little is known about P53 interaction with N-Myc downstream-regulated gene 2 (NDRG2) in intervertebral disc degeneration (IVDD). Here, we studied the role of the P53-NDRG2 axis in IVDD. We found that NDRG2 was expressed in NP tissue obtained from patients with IVDD. The level of NDRG2 was positively related to the severity of IVDD, as determined by Pfirrmann grading. Subsequently, we overexpressed NDRG2 in human NP cells by adenoviral transfection and studied the effects of increased levels of NDRG2 on the viability and apoptosis of these cells. NDRG2 overexpression induced NP cell apoptosis and reduced viability in NP cells obtained from patient with IVDD. We also found that the level of P53 was elevated in NP cells from patients with IVDD and treatment with exogenous P53 upregulated NDRG2 in NP cells. Last, IVDD model was established in P53 knockout mice and the pathological changes in the intervertebral discs and NDRG2 expression were examined. P53 knockout can reduce the damage of NP tissues after IVDD surgery to some extent. Restoration of NDRG2 antagonized the effect of P53 knockout on IVDD. Collectively, this study suggests that elevated P53 in NP cells stimulates apoptosis of the cells by upregulating NDRG2 expression, thereby exacerbating IVDD.     

昆虫抗菌肽及其基因工程研究进展

昆虫抗菌肽是昆虫免疫后存在于血淋巴中的一类活性肽,具有广谱的抗菌、抗病毒、抑制肿瘤的生物活性,具有很高的应用潜力。本文主要介绍昆虫抗菌肽的类型、生理活性、基因的克隆与表达及转基因工程研究进展。 Insect Antibacterial Peptides and Its Progress in Advance on Genetic Engineering GONG Xia,YUE Guo-wei,SHI Yong-hui Laboratory for Animal Nutrition Research,College of Food Science,Southern Yangtze University,Wuxi 214036,China Abstract:Insect antibacterial peptides produced are kinds of bioactive peptides in hameolymph hen insect has been immunized.These peptides have the wide range of antibacterial,antiviral spectrum and inhibiting growth of tumor cell.The types of antibacterial peptides and its physiological activities,cloning and expression of the genes and transgenetic research are summarized.Its application on medicine and gene engineering are prospected. Key words：insect antibacterial peptides; physiological activity; gene     

不同营养水平下绵羊附睾头GPx5表达与定位

提取35%VFI组、65%VFI组和自由采食组三个不同营养水平下的绵羊附睾头组织总RNA,应用Real-Time PCR方法检测附睾头中GPx5 mRNA的表达规律,利用免疫组化技术对附睾头GPx5进行定位分析。结果表明:GPx5 mRNA在附睾头的表达水平由低到高依次为:35%VFI组<65%VFI组<自由采食组;通过细胞免疫荧光分析检测到在附睾头上皮细胞有阳性产物。说明GPx5在不同营养水平下具有表达差异性,低营养水平显著影响了附睾头GPx5的表达。     

Plant-Plant-Microbe Mechanisms Involved in Soil-Borne Disease Suppression on a Maize and Pepper Intercropping System

Background

Intercropping systems could increase crop diversity and avoid vulnerability to biotic stresses. Most studies have shown that intercropping can provide relief to crops against wind-dispersed pathogens. However, there was limited data on how the practice of intercropping help crops against soil-borne Phytophthora disease.

Principal Findings

Compared to pepper monoculture, a large scale intercropping study of maize grown between pepper rows reduced disease levels of the soil-borne pepper Phytophthora blight. These reduced disease levels of Phytophthora in the intercropping system were correlated with the ability of maize plants to form a “root wall” that restricted the movement of Phytophthora capsici across rows. Experimentally, it was found that maize roots attracted the zoospores of P. capsici and then inhibited their growth. When maize plants were grown in close proximity to each other, the roots produced and secreted larger quantities of 2,4-dihydroxy-7-methoxy-2H-1,4-benzoxazin-3(4H)-one (DIMBOA) and 6-methoxy-2-benzoxazolinone (MBOA). Furthermore, MBOA, benzothiazole (BZO), and 2-(methylthio)-benzothiazole (MBZO) were identified in root exudates of maize and showed antimicrobial activity against P. capsici.

Conclusions

Maize could form a “root wall” to restrict the spread of P. capsici across rows in maize and pepper intercropping systems. Antimicrobe compounds secreted by maize root were one of the factors that resulted in the inhibition of P. capsici. These results provide new insights into plant-plant-microbe mechanisms involved in intercropping systems.