消炎痛及PGF_(2α)对在体培养人子宫内膜出血的影响

利用甾体激素撤退方法造成移植在地鼠颊囊内人子宫内膜出血的动物模型,研究消炎痛和PGF_(2a)对内膜出血的作用。结果表明,注射三种不同剂量消炎痛并不能完全抑制内膜出血,但对内膜出血时间有延缓作用。用两种不同剂量的PGF_(2a)采取缓慢释放给药方法,虽然地鼠在给药后外周血液中PGF_(2a)水平比给药前显著增高,但内膜出血并不出现在撤退甾体激素之前。结果提示,PGF_(2a)对内膜血管破裂无直接作用,而纤溶活性变化可能是触子宫内膜出血更直接的原因。     

Anaerobic Degradation of Normal- and Branched-Chain Fatty Acids with Four or More Carbons to Methane by a Syntrophic Methanogenic Triculture

Syntrophic degradation of normal- and branched-chain fatty acids with 4 to 9 carbons was investigated with a mesophilic syntrophic isobutyrate-butyrate-degrading triculture consisting of the non-spore-forming, syntrophic, fatty acid-degrading, gram-positive rod-shaped strain IB, Methanobacterium formicicum T1N, and Methanosarcina mazei T18. This triculture converted butyrate and isobutyrate to methane and converted valerate and 2-methylbutyrate to propionate and methane. This triculture also degraded caproate, 4-methylvalerate, heptanoate, 2-methylhexanoate, caprylate, and pelargoate. During the syntrophic conversion of isobutyrate and butyrate, a reversible isomerization between butyrate and isobutyrate occurred; isobutyrate and butyrate were isomerized to the other isomeric form to reach nearly equal concentrations and then their concentrations decreased at the same rates. Butyrate was an intermediate of syntrophic isobutyrate degradation. When butyrate was degraded in the presence of propionate, 2-methylbutyrate was synthesized from propionate and isobutyrate formed from butyrate. During the syntrophic degradation of valerate, isobutyrate, butyrate, and 2-methylbutyrate were formed and then degraded. During syntrophic degradation of 2-methylbutyrate, isobutyrate and butyrate were formed and then degraded.     

Energetics and regulations of formate and hydrogen metabolism by Methanobacterium formicicum

Accumulation of formate to millimolar levels was observed during the growth of Methanobacterium formicicum species on H₂–CO₂. Hydrogen was also produced during formate metabolism by M. formicicum. The amount of formate accumulated in the medium or the amount H₂ released in gas phase was influenced by the bicarbonate concentration. The formate hydrogenlyase system was constitutive but regulated by formate. When methanogenesis was inhibited by addition of 2-bromoethane sulfonate, M. formicicum synthesized formate from H₂ plus HCO _inf3 ^sup- or produced H₂ from formate to a steady-state level at which point the Gibbs free energy (G) available for formate synthesis or H₂ production was approximately -2 to -3 kJ/reaction. Formate conversion to methane was inhibited in the presence of high H₂ pressure. The relative rates of conversion of formate and H₂ were apparently controlled by the G available for formate synthesis, hydrogen production, methane production from formate and methane production from H₂. Results from ¹⁴C-tracer tests indicated that a rapid isotopic exchange between HCOO^- and HCO _inf3 ^sup- occurred during the growth of M. formicicum on H₂–CO₂. Data from metabolism of ¹⁴C-labelled formate to methane suggested that formate was initially split to H₂ and HCO _inf3 ^sup- and then subsequently converted to methane. When molybdate was replaced with tungstate in the growth media, the growth of M. formicicum strain MF on H₂–CO₂ was inhibited although production of methane was not Formate synthesis from H₂ was also inhibited.     

七星瓢虫成虫脂肪体细胞核的多倍性现象

为要了解七星瓢虫(Coccinella septempunctata)成虫不同发育时间及不同发育部位脂肪体细胞核DNA合成的情况及激素对DNA合成的调节,我们以扫描显微分光光度法测定了脂肪体细胞核DNA的相对含量,并以该虫精细胞核作为单倍体参考标准,从而计算出脂肪体细胞核的倍体值。本文对雄成虫及不同发育阶段的雌成虫脂肪体细胞核DNA含量进行了测定,结果表明有多倍化现象发生;而且随着生殖腺的成熟,DNA 分布趋向于较高倍体。用ZR-512处理雌虫,经72小时后与对照相比脂肪体细胞核DNA合成较多,而且脏壁层脂肪体较体壁层脂肪体出现更为复杂的倍性变化,表明 ZR-512对DNA合成有促进作用。     

我国西藏怪蚤属一新种及对该属的分类讨论(蚤目:细蚤科)

本文记述了怪蚤属一新种——长方怪蚤Paradoxopsyllus longiquadraius sp.nov.,其正模及配模标本采自西藏通麦,宿主为白腹巨鼠;在分类讨论中把我国已知的26种怪蚤划分为5个种团。     

基于分级过滤的自然水体原核微生物群落分析

自然水体中微生物种类丰富,采集了上海周边的湖水、河水、海(岸)水、井水四类水体各两处样品,设计了含0.1μm终端截留孔径的半自动分级过滤装置分离富集不同粒径的水体微生物,使用原核微生物通用引物对16S rRNA基因V3+V4区扩增,高通量测序获得序列,对四类水体中的微生物群落进行比较分析,关注了能穿透0.22μm常规除菌过滤孔径的超微小微生物。结果显示水体环境主导了微生物的群落差异,河水与湖水中的群落总体接近,不同于海(岸)水和井水;海(岸)水和井水的微生物群落差异较大。0.1μm上截留的优势超微小微生物在河水与湖水样品中均为Proteobacteria门SAR11 clade目的Clade Ⅲ和Actinobacteria门Sporichthyaceae科HgcI clade,海(岸)水中为Proteobacteria门SAR11 clade目的Clade Ia和Nanoarchaeota门Woesearchaeia古菌,井水中为Nanoarchaeota门Woesearchaeia属古菌以及未定域或未分类的微生物。其中未定域的微生物16S rRNA基因在系统发育树上单独成簇,可能是古菌的一个新类型。本研究所使用的分级过滤装置显示了在发掘超微小微生物上的潜力。     

翻压山黧豆绿肥与氮肥减施对水稻生长及其养分吸收与产量的影响

为探明种植翻压山黧豆绿肥与减施氮肥下的水稻生产潜力,通过3年田间定位试验,设置冬闲+不施肥(NF)、山黧豆绿肥(GM)、冬闲+常规氮肥(100%N,CK)、山黧豆绿肥+80%常规氮肥(GM+80%N)、山黧豆绿肥+70%常规氮肥(GM+70%N)、山黧豆绿肥+60%常规氮肥(GM+60%N)6个处理,研究不同处理对水稻生长、养分吸收及产量的影响。结果表明：(1)与CK相比,翻压山黧豆绿肥并减施氮肥处理均能够显著提升水稻株高、增加水稻分蘖数、提高水稻干物质积累量,其中以GM+70%N施肥处理提升效果最为明显。(2)GM+70%N施肥处理下,不同生育时期水稻株高、有效分蘖数分别较对照常规施肥(100%N)提升了13.32%~ 15.73%和33.98%~59.47%,水稻干物质积累量提高了23.19%~144.18%,且随着生育时期的推进增加速率依次降低。(3)种植翻压山黧豆绿肥并减施氮肥处理下水稻产量均有所提高,其中GM+70%N和GM+80%N处理显著提高,增产分别达13.84%,7.25%,且GM+70%N处理下水稻植株和籽粒养分吸收更为全面。研究发现,种植翻压山黧豆并适量减施氮肥能有效促进水稻生长和养分的吸收积累,显著提高水稻产量,说明翻压山黧豆绿肥可替代稻田30%~40%的氮肥施入量,并可在避免水稻旺长的同时实现水稻高产,是四川水稻种植较好的耕作措施。     

铜川汉族人群38个Y-STR基因座多态性调查

Y染色体上的短串联重复序列（Y chromosome short tandem repeats, Y-STRs）在法医鉴定,尤其是混合斑中男性成分的检测分析和家系排查中具有重要作用。随着Y-STR试剂盒的不断推出和数据库的建立,国内外针对不同地区和群体的Y-STR多态性研究日益增多,而有关铜川汉族Y-STR研究鲜有报道。基于此,采用YfilerTM Platinum复合扩增试剂盒对陕西铜川汉族669名无关男性个体进行38个Y-STR基因座遗传多态性调查,并探索铜川地区汉族与其他群体之间的遗传关系。调查共检出657种单倍型,单倍型多样性和识别能力分别为0.999 937 345和0.982 1。38个Y-STR基因座共检出428个等位基因,基因多样性值在0.108 9（DYS645）~0.969 9（DYS385）。群体遗传分析中,多维尺度分析（multi-dimensional scaling, MDS）和系统发育树分析结果显示铜川汉族与其他地区的汉族群体遗传距离更近。综上,研究结果中38个Y-STR基因座在铜川汉族群体中具有较高的遗传多态性,适合铜川地区法庭科学应用。     

Mutation Inactivation of Nijmegen Breakage Syndrome Gene (NBS1) in Hepatocellular Carcinoma and Intrahepatic Cholangiocarcinoma

Nijmegen breakage syndrome (NBS) with NBS1 germ-line mutation is a human autosomal recessive disease characterized by genomic instability and enhanced cancer predisposition. The NBS1 gene codes for a protein, Nbs1(p95/Nibrin), involved in the processing/repair of DNA double-strand breaks. Hepatocellular carcinoma (HCC) is a complex and heterogeneous tumor with several genomic alterations. Recent studies have shown that heterozygous NBS1 mice exhibited a higher incidence of HCC than did wild-type mice. The objective of the present study is to assess whether NBS1 mutations play a role in the pathogenesis of human primary liver cancer, including HBV-associated HCC and intrahepatic cholangiocarcinoma (ICC). Eight missense NBS1 mutations were identified in six of 64 (9.4%) HCCs and two of 18 (11.1%) ICCs, whereas only one synonymous mutation was found in 89 control cases of cirrhosis and chronic hepatitis B. Analysis of the functional consequences of the identified NBS1 mutations in Mre11-binding domain showed loss of nuclear localization of Nbs1 partner Mre11, one of the hallmarks for Nbs1 deficiency, in one HCC and two ICCs with NBS1 mutations. Moreover, seven of the eight tumors with NBS1 mutations had at least one genetic alteration in the TP53 pathway, including TP53 mutation, MDM2 amplification, p14ARF homozygous deletion and promoter methylation, implying a synergistic effect of Nbs1 disruption and p53 inactivation. Our findings provide novel insight on the molecular pathogenesis of primary liver cancer characterized by mutation inactivation of NBS1, a DNA repair associated gene.