Toxicity of Binary Mixtures of Enantiomers in Chiral Organophosphorus Insecticides: The Significance of Joint Effects Between Enantiomers

The existence of enantiomer‐enriched mixtures of chiral pesticides in the environment is overwhelmingly positive. However, interactions between enantiomers have not been considered so far in risk assessments. Here, we chose three organophosphorus pesticides as representative chiral pesticides to investigate the possible interaction mode between each pair of enantiomers both in in vivo and in vitro. Data show that the enantiomers of methamidophos and profenofos have a simple additive effect, <zaq;1> whereas fensulfothion acts as an antagonist in AChE‐inhibition model. In contrast, enantiomers of methamidophos and fensulfothion had an additive effect in an acute toxicity test against Daphnia magna. A synergistic effect was observed in the joint toxicity of the profenofos enantiomers. The ability for enantiospecific biodegradation in the in vivo model contributed to the different interaction observed between the in vitro and in vivo models. Moreover, binding affinities were suspected as another reason for the different mode of action of mixture enantiomers. Our study recommends using a joint research model to treat chiral compounds in the real environment. Chirality 25:787–792, 2013. © 2013 Wiley Periodicals, Inc.     

Assessment of post-stroke elbow flexor spasticity in different forearm positions

Abstract

Purpose/Aim: There have been conflicting results regarding which muscle contribute most to the elbow spastic flexion deformity. This study aimed to investigate whether flexor spasticity of the elbow changed according to the position of the forearm, and to determine the muscle or muscles that contributed most to the elbow spastic flexion deformity by clinical examination.

Methods: This study is a single group, observational and cross-sectional study. Sixty patients were assessed for elbow flexor spasticity in different forearm positions (pronation, neutral and supination) with Modified Tardieu Scale. The primary outcome measure was a domain of the Modified Tardieu Scale, the dynamic component of spasticity (spasticity angle).

Results: In general, there was a significant difference between forearm positions regarding spasticity angle (p?<?.001). In pairwise comparisons, median spasticity angles in pronation (70 degrees) and neutral position (60 degrees) were significantly higher than those in supination (57.5 degrees) (adjusted p?<?.001 and adjusted p?=?.003, respectively). However, median spasticity angle in pronation did not differ significantly from those in neutral position in favour of pronation (adjusted p?=?.274).

Conclusions: The severity of spasticity changes according to the elbow position which suggests that the magnitude of contribution of each elbow flexor muscle to spastic elbow deformity is different. Reduction of spasticity from pronation to supination leads us to consider brachialis as the most spastic muscle. Since biceps was suggested to be the least spastic muscle in this study, and also to avoid spastic pronation deformity of the forearm, it should be rethought before performing chemodenervation into biceps muscle.     

Lipid-regulated degradation of HMG-CoA reductase and Insig-1 through distinct mechanisms in insect cells

In mammalian cells, levels of the integral membrane proteins 3-hydroxy-3-methylglutaryl-CoA reductase and Insig-1 are controlled by lipid-regulated endoplasmic reticulum-associated degradation (ERAD). The ERAD of reductase slows a rate-limiting step in cholesterol synthesis and results from sterol-induced binding of its membrane domain to Insig-1 and the highly related Insig-2 protein. Insig binding bridges reductase to ubiquitin ligases that facilitate its ubiquitination, thereby marking the protein for cytosolic dislocation and proteasomal degradation. In contrast to reductase, Insig-1 is subjected to ERAD in lipid-deprived cells. Sterols block this ERAD by inhibiting Insig-1 ubiquitination, whereas unsaturated fatty acids block the reaction by preventing the protein''s cytosolic dislocation. In previous studies, we found that the membrane domain of mammalian reductase was subjected to ERAD in Drosophila S2 cells. This ERAD was appropriately accelerated by sterols and required the action of Insigs, which bridged reductase to a Drosophila ubiquitin ligase. We now report reconstitution of mammalian Insig-1 ERAD in S2 cells. The ERAD of Insig-1 in S2 cells mimics the reaction that occurs in mammalian cells with regard to its inhibition by either sterols or unsaturated fatty acids. Genetic and pharmacologic manipulations coupled with subcellular fractionation indicate that Insig-1 and reductase are degraded through distinct mechanisms that are mediated by different ubiquitin ligase complexes. Together, these results establish Drosophila S2 cells as a model system to elucidate mechanisms through which lipid constituents of cell membranes (i.e., sterols and fatty acids) modulate the ERAD of Insig-1 and reductase.     

Natural history and behaviour of Dunatothrips aneurae Mound (Thysanoptera: Phlaeothripidae), a phyllode‐gluing thrips with facultative pleometrosis

Thrips of the genus Dunatothrips (Thysanoptera: Phlaeothripidae) construct domiciles by tying phyllodes of Australian Acacia trees together with silk‐like glue. Females often co‐found domiciles (pleometrosis), an apparently cooperative behaviour that potentially provides insights into social evolution. However, little is known about their basic natural history, limiting the scope for testable predictions. Here, we address this crucial prerequisite step by investigating some key outstanding questions in the most common species, D. aneurae, on its host, Acacia aneura. We detail distribution in space and time, mating, dispersal, domicile building and defence. Dunatothrips aneurae was distributed in loosely reproductively synchronized patches, and tended to prefer east‐facing, terminal phyllodes on thin‐phyllode A. aneura varieties. Mature domiciles contained middens, concentrated areas of waste, suggesting active maintenance of domiciles and the potential for the division of labour. We observed inbreeding and outbreeding. Dunatothrips aneurae males engaged in short, truncated matings with sisters before dispersing locally, mating with females in nearby immature domiciles; longer distance dispersal, although it must happen, is still undocumented. Males and females mated multiply. Lone females required male presence to initiate domiciles, constructed them without male help and lost wings on nesting by abscission. Silk production occurred well before egg laying. Aggression or defence appeared to be entirely absent. Taken together, these observations suggest that research into co‐founding behaviour should focus on: (1) local crowding; (2) lack of aggression; and (3) potential division of labour with respect to egg production, silk production and domicile maintenance. These results should provide a springboard for questions on the potential evolution of cooperation in this species. © 2013 The Linnean Society of London, Biological Journal of the Linnean Society, 2013, 109 , 802‐816.     

HepG2.2.15细胞中联合应用siRNA抑制HBV复制和表达的研究

观察联合应用siRNA对HepG2．2．15细胞中HBV抗原表达和复制的抑制作用。应用ELISA方法检测HBeAg和HBsAg;HBVDNA水平用实时定量PCR测定;用RT—PCR检测HBVmRNA水平。结果显示,实验中应用的HBV特异性siRNA均具有明显的抗HBV抗原表达和病毒复制作用;联合应用siRNA较单独应用具有更强的抗HBV作用。可见,HepG2．2．15细胞中联合应用siRNA对HBV复制的抑制作用比单独应用siRNA更有效。     

Fishing for jaws in early vertebrate evolution: a new hypothesis of mandibular confinement

The evolutionary origin of the vertebrate jaw persists as a deeply puzzling mystery. More than 99% of living vertebrates have jaws, but the evolutionary sequence that ultimately gave rise to this highly successful innovation remains controversial. A synthesis of recent fossil and embryological findings offers a novel solution to this enduring puzzle. The Mandibular Confinement Hypothesis proposes that the jaw evolved via spatial confinement of the mandibular arch (the most anterior pharyngeal arch within which the jaw arose). Fossil and anatomical evidence reveals: (i) the mandibular region was initially extensive and distinct among the pharyngeal arches; and (ii) with spatial confinement, the mandibular arch acquired a common pharyngeal pattern only at the origin of the jaw. The confinement occurred via a shift of a domain boundary that restricted the space the mesenchymal cells of the mandibular arch could occupy. As the surrounding domains replaced mandibular structures at the periphery, this shift allowed neural crest cells and mesodermal mesenchyme of the mandibular arch to acquire patterning programs that operate in the more posterior arches. The mesenchymal population within the mandibular arch was therefore no longer required to differentiate into specialized feeding and ventilation structures, and was remodelled into a jaw. Embryological evidence corroborates that the mandibular arch must be spatially confined for a jaw to develop. This new interpretation suggests neural crest as a key facilitator in correlating elements of the classically recognized vertebrate head ‘segmentation’.     

Joint‐linkage mapping and GWAS reveal extensive genetic loci that regulate male inflorescence size in maize

Both insufficient and excessive male inflorescence size leads to a reduction in maize yield. Knowledge of the genetic architecture of male inflorescence is essential to achieve the optimum inflorescence size for maize breeding. In this study, we used approximately eight thousand inbreds, including both linkage populations and association populations, to dissect the genetic architecture of male inflorescence. The linkage populations include 25 families developed in the U.S. and 11 families developed in China. Each family contains approximately 200 recombinant inbred lines (RILs). The association populations include approximately 1000 diverse lines from the U.S. and China. All inbreds were genotyped by either sequencing or microarray. Inflorescence size was measured as the tassel primary branch number (TBN) and tassel length (TL). A total of 125 quantitative trait loci (QTLs) were identified (63 for TBN, 62 for TL) through linkage analyses. In addition, 965 quantitative trait nucleotides (QTNs) were identified through genomewide study (GWAS) at a bootstrap posterior probability (BPP) above a 5% threshold. These QTLs/QTNs include 24 known genes that were cloned using mutants, for example Ramosa3 (ra3), Thick tassel dwarf1 (td1), tasselseed2 (ts2), liguleless2 (lg2), ramosa1 (ra1), barren stalk1 (ba1), branch silkless1 (bd1) and tasselseed6 (ts6). The newly identified genes encode a zinc transporter (e.g. GRMZM5G838098 and GRMZM2G047762), the adapt in terminal region protein (e.g. GRMZM5G885628), O‐methyl‐transferase (e.g. GRMZM2G147491), helix‐loop‐helix (HLH) DNA‐binding proteins (e.g. GRMZM2G414252 and GRMZM2G042895) and an SBP‐box protein (e.g. GRMZM2G058588). These results provide extensive genetic information to dissect the genetic architecture of inflorescence size for the improvement of maize yield.     

低强度周期性静水压力对人膝关节软骨细胞的影响

目的:探讨低强度周期性静水压力对体外培养的人膝关节软骨细胞增殖、凋亡,以及细胞Ⅱ型胶原分泌表达的影响。方法:体外酶消化法分离培养成人膝关节正常软骨细胞,将培养的第3代软骨细胞分为两组:正常对照组、3.0MPa组压力实验组,应用多功能恒温体外细胞培养中高压静水压力加载装置加载低强度周期性压力,共5d,每天2h。Ⅱ型胶原免疫组织化学染色法和甲苯胺蓝染色法鉴定软骨细胞,流式细胞术检测细胞凋亡,四甲基偶氮唑蓝(MTT)法绘制细胞生长曲线,qRT-PCR、Western-Blot检测Ⅱ型胶原的分泌和表达。结果:软骨细胞Ⅱ型胶原免疫组织化学染色和甲苯胺蓝染色均显示为阳性。与正常对照组相比,3.0MPa组表现出促进软骨细胞增殖,抑制细胞凋亡,且Ⅱ型胶原的合成分泌明显升高(P0.05)。结论:通过体外模拟人生理情况下较低强度(3.0MPa)的周期性静水压力对人软骨细胞增殖、凋亡水平及周围基质分泌合成功能的影响,初步证实了较低强度压力有助于软骨自我修复和自身保护作用的发挥。