正常人长时数字记忆信息提取的神经基础的功能磁共振研究

本文旨在通过功能磁共振成像(functional magnetic resonance imaging,fMRI)技术研究正常人进行长时数字记忆信息提取的神经基础。选取22名右利手志愿者进行长时数字记忆任务实验,采用组块设计,记忆任务与对照任务交替进行,同时利用Siemens 1.5T超导型磁共振仪进行fMRI成像,采用SPM99软件进行数据分析,脑功能区定位在Talairach坐标中显示。结果显示被试者在进行长时数字记忆提取任务时,激活最显著的皮层是左侧额中回(Brodmann分区9区,BA9区),另外左额叶内侧回、左额下回、右额下回、扣带回、左顶下小叶、左顶上小叶、右顶上小叶、右颞中回、左枕舌回、左枕中回、右中脑、小脑、右尾状核尾部等结构也有激活,各大脑皮层的激活均呈现明显的左侧半球优势。根据上述结果推论,长时数字记忆由以左侧大脑半球为优势的各脑区共同参与完成,其中左侧额叶外侧面可能是信息提取的重要结构,而其它脑叶及其之间的广泛联系可能在数字信息的加工、处理和存储中起重要作用。     

Deciphering the protective role of nitric oxide against salt stress at the physiological and proteomic levels in maize

Saline stress is a major factor that limits crop yield. Nitric oxide (NO) is functional during plant growth, development, and defense responses. In the present study, the protective role of NO in alleviating saline stress in maize at the physiological and proteomic levels was examined. Our results showed that salt treatment quickly induced NO accumulation and addition of the NO donor S-nitroso-N-acetylpenicillamine (SNAP) efficiently eliminated the inhibitory effect of salt on shoot growth and photosynthesis and inhibited salt-inducible H2O2 accumulation. These effects could be reversed by NO metabolic scavengers and inhibitors. Further proteomic and Western blotting analysis revealed that NO induced G-protein-associated protein accumulation and antioxidant enzymes activities, in addition to activation of defense proteins, energy metabolism, and cell structure/division in salt-treated maize seedlings. Controlling the G-protein status with G-protein activators or inhibitors also affected NO generation and root and stem growth in maize seedlings after saline stress. On the basis of these results, we propose that NO enhances salt tolerance in maize seedlings by enhancing antioxidant enzyme activities and controlling H2O2 levels, and these effects are accompanied by diverse downstream defense responses. During this process, G-protein signaling is an early event that works upstream of NO biogenesis.     

纳络酮对东方蝾螈胚胎表皮传导的阻断作用

在胚胎发育的一定时期,表皮细胞呈现较强的β-内啡肽阳性免疫反应,而这时期正是表皮传导最活跃的时期。为了探索胚胎表皮传导和β-内啡肽-类阿片样多肽之间是否有关系,本实验采用纳络酮处理,发现表皮传导消失,待纳络酮作用消除后,表皮传导现象又再出现,说明纳络酮在胚胎表皮细胞传导中起了阻断的作用。     

Rapid and reliable detection of 11 food-borne pathogens using thin-film biosensor chips

Traditional methods for identifying food-borne pathogens are time-consuming and laborious, so it is necessary to develop innovative methods for the rapid identification of food-borne pathogens. Here, we report the development of silicon-based optical thin-film biosensor chips for sensitive detection of 11 food-borne pathogens. Briefly, aldehyde-labeled probes were arrayed and covalently attached to a hydrazine-derivatized chip surface, and then, biotinylated polymerase chain reaction (PCR) amplicons were hybridized with the probes. After washing and brief incubation with an antibiotin immunoglobulin G–horseradish peroxidase conjugate and a precipitable horseradish peroxidase substrate, biotinylated chains bound to the probes were visualized as a color change on the chip surface (gold to blue/purple). Highly sensitive and accurate examination of PCR fragment targets can be completed within 30 min. This assay is extremely robust, sensitive, specific, and economical and can be adapted to different throughputs. Thus, a rapid, sensitive, and reliable technique for detecting 11 food-borne pathogens was successfully developed.     

Programmed cell death of secretory cavity cells of citrus fruits is associated with Ca2+ accumulation in the nucleus

Key message

An increase in Ca ²⁺ concentration in the nucleus may activate the PCD of secretory cavity cells, and further Ca ²⁺ accumulation contributes to the regulation of nuclear DNA degradation.

Abstract

Calcium plays an important role in plant programmed cell death (PCD). Previously, we confirmed that PCD was involved in the degradation of secretory cavity cells in Citrus sinensis (L.) Osbeck fruits. To further explore the function of calcium in the PCD of secretory cavity cells, we used potassium pyroantimonate precipitation to detect and locate calcium dynamics. At the precursor cell stage of the secretory cavity, Ca²⁺ was only distributed in the cell walls. At the early stage of secretory cavity initial cells, Ca²⁺ in the cell walls was gradually transported into the cytoplasm via pinocytotic vesicles. Although a small amount of Ca²⁺ was present in the nucleus, the TUNEL signal was scarcely observed. At the middle stage of initial cells, a large number of pinocytotic vesicles were transferred to the nucleus, where the vesicle membrane fused with the nuclear membrane to release calcium into the nucleoplasm. In addition, abundant Ca²⁺ aggregated in the condensed chromatin and nucleolus, where the TUNEL signal appeared the strongest. At the late stage of initial cells, the chromatin and nucleolus gradually degraded and disappeared, and the nucleus appeared broken-like, as Ca²⁺ in the cell wall had nearly completely disappeared, and Ca²⁺ in the nucleus was also rapidly reduced. Furthermore, the TUNEL signal also disappeared. These phenomena indicated that an increase in Ca²⁺ concentration in the nucleus might activate the PCD of secretory cavity cells, and further Ca²⁺ accumulation contributed to the regulation of nuclear DNA degradation.     

Analysis of Articulation Between Clathrin and Retromer in Retrograde Sorting on Early Endosomes

Clathrin and retromer have key functions for retrograde trafficking between early endosomes and the trans -Golgi network (TGN). Previous studies on Shiga toxin suggested that these two coat complexes operate in a sequential manner. Here, we show that the curvature recognition subunit component sorting nexin 1 (SNX1) of retromer interacts with receptor-mediated endocytosis-8 (RME-8) protein, and that RME-8 and SNX1 colocalize on early endosomes together with a model cargo of the retrograde route, the receptor-binding B-subunit of Shiga toxin (STxB). RME-8 has previously been found to bind to the clathrin uncoating adenosine triphosphatase (ATPase) Hsc70, and we now report that depletion of RME-8 or Hsc70 affects retrograde trafficking at the early endosomes–TGN interface of STxB and the cation-independent mannose 6-phosphate receptor, an endogenous retrograde cargo protein. We also provide evidence that retromer interacts with the clathrin-binding protein hepatocyte growth factor-regulated tyrosine kinase substrate (Hrs) not only via SNX1, as previously published (Chin Raynor MC, Wei X, Chen HQ, Li L. Hrs interacts with sorting nexin 1 and regulates degradation of epidermal growth factor receptor. J Biol Chem 2001;276:7069–7078), but also via the core complex component Vps35. Hrs codistributes at the ultrastructural level with STxB on early endosomes, and interfering with Hrs function using antibodies or mild overexpression inhibits retrograde transport. Our combined data suggest a model according to which the functions in retrograde sorting on early endosomes of SNX1/retromer and clathrin are articulated by RME-8, and possibly also by Hrs.     

Analysis of fungal community structure in the soil of Zoige Alpine Wetland

To understand the soil fungal community diversity in different zones of the Zoige Alpine Wetland, BIOLOG analysis and traditional culture method were employed in our research. Three sample sites namely the Conservatory Station up-hill slope (CSUS), the Flower Lake side (FLS) and the Conservatory Station down slope (CSDS) with increasing by water content were investigated. The results of BIOLOG showed that fungal catabolic richness index (S) and Shannon diversity index (H) increasingly rose with water content augmented from CSUS to CSDS, while different from the former tendency, the fungal catabolic activity was highest at CSDS and lowest at FLS. Principal component analysis (PCA) results demonstrated the functional diversity of fungal community varied among the three sample sites, showing us more similarity between CSDS and FLS, and considerable difference between CSUS and the former two sites. The outcome of traditional culture method illustrated the number of soil fungi increased from CSUS to CSDS, while the sort of fungal species that could be cultured did not show much difference among the three sample sites.     

Comparative genomics identifies genes shared by distantly related insect-transmitted plant pathogenic mollicutes

Phytoplasmas and spiroplasmas are distantly related insect-transmitted plant pathogens within the class Mollicutes. Genome sequencing projects of phytoplasma strain Aster Yellows-Witches' Broom (AY-WB) and Spiroplasma kunkelii are near completion. Complete genome sequences of seven obligate animal and human pathogenic mollicutes (Mycoplasma and Ureaplasma spp.), and OY phytoplasma have been reported. Putative ORFs predicted from the genome sequences of AY-WB and S. kunkelii were compared to those of the completed genomes. This resulted in identification of at least three ORFs present in AY-WB, OY and S. kunkelii but not in the obligate animal and human pathogenic mollicutes. Moreover, we identified ORFs that seemed more closely related between AY-WB and S. kunkelii than to their mycoplasma counterparts. Phylogenetic analyses using parsimony were employed to study the origin of these genes, resulting in identification of one gene that may have undergone horizontal gene transfer. The possible involvement of these genes in plant pathogenicity is discussed.