Using stable hydrogen and oxygen isotopes to study water movement in soil-plant-atmosphere continuum at Poyang Lake wetland,China

Water movement in the soil-plant-atmosphere continuum (SPAC) has a significant effect on the biogeochemical process in wetlands. This study investigated the water movement in the SPAC in Poyang Lake wetland, which is a protected area with an important ecological function within the Yangtze River basin, under different water-level conditions by analyzing the responses of river, groundwater, soil and plants to precipitation using stable hydrogen and oxygen isotopes. The results show that the stable hydrogen and oxygen isotopic compositions (δ¹⁸O and δD) of soil water decrease with increasing depth due to the near surface evaporation. During the dry season the water-level in Poyang Lake is low, when it rains the influencing depth of precipitation and evaporation on soil water isotopic signatures was 20 cm below the ground surface. The rain water infiltrates into the soil, recharges groundwater and flows to the river. When the water-level in Poyang Lake is low, the Xiu River is recharged by the groundwater, which recharges the soil water by capillary rise. During the flood season, the water-level is high and the water in Poyang Lake reaches or covers the meadows, recharges the groundwater and soil water. In the meantime, the water in Poyang Lake can be recharged by rain water when it rains. During the dry season when it doesn’t rain, plants mainly use groundwater, but soil water is preferred and plants don’t use rainwater directly when it rains. When the lake water-level is extremely low, the plants in Poyang Lake wetland may suffer from water stress, which is harmful for plant growth.     

Natural population structure and genetic differentiation for heterodicogamous plant: <Emphasis Type="Italic">Cyclocarya paliurus</Emphasis> (Batal.) Iljinskaja (Juglandaceae)

Cyclocarya paliurus, a Chinese monotypic genus belonging to the Juglandaceae, exhibits a widespread distribution in southern China. To provide resource support for its future breeding and medicinal utilization, much information involving natural population succession and genetic diversity of C. paliurus should be obtained. In this study, the structures of 30 natural populations throughout its distribution were analyzed based on the investigation, showing the ratio of individuals with DBH < 40 cm accounting for 71.7%. Inter-simple sequence repeat (ISSR) and simple sequence repeat (SSR) were used for evaluation of 244 individuals from 29 natural populations. High-level polymorphism (100%) indicates high efficiency of two markers. Analysis demonstrated that genetic diversity (value of 0.18 for ISSR and 0.09 for SSR) was low among populations. While gene flow among populations reached 1.182 and 1.335 for ISSR and SSR, respectively, indicating genetic variations mainly existing within population. Twenty-six populations (size ≥5 individuals) were grouped into five clusters based on the combined ISSR and SSR loci. The value of Nei’s coefficient varying from 0.87 to 0.96 indicates small differentiation among groups. Furthermore, we speculate that C. paliurus is an expanding species in subtropical China (most of populations are increasing type (IP)) and discuss the strategy of germplasm conservation.     

普通小麦：华山新麦草异代换系的选育及细胞遗传学研究

利用缺体小麦－华山新麦草七倍体杂种（２ｎ＝４９,ＡＡＢＢＤＤＮ）杂交,Ｆ１再瑟相应的缺体小麦回交２次,在ＢＣ２Ｆ１镜检选出２ｎ＝４１的植株,同时套代自交,选育出５Ａ和３Ｄ两种异代换系。单体找换植侏自交产生二体代换植侏的频率为２３．１６％。５Ａ代换植侏在减数分裂中期Ⅰ２１Ⅱ的出现频率平均为８４．５２％,３Ｄ代换植侏２１Ⅱ的出现频率平均为６２．６１％。异代换系均生长旺盛,结实正常,说明异染色体能较好地     

兴安落叶松种群的稳定性与火干扰关系的研究

从种群生态学和干扰生态学的角度出发,采用火史重建的方法,研究了大兴安岭北部兴安落叶松种群的稳定性与火干扰的关系。结果表明：研究区内历史上火干扰频繁,平均间隔期为２８．９年,火烧强度较低。兴安落叶松依靠较强的耐火力、火力恢复力及自我恢复力具一定的稳定性。种群耐火力与长期火状况密切相关,表现为：低频类〈中频类〈高频类,高强类〈中强类〈低强类。火后恢复力与自我恢复力和最近一次火烧强度及距今时间密切相关：     

The Neuroprotective Effects of Justicidin A on Amyloid Beta25–35-Induced Neuronal Cell Death Through Inhibition of Tau Hyperphosphorylation and Induction of Autophagy in SH-SY5Y Cells

Justicidin A is a structurally defined arylnaphthalide lignan, which has been shown anti-cancer activity; however, the neuroprotective effect of justicidin A is still untested. In this study, we investigated the action of justicidin A on amyloid beta (Aβ)_25–35-induced neuronal cell death via inhibition of the hyperphosphorylation of tau and induction of autophagy in SH-SY5Y cells. Pretreatment with justicidin A significantly elevated cell viability in cells treated with Aβ_25–35. Western blot data demonstrated that justicidin A inhibited the Aβ_25–35-induced up-regulation the levels of hyperphosphorylation of tau in SH-SY5Y cells. In addition, treatment with justicidin A significantly induced autophagy as measured by the increasing LC3 II/I ratio, an important autophagy marker. These studies showed that justicidin A inhibited activity of glycogen synthase kinase-3beta (GSK-3β), which is an important kinase in up-stream signaling pathways; inhibited hyperphosphorylation of tau in AD; and enhanced activity of AMP-activated protein kinase (AMPK), which is the key molecule for both hyperphosphorylation of tau and induction of autophagy. These data provide the first evidence that justicidin A protects SH-SY5Y cells from Aβ_25–35-induced neuronal cell death through inhibition of hyperphosphorylation of tau and induction of autophagy via regulation the activity of GSK-3β and AMPK, and they also provide some insights into the relationship between tau protein hyperphosphorylation and autophagy. Thus, we conclude that justicidin A may have a potential role for neuroprotection and, therefore, may be used as a therapeutic agent for AD.

     

A Multi-Atlas Labeling Approach for Identifying Subject-Specific Functional Regions of Interest

The functional region of interest (fROI) approach has increasingly become a favored methodology in functional magnetic resonance imaging (fMRI) because it can circumvent inter-subject anatomical and functional variability, and thus increase the sensitivity and functional resolution of fMRI analyses. The standard fROI method requires human experts to meticulously examine and identify subject-specific fROIs within activation clusters. This process is time-consuming and heavily dependent on experts’ knowledge. Several algorithmic approaches have been proposed for identifying subject-specific fROIs; however, these approaches cannot easily incorporate prior knowledge of inter-subject variability. In the present study, we improved the multi-atlas labeling approach for defining subject-specific fROIs. In particular, we used a classifier-based atlas-encoding scheme and an atlas selection procedure to account for the large spatial variability across subjects. Using a functional atlas database for face recognition, we showed that with these two features, our approach efficiently circumvented inter-subject anatomical and functional variability and thus improved labeling accuracy. Moreover, in comparison with a single-atlas approach, our multi-atlas labeling approach showed better performance in identifying subject-specific fROIs.     

Lanthanide ion catalysis of the trans-cis isomerization of trans-bis(oxalato)-diaquochromate(III) and trans-bis(malonato)diaquochromate(III) [1]

The lanthanide ion catalyzed trans-cis isomerizations of trans-bis(oxalato)diaquochromate(II) and trans-bis(malonato)diaquochromate(III) have been studied. A linear free energy relationship was found correlating the catalytic rate constants for the oxalate reaction with the corresponding formation constants of complexes formed between simple monocarboxylic acids and the light (LaGd) members of the lanthanide series. The results indicates that for this portion of the series, the reaction mechanism is related to the formation of monocarboxylate complex intermediates. When the ionic radius of the lanthanide ion decreases below a particular value (as in the latter half of the series), the metal ion remains coordinated to both carboxylates of the oxalate ion rather than simply binding to only one carboxylate. In either situation, isomerization to the cis product eventually occurs, and the lanthanide ion is released.The reaction rates associated with the trans-bis(malonato)diaquochromate(III) reaction were found to be significantly slower than those of the corresponding oxalate system. However, in the malonate system, no linear free energy relationship was found relating the catalytic rate constants with the corresponding formation constants of monocarboxylic acids. One does find a linear relationship between the catalytic rate constants for the malonate reaction and the log K₁ values for the corresponding lanthanide/malonate complexes. During the course of the trans-cis isomerization, the lanthanide ion chelates the dissociated malonate group of a pentavalent Cr(III) intermediate. In the mechanism the lanthanide ion does not aid in ring opening, and neither does it singly bond to the intermediate     

On the mechanism of activation of the ATP X Mg(II)-dependent phosphoprotein phosphatase by kinase FA

The mechanism of activation of the Mg(II) X ATP-dependent phosphatase by the kinase FA has been investigated. The inactive protein phosphatase can be represented as FC X M where FC is the inactive catalytic component and M is the heat-stable modulator protein (also known as inhibitor-2). Phosphorylation of the modulator protein is demonstrated during activation of FC X M. In addition, continuous ATP hydrolysis during the activation is observed. This suggests that a cyclic phosphorylation-dephosphorylation reaction is continuously occurring during the activation. It is proposed that phosphorylation of the modulator protein causes an isomerization in FC to generate an active phosphatase. The activated phosphatase is capable of dephosphorylating the phosphorylated modulator. Upon dephosphorylation of modulator, the active phosphatase returns to its inactive form via a slow isomerization.