Comparison of the carbon-sequestering abilities of pineapple leaf residue chars produced by controlled combustion and by field burning

This study was undertaken to compare the chemical properties and yields of pineapple leaf residue (PLR) char produced by field burning (CF) with that produced by a partial combustion of air-dried PLR at 340 °C for 3 h in a furnace (CL). Higher total C, lignin content, and yield from CL as well as the presence of aromatic compounds in the Fourier Transform Infrared spectra of the char produced from CL suggest that the CL process was better in sequestering C than was the CF process. Although the C/N ratio of char produced from CL was low indicating a high N content of the char, the C in the char produced from CL was dominated by lignin suggesting that the decomposition of char produced from CL would be slow. To sequester C by char application, the PLR should be combusted in a controlled process rather than by burning in the field.     

Predicting the wetland distributions under climate warming in the Great Xing’an Mountains,northeastern China

The wetland ecosystem is particularly vulnerable to hydrological and climate changes. The Great Xing’an Mountain is such a region in China that has a large area of wetlands with rare human disturbance. The predictions of the global circulation model CGCM3 (the third-generation coupled global climate model from the Canadian Centre for Climate Modeling and Analysis) indicated that the temperature in The Great Xing’an Mountain will rise by 2–4°C over the next 100 years. This paper predicts the potential distributions of wetlands in this area under the current and warming climate conditions. This predication was performed by the Random Forests model, with 18 environmental variables, which will reflect the climate and topography conditions. The model has been proven to have a great prediction ability. The wetland distributions are primarily topography-driven in the Great Xing’an Mountains. Mean annual temperature, warmness index, and potential evapotranspiration ratio are the most important climatic factors in wetland distributions. The model predictions for three future climate scenarios show that the wetland area tends to decrease, and higher emission will also cause more drastic shrinkage of wetland distributions. About 30% of the wetland area will disappear by 2050. The area will decrease 62.47, 76.90, and 85.83%, respectively, under CGCM3-B1, CGCM3-A1B, and CGCM3-A2 by 2100. As for spatial allocation, wetlands may begin to disappear from the sides to the center and south to north under a warming climate. Under CGCM3-B1, the loss of wetlands may mainly occur in the south hills with flatter terrain, and some may occur in the north hills and intermontane plains. Under CGCM3-A1B, severe vanish of wetlands is predicted. Under CGCM3-A2, only a small area of wetlands may remain in the north of the high mountains.     

Measuring population differentiation using GST or D? A simulation study with microsatellite DNA markers under a finite island model and nonequilibrium conditions

The genetic differentiation of populations is a key parameter in population genetic investigations. Wright's F(ST) (and its relatives such as G(ST) ) has been a standard measure of differentiation. However, the deficiencies of these indexes have been increasingly realized in recent years, leading to some new measures being proposed, such as Jost's D (Molecular Ecology, 2008; 17, 4015). The existence of these new metrics has stimulated considerable debate and induced some confusion on which statistics should be used for estimating population differentiation. Here, we report a simulation study with neutral microsatellite DNA loci under a finite island model to compare the performance of G(ST) and D, particularly under nonequilibrium conditions. Our results suggest that there exist fundamental differences between the two statistics, and neither G(ST) nor D operates satisfactorily in all situations for quantifying differentiation. D is very sensitive to mutation models but G(ST) noticeably less so, which limits D's utility in population parameter estimation and comparisons across genetic markers. Also, the initial heterozygosity of the starting populations has some important effects on both the individual behaviours of G(ST) and D and their relative behaviours in early differentiation, and this effect is much greater for D than G(ST) . In the early stages of differentiation, when initial heterozygosity is relatively low (<0.5, if the number of subpopulations is large), G(ST) increases faster than D; the opposite is true when initial heterozygosity is high. Therefore, the state of the ancestral population appears to have some lasting impacts on population differentiation. In general, G(ST) can measure differentiation fairly well when heterozygosity is low whatever the causes; however, when heterozygosity is high (e.g. as a result of either high mutation rate or high initial heterozygosity) and gene flow is moderate to strong, G(ST) fails to measure differentiation. Interestingly, when population size is not very small (e.g. N ≥ 1000), G(ST) measures differentiation quite linearly with time over a long duration when gene flow is absent or very weak even if mutation rate is not low (e.g. μ = 0.001). In contrast, D, as a differentiation measure, performs rather robustly in all these situations. In practice, both indexes should be calculated and the relative levels of heterozygosities (especially H(S) ) and gene flow taken into account. We suggest that a comparison of the two indexes can generate useful insights into the evolutionary processes that influence population differentiation.     

UBE4B,a ubiquitin chain assembly factor,is required for MDM2-mediated p53 polyubiquitination and degradation

Although MDM2 is known to be a critical negative regulator of p53, MDM2 only catalyzes p53 mono- or multiple monoubiquitination in vitro and in vivo, which is insufficient for the initiation of proteasomal degradation. MDM2 does not polyubiquitinate p53 in vitro, however, which indicates that the activity of other ubiquitin ligase(s) or cofactor(s) is required for MDM2-mediated p53 polyubiquitination and degradation. In our recent study, we demonstrated that UBE4B, an E3 and E4 ubiquitin ligase with a U-box domain, interacts physically with both p53 and MDM2. Our findings revealed that UBE4B negatively regulates the level of p53 and inhibits p53-dependent transactivation and apoptosis. We propose that inhibition of MDM2 binding to UBE4B may provide another approach to inhibit MDM2 E3 ligase activity for tumor suppressor p53. It could lead to novel anticancer therapies, with the possibility of reducing the public health burden from cancer.Key words: ubiquitination, MDM2, UBE4B, p53, degradation     

UBE4B promotes Hdm2-mediated degradation of the tumor suppressor p53

The TP53 gene (encoding the p53 tumor suppressor) is rarely mutated, although frequently inactivated, in medulloblastoma and ependymoma. Recent work in mouse models showed that the loss of p53 accelerated the development of medulloblastoma. The mechanism underlying p53 inactivation in human brain tumors is not completely understood. We show that ubiquitination factor E4B (UBE4B), an E3 and E4 ubiquitin ligase, physically interacts with p53 and Hdm2 (also known as Mdm2 in mice). UBE4B promotes p53 polyubiquitination and degradation and inhibits p53-dependent transactivation and apoptosis. Notably, silencing UBE4B expression impairs xenotransplanted tumor growth in a p53-dependent manner and overexpression of UBE4B correlates with decreased expression of p53 in these tumors. We also show that UBE4B overexpression is often associated with amplification of its gene in human brain tumors. Our data indicate that amplification and overexpression of UBE4B represent previously undescribed molecular mechanisms of inactivation of p53 in brain tumors.     

Individual Management of Recurrent Intracranial Aneurysms: The Wuxi Experience

Recurrent intracranial aneurysms can occur after either surgical clipping or endovascular therapy. In this article, we present a consecutive series of 18 patients who underwent individual treatment for recurrent aneurysms after primary coil embolization or surgical clipping. During an 8-year period between May 1997 and December 2005, 18 patients underwent individual treatment for recurrent aneurysms. Clinical data and imaging studies of the patients were analyzed retrospectively. Out of the 18 patients, 13 had recurrent aneurysms located in the anterior circulation, and 5 had aneurysms of the posterior circulation. Treatment consisted of coiling in 16 patients and clipping in two patients. Of the 18 patients, 15 achieved a good or excellent recovery, two were paralyzed, and one died post-treatment. Both the surgical clipping and endovascular embolization for the treatment of recurrent intracranial aneurysms can achieve very good radiological results with low mortality rates. One of the key points for the successful treatment of this kind of lesions is the proper, individual, and interdisciplinary patient selection.     

成团泛菌低分子脂多糖的急性毒性、刺激性、致敏性及遗传毒性评估

本研究对成团泛菌低分子脂多糖(Pantoea agglomerans lipopolysaccharide,LPSp)的安全性进行初步评估.本研究采用一次限量法,用昆明种小鼠进行LPSp急性经口毒性试验,了解LPSp的急性毒性;采用新西兰兔分别进行LPSp急性和多次皮肤刺激性试验以及急性眼刺激性试验,了解LPSp的皮肤和粘膜刺激性;采用豚鼠进行LPSp皮肤变态反应试验,了解LPSp的致敏性;应用平板掺入法进行鼠伤寒沙门氏菌/回复突变试验和小鼠骨髓细胞微核试验考察LPSp的遗传危害.急性毒性试验结果显示,LPSp对小鼠经口一次灌胃的LD50大于5 000 mg/kg体重,属实际无毒级别;LPSp急性和多次皮肤刺激性试验以及急性眼刺激性试验结果显示,皮肤刺激和眼刺激积分均为0分,LPSp对皮肤无刺激性、对眼睛无急性刺激性;在皮肤变态反应试验中,LPSp在各观察时间点的皮肤变态反应积分均为0分,其致敏率均为0%,说明LPSp对豚鼠无致敏性; LPSp的鼠伤寒沙门氏菌/回复突变试验结果呈阴性(P>0.05);LPSp的小鼠骨髓细胞微核试验结果亦呈阴性,LPSp 各剂量组的微核发生率与阴性对照组未见统计学差异(P>0.05),而与阳性对照组有明显差异(P<0.01).本研究结果表明,在本实验剂量范围内,LPSp对小鼠经口毒性极低,属实际无毒级别,对家兔皮肤和眼睛无明显刺激性,对豚鼠无致敏性,对所试菌株和小鼠体细胞无诱变性和致突变性.