绿核菌属(Ustilaginoidea)一新种(英文)

本文报道了寄生在水稻子房上的绿核菌属一新种,稻白色绿枝菌Ustilaginoideaalbicansspnov。该菌的侵染时期、发病时期和症状与稻曲病毒U,virens相似,但该新种产生白色分生泡子座。分生孢子球形或椭球形,表面光滑,白色,无疣突,35～60X35～6．8μm。未见菌核。以分离的稻白色绿核菌回接水稻,可以产生同样的白色稻曲球。模式标本和模式菌株保存在辽宁省农业科学院植保所。     

人白细胞介素18的基因克隆与表达

人白细胞介素１８（ＩＬ－１８）是新近发现的细胞因子之一．研究表明它参与Ｔ１辅助细胞介导的细胞免疫．利用ＲＴ－ＰＣＲ技术从人外周血细胞扩增得到了ＩＬ－１８的ｃＤＮＡ并测定其核酸序列．利用基因重组技术构建ＩＬ－１８的表达载体,并在大肠杆菌中进行了表达．这为以后进一步研究ＩＬ－１８的功能奠定了基础．     

β-葡萄糖苷酶的分离纯化和性质研究

β－葡萄糖苷酶是纤维素酶的重要组分之一,它不仅可水解纤维二糖和寡糖,更可解除纤维二糖对β－１,４－内切葡聚糖酶和外切葡聚糖酶的抑制,提高水解速率和程度．利用ＳｅｐｈａｄｅｘＧ－１５０和ＤＥＡＥ－ＳｅｐｈａｄｅｘＡ－５０层析法从黑曲霉变异株Ｌ－２２中分离提纯了β－葡萄糖苷酶,该酶是由两个分子量相同的亚基组成的二聚体,每个亚基分子量为２０３ｋＤ．该酶最适ｐＨ为４．８,ｐＨ稳定范围在３．６～６．４;最适温度是６０℃,温度稳定范围为４～６０℃;酶分子含糖量为８．３５％．它是一个酸性β－葡萄糖苷水解酶,专一性地水解β－糖苷键．而不水解α－糖苷键,对短链底物表现了相对高的活力．用动力学分析和共价化学修饰方法探讨了与该酶活力有关的必需基团．由ｐＨ对ｌｇＶｍ和ｌｇＶｍ／Ｋｍ的影响,推测出酶活性部位至少有两个可解离基团为酶活性所必需,它们在酶－底物复合物中的ｐＫｅｓ１和ｐＫｅｓ２的值分别为４．０和５．６,在游离酶中的ｐＫ值分别为４．２和５．９．由此可初步判断这两个可解离基团可能为组氨酸和含羧基的氨基酸,它们与酶的催化和底物结合可能有关．     

Highly luminescent S,N co‐doped carbon quantum dots‐sensitized chemiluminescence on luminol–H2O2 system for the determination of ranitidine

S,N co‐doped carbon quantum dots (N,S‐CQDs) with super high quantum yield (79%) were prepared by the hydrothermal method and characterized by transmission electron microscopy, photoluminescence, UV–Vis spectroscopy and Fourier transformed infrared spectroscopy. N,S‐CQDs can enhance the chemiluminescence intensity of a luminol–H₂O₂ system. The possible mechanism of the luminol–H₂O₂–(N,S‐CQDs) was illustrated by using chemiluminescence, photoluminescence and ultraviolet analysis. Ranitidine can quench the chemiluminescence intensity of a luminol–H₂O₂–N,S‐CQDs system. So, a novel flow‐injection chemiluminescence method was designed to determine ranitidine within a linear range of 0.5–50 μg ml^?1 and a detection limit of 0.12 μg ml^?1. The method shows promising application prospects.     

The protective effects of C16 peptide and angiopoietin-1 compound in lipopolysaccharide-induced acute respiratory distress syndrome

C16 peptide and angiopoietin-1 (Ang-1) have been found to have anti-inflammatory activity in various inflammation-related diseases. However, their combined role in acute respiratory distress syndrome (ARDS) has not been investigated yet. The objective of this study was to investigate the effects of C16 peptide and Ang-1 in combination with lipopolysaccharide (LPS)-induced inflammatory insult in vitro and in vivo. Human pulmonary microvascular endothelial cells and human pulmonary alveolar epithelial cells were used as cell culture systems, and an ARDS rodent model was used for in vivo studies. Our results demonstrated that C16 and Ang-1 in combination significantly suppressed inflammatory cell transmigration by 33% in comparison with the vehicle alone, and decreased the lung tissue wet-to-dry lung weight ratio to a maximum of 1.53, compared to 3.55 in the vehicle group in ARDS rats. Moreover, C  +  A treatment reduced the histology injury score to 60% of the vehicle control, enhanced arterial oxygen saturation (SO₂), decreased arterial carbon dioxide partial pressure (PCO₂), and increased oxygen partial pressure (PO₂) in ARDS rats, while also improving the survival rate from 47% (7/15) to 80% (12/15) and diminishing fibrosis, necrosis, and apoptosis in lung tissue. Furthermore, when C  +  A therapy was administered 4 h following LPS injection, the treatment showed significant alleviating effects on pulmonary inflammatory cell infiltration 24 h postinsult. In conclusion, our in vitro and in vivo studies show that C16 and Ang-1 exert protective effects against LPS-induced inflammatory insult. C16 and Ang-1 hold promise as a novel agent against LPS-induced ARDS. Further studies are needed to determine the potential for C16 and Ang-1 in combination in treating inflammatory lung diseases.     

中国遥感干旱指数时空特征及其对气候和地表覆盖变化的响应

干旱严重影响植被生长,威胁粮食安全,基于遥感计算的植被状态指数（Vegetation Condition Index,VCI）、温度状态指数（Temperature Condition Index,TCI）和植被健康指数（Vegetation Health Index,VHI）是常用的干旱指数,被广泛应用于干旱监测。为了探究近年来我国干旱特征及其对气候和地表覆盖变化的响应,分析了2003-2016年期间VCI、TCI和VHI的时空变化特征;采用最小二乘（OLS）和偏相关分析方法分析了这些指数对气候和地表覆盖变化的响应。基于上述干旱指数计算的干旱频率表明,中温带中部和南温带等地区干旱发生频率高,干旱指数变化趋势表明在2003-2016年期间中国大部分地区干旱缓解,但在中温带、南温带和高原气候区等局部地区干旱加剧;总体而言,干旱指数随着年平均温度的上升和年降水量的降低而减小,VHI与温度和降水量的相关性在不同气候区的一致性优于VCI和TCI;裸土的减少和植被的增加导致干旱指数增大,树木转变为低矮植被干旱指数降低。     

Architecture and function of the lophophore in the problematic brachiopod Heliomedusa orienta (Early Cambrian, South China)

The detailed structure of the lophophore is a key diagnostic character in the definition of higher brachiopod taxa. The problematic Heliomedusa orienta Sun and Hou, from the Lower Cambrian Chengjiang Lagerstätte of Yunnan, southwestern China, has a well-preserved lophophore, which is unlike that of any known extant or extinct brachiopods. Based on a comparative study of lophophore disposition in H. orienta and the extant discinid Pelagodiscus atlanticus, the in- and excurrent pattern and shell orientation of H. orienta are described and discussed. Reconstructions of lophophore shape and function are based on numerous specimens and comparison with P. atlanticus. The lophophore is composed of a pair of lophophoral arms that freely arch posteriorly rather than coiling anteriorly as commonly seen in fossil and recent lingulids. The lophophore is attached to the dorsal lobe of the mantle; it has neither calcareous nor chitinous supporting structures, and is disposed symmetrically on either side of the valve midline. The mouth can be inferred to be located at the base of the two brachial tubes, slightly posterior to the anterodorsal projection of the body wall. The lophophoral arms bear laterofrontal tentacles with a double row of cilia along their lateral edge, as in extant lingulid brachiopods. The main brachial axes are also ciliated, which presumably facilitated transport of mucous-bound nutrient particles to the mouth. The unique organization of the lophophore in Heliomedusa is not like any known fossil and living brachiopods. This clearly demonstrates that H. orienta is not a member of any crown group. It is here considered as a member of the brachiopod stem group, which challenges recent interpretations of a close discinid affinity.     

Evaluation of an immune-privileged scaffold for In vivo implantation of tissue-engineered trachea

Forty tracheas were harvested from donor New Zealand rabbits. Thirty of the tracheas were randomly divided into four treatment groups corresponding to 4, 5, 6, or 7% NaClO₄ and one untreated group (n = 6 each group). Scanning electron microscopy distinctly revealed the cilium of epithelial cells in the fresh trachea. The internal surface of the trachea was rough in the 4% treatment group and smooth in the 5% treatment group, whereas the matrix was fractured in the 6% treatment group and highly fractured in the 7% treatment group. We observed that the number of nuclei in the cells of the 4, 5, 6, and 7% treatment groups decreased compared to the cells of the untreated group (p < 0.05). Although there was a significant decrease in maximum tensile strength, tensile strain at fracture and the elastic modulus (p < 0.05) with increasing concentrations of NaClO₄, the content of glycosaminoglycans (GAGs) did not significantly decline (p > 0.05) in the 5% treatment group. In addition, histopathological analysis showed that the fiber component and basement membrane of the matrix in the 5% treatment group were retained after optimal decellularization. Despite the preserved cartilage, in vitro immunohistochemical analysis revealed that the matrix did not show the presence of major histocompatibility complex (MHC) antigens. The remaining ten donor tracheas, which were divided into a positive control group and an optimal decellularized group, were used for allogeneic transplantation. Blood samples were taken regularly, and histologic examinations were performed at 30 days postimplantation, which showed no significant immune rejection. In conclusion, we surveyed the structural integrity through morphological observation and compared the biomechanical and immunogenic changes in the tracheal matrix under the different treatments. The optimal decellularized tracheal matrix with preserved cartilage, which was acquired via 5% NaClO4 treatment, exhibited structural integrity, antigen cell removal and immune privilege and would be suitable for use as a tissue-engineered trachea for in vivo transplantation in rabbit models.     

Batch‐to‐Batch Variation of Polymeric Photovoltaic Materials: its Origin and Impacts on Charge Carrier Transport and Device Performances

A detailed investigation of the impact of molecular weight distribution of a photoactive polymer, poly[N‐9′‐heptadecanyl‐2,7‐carbazole‐alt‐5,5‐(4′,7′‐di‐2‐thienyl‐2′,1′,3′‐benzothiadiazole)] (PCDTBT), on photovoltaic device performance and carrier transport properties is reported. It is found that different batches of as‐received polymers have substantial differences in their molecular weight distribution. As revealed by gel permeation chromatography (GPC), two peaks can generally be observed. One of the peaks corresponds to a high molecular weight component and the other peak corresponds to a low molecular weight component. Photovoltaic devices fabricated with a higher proportion of low molecular weight component have power conversion efficiencies (PCEs) reduced from 5.7% to 2.5%. The corresponding charge carrier mobility at the short‐circuit region is also significantly reduced from 2.7 × 10^?5 to 1.6 × 10^?8 cm² V^?1 s^?1. The carrier transport properties of the polymers at various temperatures are further analyzed by the Gaussian disorder model (GDM). All polymers have similar energetic disorders. However, they appear to have significant differences in carrier hopping distances. This result provides insight into the origin of the molecular weight effect on carrier transport in polymeric semiconducting materials.