几种氨基酸─铜（Ⅱ）配合物的超氧化物歧化酶活性

用四氮唑蓝光化学还原法对所合成的ＫＣｕ（ＩＤＡ）（Ｓｅｒ）·２Ｈ２Ｏ、ＫＣｕ（ＩＤＡ）（Ａｌａ）·Ｈ２Ｏ、Ｃｕ（ＩＤＡ）（ｅｎ）、ＫＣｕ（ＩＤＡ）（Ｇｌｙ）·Ｈ２Ｏ和Ｃｕ（ＩＤＡ）·２Ｈ２Ｏ（ＩＤＡ＝Ｎ（羧基甲基）－甘氨酸,Ｓｅｒ＝丝氨酸,Ａｌａ＝丙氨酸,ｅｎ＝乙二胺,Ｇｌｙ＝甘氨酸）等５种氨基酸─铜（Ⅱ）配合物进行了活性测定,发现它们均具有天然超氧化物歧化酶活性,其活性依次为０．３４、０．４５、０．５０、０．５４、０．７２Ｃｕμｍｏｌ·Ｌ－１。     

RagA和Nprl2在果蝇肠道发育中的调节作用关系

动物胃肠道是食物消化和营养吸收器官,对机体健康至关重要。果蝇与哺乳动物的肠道在细胞组成、遗传调控等方面高度相似,是研究肠道发育的良好模型。体外培养细胞中的研究发现,Nprl2通过作用于Rag GTPase,抑制雷帕霉素靶点复合物1(target of rapamycin complex 1,TORC1)的活性,参与细胞代谢的调节。前期报道nprl2突变果蝇具有前胃增大、消化能力降低等肠道衰老相关表型。但对于Nprl2是否通过Rag GTPase调控肠道发育等方面尚不清楚。为了探究Rag GTPase在Nprl2调控果蝇肠道发育中的作用,本研究利用遗传杂交结合免疫荧光等方法对RagA敲减和nprl2突变果蝇的肠道形态、肠道细胞组成等方面进行研究。发现单独敲减RagA可以引起肠变粗、前胃增大等表型,敲减RagA能挽救nprl2突变体中肠道变细、分泌型细胞减少的表型,但并不能挽救nprl2突变体中前胃增大的表型。以上结果表明,RagA在肠道发育中发挥重要作用,Nprl2通过作用于Rag GTPase调节肠道细胞分化和肠道形态,但Nprl2对前胃发育和肠道的消化功能的调节可能通过不依赖于Rag GTPase的机制实现。     

基于目标检测的东北虎个体自动识别

东北虎个体的自动识别是种群数量评估和制定有效保护策略的重要基础。以东北虎林园和怪坡虎园38 只虎为研究对象,将目标检测方法首次应用到东北虎个体识别研究中,采用多种深度卷积神经网络模型,以实现虎个体的自动识别。首先通过相机在不同角度对 38 只东北虎进行拍摄取样,建立包含13579张图像的虎样本数据集。由于虎的体侧条纹信息不具有对称性,所以运用单次多盒目标检测（Single Shot MultiBox Detector, SSD）方法,对虎的躯干左侧条纹、右侧条纹以及脸部等不同部位图像,进行自动检测并分割提取,极大节省手工截取时间。在检测分割出的左右侧及脸部不同部位图片基础上,运用上、下、左、右平移变换进行数据增强,使图片数目扩大为原来的5 倍。采用LeNet、AlexNet、ZFNet、VGG16、ResNet34共5 种卷积神经网络模型进行个体自动识别。为了提高识别准确率,运用平均值和最大值不同组合方式来优化池化操作,并在全连接层引入概率分别为0.1、0.2、0.3、0.4的丢弃（Dropout）操作防止过拟合。实验表明,目标检测模型耗时较少,截取分割老虎不同部位条纹能达到0.6 s/张,远快于人工截取速度,并且在测试集上准确率能达到97.4%。不同姿态下的目标部位都能正确识别并分割。ResNet34模型的准确率优于其他网络模型,左右侧条纹以及脸部图像识别准确率分别为93.75%、97.01%和 86.28%,右侧条纹识别准确率优于左侧条纹和脸部图像。研究为野生虎自动相机影像的识别提供技术参考。在未来研究中,对东北虎个体影响数据进行扩充,选取更多影像数据进行训练,使网络具有更强的适应性,从而实现更准确的个体识别。     

The intact parasympathetic nerve promotes submandibular gland regeneration through ductal cell proliferation

ObjectivesSalivary gland regeneration is closely related to the parasympathetic nerve; however, the mechanism behind this relationship is still unclear. The aim of this study was to evaluate the relationship between the parasympathetic nerve and morphological differences during salivary gland regeneration.Materials and MethodsWe used a duct ligation/deligation‐induced submandibular gland regeneration model of Sprague‐Dawley (SD) rats. The regenerated submandibular gland with or without chorda lingual (CL) innervation was detected by haematoxylin–eosin staining, real‐time PCR (RT‐PCR), immunohistochemistry and Western blotting. We counted the number of Ki67‐positive cells to reveal the proliferation process that occurs during gland regeneration. Finally, we examined the expression of the following markers: aquaporin 5, cytokeratin 7, neural cell adhesion molecule (NCAM) and polysialyltransferases.ResultsIntact parasympathetic innervation promoted submandibular gland regeneration. The process of gland regeneration was significantly repressed by cutting off the CL nerve. During gland regeneration, Ki67‐positive cells were mainly found in the ductal structures. Moreover, the expression of NCAM and polysialyltransferases‐1 (PST) expression in the innervation group was significantly increased during early regeneration and decreased in the late stages. In the denervated submandibular glands, the expression of NCAM decreased during regeneration.ConclusionsOur findings revealed that the regeneration of submandibular glands with intact parasympathetic innervation was associated with duct cell proliferation and the increased expression of PST and NCAM.     

益智不同组织多糖含量及其生物合成途径分析

为了解益智（Alpinia oxyphylla）多糖生物合成途径关键酶功能,对其茎、叶、果实中的多糖含量及其单糖组成进行了研究,并采用Real-Time qPCR分析了益智多糖生物合成关键酶基因的表达模式。结果表明,益智多糖含量依次为果实 > 叶 > 茎,主要由葡萄糖、木糖、甘露糖、半乳糖和阿拉伯糖组成;利用益智转录组数据共获得47 690条unigenes,其中31 892条在NR、Swiss-Prot、KEGG、COG、KOG、GO和Pfam数据库获得注释,其中208个unigenes参与益智多糖的生物合成,涉及15个酶。表达分析表明,所筛选的18个基因在茎、叶、果实中均有表达,14个基因在果实中的表达量最高,以糖基转移酶基因和UDP-葡萄糖焦磷酸化酶基因的表达量最高,且其表达模式与不同组织中葡萄糖含量的变化一致。     

植物病原真菌的自噬

作为真核生物中普遍存在的现象,自噬不但实现了对细胞内物质的降解和回收利用,而且与植物病原真菌早期侵染阶段的附着胞发育、膨压升高、菌丝体形成、完成侵染等一系列过程密切相关,并且发挥了重要的作用。本文归纳了植物病原真菌自噬的相关基因和自噬过程;总结了自噬对病原真菌生长发育、致病力的调控和影响;概括了病原真菌自噬所涉及的信号通路;阐明了自噬影响植物病原真菌侵染过程的主要分子机制。为今后以自噬相关基因或蛋白作为靶点来筛选抑制病原真菌侵染的新型药物提供新的策略和思路。     

Autophagy during Mycobacterium tuberculosis infection and implications for future tuberculosis medications

Autophagy is a cellular homeostasis mechanism to eliminate unwanted or excessive organelles, or for the turnover of long-life cytosolic macromolecules. During Mycobacterium tuberculosis infection, autophagy represents not only an antimicrobial mechanism for the clearance of the intracellular pathogen, but also prevents excessive inflammation, avoiding the adverse effects on host. Here we focus on the anti-tuberculosis autophagy and signal pathways involved, and attempt to depict an integrative map of the interaction between autophagy and cytokine, ROS production, vitamin D, and inflammatory response. Novel autophagy-based therapy is also summarized. This integrative insight might add some novel thoughts for better tuberculosis medications.     

Altered Plasma Concentrations of Trace Elements in Ulcerative Colitis Patients Before and After Surgery

Ileal pouch-anal anastomosis (IPAA) is a classical surgery for ulcerative colitis patients. However, knowledge on trace element alteration in patients who had undergone this surgery is limited. This study was conducted to assess trace element alteration in patients with ulcerative colitis before and after ileal pouch-anal anastomosis. Preoperative (40) and postoperative (35) ulcerative colitis patients were studied. The dietary assessment of trace element intake was undertaken by a semiquantitative food frequency questionnaire. Patients' trace element status of zinc, copper, manganese, selenium, calcium, iron, and vitamin D₃ was assessed by measuring their blood concentrations. We found that with the similar dietary intake, there was no statistical difference in the concentrations of plasma copper, iron, calcium, and vitamin D₃ in the two groups (P?>?0.05). Compared with preoperative patients, postoperative patients had higher concentrations of plasma zinc (14.51?±?4.75 μmol/l) and manganese (0.21?±?0.11 μmol/l) and lower concentrations of plasma selenium (0.86?±?0.58 μmol/l). Both preoperative and postoperative mean concentrations of plasma calcium and vitamin D₃ were below their reference range, respectively. We conclude that IPAA does not seem to alter patients' abnormal trace elements completely. It is important to monitor and supply some specified trace elements even in postoperative patients.     

c-Abl Kinase Is a Regulator of αvβ3 Integrin Mediated Melanoma A375 Cell Migration

Integrins are heterodimeric transmembrane receptors that physically link the extracellular matrix (ECM) to the intracellular actin cytoskeleton, and are also signaling molecules that transduce signals bi-directionally across the plasma membrane. Integrin regulation is essential for tumor cell migration in response to growth factors. c-Abl kinase is a nonreceptor tyrosine kinase and is critical for signaling transduction from various receptors. Here we show that c-Abl kinase is involved in A375 cell migration mediated by α_vβ₃ integrin in response to PDGF stimulation. c-Abl kinase colocalizes with α_vβ₃ integrin dynamically and affects α_vβ₃ integrin affinity by regulating its cluster. The interaction between c-Abl kinase and α_vβ₃ integrin was dependent on the activity of c-Abl kinase induced by PDGF stimulation, but was not dependent on the binding of α_vβ₃ integrin with its ligands, suggesting that c-Abl kinase is not involved in the outside-in signaling of α_vβ₃ integrin. Talin head domain was required for the interaction between c-Abl kinase and α_vβ₃ integrin, and the SH3 domain of c-Abl kinase was involved in its interaction with talin and α_vβ₃ integrin. Taken together, we have uncovered a novel and critical role of c-Abl kinase in α_vβ₃ integrin mediated melanoma cell migration.