成长记录袋评价法提升细胞工程课堂教学质量

首次将成长记录袋评价法引入到高等院校生物类专业课程《细胞工程》的课堂教学改革中,构建了较为完备的课堂评价体系,将成长记录袋课堂评价体系的建立分为4个阶段,即准备阶段、演练阶段、实施阶段和作品展示阶段。并从实施成长记录袋评价法的可行性与必要性、评价体系的构建、执行过程中应注意的要点及事项分别展开论述。结果表明：通过该评价法的施行,不仅活跃了课堂气氛,增强了学生学习的主动性和自主性,还提高了学生分析、解决与细胞工程技术相关的专业问题的能力,执行效果良好。本课程课堂教学改革的实施,可为高校同类性质的其他专业课程提供借鉴与参考。     

雌激素快速影响大鼠发育期海马NMDA受体活性的机制

为了探讨雌激素对发育期大鼠海马NMDA受体活性的快速影响,对出生后18d的雄性大鼠进行苯甲酸雌二醇皮下注射,1h后用WesternBlot检测海马NMDA受体NR1和NR2B亚基、雌激素β受体、ERK1/2蛋白的表达,以及NR2B和ERK1/2的磷酸化水平;并通过海马内给予雌激素受体拮抗剂ICI182,780和MEK1/2抑制剂U0126预处理,进一步分析苯甲酸雌二醇影响NR2B和ERK1/2磷酸化的作用机制。结果显示,苯甲酸雌二醇不影响NR1、NR2B、ERβ和ERK1/2的表达,但能快速增强NR2B和ERK1/2的磷酸化水平。雌激素受体拮抗剂ICI182,780和MEK1/2抑制剂U0126均能明显抑制苯甲酸雌二醇诱导的NR2B和ERK1/2磷酸化水平的增加。以上结果提示,雌激素可能通过雌激素受体的非基因组机制激活ERK/MAPK信号转导通路,快速诱导NMDA受体NR2B亚基磷酸化,激活NMDA受体。     

海南尖峰岭国家级自然保护区森林动态监测样地鸟类和兽类多样性

2016年8月至2019年2月,我们利用红外相机对海南尖峰岭60 ha森林动态监测样地的鸟类和兽类进行了调查.共在79个位点上布设了红外相机,累积27,848个相机日,获得可鉴定到物种的独立有效照片15,320张.经鉴定,共拍摄到46种野生动物,包括16种兽类(隶属于6目11科)和30种鸟类(隶属于8目16科).其中,...     

患子宫内膜炎母猪产道致病菌谱分析及卟啉单胞菌的分离鉴定

【背景】子宫内膜炎是规模化养殖场母猪常患的生殖道疾病之一,对养殖业造成的经济损失较大,细菌感染是常见的病因之一,但具体病原及致病机制尚未完全明确。【目的】探究产道菌群对母猪子宫内膜炎的影响。【方法】采用第三代细菌16S rRNA基因全长高通量测序技术进行对比,研究健康和患有子宫内膜炎母猪产道菌群差异,并依据菌群分析结果对子宫内膜炎母猪产道分泌物进行细菌分离。建立荧光定量PCR计数方法测定母猪产道样品中的卟啉单胞菌数。【结果】健康和患子宫内膜炎母猪产道菌群的丰富度和多样性差异显著;与健康组母猪相比,患子宫内膜炎母猪产道菌群变形菌门(Proteobacteria)、拟杆菌门相对丰度显著增加(P<0.05)。在属分类水平上,健康母猪产道的主要优势菌属为金黄杆菌属、芽孢杆菌属、毛螺菌属等,这些优势属在患子宫内膜炎母猪产道丰度降低,患子宫内膜炎母猪产道丰度最高的菌属为埃希氏菌属(Escherichia)、Rodentibacter和卟啉单胞菌属(Porphyromonas)。在种水平上,Porphyromonas somerae是患子宫内膜炎母猪产道的主要条件性致病菌。依据菌群分析结果,本研究从子宫内膜炎母猪产道分泌物中分离到一株卟啉单胞菌,经鉴定该菌16S rRNA基因与Porphyromonas somerae DSM 23386 strain JCM 13867(NR_113090.1)相似性达99.04%。荧光定量PCR计数方法测定,子宫内膜炎母猪产道卟啉单胞菌数量显著高于健康母猪(P<0.05),推测卟啉单胞菌与该批次母猪子宫内膜炎病因有关。【结论】本研究为子宫内膜炎母猪的病因和发病机制奠定基础,并为其治疗提供理论依据。     

野生藏酋猴冬季食物组成及营养成分

觅食是获取营养物质和能量的重要途经。对于栖息在四季分明地区的灵长类动物而言,低温以及食物资源相对匮乏的冬季是其生存和生长发育的瓶颈期。本研究以安徽黄山的野生藏酋猴(Macaca thibetana)天湖山群为对象,于2019年11月至2020年1月采用瞬时扫描取样法(Instantaneous scan sampling)采集猴群觅食行为数据,并分析其冬季食物组成及食物中各化学成分含量对取食的影响。结果显示,野生藏酋猴在冬季共取食23科31属34种植物,主要包括壳斗科(Fagaceae, 21.62%)、樟科(Lauraceae, 17.57%)、蔷薇科(Rosaceae, 8.11%)的植物,取食部位以叶片(66.22%)和果实(种子)(24.32%)为主。不同取食部位的水分、总糖、淀粉、脂肪、单宁等成分存在显著差异。其中,叶片的水分含量高于果实(种子)、茎和芽,茎和果实(种子)含有较高的总糖,果实(种子)的淀粉和脂肪含量最高,芽的单宁含量最高。此外,取食植物中的总糖含量高于非取食植物。结果表明,野生藏酋猴适应寒冷冬季与食物匮乏的觅食策略是对植物种类、植物部位及其主要营养成分的综合结...     

Enhancement of Atrazine Removal by Free and Immobilized Arthrobacter Sp. HB-5 in Soil and Wastewater

In an attempt to remove atrazine in situ, high-efficiency atrazine–degrading Arthrobacter sp. strain HB-5 (HB-5) and HB-5 immobilized on sodium alginate were introduced into two atrazine-polluted soils that are representative of soils in North China. Soil and wastewater with and without (controls) HB-5 or immobilized HB-5 were incubated at 25°C after the addition of atrazine. Soil samples were collected after 0 d, 1 d, 3 d, 5 d, 7 d, 10 d, and 13 d, and wastewater samples were collected after 0 d, 1 d, 3 d, 7 d, 14 d, 21 d, and 28 d. The residual atrazine was extracted from each sample and detected using gas chromatography. The half-life of the atrazine in the in soil samples was less than 3 d, and less than 7 d in the wastewater samples, treated with HB-5 or with immobilized HB-5. The immobilized HB-5 appears to exhibit better self-protection than the free bacteria at different pHs, and its ability to degrade atrazine was less affected by different conditions. Thus, in practice, immobilized HB-5 is better suited to incubations longer than 7 days because of its good adaptability. Both HB-5 and immobilized HB-5 exhibited better degradation of atrazine under conditions similar to the optimal living conditions of HB-5 than under other conditions. A small part of atrazine was removed by adsorption of organic matters, too. This study demonstrates the usefulness of these microorganisms in the bioremediation of soil and water systems polluted with triazine herbicides.     

Resolvin D1 Protects Podocytes in Adriamycin-Induced Nephropathy through Modulation of 14-3-3β Acetylation

Resolvin D1 (RvD1) is a lipid-derived mediator generated during the resolution inflammation. While the immunoresolvent effects of Resolvins have been extensively studied in leukocytes, actions of Resolvins on intrinsic kidney cells have received little attention. The podocyte plays a central role in glomerular function, and podocyte damage can lead to proteinuria and glomerulosclerosis. This study examined whether RvD1 has renoprotective effects upon podocytes. We investigated a mouse model of adriamycin (ADR) nephropathy featuring rapid induction of podocyte damage and proteinuria followed by glomerulosclerosis. We identified a progressive loss of synaptopodin expression over a 28 day time-course of ADR nephropathy which was associated with increased acetylation of 14-3-3β and reduced synaptopodin phosphorylation. Groups of mice were given once daily RvD1 treatment (4 ng/g body weight/day) starting either 30 min (early treatment) or 14 days (late treatment) after ADR injection and continued until mice were killed on day 28. Early, but not late, RvD1 treatment attenuated ADR-induced proteinuria, glomerulosclerosis and tubulointerstitial fibrosis, modified macrophages from an M1 to M2 phenotype. Early RvD1 treatment prevented the down-regulation of synaptopodin expression and changes in 14-3-3β acetylation and synaptopodin phosphorylation. In a podocyte cell line, RvD1 was shown to prevent rapid TNF-α-induced down-regulation of synaptopodin expression. In transfection studies, TNF-α-induced a decrease in synaptopodin phosphorylation and an increase in acetylation of 14-3-3β, resulting in disassociation between 14-3-3β and synaptopodin. RvD1 prevented TNF-α induced post-translational modification of synaptopodin and 14-3-3β proteins, and maintained the synaptopodin/14-3-3β interaction. Furthermore, replacement of lysine K51, or K117+K122 in 14-3-3β with glutamine, to mimic lysine acetylation, significantly reduced the interaction between 14-3-3β and synaptopodin. In conclusion, our studies provide the first evidence that RvD1 can protect against podocyte damage by preventing down-regulation of synaptopodin through inhibition of 14-3-3β/synaptopodin dissociation. RvD1 treatment may have potential application in the treatment of chronic kidney disease.     

Generation of Elf5‐Cre knockin mouse strain for trophoblast‐specific gene manipulation

Placental development is a complex and highly controlled process during which trophoblast stem cells differentiate to various trophoblast subtypes. The early embryonic death of systemic gene knockout models hampers the investigation of these genes that might play important roles during placentation. A trophoblast specific Cre mouse model would be of great help for dissecting out the potential roles of these genes during placental development. For this purpose, we generate a transgenic mouse with the Cre recombinase inserted into the endogenous locus of Elf5 gene that is expressed specifically in placental trophoblast cells. To analyze the specificity and efficiency of Cre recombinase activity in Elf5‐Cre mice, we mated Elf5‐Cre mice with Rosa26^mT/mG reporter mice, and found that Elf5‐Cre transgene is expressed specifically in the trophoectoderm as early as embryonic day 4.5 (E4.5). By E12.5, the activity of Elf5‐Cre transgene was detected exclusively in all derivatives of trophoblast lineages, including spongiotrophoblast, giant cells, and labyrinth trophoblasts. In addition, Elf5‐Cre transgene was also active during spermatogenesis, from spermatids to mature sperms, which is consistent with the endogenous Elf5 expression in testis. Collectively, our results provide a unique tool to delete specific genes selectively and efficiently in trophoblast lineage during placentation.     

Hydrogen gas inhalation protects against cutaneous ischaemia/reperfusion injury in a mouse model of pressure ulcer

Pressure ulcer formation depends on various factors among which repetitive ischaemia/reperfusion(I/R) injury plays a vital role. Molecular hydrogen (H₂) was reported to have protective effects on I/R injuries of various internal organs. In this study, we investigated the effects of H₂ inhalation on pressure ulcer and the underlying mechanisms. H₂ inhalation significantly reduced wound area, 8‐oxo‐dG level (oxidative DNA damage) and cell apoptosis rates in skin lesions. H₂ remarkably decreased ROS accumulation and enhanced antioxidant enzymes activities by up‐regulating expression of Nrf2 and its downstream components in wound tissue and/or H₂O₂‐treated endothelia. Meanwhile, H₂ inhibited the overexpression of MCP‐1, E‐selectin, P‐selectin and ICAM‐1 in oxidant‐induced endothelia and reduced inflammatory cells infiltration and proinflammatory cytokines (TNF‐α, IL‐1, IL‐6 and IL‐8) production in the wound. Furthermore, H₂ promoted the expression of pro‐healing factors (IL‐22, TGF‐β, VEGF and IGF1) and inhibited the production of MMP9 in wound tissue in parallel with acceleration of cutaneous collagen synthesis. Taken together, these data indicated that H₂ inhalation suppressed the formation of pressure ulcer in a mouse model. Molecular hydrogen has potentials as a novel and alternative therapy for severe pressure ulcer. The therapeutic effects of molecular hydrogen might be related to its antioxidant, anti‐inflammatory, pro‐healing actions.