厚壳贻贝whirlin类贝壳基质蛋白的重组表达与功能分析

贝壳历来是生物工程和材料学研究的重要对象。贝壳中的贝壳基质蛋白质在贝壳的形成与发育过程中具有重要的调控作用。Whirlin类蛋白质(Whirlin-like protein,WLP)是一种从厚壳贻贝(Mytilus coruscus)中鉴定的新型贝壳基质蛋白质。序列分析结果显示,该蛋白质含有PDZ(postsynaptic density/Discs large/Zonula occludens)结构域,而该结构域对贝壳生物矿化的影响目前尚无报道。为深入了解WLP在贝壳形成中对碳酸钙晶体的影响,在序列分析基础上,采用密码子优化结合原核重组表达,获得其重组表达产物后,开展了重组WLP对碳酸钙晶体形貌及晶型的影响研究,结晶速度抑制以及碳酸钙晶体结合分析。分析结果表明,重组WLP能诱导文石型碳酸钙晶体的形貌和方解石型碳酸钙晶体的晶型发生改变;同时重组WLP对碳酸钙晶体具有结合作用,且能抑制碳酸钙晶体的结晶速度。上述结果表明,WLP对贝壳的形成及发育具有重要影响,并可能在贝壳肌棱柱层的形成中发挥了重要作用。     

Warming increases soil carbon input in a Sibiraea angustata-dominated alpine shrub ecosystem

Plant-derived carbon (C) inputs via foliar litter, root litter and root exudates are key drivers of soil organic C stocks. However, the responses of these three input pathways to climate warming have rarely been studied in alpine shrublands. By employing a 3-year warming experiment (increased by 1.3 °C), we investigated the effects of warming on the relative C contributions from foliar litter, root litter and root exudates from Sibiraea angustata, a dominant shrub species in an alpine shrubland on the eastern Qinghai-Tibetan Plateau. The soil organic C inputs from foliar litter, root litter and root exudates were 77.45, 90.58 and 26.94 g C m⁻², respectively. Warming only slightly increased the soil organic C inputs from foliar litter and root litter by 8.04 and 11.13 g C m⁻², but significantly increased the root exudate C input by 15.40 g C m⁻². Warming significantly increased the relative C contributions of root exudates to total C inputs by 4.6% but slightly decreased those of foliar litter and root litter by 2.5% and 2.1%, respectively. Our results highlight that climate warming may stimulate plant-derived C inputs into soils mainly through root exudates rather than litter in alpine shrublands on the Qinghai-Tibetan Plateau.     

模拟根系分泌物输入对高寒退化草地土壤微生物残体的影响

微生物残体是稳定土壤碳库的重要来源，对退化生境碳的固持和积累具有重要意义。植物根系分泌物作为植物-土壤-微生物"交流"的媒介，是调控土壤微生物残体迁移转化的关键。因此，以极度退化草地土壤为对象，以氨基糖为标志物，模拟研究了不同氮浓度（低氮-LN：0.1 gN/kg；高氮-HN：0.2 gN/kg）和多样性（3种化合物、9种化合物）根系分泌物输入对土壤微生物残体的影响。结果表明：（1）根系分泌物输入可显著增加高寒退化草地土壤微生物残体含量，且主要由真菌残体贡献。其中高氮和低多样性处理增加最明显，微生物残体和真菌残体分别增加了101.14%，125.16%，而低氮和高多样性处理微生物残体和真菌残体仅增加了35.79%，33.51%。（2）根系分泌物的输入可增加土壤β-葡萄糖苷酶、土壤磷酸酶和过氧化物酶活性，促进微生物的生长，而降低β-N-乙酰氨基葡萄糖苷酶活性，减少微生物残体的分解。（3）回归分析结果显示，土壤微生物残体与土壤环境的C/N呈显著负相关，与微生物生物量C/N呈显著正相关。上述结果表明，在未来退化草地恢复中，可充分利用模拟根系分泌物输入的土壤固碳策略，即通过提高土壤氮的有效性，促进微生物的生长，加快代谢周转，进一步提高微生物残体含量。     

外泌体源性miRNAs在肺癌发生发展中的作用

外泌体(exosomes)是细胞分泌的纳米级细胞外囊泡.外泌体通过释放其内的生物活性大分子,比如微小RNA(microRNA,miRNA)到受体细胞,从而介导细胞间交流通讯. MiRNAs作为一类主要在转录后水平负向调控靶mRNAs的非编码RNAs,其在外泌体中含量最为丰富.在肺癌中,miRNAs经肿瘤细胞分泌的外泌体转运释放而发挥重要的作用.本文主要讨论了外泌体源性miRNAs在肺癌发生发展的各个阶段,包括血管生成、细胞增殖、侵袭转移、免疫逃逸、耐药等方面的作用,以及其在作为新型肺癌诊断和预后标志物方面的临床价值.     

诱导神经再生治疗阿尔茨海默病的机制研究进展

阿尔茨海默病(Alzheimer's disease,AD)是一种以进行性认知障碍和记忆减退为主要特征的中枢神经退行性疾病,已经成为老年医学中最棘手的、亟待解决的问题之一. AD的病理机制仍不清楚,尚无特效治疗药物.目前,探索AD神经再生逐渐成为研究的热点领域,通过诱导神经再生可以有效地改善AD的症状.研究表明,运用药物、物理刺激或干细胞移植方法,可以提高大脑成体神经再生,是延缓AD的病理症状和认知障碍的有效治疗策略.本文综述诱导神经再生的方法及其治疗AD的作用机制,为神经再生治疗实施提供理论依据.     

Composition and Distribution of Free Amino Acids in Flatpea (Lathyrus sylvestris L.) as Influenced by Water Deficit and Plant Age

Drought-stressed flatpea (Lathyrus sylvestris L.) plants from8 to 22 weeks old were analysed for nitrogen, soluble proteinand free amino acids. An increase in nitrogen and free aminoacid concentrations and a decrease in soluble protein levelwere observed in roots of plants up to 16 weeks old. The cumulativeconcentration of free amino acids increased with drought stress.Tissue concentrations of 2, 4-diaminobutyric acid (1.6–2.6%of the dry weight) were highest in leaves. Levels increasedsteadily, nearly doubling, in leaves and stems between weeks10 and 16. Levels in drought-stressed leaves were, on average,11.9% higher than those of controls. Estimated concentrationsof a mixture of 4-aminobutyric acid and an unknown amino acidwere highest in stems, increased in this tissue with age andtended to increase in stems and leaves and decrease in rootsin response to water deficit. Levels of the mixture of homoserineand another unidentified amino acid were not influenced by ageor water status of the plants. Root concentrations of asparagine,arginine, glutamine, aspartate, and another prominent, unidentifiedamino acid increased with plant age and reached a peak at thetime of flowering (14 to 18 weeks). Only the concentration ofthe unknown compound was elevated following drought stress.Concentrations of valine, isoleucine, leucine, phenylalanine,and methionine also increased during this period and were elevatedin drought-stressed plants. Proline levels increased with plantage and drought stress, but proline accounted for only about10% of the total free amino acids in the drought-stressed plants. Key words: 2, 4-Diaminobutyric acid, drought, flatpea