蓝藻红色荧光蛋白All1280 GAF2在E. coli BL21(DE3)中的表达及其突变体构建（英文）

采用PCR技术从鱼腥藻(Anabaena sp.) PCC 7120中扩增获得红色荧光蛋白基因all1280 gaf2,并利用Bam HⅠ和SalⅠ酶切位点,将该基因插入到pET-30a(+)中,构建表达载体pET-all1280 gaf2。将该表达载体与藻胆色素生物合成质粒pACYC-ho1-pcyA同时转化到大肠杆菌E. coli BL21 (DE3),表达后获得大肠杆菌色素细胞。结果显示,该色素细胞在荧光显微镜下具有红色荧光,且在15E/15Z态之间具有可逆光效应。进一步以pET-all1280 gaf2为模板,通过定点突变技术在all1280 gaf2基因中引入C53A突变,获得了突变体All1280 GAF2 (C53A)。将All1280 GAF2 (C53A)与藻胆色素在E. coli BL21 (DE3)中共表达,获得了比野生型红色荧光更强的大肠杆菌色素细胞。研究结果表明,与野生型相比,All1280 GAF2 (C53A)具有较高的摩尔消光系数和荧光量子产率,红色荧光更强。     

常见毛囊细胞角蛋白在毛囊周期中的表达研究

目的探讨常见毛囊细胞角蛋白在毛囊周期中的表达特征。 方法取毛囊发育期、生长期启动、生长期、退化期和静止期的小鼠皮肤,石蜡切片后通过免疫荧光的方法,检测细胞角蛋白Krt5、Krt6、Krt10、Krt14、Krt15和Krt19的表达情况。 结果Krt5在静止期和生长期启动表达于所有毛囊上皮细胞,在其他时期表达不一致;Krt6表达于所有时期的外根鞘细胞和内根鞘细胞;Krt10表达于生长期和退化期的毛母质和内根鞘细胞,在其他时期表达不一致;Krt14在生长期和退化期表达于所有毛囊上皮细胞,在其他时期表达不一致;Krt15和Krt19表达于毛囊发育期、生长期启动和静止期的毛囊隆突区细胞,在生长期和退化期表达不一致。 结论角蛋白作为毛囊结构或毛囊干细胞标记物仅适用于特定的毛囊周期。研究者在使用毛囊角蛋白作为标记物时,应首先明确其在毛囊周期中的表达情况。     

Bone Marrow Mesenchymal Stromal Cell-Derived Periostin Promotes B-ALL Progression by Modulating CCL2 in Leukemia Cells

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Gain-of-Function Mutations of SLC16A11 Contribute to the Pathogenesis of Type 2 Diabetes

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围产期干细胞库质量管理体系构建

围产期干细胞库质量管理体系（QMS）建设是保障干细胞产品和服务健康发展的基础工作。本文比较分析美国输血协会（AABB）、细胞疗法认证基金会（FACT）和ISO 9001的标准的架构、内容和侧重点,重点论述围产期干细胞库QMS构建的方法、步骤和参考模式。参照权威机构标准建立和运行QMS,能够保障我国围产期干细胞库标准化、规范化和科学化的建设和管理,提升我国干细胞库能力和信任水平。良好的QMS进一步促进干细胞与精准医疗战略性新兴产业升级,为建设健康中国提供动力。     

Parabacteroides distasonis Alleviates Obesity and Metabolic Dysfunctions via Production of Succinate and Secondary Bile Acids

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Deciphering the global phylogeography of a coastal shrub (Scaevola taccada) reveals the influence of multiple forces on contemporary population structure

The phylogeography of coastal plant species is heavily influenced by past sealevel fluctuations, dispersal barriers, and life-history traits, such as long-distance dispersal ability of the propagules. Unlike the widely studied mangroves, phylogeographic patterns have remained mostly obscure for other coastal plant species. In this study, we sampled 42 populations of Scaevola taccada (Gaertn.) Roxb., a coastal shrub of the family Goodeniaceae, from 17 countries across its distribution range. We used five chloroplast DNA (cpDNA) and 14 nuclear microsatellite (simple sequence repeat [SSR]) markers to assess the influence of abiotic factors and population genetic processes on the phylogeographic pattern of the species. Geographical distribution of cpDNA haplotypes suggests that the species originated in Australia, followed by historical dispersal and expansion of its geographic range. Multiple abiotic factors, including the sealevel changes during the Pleistocene, the presence of landmasses like the Malay Peninsula, and contemporary oceanic circulation patterns, restricted gene flow between geographically distinct populations, thereby creating low haplotype diversity and a strong population structure. Population genetic processes acted on these isolated populations, leading to high nuclear genetic diversity and population differentiation, as revealed from analyzing the polymorphic SSR loci. Although genetic divergence was mostly concordant between cpDNA and SSR data, asymmetrical gene flow and ancestral polymorphism could explain the discordance in the detailed genetic structure. Overall, our findings indicate that abiotic factors and population genetic processes interactively influenced the evolutionary history and current phylogeographic pattern of S. taccada across its distribution range.     

Preferential retention of the slowly evolving gene in pairs of duplicates in angiosperm genomes

Gene duplication provides raw material for functional innovation, but gene duplicability varies considerably. Previous studies have found widespread asymmetrical sequence evolution between paralogs. However, it remains unknown whether the rate of evolution among paralogs affects their propensity of being retained after another round of whole-genome duplication (WGD). In this study, we investigated gene groups that have experienced two successive WGDs to determine which of two older duplicates with different evolutionary rates was more likely to retain both younger duplicates. To uncouple the measurement of evolutionary rates from any assignment of duplicate or singleton status, we measured the evolutionary rates of singleton genes in out-lineages but classified these singleton genes according to whether they are retained or not in a crown group of species. We found that genes that retained younger duplicates in the crown group of genomes were more constrained prior to the younger duplication event than those that failed to leave duplicates. In addition, we also found that the retained clades have more genes in out-lineages. Subsequent analyses showed that genes in the retained clades were expressed more broadly and highly than genes in the singleton clades. We concluded that the set of repeatedly retained genes after two WGDs is biased toward slowly evolving genes in angiosperms, suggesting that the potential of genes for both functional conservation and divergence likely affects their propensity of being retained after WGD in angiosperms.     

Natural interploidy hybridization among the key taxa involved in the origin of horticultural chrysanthemums

Understanding hybridization and introgression between natural plant populations can give important insights into the origins of cultivated species. Recent studies suggest differences in ploidy might not create such strong reproductive barriers as once thought, and thus studies into cultivated origins should examine all co-occurring taxa, including those with contrasting ploidy levels. Here, we characterized hybridization between Chrysanthemum indicum L., Chrysanthemum vestitum (Hemsley) Ling and Chrysanthemum vestitum var. latifolium (Zhou & Chen), the most important wild species involved in the origins of cultivated chrysanthemums. We analyzed the population structure of 317 Chrysanthemum accessions based on 13 microsatellite markers and sequenced chloroplast trnL-trnF for a subset of 103 Chrysanthemum accessions. We identified three distinct genetic clusters, corresponding to the three taxa. We detected 20 hybrids between species of different ploidy levels, of which 19 were between C. indicum (4x) and C. vestitum (6x) and one was between C. indicum and C. vestitum var. latifolium (6x). Fourteen hybrids between C. indicum and C. vestitum were from one of the five study sites. Chrysanthemum vestitum and C. vestitum var. latifolium share only one chloroplast haplotype. The substantially different number of hybrids between hybridizing species was likely due to different levels of reproductive isolation coupled with environmental selection against hybrids. In addition, human activities could play a role in the different patterns of hybridization among populations.