Nmp4/CIZ对成骨细胞功能的调节作用

核基质蛋白4(nuclear matrix protein,Nmp4),亦称p130cas结合锌指蛋白(cas-interacting zinc finger protein,CIZ),是一种位于细胞核及粘附斑且具有核质穿梭功能的转录调控因子.体内实验证明,Nmp4/CIZ抑制骨形成活性进而抑制骨密度和骨量增加,而对骨吸收参数无显著影响.Nmp4/CIZ通过特异性结合成骨细胞Ⅰ型胶原α1链和基质金属蛋白酶启动子上游调控序列,调节其转录表达,促进骨转换.此外,Nmp4/CIZ抑制骨形态蛋白和甲状旁腺激素诱导的成骨细胞分化,抑制成骨细胞增殖并促进凋亡发生.Nmp4/CIZ参与调节成骨细胞力学-化学信号转导,其表达沉默可抑制尾悬吊诱导的小鼠骨量减少,并促进流体剪切力诱导的成骨细胞β-catenin信号途径.这些体内外实验证据表明,Nmp4/CIZ主要通过负调控机制发挥作用,提示这是一个潜在的骨丢失治疗药物靶点.     

Selection against glycosylation sites in potential target proteins of the general HMWC N-glycosyltransferase in Haemophilus influenzae

The HMWABC system of non-typeable Haemophilus influenzae (NTHi) encodes the HMWA adhesin glycoprotein, which is glycosylated by the HMWC glycosyltransferase. HMWC is a cytoplasmic N-glycosyltransferase, homologues of which are widespread in the Pasteurellaceae. We developed an assay for nonbiased detection of glycoproteins in NTHi based on metabolic engineering of the Leloir pathway and growth in media containing radiolabelled monosaccharides. The only glycoprotein identified in NTHi by this assay was HMWA. However, glycoproteomic analyses ex vivo in Escherichia coli showed that HMWC of NTHi was a general glycosyltransferase capable of glycosylating selected asparagines in proteins other than its HMWA substrate, including Asn78 in E. coli 30S ribosomal protein S5. The equivalent residue in S5 homologues in H. influenzae or other sequenced Pasteurellaceae genomes is not asparagine, and these organisms also showed significantly fewer than expected potential sites of glycosylation in general. Expression of active HMWC in E. coli resulted in growth inhibition compared with expression of inactive enzyme, consistent with glycosylation by HMWC detrimentally affecting the function of some E. coli proteins. Together, this supports the presence of a selective pressure in the Pasteurellaceae against glycosylation sites that would be modified by the general N-glycosyltransferase activity of HMWC.     

植物次生细胞壁生物合成的转录调控网络

植物次生细胞壁包含纤维素、半纤维素和木质素, 赋予细胞壁机械强度及疏水性, 这种特性对植物直立生长、水分和营养物质运输以及抵御生物和非生物胁迫十分重要。该文总结了调控次生细胞壁生物合成的转录因子及其调控机制, 包括NAC转录因子调控次生壁合成的一级开关作用, AtMYB46/AtMYB83及其下游调控因子的二级开关作用, 以及其它转录因子对次生壁生物合成的调控作用, 并对未来研究内容和方法进行了展望, 以期为深入系统理解次生细胞壁生物合成的转录调控网络提供参考。     

Drosophila HNF4 Directs a Switch in Lipid Metabolism that Supports the Transition to Adulthood

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Identification of MADS genes from a brown alga,Sargassum fulvellum

The conserved region of numerous MADS genes in gulfweed (Sargassum fulvellum) was cloned by PCR with degenerate primers. Analysis of seventy individual clones resulted in the identification of nineteen types of nucleotide sequences. There sequences encode portions of the MADS domain in four distinctive groups. Six clones belong to the AGAMOUS subfamily, ten to AGL2, and two to AGL12. The remaining one clone is distinctive and appears to be diverged from an ancestor of the AGL2 and AP1 groups. There were no A or B class MADS genes. These results suggest that, as found in land plants, MADS genes also play major roles in controlling the development of algae.     

小鼠成纤维细胞凋亡与bcl-2结合蛋白

为检测细胞凋亡过程中bcl-2基因的结合蛋白,用PCR技术扩增小鼠bcl-2基因(mbcl-2)调控区,经亚克隆后的序列分析证实其准确性.用5-氟尿嘧啶(5-Fu)诱导小鼠成纤维细胞(C3H 10 T1/2 Cl 8)凋亡,以此PCR产物作探针,对上述细胞的核蛋白质粗提物进行迁移位移法(EMSA)与DNA-蛋白质印迹分析.结果表明,细胞核内一分子质量为53 ku的结合蛋白与mbcl-2调控区的结合信号在5-Fu刺激12 h后明显增强,而一种100 ku的DNA结合蛋白与该区的结合信号在5-Fu刺激12 h后明显减弱.因而,p53蛋白有可能是bcl-2的负转录因子,100 ku的DNA结合蛋白有可能是bcl-2的正转录因子.     

二氢黄酮醇 4 还原酶在花青素合成中的功能及调控研究进展

植物色素主要有花青素、类胡萝卜素和生物碱类色素三大类,其中花青素是决定大部分被子植物组织或器官颜色的重要色素。花青素通过类黄酮途径合成,该途径是生物学上研究较多且较为清楚的代谢途径之一。近年来的研究表明,在该途径中除了查尔酮合成酶(chalcone synthase,CHS)、查尔酮异构酶(chalcone isomerase,CHI)和黄烷酮-3-羟化酶(flavanone-3-hydrolase,F3H)起着关键作用外,二氢黄酮醇-4-还原酶(dihydroflavonol 4-reductase,DFR)对花青素的合成也至关重要。DFR可催化3种二氢黄酮醇和2种黄烷酮生成5种不同的花青素前体,且DFR基因家族不同成员对各个底物的催化效率不同,因此它在一定程度上决定着植物中花青素的种类和含量,从而影响植物组织或器官的颜色。该文对近年来国内外有关DFR在花青素合成过程中的生物学功能与调控,包括DFR的特征、作用机制和系统进化以及环境、转录因子和一些结构基因与DFR的关系等方面的研究进展进行了综述,以期为DFR今后的研究和利用基因工程改变植物组织或器官的颜色提供理论依据。     

Evolutionary assembly of cooperating cell types in an animal chemical defense system

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Evolutionary conservation of complexins: from choanoflagellates to mice

Complexins are synaptic SNARE complex‐binding proteins that cooperate with synaptotagmins in activating Ca²⁺‐stimulated, synaptotagmin‐dependent synaptic vesicle exocytosis and in clamping spontaneous, synaptotagmin‐independent synaptic vesicle exocytosis. Here, we show that complexin sequences are conserved in some non‐metazoan unicellular organisms and in all metazoans, suggesting that complexins are a universal feature of metazoans that predate metazoan evolution. We show that complexin from Nematostella vectensis, a cnidarian sea anemone far separated from mammals in metazoan evolution, functionally replaces mouse complexins in activating Ca²⁺‐triggered exocytosis, but is unable to clamp spontaneous exocytosis. Thus, the activating function of complexins is likely conserved throughout metazoan evolution.     

细菌功能调控的重要转录因子PerR

PerR是一类存在于多种细菌中的转录因子。研究证实PerR调控的靶基因包括过氧化氢酶katA、DNA结合蛋白mrgA、铁转运调控子fur、血红素合成基因簇hemAXCDBL以及自身perR等。PerR参与的调控作用在细菌的抗氧化作用、胞内的铁离子动态平衡、以及致病菌致病作用中具有重要的意义。本综述主要从PerR调控的靶基因、参与的生理代谢作用以及PerR转录调控的分子机制等方面进行介绍,以期对我们深入了解细菌的抗逆作用机制提供参考。