发酵饲料对生长育肥猪结肠微生物发酵及菌群组成的影响

【目的】研究复合菌发酵饲料对生长育肥猪结肠发酵、结肠黏膜与结肠内容物菌群组成的影响。【方法】采用气相色谱法检测育肥猪结肠内容物中挥发性脂肪酸浓度;采用MiSeq高通量测序方法检测育肥猪结肠黏膜与内容物中细菌菌群组成。【结果】饲喂发酵饲料对结肠黏膜及内容物中菌群多样性无显著影响(P0.05);显著提高了猪结肠黏膜中魏斯菌属和柔嫩梭菌属的相对丰度(P0.05),提高了结肠内容物中魏斯菌属、Subdoligranulum菌属相对丰度(P0.05);饲喂发酵饲料对结肠内容物中pH、乳酸、乙酸、丙酸、异丁酸、戊酸、异戊酸和总挥发性脂肪酸浓度无显著影响(P0.05),但显著提高了结肠内容物中的丁酸水平(P0.05)。【结论】饲喂复合菌发酵饲料可在一定程度上影响育肥猪结肠中细菌菌群的组成,促进丁酸生成,对肠道健康具有改善作用。     

基于DNA条形码的半夏属及其伪品分子鉴别

利用DNA条形码技术对半夏属及其伪品进行分子鉴定, 研究半夏属药用植物鉴定的新方法。该实验使用matK序列对半夏(Pinellia ternata)及其伪品进行扩增测序, 结合GenBank数据库数据, 分析ITS、ITS2、psbA-trnH、rbcL和matK各序列的种内与种间变异及barcoding gap, 并采用最近距离法(nearest distance)和相似性搜索算法(BLAST1)评价不同序列的鉴定能力。结果显示, matK序列的种间变异最大, rbcL序列的种内变异最小; rbcL序列的种内和种间遗传变异重叠比例最小, 其次为matK序列; 各序列的Neighbor Joining树均可明显地将不同种分开。实验结果表明, 利用DNA条形码能够准确地鉴别半夏属药用植物及其伪品, matK和rbcL序列为鉴别半夏属及其伪品的较理想条形码组合。该研究为半夏属植物的分子鉴别提供了科学依据与新的思路。     

Biotransformation of menadione to its prenylated derivative MK-3 using recombinant <Emphasis Type="Italic">Pichia pastoris</Emphasis>

Prenylated quinones, especially menaquinones, have significant physiological activities, but are arduous to synthesize efficiently. Due to the relaxed aromatic substrate specificity and prenylation regiospecificity at the ortho- site of the phenolic hydroxyl group, the aromatic prenyltransferase NovQ from Streptomyces may be useful in menaquinone synthesis from menadione. In this study, NovQ was overexpressed in Pichia pastoris. After fermentation optimization, NovQ production increased by 1617%. Then the different effects of metal ions, detergents and pH on the activity of purified NovQ were investigated to optimize the prenylation reaction. Finally, purified NovQ and cells containing NovQ were used for menadione prenylation in vitro and in vivo, respectively. Menaquinone-1 (MK-1) was detected as the only product in vitro with γ,γ-dimethylallyl pyrophosphate and menadione hydroquinol substrates. MK-3 at a concentration of 90.53 mg/L was detected as the major product of whole cell catalysis with 3-methyl-2-buten-1-ol and menadione hydroquinol substrates. This study realized whole cell catalysis converting menadione to menaquinones.     

Mutational analysis of Encephalitozoon cuniculi mRNA cap (guanine-N7) methyltransferase, structure of the enzyme bound to sinefungin, and evidence that cap methyltransferase is the target of sinefungin's antifungal activity

Cap (guanine-N7) methylation is an essential step in eukaryal mRNA synthesis and a potential target for antiviral, antifungal, and antiprotozoal drug discovery. Previous mutational and structural analyses of Encephalitozoon cuniculi Ecm1, a prototypal cellular cap methyltransferase, identified amino acids required for cap methylation in vivo, but also underscored the nonessentiality of many side chains that contact the cap and AdoMet substrates. Here we tested new mutations in residues that comprise the guanine-binding pocket, alone and in combination. The outcomes indicate that the shape of the guanine binding pocket is more crucial than particular base edge interactions, and they highlight the contributions of the aliphatic carbons of Phe-141 and Tyr-145 that engage in multiple van der Waals contacts with guanosine and S-adenosylmethionine (AdoMet), respectively. We purified 45 Ecm1 mutant proteins and assayed them for methylation of GpppA in vitro. Of the 21 mutations that resulted in unconditional lethality in vivo,14 reduced activity in vitro to < or = 2% of the wild-type level and 5 reduced methyltransferase activity to between 4 and 9% of wild-type Ecm1. The natural product antibiotic sinefungin is an AdoMet analog that inhibits Ecm1 with modest potency. The crystal structure of an Ecm1-sinefungin binary complex reveals sinefungin-specific polar contacts with main-chain and side-chain atoms that can explain the 3-fold higher affinity of Ecm1 for sinefungin versus AdoMet or S-adenosylhomocysteine (AdoHcy). In contrast, sinefungin is an extremely potent inhibitor of the yeast cap methyltransferase Abd1, to which sinefungin binds 900-fold more avidly than AdoHcy or AdoMet. We find that the sensitivity of Saccharomyces cerevisiae to growth inhibition by sinefungin is diminished when Abd1 is overexpressed. These results highlight cap methylation as a principal target of the antifungal activity of sinefungin.     

Kinetic modeling for enzymatic hydrolysis of pretreated creeping wild ryegrass

A semimechanistic multi‐reaction kinetic model was developed to describe the enzymatic hydrolysis of a lignocellulosic biomass, creeping wild ryegrass (CWR; Leymus triticoides). This model incorporated one homogeneous reaction of cellobiose‐to‐glucose and two heterogeneous reactions of cellulose‐to‐cellobiose and cellulose‐to‐glucose. Adsorption of cellulase onto pretreated CWR during enzymatic hydrolysis was modeled via a Langmuir adsorption isotherm. This is the first kinetic model which incorporated the negative role of lignin (nonproductive adsorption) using a Langmuir‐type isotherm adsorption of cellulase onto lignin. The model also reflected the competitive inhibitions of cellulase by glucose and cellobiose. The Matlab optimization function of “lsqnonlin” was used to fit the model and estimate kinetic parameters based on experimental data generated under typical conditions (8% solid loading and 15 FPU/g‐cellulose enzyme concentration without the addition of background sugars). The model showed high fidelity for predicting cellulose hydrolysis behavior over a broad range of solid loading (4–12%, w/w, dry basis), enzyme concentration (15–150 FPU/ g‐cellulose), sugar inhibition (glucose of 30 and 60 mg/mL and cellobiose of 10 mg/mL). In addition, sensitivity analysis showed that the incorporation of the nonproductive adsorption of cellulase onto lignin significantly improved the predictability of the kinetic model. Our model can serve as a robust tool for developing kinetic models for system optimization of enzymatic hydrolysis, hydrolysis reactor design, and/or other hydrolysis systems with different type of enzymes and substrates. Biotechnol. Bioeng. 2009;102: 1558–1569. © 2008 Wiley Periodicals, Inc.     

茶树DELLA基因家族的鉴定及表达分析

利用生物信息学方法,从茶树（Camellia sinensis（L.）O.Ktze.）全基因组数据库中分析获得DELLA蛋白的家族成员,并对它们的系统进化关系、蛋白序列特征、基因表达特异性及其与茶树次生代谢物的相关性进行分析。结果显示：茶树基因组中共有5个DELLA基因,分别为：TEA009882（CsGAI）、TEA022818（CsRGA1）、TEA010112（CsRGL1）、TEA008736（CsRGL2）和TEA020933（CsRGL3）;其编码的氨基酸数量在525~594之间,均定位于细胞核。该蛋白的二级和三级结构分析结果表明,茶树DELLA蛋白结构中含有大量的α螺旋及少量β转角结构。蛋白保守结构域分析结果显示该蛋白与拟南芥（Arabidopsis thaliana（L.）Heynh.）具有高度的同源性,均具有GRAS、DELLA等保守结构域。基因的表达特异性分析结果表明,在茶树不同组织部位中,TEA009882、TEA022818和TEA010112基因的表达量均较高,而TEA020933和TEA008736的表达量在各组织中均较低;茶树DELLA基因的表达受到干旱、NaCl、低温及茉莉酸甲酯等非生物逆境胁迫的调控,且其表达量与茶树次生代谢物的积累间存在相关性。推测茶树DELLA基因广泛参与了茶树生长发育及非生物逆境胁迫的响应,以及对次生代谢物生物合成过程的调控。     

一个水稻矮秆突变体的遗传分析及基因定位

水稻（Oryza sativa）是我国重要的粮食作物之一。水稻矮秆材料的引入掀起了第1次＂绿色革命＂。但近年来,在水稻育种中矮生基因遗传单一的问题越来越突出,已经严重影响到水稻产量的持续提高。利用60Co-γ射线辐照籼稻亲本材料M804获得了一个性状能够稳定遗传的矮秆突变体MU101。对该矮秆突变体和台粳16号杂交获得的F2代的遗传分析表明,该矮秆性状受1对隐性单基因控制,并暂命名为ds1。利用已有的SSR分子标记将DS1基因定位在水稻第5号染色体上,通过扩大群体和开发新的Indel标记,进一步将DS1基因定位在2个Indel标记之间,两者间的物理距离大约为384kb。该研究为DS1基因的克隆及其在生产中的应用奠定了基础。     

泰山沙参属植物资源调查与营养成分分析

目的:了解泰山沙参属植物资源现状,测定其根中脂肪、蛋白质及多糖的含量,为合理开发利用泰山沙参属植物资源提供依据。方法:采用野外实地调查法进行资源考察;分别用索氏提取法、考马斯亮蓝法和苯酚-硫酸法测定脂肪、蛋白质和多糖的含量。结果:采集的100余份标本,经鉴定为沙参属植物狭叶沙参[Adenophora gmeli-nii(Spreng)Fisch.]、石沙参(Adenophora polyantha Nakai)、杏叶沙参(Adenophora stricta Mig.)及细叶沙参(Adeno-phora paniculata Nannf.)。泰山沙参属植物狭叶沙参、石沙参、杏叶沙参和细叶沙参脂肪含量分别为2.14%～7.34%,4.27%～7.72%1,.54%～2.51%和4.98%。蛋白质含量分别为0.60～2.10 mg/g0,.80～1.89 mg/g,0.83～0.89 mg/g和1.05 mg/g,多糖含量分别为20.58%～63.21%2,7.74%～65.14%,43.14%～48.47%和45.60%。结论:泰山野生沙参属植物资源丰富,品种多、分布广、蕴藏量大,多糖含量较高,具有较大的开发前景。     

水稻脆秆突变体bc-s1的表型分析和基因定位

茎秆机械强度影响植株抗倒伏能力, 是备受关注的重要农艺性状之一。与野生型相比, 水稻(Oryza sativa)脆秆隐性突变体bc-s1茎秆抗折力和抗张力分别降低31.1%和67.2%, 茎秆纤维素和木质素含量分别降低24.97%和增高38.82%。细胞学分析显示, bc-s1茎秆厚壁细胞发生不规则变化, 次生壁增厚受阻。通过图位克隆和测序分析, 初步确定bc-s1突变体中纤维素合成酶催化亚基Os09g25490/OsCesA9基因第1外显子的第28个碱基G突变为A。该等位突变体的获得为进一步揭示OsCesA9调控细胞壁建成的生物学功能提供了新的研究材料。     

The role of β-adrenergic receptor signaling in the proliferation of hemangioma-derived endothelial cells

Background

Infantile hemangioma (IH) is a benign vascular neoplasm that arises from the abnormal proliferation of endothelial cells and enhanced angiogenesis. Recently, propranolol has been found to be effective in the management of IH, suggesting that β-adrenergic receptors (β-ARs) may play an important role in the pathogenesis of IH.

Results

In the present study, we investigated the β-adrenergic signaling that is associated with hemangioma-derived endothelial cell (HemEC) proliferation. The results showed that both β₁- and β₂-ARs were expressed in HemECs. Stimulation of the β-ARs by isoprenaline induced cell proliferation and elevation of second messenger cAMP levels. The proliferation-promoting action of isoprenaline was abolished by a β₁-selective antagonist and was more effectively abolished by a β₂-selective antagonist; the mechanism for the action of the antagonists was a G₀/G₁ phase cell cycle arrest which was associated with decreased cyclin D1, CDK-4, CDK-6 and phospho-Rb expression. Pre-treatment of the cells with VEGFR-2 or ERK inhibitors also prevented the isoprenaline-mediated proliferation of cells. In agreement with the involvement of β-ARs and VEGFR-2 in the HemEC response, β-AR antagonists and the VEGFR-2 inhibitor significantly attenuated isoprenaline-induced ERK phosphorylation. Moreover, treating the cells with isoprenaline markedly increased VEGF-A expression and VEGFR-2 activity in a β₂-AR-dependent manner.

Conclusions

We have demonstrated that the activation of the β-ARs in the ERK pathway may be important mechanisms in promoting HemEC growth. Furthermore, stimulation of the β-AR may transactivate VEGFR-2 signaling and further increase HemEC proliferation.