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51.
聚类是芯片数据分析中被广泛使用的方法。未知基因的功能通常通过其与已知基因在不同生物状态下具有表达相似性来进行预测。然而,还未有人就这种通过表达相似性来进行功能注释的方法的可靠性进行评估。本文利用Gene Ontology对表达相似性和基因功能相似性的相关关系进行了全面的研究。研究表明,尽管表达谱的相似性和基因功能相似性之间有一定的依赖关系,但相关性较弱。在Gene Ontology的三大类中,相对生物过程和分子功能,基因表达谱的相似性更有助于细胞组分的注释。本文的研究结果对于基因功能的预测有一定的指导意义。 相似文献
52.
硫化态K—Mo合成低碳醇催化剂的制备条件和载体效应研究 总被引:3,自引:0,他引:3
用浸渍法制备以KCl为助剂的ZrO_2、γ-Al_2O_3和SiO_2负载硫化态钼基催化剂,研究了钼和助剂钾两种组分浸渍顺序、助剂含量、载体差别以及浸渍溶液的酸碱性对催化剂上CO加氢合成低碳混合醇性能的影响。ZrO_2按先钼后钾、γ-Al_2O_3和SiO_2则按相反的顺序浸渍两种组分、且K/Mo原子比分别为0.5,0.8和1.0制备催化剂,其合成醇活性最佳。由于载体性质的差异,K-Mo/SiO_2、特别是K-Mo/ZrO_2的合成醇活性强烈依赖于钾助剂含量。而K-Mo/SiO_2在较宽的钾含量范围内,其活性差别不明显。适当选择较高碱性的浸渍溶液制备K-Mo/γ-Al_2O_3催化剂,有利于醇活性的提高。 相似文献
53.
以共沉淀法合成了硅铝系载体(AS和SA),并采用改性天然高铝石为原料合成了矿物质载体(MC-1和MC-2),采用浸渍法合成了镍负载型催化剂。用常压固定床管式反应器,考察了液化石油气水蒸气重整反应活性,通过XRD、物理吸附等手段对催化剂进行了表征。结果表明,以MC-1、MC-2和SA、AS为载体的催化剂的水蒸气重整活性明显高于目前普遍使用的Ni/α-Al2O3催化剂。以SA为载体,负载5%镍的催化剂具有最好的水蒸气重整活性。在750 ℃,水碳比为2.0的条件下转化率达100%,C1选择性达94.46%。XRD分析结果表明1 300 ℃焙烧后的SA载体中存在α-Al2O3晶型和莫来石结构。硅、铝添加次序对水蒸气重整活性影响较大,硅-铝添加次序的催化剂样品的活性高于铝-硅添加次序的样品,C1选择性提高12.7%。 相似文献
54.
MDMV外壳蛋白基因的克隆及其在大肠杆菌中的表达 总被引:7,自引:0,他引:7
报道了玉米矮花叶病毒(MDMV)全长外壳蛋白cDNA基因的克隆、序列分析和表达产物鉴定的结果。根据其cDNA序列推测的外壳蛋白氨基酸顺序全长共有313个氨基酸,分子量总和为35 400 D,与聚丙烯酰胺凝胶电泳估算的值36 000 D相近,克隆的病毒外壳蛋白基因cDNA 3′-末端非编码区含有256个碱基。将此外壳蛋白的基因插入pUC19的1acZ基因中,转入E.coli后诱导表达,聚丙烯酰胺凝胶电泳分析呈现一特异性的蛋白带,经Western吸印与抗MDMV的兔血清呈阳性反应,证实所克隆的cDNA基因为MDMV外壳蛋白基因,并且能够正确表达。 相似文献
55.
Dispersion of MoO3, NiO, ZnO on rutile TiO2 with low specific surface area was studied with Mercury Porosimeter, SEM, XPS and Ammonia Extraction method. The dispersion thresholds of MoO3, NiO, ZnO on three rutile TiO2 carriers were obtained with XPS, and com-pared with those on anatase TiO2 with high specific surf are area. Ammonia Extraction method was used to identify the surface oxide species interarting with support surface in different strength and it was found that the proportions of oxides that can not be extracted by ammonia extraction are different for MoO3, NiO and ZnO which are supported on rutile TiO2. 相似文献
56.
用微型反应器和XRD等技术研究了稀土氧化物(RE_xO_y)对甲烷水蒸汽转化反应NiO/α-Al_2O_3催化剂性能的影响。结果表明,制备方法(如浸渍顺序)和稀土氧化物的种类均影响催化剂组份镍的分散度。稀土氧化物是通过抑制镍的晶粒长大、金属镍的氧化以及NiO-Al_2O_3间的相互作用,改善了催化剂的活性、稳定性和抗高温水蒸汽作用的能力。稀土氧化物对镍系催化剂的稳定效应与金属和添加剂间的相互作用有关。 相似文献
57.
58.
In the 21st century, hydrogen energy is a novel energy source. Its use is expected to mitigate the problems of environmental pollution and global warming caused by the excessive use of conventional fossil fuels. The hydrogen evolution reaction (HER) for water splitting has attracted considerable attention because of its environmental friendliness. To improve electrocatalyst performance and reduce operation cost, carbon-based metal hybrid materials exhibiting high efficiency and catalytic activity have been developed. Among them, carbon dots (CDs) have garnered significant research attention and have been widely applied in biosensing, bioimaging, and energy conversion/storage because of their facile synthesis, biocompatibility, tunable photoluminescence, excellent stability, and good electronic properties. CDs are widely used as carriers in the construction of electrocatalysts prepared from carbon-based metal hybrid materials. At present, it is believed that CDs exhibit excellent confinement effects, which can effectively inhibit the growth and agglomeration of metal nanoparticles, thereby preparing well-distributed carbon-based metal hybrid materials with a uniform and controllable size. However, the formation process of the small-molecule raw materials of CDs has not been elucidated. In this study, CDs and small-molecule raw materials from synthetic CDs were used as precursors to prepare nitrogen-doped CD-supported ruthenium nanoparticle (Ru@CDs) and small-molecule-supported ruthenium nanoparticle (Ru@Molecule) hybrid materials, respectively. The interaction between the small molecules and Ru in the process of CD formation and the effect on HER performance were explored. Moreover, we prepared different carriers such as metal organic frameworks(MOF), carbon nanotubes (CNTs), and graphene (GO)-supported ruthenium nanoparticle hybrid materials. Among them, Ru@CDs exhibited controllable size and excellent dispersibility and exhibited outstanding HER activity and good stability. Ru@CDs were found to require a low overpotential of 22 mV to reach a current density of 10 mA·cm−2. Moreover, we observed the presence of an intermediate state between the molecules and CDs and demonstrated that the intermediate state exhibits no confinement effect. Furthermore, we found that with increasing calcination temperature, the intermediate state gradually changes to CDs. The unique spatial confinement between CDs and metal ions is key to the formation of monodisperse Ru nanoparticles. Our results confirmed that Ru@CDs serve as excellent HER catalyst supports. This work not only reveals the effect of the unique spatial confinement of CDs on the supported metals and their promoting effect on electrocatalytic activity but also provides guides the future development of CD-based metal hybrid electrocatalysts. 相似文献
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60.