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971.
Hui Wang 《Chirality》2010,22(9):827-837
The enantiomeric atropoisomers of 1,1′‐binaphthyl‐2,2′‐diol (BINOL) have become one of the most widely used chiral ligands and auxiliaries for asymmetric synthesis. This review provides an overview of enantioselective synthesis of optical active BINOLs by straightforward asymmetric oxidative coupling of identical 2‐naphthol and its substituted derivatives. Chirality 2010. © 2010 Wiley‐Liss, Inc. 相似文献
972.
Emmanuelle Graciet Francesca Mesiti Frank Wellmer 《The Plant journal : for cell and molecular biology》2010,61(5):741-751
The N‐end rule relates the in vivo half‐life of a protein to the identity of its N‐terminal amino acid residue. While some N‐terminal residues result in metabolically stable proteins, other, so‐called destabilizing residues, lead to rapid protein turnover. The N‐end rule pathway, which mediates the recognition and degradation of proteins with N‐terminal destabilizing residues, is present in all organisms examined, including prokaryotes. This protein degradation pathway has a hierarchical organization in which some N‐terminal residues, called primary destabilizing residues, are directly recognized by specific ubiquitin ligases. Other destabilizing residues, termed secondary and tertiary destabilizing residues, require modifications before the corresponding proteins can be targeted for degradation by ubiquitin ligases. In eukaryotes, the N‐end rule pathway is a part of the ubiquitin/proteasome system and is known to play essential roles in a broad range of biological processes in fungi, animals and plants. While the structure of the N‐end rule pathway has been extensively studied in yeast and mammals, knowledge of its organization in plants is limited. Using both tobacco and Arabidopsis, we identified the complete sets destabilizing and stabilizing N‐terminal residues. We also characterized the hierarchical organization of the plant N‐end rule by identifying and determining the specificity of two distinct N‐terminal amidohydrolases (Nt‐amidases) of Arabidopsis that are essential for the destabilizing activity of the tertiary destabilizing residues Asn and Gln. Our results indicate that both the N‐end rule itself and mechanistic aspects of the N‐end rule pathway in angiosperms are very similar to those of mammals. 相似文献
973.
Marc J. E. C. van der Maarel Peter Quist Lubbert Dijkhuizen Theo A. Hansen 《Archives of microbiology》1993,160(5):411-412
Dimethylsulfoniopropionate, an osmolyte of marine algae, is thought to be the major precursor of dimethyl sulfide, which plays a dominant role in biogenic sulfur emission. The marine sulfate-reducing bacterium Desulfobacterium strain PM4 was found to degrade dimethylsulfoniopropionate to 3-S-methylmercaptopropionate. The oxidation of one of the methyl groups of dimethylsulfoniopropionate was coupled to the reduction of sulfate; this process is similar to the degradation betaine to dimethylglycine which was described earlier for the same strain. Desulfobacterium PM4 is the first example of an anaerobic marine bacterium that is able to demethylate dimethylsulfoniopropionate.Abbreviations DMSP
dimethylsulfoniopropionate
- DMS
dimethyl sulfide
- MMPA
3-S-methylmercaptopropionate 相似文献
974.
The maternal‐zygotic transition and zygotic activation of the Mnemiopsis leidyi genome occurs within the first three cleavage cycles 下载免费PDF全文
975.
976.
以正十六烷为唯一碳源,从长期受石油污染的土壤中筛选到一株高效降解正十六烷的菌株LAM0048。通过形态学观察、生理生化试验、细胞化学组分分析、16S rRNA基因序列分析、细胞脂肪酸和极性脂试验,确定其属于棒杆菌亚目(Corynebacterineae)、诺卡菌科(Nocardiaceae)、戈登氏属(Gordonia),且可能为戈登氏属的一株新种。采用单因素实验对菌株LAM0048在无机盐培养基中降解正十六烷的降解率进行初步探讨,发现该菌株能在以正十六烷为唯一碳源的培养基中生长,菌株LAM0048能够在36 h内完全降解0.05%(V/V)的正十六烷,当烷烃浓度达到1.0%(V/V)时,降解率达46.4%。结果表明LAM0048是一株具有耐受高浓度烷烃的石油降解菌,在石油污染环境的微生物修复中具有一定的应用潜力。 相似文献
977.
Eishi Noguchi 《Cell cycle (Georgetown, Tex.)》2013,12(10):1484-1487
To investigate mechanisms that underlie different modes of tumor cell movement we have studied how regulation of the activity of the Rho family GTPases determines the mode of tumor cell movement. Guanine nucleotide exchange factors (GEFs) and GTPase accelerating proteins (GAPs) are key regulators of the activity of small GTPases with GEFs promoting activation to the GTP bound state and GAPs promoting inactivation by stimulating GTP hydrolysis. We identified two important signaling pathways regulating amoeboid and mesenchymal types of motility in melanoma. Here, we discuss our findings in the context of how specificity of Rho signaling is achieved by GEFs and GAPs. 相似文献
978.
Rina D. KoyaniGaurav V. Sanghvi Kishore S. Rajput 《International biodeterioration & biodegradation》2011,65(1):179-184
Structural alterations induced in response to degradation by two white rot Basidiomycetes on the secondary xylem of Azadirachta indica (L) Del., was compared. In vitro decay test was employed to investigate the pattern of delignification of Azadirachta wood by Trichoderma harzianum and Chrysosporium asperatum. Wood samples inoculated with both the strains were analyzed for different periods viz. 30, 60, 90 and 120 days after fungal inoculation. Initially there was no appreciable percent weight loss of the wood blocks but later on (after 60 days) it increased rapidly and was found similar for both the strains (43-46% of wood mass). Samples inoculated with both the strains showed dual pattern of degradation i.e. selective delignification in the initial stage followed by simultaneous rot during advance stage of decay. Separation of the cells due to dissolution of middle lamella was the characteristic feature of both strains but in the advanced stage of decay, formation of erosion troughs were conspicuous in all the cell types. Other features such as cell wall thinning, rounded pit erosion, formation of erosion channels and bore holes were also observed frequently. Initially, fungal invasion started through the vessel lumen, followed by all the cell types of the xylem. From the vessels, mycelia entered into the adjacent rays and parenchyma cells through the pits. In advanced stage, degradation was so pronounced that rays were partially or even completely destroyed while many cells including vessels were either deformed or destroyed due to loss of rigidity of their walls. Structural alterations induced in response to C. asperatum and T. harzianum attack is described in details. 相似文献
979.
Yoshimitsu Ueno Takao Ikami Ryo Yamauchi Koji Kato 《Bioscience, biotechnology, and biochemistry》2013,77(11):2623-2629
An α-galactosidase from tubers of S. affinis was purified about 130 fold by ammonium sulfate fractionation, chromatography on DEAE-cellulose and gel filtration on Sephadex G-75. The purified enzyme showed a single protein band on disc gel electrophoresis. The molecular weight of the enzyme was determined to be approximately 42,000 by gel filtration and 44,000 by SDS disc gel electrophoresis. The optimum reaction pH was 5.2. The enzyme hydrolyzed raffinose more rapidly than planteose. The activation energy of raffinose and planteose by the enzyme was estimated to be 7.89 and 11.4 kcal/mol, respectively. The enzyme activity was inhibited by various galactosides and structural analogs of d-galactose. Besides hydrolytic activity, the enzyme also catalyzed the transfer reaction of d-galactosyl residue from raffinose to methanol. 相似文献
980.
微生物降解石油烃的功能基因研究进展 总被引:1,自引:3,他引:1
微生物对石油烃的降解在自然衰减去除土壤和地下水石油烃污染的过程中发挥了重要作用。微生物通过其产生的一系列酶来利用和降解这类有机污染物,其中,编码关键降解酶的基因称为功能基因。功能基因可作为生物标志物用于分析环境中石油烃降解基因的多样性。因此,研究石油降解功能基因是分析土著微生物群落多样性、评价自然衰减潜力与构建基因工程菌的重要基础。本文主要介绍了烷烃和芳香烃在有氧和无氧条件下的微生物降解途径,重点总结了烷烃和芳香烃降解的主要功能基因及其作用,包括参与羟化作用的单加氧酶和双加氧酶基因、延胡索酸加成反应的琥珀酸合酶基因以及中心中间产物的降解酶基因等。 相似文献