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991.
Julio A. Camarero Youngeun Kwon 《International journal of peptide research and therapeutics》2008,14(4):351-357
Many experimental approaches in biology and biophysics, as well as applications in diagnosis and drug discovery, require proteins
to be immobilized on solid supports. Protein microarrays, for example, provide a high-throughput format to study biomolecular
interactions. The technique employed for protein immobilization is a key to the success of these applications. Recent biochemical
developments are allowing, for the first time, the selective and traceless immobilization of proteins generated by cell-free
systems without the need for purification and/or reconcentration prior to the immobilization step. 相似文献
992.
Background
Metagenomics has a great potential to discover previously unattainable information about microbial communities. An important prerequisite for such discoveries is to accurately estimate the composition of microbial communities. Most of prevalent homology-based approaches utilize solely the results of an alignment tool such as BLAST, limiting their estimation accuracy to high ranks of the taxonomy tree.Results
We developed a new homology-based approach called Taxonomic Analysis by Elimination and Correction (TAEC), which utilizes the similarity in the genomic sequence in addition to the result of an alignment tool. The proposed method is comprehensively tested on various simulated benchmark datasets of diverse complexity of microbial structure. Compared with other available methods designed for estimating taxonomic composition at a relatively low taxonomic rank, TAEC demonstrates greater accuracy in quantification of genomes in a given microbial sample. We also applied TAEC on two real metagenomic datasets, oral cavity dataset and Crohn’s disease dataset. Our results, while agreeing with previous findings at higher ranks of the taxonomy tree, provide accurate estimation of taxonomic compositions at the species/strain level, narrowing down which species/strains need more attention in the study of oral cavity and the Crohn’s disease.Conclusions
By taking account of the similarity in the genomic sequence TAEC outperforms other available tools in estimating taxonomic composition at a very low rank, especially when closely related species/strains exist in a metagenomic sample.Electronic supplementary material
The online version of this article (doi:10.1186/1471-2105-15-242) contains supplementary material, which is available to authorized users. 相似文献993.
Ling-Yan Jiang Yuan-Yuan Zhang Zhen Li Jian-Zhong Liu 《Journal of industrial microbiology & biotechnology》2013,40(10):1143-1151
The experiments presented here were based on the conclusions of our previous proteomic analysis. Increasing the availability of glutamate by overexpression of the genes encoding enzymes in the l-ornithine biosynthesis pathway upstream of glutamate and disruption of speE, which encodes spermidine synthase, improved l-ornithine production by Corynebacterium glutamicum. Production of l-ornithine requires 2 moles of NADPH per mole of l-ornithine. Thus, the effect of NADPH availability on l-ornithine production was also investigated. Expression of Clostridium acetobutylicum gapC, which encodes NADP-dependent glyceraldehyde-3-phosphate dehydrogenase, and Bacillus subtilis rocG, which encodes NAD-dependent glutamate dehydrogenase, led to an increase of l-ornithine concentration caused by greater availability of NADPH. Quantitative real-time PCR analysis demonstrates that the increased levels of NADPH resulted from the expression of the gapC or rocG gene rather than that of genes (gnd, icd, and ppnK) involved in NADPH biosynthesis. The resulting strain, C. glutamicum ΔAPRE::rocG, produced 14.84 g l?1 of l-ornithine. This strategy of overexpression of gapC and rocG will be useful for improving production of target compounds using NADPH as reducing equivalent within their synthetic pathways. 相似文献
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996.
John M. Romansic Amy A. Waggener Betsy A. Bancroft Andrew R. Blaustein 《Hydrobiologia》2009,624(1):219-233
Ambient levels of ultraviolet-B radiation (UVB) have a variety of detrimental effects on aquatic organisms. These include
death and effects on growth, development, physiology, and behavior. Amphibians show all of these effects. However, the effects
vary with species, life history stage, and ecological context. Little is known about the implications of the detrimental effects
of UVB on ecological dynamics. Our study was designed to test how UVB may affect predator–prey interactions, an important
ecological dynamic. Specifically, we tested the effect of UVB on the susceptibility of Cascades frog (Rana cascadae) larvae to predation by rough-skinned newts (Taricha granulosa). We also further examined the sublethal effects of UVB on growth and development in Cascades frog larvae. We found no direct
effect of UVB exposure on survival. However, UVB-exposed frog larvae displayed decreased growth and increased prevalence of
deformities. UVB also caused increased susceptibility to predation, but there was a significant treatment–block interaction.
UVB increased susceptibility to predation in two out of five blocks of Cascades frogs. The other three blocks did not show
an effect of UVB on susceptibility to predation. Our study suggests that UVB can alter susceptibility to predation in at least
one amphibian species. UVB-induced alteration of predator–prey interactions could potentially lead to changes at the population,
community, and ecosystem levels.
Handling editor: K. Martens 相似文献
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998.
Zhou H Li W Wang SP Mendoza V Rosa R Hubert J Herath K McLaughlin T Rohm RJ Lassman ME Wong KK Johns DG Previs SF Hubbard BK Roddy TP 《Journal of lipid research》2012,53(6):1223-1231
Stable isotope tracer studies of apoprotein flux in rodent models present difficulties as they require working with small volumes of plasma. We demonstrate the ability to measure apoprotein flux by administering either (2)H- or (18)O-labeled water to mice and then subjecting samples to LC-MS/MS analyses; we were able to simultaneously determine the labeling of several proteolytic peptides representing multiple apoproteins. Consistent with relative differences reported in the literature regarding apoprotein flux in humans, we found that the fractional synthetic rate of apoB is greater than apoA1 in mice. In addition, the method is suitable for quantifying acute changes in protein flux: we observed a stimulation of apoB production in mice following an intravenous injection of Intralipid and a decrease in apoB production in mice treated with an inhibitor of microsomal triglyceride transfer protein. In summary, we demonstrate a high-throughput method for studying apoprotein kinetics in rodent models. Although notable differences exist between lipoprotein profiles that are observed in rodents and humans, we expect that the method reported here has merit in studies of dyslipidemia as i) rodent models can be used to probe target engagement in cases where one aims to modulate apoprotein production and ii) the approach should be adaptable to studies in humans. 相似文献
999.
Sebastien Sart Chang Liu Eric Z. Zeng Chunhui Xu Yan Li 《Engineering in Life Science》2022,22(11):667
With the advancement in lineage‐specific differentiation from human pluripotent stem cells (hPSCs), downstream cell separation has now become a critical step to produce hPSC‐derived products. Since differentiation procedures usually result in a heterogeneous cell population, cell separation needs to be performed either to enrich the desired cell population or remove the undesired cell population. This article summarizes recent advances in separation processes for hPSC‐derived cells, including the standard separation technologies, such as magnetic‐activated cell sorting, as well as the novel separation strategies, such as those based on adhesion strength and metabolic flux. Specifically, the downstream bioprocessing flow and the identification of surface markers for various cell lineages are discussed. While challenges remain for large‐scale downstream bioprocessing of hPSC‐derived cells, the rational quality‐by‐design approach should be implemented to enhance the understanding of the relationship between process and the product and to ensure the safety of the produced cells. 相似文献
1000.