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541.
Gagan Dhawan Ramesh Chandra Kailash C. Gupta 《Nucleosides, nucleotides & nucleic acids》2015,34(3):149-162
In our previous report [Kumar, P.; Dhawan, G.; Chandra, R.; Gupta, K.C. Polyamine-assisted rapid and clean cleavage of oligonucleotides from cis-diol bearing universal support. Nucl. Acids Res. 2002, 30, e130 (1-8)], we demonstrated polyamine-mediated deprotection of oligonucleotides from cis-diol group bearing universal polymer support (I). However, vulnerability of the conventional dCbz to modifications under these conditions compelled us to employ dCac during synthesis of oligonucleotide using conventional synthons. Here, a new set of simple and rapid deprotection conditions has been developed for the complete cleavage of oligonucleotides from the 1,4-anhydroerythritol-based universal polymer support employing conventional dCbz synthon. Using manganese-imidazole complex in aqueous ammonium hydroxide (~30%), fully deprotected oligonucleotide sequences were obtained in 40 min, which were analyzed on reverse phase-HPLC and compared with the standard oligomers in terms of their retention time. Finally, their biological compatibility was established by analyzing PCR amplified products of npsA gene of N. meningitidis. 相似文献
542.
543.
Ritu Ranjan Naseem Ahmed Rajesh Khanna B. N. Mishra 《Biotechnology and Bioprocess Engineering》2009,14(1):38-45
In this study, we designed a strategy for selecting the operating conditions of a mist reactor for the growth of hairy roots.
This was accomplished by developing a mathematical model to optimize the ON/OFF mist duty cycle for the specified growth of
hairy roots. The availability and rate of transport of nutrients to the roots are important parameters in the design and operation
of the reactor. The thin liquid film over the root surface, which continuously builds up during the ON cycle, is a major factor
that limits mass transfer. The same film also acts as a finite reservoir of nutrients in the absence of any replenishment
during the OFF cycle. This reservoir gets depleted as growing roots continue to consume the nutrients. As a result of this
depletion the duration of the OFF cycle must be limited such that the nutrient concentration does not go below the critical
value required for the specified growth rate. The depleted reservoir is then replenished during the next ON cycle to an extent
that depends on feed concentration and duration of the next ON cycle. It was shown that the use of increasing feed concentrations
in the fed-batch mode of operation could maintain a specified growth rate in the reactor. Interestingly, this also resulted
in the efficient operation of the reactor whereby the reactor operated at slightly above the required concentration and close
to the point of minimum mass transfer resistance. 相似文献
544.
Kuan-Yu Lai Sébastien R.G. Galan Yibo Zeng Tianhui Hina Zhou Chang He Ritu Raj Jitka Riedl Shi Liu K. Phin Chooi Neha Garg Min Zeng Lyn H. Jones Graham J. Hutchings Shabaz Mohammed Satish K. Nair Jie Chen Benjamin G. Davis Wilfred A. van der Donk 《Cell》2021,184(10):2680-2695.e26
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545.
546.
Li Zhao Kate Q. Zhao Robin Hurst Michael R. Slater Thomas B. Acton G. V. T. Swapna Ritu Shastry Gregory J. Kornhaber Gaetano T. Montelione 《Journal of structural and functional genomics》2010,11(3):201-209
Wheat germ cell-free methods provide an important approach for the production of eukaryotic proteins. We have developed a protein expression vector for the TNT® SP6 High-Yield Wheat Germ Cell-Free (TNT WGCF) expression system (Promega) that is also compatible with our T7-based Escherichia coli intracellular expression vector pET15_NESG. This allows cloning of the same PCR product into either one of several pET_NESG vectors and this modified WGCF vector (pWGHisAmp) by In-Fusion LIC cloning (Zhu et al. in Biotechniques 43:354–359, 2007). Integration of these two vector systems allowed us to explore the efficacy of the TNT WGCF system by comparing the expression and solubility characteristics of 59 human protein constructs in both WGCF and pET15_NESG E. coli intracellular expression. While only 30% of these human proteins could be produced in soluble form using the pET15_NESG based system, some 70% could be produced in soluble form using the TNT WGCF system. This high success rate underscores the importance of eukaryotic expression host systems like the TNT WGCF system for eukaryotic protein production in a structural genomics sample production pipeline. To further demonstrate the value of this WGCF system in producing protein suitable for structural studies, we scaled up, purified, and analyzed by 2D NMR two 15N-, 13C-enriched human proteins. The results of this study indicate that the TNT WGCF system is a successful salvage pathway for producing samples of difficult-to-express small human proteins for NMR studies, providing an important complementary pathway for eukaryotic sample production in the NESG NMR structure production pipeline. 相似文献
547.
Avinash Kumar Anand K. Singh Abnish K. Gautam Deepak Chandra Divya Singh Bendangla Changkija Mahendra Pratap Singh Ritu Trivedi 《Proteomics》2010,10(9):1730-1739
Kaempferol, a flavonoid, promotes osteoblast mineralization in vitro and bone formation in vivo; however, its mechanism of action is yet unknown. We adopted proteomic approach to identify the differential effect of kaempferol on rat primary calvarial osteoblasts during mineralization. The primary rat calvarial osteoblasts were treated with kaempferol (5.0 μM) for 9 days under mineralizing condition that resulted in significant increase in alkaline phosphatase activity and mineralization of the cells. Further, 2‐D analysis of the kaempferol‐treated osteoblast lysates revealed 18 differentially expressed proteins (nine upregulated and nine downregulated) on the basis of >/<2.0‐fold as cut‐off (p<0.01) that were then identified by MALDI‐TOF MS. These included cytoskeletal proteins, intracellular signaling protein, chaperone, extracellular matrix protein, and proteins involved in glycolysis and cell–matrix interactions. Proteomics data were confirmed by Western blotting and quantitative real‐time PCR by randomly selecting two upregulated and two downregulated proteins. Western blot analysis confirmed upregulation of HSP‐70 and cytokeratin‐14 levels, and downregulation of aldose reductase and caldesmon expression. We further demonstrated that kaempferol treatment inhibits aldose reductase activity in osteoblasts indicating an altered cellular metabolism by decelerating polyol pathway that was associated with the kaempferol‐induced osteoblast mineralization. In conclusion, this is a first comprehensive study on the differential regulation of proteins by kaempferol in primary osteoblast, which would further help to elucidate the role of the identified proteins in the process of osteoblast mineralization. 相似文献
548.
Sigrid M. C. Broekaert Ritu Roy Ichiro Okamoto Joost van den Oord Jürgen Bauer Claus Garbe Raymond L. Barnhill Klaus J. Busam Alistair J. Cochran Martin G. Cook David E. Elder Stanley W. McCarthy Martin C. Mihm Dirk Schadendorf Richard A. Scolyer Alan Spatz Boris C. Bastian 《Pigment cell & melanoma research》2010,23(6):763-770
Melanoma is comprised of biologically distinct subtypes. The defining clinical, histomorphologic, and molecular features are not fully established. This study sought to validate the association between genetic and histomorphologic features previously described and to determine their reproducibility and association with important clinical variables. Detailed clinical and histomorphologic features of 365 primary cutaneous melanomas were assessed by 11 pathologists and correlated with mutation status of BRAF and NRAS. There was substantial agreement in the quantitative assessment of histomorphologic features showing similar or better interobserver reproducibility than the established World Health Organization classification scheme. We confirmed that melanomas with BRAF mutations showed characteristic morphologic features (P < 0.0001) and metastasized more frequently to regional lymph nodes (P = 0.046). Importantly, melanomas without mutations were a heterogeneous group, with a subset having very similar clinical and morphological features as those with BRAF mutation raising the possibility that they are biologically related. Our study confirms an association between histomorphologic features, mutation status, and pattern of metastasis, providing criteria for a refined melanoma classification aimed at defining biologically homogeneous disease subgroups. 相似文献
549.
Parapuram SK Cojocaru RI Chang JR Khanna R Brooks M Othman M Zareparsi S Khan NW Gotoh N Cogliati T Swaroop A 《PloS one》2010,5(11):e13885
Background
Advanced age contributes to clinical manifestations of many retinopathies and represents a major risk factor for age-related macular degeneration, a leading cause of visual impairment and blindness in the elderly. Rod photoreceptors are especially vulnerable to genetic defects and changes in microenvironment, and are among the first neurons to die in normal aging and in many retinal degenerative diseases. The molecular mechanisms underlying rod photoreceptor vulnerability and potential biomarkers of the aging process in this highly specialized cell type are unknown.Methodology/Principal Findings
To discover aging-associated adaptations that may influence rod function, we have generated gene expression profiles of purified rod photoreceptors from mouse retina at young adult to early stages of aging (1.5, 5, and 12 month old mice). We identified 375 genes that showed differential expression in rods from 5 and 12 month old mouse retina compared to that of 1.5 month old retina. Quantitative RT-PCR experiments validated expression change for a majority of the 25 genes that were examined. Macroanalysis of differentially expressed genes using gene class testing and protein interaction networks revealed overrepresentation of cellular pathways that are potentially photoreceptor-specific (angiogenesis and lipid/retinoid metabolism), in addition to age-related pathways previously described in several tissue types (oxidative phosphorylation, stress and immune response).Conclusions/Significance
Our study suggests a progressive shift in cellular homeostasis that may underlie aging-associated functional decline in rod photoreceptors and contribute to a more permissive state for pathological processes involved in retinal diseases. 相似文献550.
Mohit P Makhijani K Madhavi MB Bharathi V Lal A Sirdesai G Reddy VR Ramesh P Kannan R Dhawan J Shashidhara LS 《Developmental biology》2006,291(2):356-367
Suppression of wing fate and specification of haltere fate in Drosophila by the homeotic gene Ultrabithorax is a classical example of Hox regulation of serial homology (Lewis, E.B. 1978. Nature 276, 565-570) and has served as a paradigm for understanding homeotic gene function. We have used DNA microarray analyses to identify potential targets of Ultrabithorax function during haltere specification. Expression patterns of 18 validated target genes and functional analyses of a subset of these genes suggest that down-regulation of both anterior-posterior and dorso-ventral signaling is critical for haltere fate specification. This is further confirmed by the observation that combined over-expression of Decapentaplegic and Vestigial is sufficient to override the effect of Ubx and cause dramatic haltere-to-wing transformations. Our results also demonstrate that analysis of the differential development of wing and haltere is a good assay system to identify novel regulators of key signaling pathways. 相似文献