排序方式: 共有553条查询结果,搜索用时 15 毫秒
61.
Saurabh Chattopadhyay V. S. Bisaria T. Scheper A. K. Srivastava 《Biotechnology and Bioprocess Engineering》2002,7(6):331-334
Culture conductivity and on-line NADH fluorescence were used to measure cellular growth in plant cell suspension cultures
ofPodophyllum hexandrum. An inverse correlation between dry cell weight and medium conductivity was observed during shake flask cultivation. A linear
relationship between dry cell weight and culture NADH fluorescence was obtained during the exponential phase of batch cultivation
in a bioreactor under the pH stat (pH 6) conditions. It was observed that conductivity measurement were suitable for biomass
characterisation under highly dynamic uncontrolled shake flask cultivation conditions. However, if the acid/alkali feeding
is done for pH control the conductivity measurement could not be applied. On the other hand the NADH fluorescence measurement
allowed online-in situ biomass monitoring of rather heterogenous plant cell suspension cultures in bioreactor even under the
most desirable pH stat conditions. 相似文献
62.
Saurabh Khasnavis Anamitra Ghosh Avik Roy Kalipada Pahan 《The Journal of biological chemistry》2013,288(29):20843-20855
Although Parkinson disease (PD) is a progressive neurodegenerative disorder, available animal models do not exhibit irreversible neurodegeneration, and this is a major obstacle in finding out an effective drug against this disease. Here we delineate a new irreversible model to study PD pathogenesis. The model is based on simple castration of young male mice. Levels of inducible nitric-oxide synthase (iNOS), glial markers (glial fibrillary acidic protein and CD11b), and α-synuclein were higher in nigra of castrated male mice than normal male mice. On the other hand, after castration, the level of glial-derived neurotrophic factor (GDNF) markedly decreased in the nigra of male mice. Accordingly, castration also induced the loss of tyrosine hydroxylase-positive neurons in the nigra and decrease in tyrosine hydroxylase-positive fibers and neurotransmitters in the striatum. Reversal of nigrostriatal pathologies in castrated male mice by subcutaneous implantation of 5α-dihydrotestosterone pellets validates an important role of male sex hormone in castration-induced nigrostriatal pathology. Interestingly, castration was unable to cause glial activation, decrease nigral GDNF, augment the death of nigral dopaminergic neurons, induce the loss of striatal fibers, and impair neurotransmitters in iNOS−/− male mice. Furthermore, we demonstrate that iNOS-derived NO is responsible for decreased expression of GDNF in activated astrocytes. Together, our results suggest that castration induces nigrostriatal pathologies via iNOS-mediated decrease in GDNF. These results are important because castrated young male mice may be used as a simple, toxin-free, and nontransgenic animal model to study PD-related nigrostriatal pathologies, paving the way for easy drug screening against PD. 相似文献
63.
Many amphibian species exploit temporary or even ephemeral aquatic habitats for reproduction by maximising larval growth under benign conditions but accelerating development to rapidly undergo metamorphosis when at risk of desiccation from pond drying. Here we determine mechanisms enabling developmental acceleration in response to decreased water levels in western spadefoot toad tadpoles (Pelobates cultripes), a species with long larval periods and large size at metamorphosis but with a high degree of developmental plasticity. We found that P. cultripes tadpoles can shorten their larval period by an average of 30% in response to reduced water levels. We show that such developmental acceleration was achieved via increased endogenous levels of corticosterone and thyroid hormone, which act synergistically to achieve metamorphosis, and also by increased expression of the thyroid hormone receptor TRΒ, which increases tissue sensitivity and responsivity to thyroid hormone. However, developmental acceleration had morphological and physiological consequences. In addition to resulting in smaller juveniles with proportionately shorter limbs, tadpoles exposed to decreased water levels incurred oxidative stress, indicated by increased activity of the antioxidant enzymes catalase, superoxide dismutase, and gluthatione peroxidase. Such increases were apparently sufficient to neutralise the oxidative damage caused by presumed increased metabolic activity. Thus, developmental acceleration allows spadefoot toad tadpoles to evade drying ponds, but it comes at the expense of reduced size at metamorphosis and increased oxidative stress. 相似文献
64.
65.
66.
Neer K. Singh Saurabh Anand Aditi Jain Sandip Das 《Plant Molecular Biology Reporter》2017,35(2):237-251
Comparative genomics-based synteny analysis has proved to be an effective strategy to understand evolution of genomic regions spanning a single gene (micro-unit) to large segments encompassing hundreds of kilobases to megabases. Brassicaceae is in a unique position to contribute to understanding genome and trait evolution through comparative genomics because whole genome sequences from as many as nine species have been completed and are available for analysis. In the present work, we compared genomic loci surrounding the KCS17-KCS18 cluster across these nine genomes. KCS18 or FAE 1 gene encodes beta-ketoacyl synthase, (β-KCS) a membrane-bound enzyme that catalyses the key rate-limiting step during synthesis of VLCFAs such as erucic acid (C22) present in seed oil in Brassicaceae by elongating carbon chain from C18 to C22; knowledge on role of KCS17 in plant development is however lacking. Synteny across the genomic segments harbouring FAE1 showed variable levels of gene retention ranging between 26% (Arabidopsis thaliana and Brassica napus C03) and 89% (between A. thaliana and Brassica rapa A01), and gene density ranged between 1 gene/2.86 kb and 1 gene/4.88 kb. Interestingly, in diploid Brassica species, FAE1 was retained in only one of the sub-genomes in spite of the presence of three sub-genomes created as a result of genome triplication; in contrast, FAE1 was present at three loci, with four copies in Camellina sativa which is also known to have experienced a recent genome triplication revealing contrasting fates upon duplication. The organization of KCS17 and KCS18 as head-to-tail cluster was conserved across most of the species, except the C genome containing Brassicas, namely B. oleracea and B. napus, where disruptions because of other genes were observed. Even in the conserved blocks, the distance between KCS17 and KCS18 varied; the functional implication of the organization of KCS17-KCS18 as a cluster vis-à-vis fatty acid biosynthesis needs to be dissected, as the cis-regulatory region is expected to be present in the intergenic space. Phylogenetic analysis of KCS gene family along with KCS17-KCS18 from members of Brassicaceae reveals their ancestral relationship with KCS8-KCS9 block. Further comparative functional analysis between KCS8, KCS9, KCS16, KCS17 and KCS18 across evolutionary time-scale will be required to understand the conservation or diversification of roles of these members of KCS family in fatty acid biosynthesis during course of evolution. 相似文献
67.
Saurabh Dixit Dieudonné R. Baganizi Rajnish Sahu Ejowke Dosunmu Atul Chaudhari Komal Vig Shreekumar R. Pillai Shree R. Singh Vida A. Dennis 《Journal of biological engineering》2017,11(1):49
The repair or replacement of damaged skins is still an important, challenging public health problem. Immune acceptance and long-term survival of skin grafts represent the major problem to overcome in grafting given that in most situations autografts cannot be used. The emergence of artificial skin substitutes provides alternative treatment with the capacity to reduce the dependency on the increasing demand of cadaver skin grafts. Over the years, considerable research efforts have focused on strategies for skin repair or permanent skin graft transplantations. Available skin substitutes include pre- or post-transplantation treatments of donor cells, stem cell-based therapies, and skin equivalents composed of bio-engineered acellular or cellular skin substitutes. However, skin substitutes are still prone to immunological rejection, and as such, there is currently no skin substitute available to overcome this phenomenon. This review focuses on the mechanisms of skin rejection and tolerance induction and outlines in detail current available strategies and alternatives that may allow achieving full-thickness skin replacement and repair. 相似文献
68.
A chip-based biosensor technology using surface plasmon resonance (SPR) was developed for studying the interaction of ligands and G protein-coupled receptors (GPCRs). GPCRs, the fourth largest superfamily in the human genome, are the largest class of targets for drug discovery.We have expressed the three subtypes of α2-adrenergic receptor (α2-AR), a prototypical GPCR as functional fusion proteins in baculovirus-infected insect cells. The localization of the expressed receptor was observed in intracellular organelles, as detected by eGFP fluorescence. In addition, the deletion mutants of α2B-AR, with a deletion in the 3rd intracellular loop, exhibited unaltered Kd values and enhanced stability, thus making them more promising candidates for crystallization. SPR demonstrated that small molecule ligands can bind the detergent-solubilized receptor, thus proving that α2-AR is active even in a lipid-free environment. The Kd values obtained from the biosensor analysis and traditional ligand binding studies correlate well with each other. This is the first demonstration of the binding of a small molecule to the detergent-solubilized state of α2-ARs and interaction of low-molecular mass-ligands in real time in a label-free environment. This technology will also allow the development of high throughput platform for screening a large number of compounds for generation of leads. 相似文献
69.
70.