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61.
Parvinder Kaur Anirban Ghosh Ramya Vadageri Krishnamurthy Deepa Gagwani Bhattacharjee Vijayashree Achar Santanu Datta Shridhar Narayanan Anand Anbarasu Sudha Ramaiah 《PloS one》2015,10(2)
Exposure to Mycobacterium tuberculosis (Mtb) aerosols is a major threat to tuberculosis (TB) researchers, even in bio-safety level-3 (BSL-3) facilities. Automation and high-throughput screens (HTS) in BSL3 facilities are essential for minimizing manual aerosol-generating interventions and facilitating TB research. In the present study, we report the development and validation of a high-throughput, 24-well ‘spot-assay’ for selecting bactericidal compounds against Mtb. The bactericidal screen concept was first validated in the fast-growing surrogate Mycobacterium smegmatis (Msm) and subsequently confirmed in Mtb using the following reference anti-tubercular drugs: rifampicin, isoniazid, ofloxacin and ethambutol (RIOE, acting on different targets). The potential use of the spot-assay to select bactericidal compounds from a large library was confirmed by screening on Mtb, with parallel plating by the conventional gold standard method (correlation, r2 = 0.808). An automated spot-assay further enabled an MBC90 determination on resistant and sensitive Mtb clinical isolates. The implementation of the spot-assay in kinetic screens to enumerate residual Mtb after either genetic silencing (anti-sense RNA, AS-RNA) or chemical inhibition corroborated its ability to detect cidality. This relatively simple, economical and quantitative HTS considerably minimized the bio-hazard risk and enabled the selection of novel vulnerable Mtb targets and mycobactericidal compounds. Thus, spot-assays have great potential to impact the TB drug discovery process. 相似文献
62.
Shome BR Das Mitra S Bhuvana M Krithiga N Velu D Shome R Isloor S Barbuddhe SB Rahman H 《Journal of applied microbiology》2011,111(6):1349-1356
Aim: To develop and evaluate a multiplex PCR (mPCR) assay for simultaneous detection of 10 bacterial species causing bovine mastitis namely, Staphylococcus aureus, Staphylococcus chromogenes, Staphylococcus epidermidis, Staphylococcus sciuri, Staphylococcus haemolyticus, Staphylococcus simulans, Streptococcus agalactiae, Streptococcus dysgalactiae, Streptococcus uberis and Escherichia coli in milk. Methods and Results: A two‐tube mPCR assay was developed. The accuracy of the mPCR was evaluated using 56 standard reference strains and 705 strains comprising of E. coli (n = 99), staphylococci (n = 522) and streptococci (n = 84). The threshold of detection of the mPCR assay was 10 fg of genomic DNA and <103 CFU ml?1. A comparative evaluation of mPCR with culture method using 115 milk samples from subclinical mastitis showed mPCR to be more efficacious. Subsequently, the mPCR showed successful detection of target bacteria, when applied directly for the assessment of 36 bulk milk samples. Conclusion: The developed mPCR assay was found to be simple, rapid, reliable and specific in species identification of 10 bacteria at a time. Significance and Impact of the Study: The assay will be useful for the detection of mastitis, testing bacteriological safety of milk and for species level differentiation. The assay will be of value in the dairy sector for diagnosis and research. The early and accurate identification of pathogens will enable timely interventions for the treatment and control of bovine mastitis. 相似文献
63.
Vaibhav Jadhav Matthias Hackl Aliaksandr Druz Smriti Shridhar Cheng-Yu Chung Kelley M. Heffner David P. Kreil Mike Betenbaugh Joseph Shiloach Niall Barron Johannes Grillari Nicole Borth 《Biotechnology advances》2013
microRNAs with their ability to regulate complex pathways that control cellular behavior and phenotype have been proposed as potential targets for cell engineering in the context of optimization of biopharmaceutical production cell lines, specifically of Chinese Hamster Ovary cells. However, until recently, research was limited by a lack of genomic sequence information on this industrially important cell line. With the publication of the genomic sequence and other relevant data sets for CHO cells since 2011, the doors have been opened for an improved understanding of CHO cell physiology and for the development of the necessary tools for novel engineering strategies. In the present review we discuss both knowledge on the regulatory mechanisms of microRNAs obtained from other biological models and proof of concepts already performed on CHO cells, thus providing an outlook of potential applications of microRNA engineering in production cell lines. 相似文献
64.
Satish K. Mandlik Shridhar S. Siras Kiran R. Birajdar 《Journal of liposome research》2019,29(1):10-20
The aim of the present research work was to develop, characterize and optimize sertaconazole nitrate (STZN) embedded flexisomes (STZN-FS) to improve the cutaneous anti-fungal activity of STZN. Flexisomes are self-aggregating, flexible, deformable lipidic vesicles possessing an aqueous core. A 32 factorial design was implemented to optimize the effects of the critical material attributes of concentration of phospholipid (X1) and edge activator (X2) on the critical quality attributes of particle size (Y1), entrapment efficiency (Y2), and deformability index (Y3). Statistical analysis was performed to be identify the best fit model and determine its significance. The sizes of the optimized STZN-FS were found to be 246.2?±?2.49?nm with entrapment efficiencies of 86.16?±?0.56% and deformability indices of 30.46?±?0.41. Zeta potential analysis showed negatively charged surface with a zeta potential value of ?30.9?mV. TEM analysis showed spherical shapes, confirming the vesicular characteristics. The optimized STZN-FS were further formulated into hydrogels. The % drug diffusion of STZN-FS hydrogels was found to be 13.24% and drug deposition in the skin layers was found to be 83.54%, showing that a high concentration of the drug was available at the site of action. The zone of inhibition STZN-FS hydrogel (30?mm) was higher than the marketed formulation (22?mm) and the plain STZN hydrogel (14?mm) against Candida albicans. From the above studies, it was concluded that STZN loaded STZN-FS shows high flexibility and enhanced antifungal activity. STZN-FS are thus found to be potential carriers for drug deposition in skin layers without disturbing their integrity. 相似文献
65.
Arthi Shridhar Alan Y. L. Lam Yu Sun Craig A. Simmons Elizabeth R. Gillies Lauren E. Flynn 《Biotechnology journal》2020,15(3)
While extracellular matrix (ECM)‐derived coatings have the potential to direct the response of cell populations in culture, there is a need to investigate the effects of ECM sourcing and processing on substrate bioactivity. To develop improved cell culture models for studying adipogenesis, the current study examines the proliferation and adipogenic differentiation of human adipose‐derived stem/stromal cells (ASCs) on a range of ECM‐derived coatings. Human decellularized adipose tissue (DAT) and commercially available bovine tendon collagen (COL) are digested with α‐amylase or pepsin to prepare the coatings. Physical characterization demonstrates that α‐amylase digestion generates softer, thicker, and more stable coatings, with a fibrous tissue‐like ultrastructure that is lost in the pepsin‐digested thin films. ASCs cultured on the α‐amylase‐digested ECM have a more spindle‐shaped morphology, and proliferation is significantly enhanced on the α‐amylase‐digested DAT coatings. Further, the α‐amylase‐digested DAT provides a more pro‐adipogenic microenvironment, based on higher levels of adipogenic gene expression, glycerol‐3‐phosphate dehydrogenase (GPDH) enzyme activity, and perilipin staining. Overall, this study supports α‐amylase digestion as a new approach for generating bioactive ECM‐derived coatings, and demonstrates tissue‐specific bioactivity using adipose‐derived ECM to enhance ASC proliferation and adipogenic differentiation. 相似文献
66.
Kaustubh A. Joshi Dinannath D. Patil Shridhar P. Gejji 《Journal of molecular modeling》2009,15(4):383-390
Hydroxyquinolone derivatives have proven to be useful for inhibition at the glycine binding site of N-methyl-D-aspartate (NMDA)
receptor. In this work the electronic structure, molecular electrostatic potential (MESP) and vibrational characteristics
of a set of C3 substituted 4-hydroxyquino-2-lone (HQ) derivatives, which act as Glycine/NMDA receptor antagonists, have been investigated
using the density functional calculations. In the optimized structures a substituent at the C3 site of HQ tends to adopt a helical structure. MESP investigations reveal that the ligands showing better inhibition activity
should possess electron-rich regions extending over the substituent and carbonyl group of HQ. A correlation of inhibitory
activity to the molecular electrostatic potential topography at the carbonyl oxygen as well as to the molecular electron density
topography turns out to be a significant output of the investigation.
Figure Quantam chemical approach has been employed to understand the reactivity of a set of hydroxyquinolone derivatives known for
their inhibition activity towards Glycine/NMDA receptor. Molecular electrostatic potential topography has been used as a tool
to understand the reactivity pattern 相似文献
67.
Anderson DR Hegde S Reinhard E Gomez L Vernier WF Lee L Liu S Sambandam A Snider PA Masih L 《Bioorganic & medicinal chemistry letters》2005,15(6):1587-1590
A class of inhibitors of mitogen-activated protein kinase-activated protein kinase 2 (MK-2) was discovered. These compounds have demonstrated activity against the enzyme with IC50 values as low as 130 nM and suppress the expression of TNFalpha in U937 cells. These represent the first small molecule inhibitors of MK-2 to be reported. 相似文献
68.
The human loci DNF15S2 and D3S94 have a high degree of sequence similarity to acyl-peptide hydrolase and are located at 3p21.3. 下载免费PDF全文
D G Ginzinger V Shridhar A Baldini R T Taggart O J Miller D I Smith 《American journal of human genetics》1992,50(4):826-833
The short arm of chromosome 3 undergoes genetic loss in most small-cell lung cancers and renal cell carcinomas. The most frequently deleted region includes the DNF15S2 locus (mapped to 3p21), suggesting that a putative recessive tumor-suppressor gene might be located nearby. A cosmid clone, cA476, contains the D3S94 locus and two HTF islands and detects a PstI RFLP. We have isolated cDNAs homologous to conserved fragments within cA476; and these cDNAs have 96% sequence similarity to a cDNA derived from the DNF15S2 locus. Sequence information from cDNAs derived from both the rat and pig acyl-peptide hydrolase (E.C.3.4.19.1) gene show that they have a high degree of sequence similarity to cDNAs derived from D3S94 and DNF15S2, suggesting that they are all the same locus. Cosmid cA476 (DNF15S2) has been mapped, by fluorescent in situ hybridization, to chromosome 3p21.3. D3S94 and DNF15S2 are quite distinct from aminoacylase 1 (ACY1), which has been physically linked to D3S2, D3S92, and D3S93, all localized within 3p21.1. 相似文献
69.
Jeremy Chien Takayo Ota Giovanni Aletti Ravi Shridhar Mariarosaria Boccellino Lucio Quagliuolo Alfonso Baldi Viji Shridhar 《Molecular and cellular biology》2009,29(15):4177-4187
HtrA1 belongs to a family of serine proteases found in organisms ranging from bacteria to humans. Bacterial HtrA1 (DegP) is a heat shock-induced protein that behaves as a chaperone at low temperature and as a protease at high temperature to help remove unfolded proteins during heat shock. In contrast to bacterial HtrA1, little is known about the function of human HtrA1. Here, we report the first evidence that human HtrA1 is a microtubule-associated protein and modulates microtubule stability and cell motility. Intracellular HtrA1 is localized to microtubules in a PDZ (PSD95, Dlg, ZO1) domain-dependent, nocodazole-sensitive manner. During microtubule assembly, intracellular HtrA associates with centrosomes and newly polymerized microtubules. In vitro, purified HtrA1 promotes microtubule assembly. Moreover, HtrA1 cosediments and copurifies with microtubules. Purified HtrA1 associates with purified α- and β-tubulins, and immunoprecipitation of endogenous HtrA1 results in coprecipitation of α-, β-, and γ-tubulins. Finally, downregulation of HtrA1 promotes cell motility, whereas enhanced expression of HtrA1 attenuates cell motility. These results offer an original identification of HtrA1 as a microtubule-associated protein and provide initial mechanistic insights into the role of HtrA1 in theregulation of cell motility by modulating microtubule stability.HtrA1 (for high temperature requirement) belongs to a family of serine proteases and is so named because of its essential role in thermal tolerance in Escherichia coli, which requires HtrA (also known as DegP) for survival at elevated temperatures (14). This survival is attributed to the ability of HtrA proteins to switch from chaperones to proteases that reduce the amount of unfolded and aggregated protein upon heat stress (46). Human, as well as bacterial, HtrA proteins contain trypsin and PDZ (PSD95, Dlg, ZO1) domains that display a high degree of sequence conservation from bacteria to human (14). Of the four human HtrA proteins, HtrA1, HtrA3, and HtrA4 also contain a signal peptide, insulin-like growth factor binding protein (IGFBP), and Kazal-type trypsin inhibitor domains, while HtrA2 lacks these domains. Although HtrA1 contains signal peptide, an intracellular form of HtrA1 has been reported as well (15, 17). The mitochondrial protein HtrA2 is well characterized and has been shown to be involved in apoptosis (27, 37, 39, 47, 52, 53) and neurodegenerative disease (35). However, HtrA1 is the first in the family to be implicated as a tumor suppressor in ovarian cancer and melanoma (3, 5, 13). In addition, HtrA1 is implicated in various pathogenic and developmental processes, including osteoarthritis, Alzheimer''s disease, neuronal maturation and development, age-related macular degeneration, and tumor progression (11, 23, 24, 33, 36, 50, 56). Specific to its role in tumor progression, HtrA1 is downregulated in various cancers, and its downregulation is associated with resistance to chemotherapy and a metastatic phenotype (4, 11, 19). Recently, we developed a mixture-based peptide library to determine the specificities of cleavage site motifs for HtrA1 serine protease. The results identified tubulins as potential substrates of HtrA1. Furthermore, we showed that exogenously expressed HtrA1 disrupts microtubules (MTs) and targets tubulins for degradation (data not shown). These results suggest a potential role for HtrA1 as an MT-associated protein (MAP) and its potential to regulate MT and tubulin stability and MT-associated cellular functions.MTs are highly dynamic noncovalent polymers of α- and β-tubulins that undergo cyclical shrinking (catastrophe) and growing (rescue) (18, 31, 43). The dynamic instability of MTs is central to their diverse biological functions, including the coordination of cell division (40, 55), morphogenesis (25), cell polarity (42), and motility (48). MT instability is, in part, modulated by MAPs (2, 29). Many tumor suppressors, such as adenomatous polyposis coli (APC) (20), RASSF1A (45), and Dlg (6), associate with MTs and impose tumor suppressor activities by regulating their functions related to cell division, polarity, and motility. Deregulation of these processes, as a consequence of loss of function of these tumor suppressors, contributes to unchecked proliferation; cytoarchitecture disruption; and the ability to migrate, invade, and metastasize distant organs (6, 7, 26). Therefore, the regulation of MT stability and dynamics or the lack of it has dire consequences for normal cell functions.Given the fact that HtrA1 is downregulated in various cancers, particularly in metastatic cancer, it is possible that HtrA1 may regulate certain aspects of cancer, namely, the motility of cancer cells, by modulating MT stability and dynamics. Therefore, to better characterize the interaction between HtrA1 and MTs and to gain mechanistic insights into the functional consequences of HtrA1 downregulation in cancer, we investigated the biochemical interaction between HtrA1 and tubulin, the domain within HtrA1 required for localization to MTs, and the effect on cell migration. Here, we describe the identification of HtrA1 as an MT-associated serine protease and a novel role of HtrA1 in the regulation of cell motility. 相似文献
70.