234 research outputs found

    Author and Owner Intersection in Sound Recordings in The Copyright Act of India

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    245-250The present work focuses on the intersection of author and owner concerning sound recordings. The interpretation of copyright law on the author and owner intersection by the Court's are rather varied. It may be because the restricted issues at its hand lead the courts. More particularly, interpretation of provisos (b) and (c) of Section 17 of The Copyright Act, 1957 leads to differing interpretations by the Courts. The present analysis is made by studying three recent judgments to understand the author and owner conflicts of sound recordings

    The t-pebbling number of Jahangir graph J3,m

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    The t-pebbling number, ft(G), of a connected graph G, is the smallest positive integer such that from every placement of ft(G) pebbles, t pebbles can be moved to any specified target vertex by a sequence of pebbling moves, each move removes two pebbles of a vertex and placing one on an adjacent vertex. In this paper, we determine the t-pebbling number for Jahangir graph J3,m and finally we give a conjecture for the t-pebbling number of the graph Jn,m

    Regulation of the divalent metal ion transporter via membrane budding

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    Data source: Supplementary information, https://doi.org/10.1038/celldisc.2016.11The release of extracellular vesicles (EVs) is important for both normal physiology and disease. However, a basic understanding of the targeting of EV cargoes, composition and mechanism of release is lacking. Here we present evidence that the divalent metal ion transporter (DMT1) is unexpectedly regulated through release in EVs. This process involves the Nedd4-2 ubiquitin ligase, and the adaptor proteins Arrdc1 and Arrdc4 via different budding mechanisms. We show that mouse gut explants release endogenous DMT1 in EVs. Although we observed no change in the relative amount of DMT1 released in EVs from gut explants in Arrdc1 or Arrdc4 deficient mice, the extent of EVs released was significantly reduced indicating an adaptor role in biogenesis. Furthermore, using Arrdc1 or Arrdc4 knockout mouse embryonic fibroblasts, we show that both Arrdc1 and Arrdc4 are non-redundant positive regulators of EV release. Our results suggest that DMT1 release from the plasma membrane into EVs may represent a novel mechanism for the maintenance of iron homeostasis, which may also be important for the regulation of other membrane proteins.Kimberly D Mackenzie, Natalie J Foot, Sushma Anand, Hazel E Dalton, Natasha Chaudhary, Brett M Collins, Suresh Mathivanan and Sharad Kuma

    The t-Pebbling Number of Jahangir Graph

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    Given a configuration of pebbles on the vertices of a connected graph G, a pebbling move (or pebbling step) is defined as the removal of two pebbles from a vertex and placing one pebble on an adjacent vertex. The t-pebbling number, ft(G) of a graph G is the least number m such that, however m pebbles are placed on the vertices of G, we can move t pebbles to any vertex by a sequence of pebbling moves

    Distinct RNA profiles in subpopulations of extracellular vesicles: apoptotic bodies, microvesicles and exosomes

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    Introduction: In recent years, there has been an exponential increase in the number of studies aiming to understand the biology of exosomes, as well as other extracellular vesicles. However, classification of membrane vesicles and the appropriate protocols for their isolation are still under intense discussion and investigation. When isolating vesicles, it is crucial to use systems that are able to separate them, to avoid cross-contamination. Method: EVs released from three different kinds of cell lines: HMC-1, TF-1 and BV-2 were isolated using two centrifugation-based protocols. In protocol 1, apoptotic bodies were collected at 2,000×g, followed by filtering the supernatant through 0.8 µm pores and pelleting of microvesicles at 12,200×g. In protocol 2, apoptotic bodies and microvesicles were collected together at 16,500×g, followed by filtering of the supernatant through 0.2 µm pores and pelleting of exosomes at 120,000×g. Extracellular vesicles were analyzed by transmission electron microscopy, flow cytometry and the RNA profiles were investigated using a Bioanalyzer®. Results: RNA profiles showed that ribosomal RNA was primary detectable in apoptotic bodies and smaller RNAs without prominent ribosomal RNA peaks in exosomes. In contrast, microvesicles contained little or no RNA except for microvesicles collected from TF-1 cell cultures. The different vesicle pellets showed highly different distribution of size, shape and electron density with typical apoptotic body, microvesicle and exosome characteristics when analyzed by transmission electron microscopy. Flow cytometry revealed the presence of CD63 and CD81 in all vesicles investigated, as well as CD9 except in the TF-1-derived vesicles, as these cells do not express CD9. Conclusions: Our results demonstrate that centrifugation-based protocols are simple and fast systems to distinguish subpopulations of extracellular vesicles. Different vesicles show different RNA profiles and morphological characteristics, but they are indistinguishable using CD63-coated beads for flow cytometry analysis

    Phylogenetic Analysis using Protein Mass Spectrometry

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    Through advances in molecular biology, comparative analysis of DNA sequences is currently the cornerstone in the study of molecular evolution and phylogenetics. Nevertheless, protein mass spectrometry offers some unique opportunities to enable phylogenetic analyses in organisms where DNA may be difficult or costly to obtain. To date, the methods of phylogenetic analysis using protein mass spectrometry can be classified into three categories, (1) de novo protein sequencing followed by classical phylogenetic reconstruction, (2) direct phylogenetic reconstruction using proteolytic peptide mass maps, and (3) mapping of mass spectral data onto classical phylogenetic trees. In this chapter, we provide a brief description of the three methods and the protocol for each method along with relevant tools and algorithms

    Structural and Functional Studies on Salmonella typhimurium Propionate Kinase and Photorhabdus luminescens Oxalate Decarboxylase

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    Acetate and propionate are low molecular mass carbon compounds found abundantly in the soil. Although these compounds have been extensively used as food preservatives because of their ability to inhibit microbial growth, surprisingly, bacteria such as Escherichia coli and Salmonella typhimurium are able to grow on propionate as their sole carbon and energy source. Only in the presence of glucose, acetate and other short chain fatty acids inhibit microbial growth. Propionate is produced during the β-oxidation of odd-numbered carbon-chain fatty acids, fermentation of carbohydrates, oxidative degradation of branched-chain amino acids such as valine and isoleucine. They are also produced during the catabolism of threonine, methionine, thymine and cholesterol. In Escherichia coli and Salmonella typhimurium, enzymes involved in the degradation of L-serine and L-threonine to acetate and propionate, respectively, are encoded by the anaerobically regulated tdc operon. L-threonine is anaerobically degraded to propionate in four consecutive reaction steps catalyzed by biodegradative threonine deaminase (TdcB), 2-ketobutyrate formate lyase (TdcE), phosphotransacetylase (Pta) and propionate kinase (TdcD). Detailed studies on the structure and function of two of these enzymes have earlier been carried out in our laboratory. However, these studies did not reveal the precise substrate binding site in Salmonella typhimurium TdcD (StTdcD). It was also not possible to provide a satisfactory explanation of the structural basis of substrate specificity. The present studies were therefore aimed at locating the substrate binding site, elucidating the structural basis of substrate specificity and mechanism of catalysis of StTdcD. Oxalic acid is toxic to almost all organisms and its excessive occurrence leads to a variety of pathological conditions. In humans and other vertebrates, secretion of oxalic acid leads to formation of low soluble calcium oxalate, which precipitates as kidney stones. Formation of kidney stones is aggravated by lack of enzymes that catabolize oxalate. Oxalate oxidase, oxalate decarboxylase and oxalyl-CoA decarboxylase constitute three distinct categories of oxalate degrading enzymes. Photorhabdus luminescens is a Gram-negative, symbiotic bacterium associated with the entomopathogenic nematodes of the family Heterorhabditidae. Novel insecticidal genes from these symbiotic bacteria are now being examined for their potential in generating pest resistant transgenic plants. As part of this project, the three-dimensional X-ray crystal structure of an oxalate oxidase (OXDC) enzyme from Photorhabdus luminescens (PlOXDC) was determined. The introductory chapter (Chapter I) of the thesis presents the earlier investigations carried out in the laboratory on the structure and function of StTdcD. It also provides a summary of the earlier literature pertaining to propionate metabolism in S. typhimurium. The crystal structure of StTdcD in the apo form as well as in complex with ADP and the non-hydrolysable nucleotide analog AMPPNP were determined by earlier Dr. Simanshu ( Simanshu et al., 2005 , 2008 ). Subsequently, Dr Chittori determined the structures of the enzyme in complex with various other nucleotides ( Chittori et al., 2013 ). These studies along with enzyme assays performed by Chittori revealed that StTdcD possesses broad specificity and it could be activated by various nucleotides and metal ions and catalyzes phosphorylation of both propionate and acetate ( Chittori et al., 2013 ). In spite of these extensive studies, the precise mode of binding of the substrate propionate to StTdcD could not be elucidated. The chapter also presents a summary of the literature on oxalate, its toxic effects and enzymes that degrade oxalate. The importance of structural and functional studies on oxalate degrading enzymes and other enzymes encoded by Photorhabdus luminescens is also briefly discussed. All the experimental protocols and computational methods applicable for most of the investigations reported in Chapters 4, 5 and 6 are presented in Chapter II. The experimental procedures described include cloning, overexpression, purification, enzymatic assays, crystallization and X-ray diffraction data collection. Computational methods covered include summary of crystallographic theory and details of various programs used during data processing, structure solution, refinement, model building, validation and analysis. The databases that were used in the course of these investigations are also cited. The experience gained during attempts to determine the structure of StTdcD by single wavelength anomalous dispersion (SAD) method is described in Chapter III. The impetus for this work was the urge to examine the power of SAD technique making use of a newly acquired rotating anode X-ray generator equipped with a chromium anode. As expected, the structure determined by SAD was very close to the earlier determined structure of StTdcD. The structure contained a citrate, which was part of the crystallization cocktail at the active site. This is in contrast with acetate kinase, where it was found that citrate binds at the dimeric interface. The present studies demonstrated that the identification of a plausible regulatory site at the interface of dimeric structure in acetokinases based on the structure of acetate kinase (Chittori et al., 2013) is not valid for propionate kinase. Extensive efforts carried out to obtain structures of StTdcD and its mutants StTdcD A88V and StTdcD G207A complexed with either the substrate or substrate analogues provided several crystal structures. In most of these structures, the ligand was bound at a position distinct from the substrate binding site. These structures and their analysis are described Chapter IV. Asn206 was transformed from a disallowed region to an allowed region of the Ramachandran map in these structures whenever an anion was bound at the position corresponding to the γ- phosphate of the nucleotide substrate. This structural transformation might enhance the affinity of the enzyme for the substrate. In the structure of StTdcD A88V in complex with AMPPNP, AMPPNP was found to be cleaved to AMP and PNP either due to catalytic activity of the enzyme or due to radiation damage. The released PNP probably reacted with propionate forming propionyl-pyrophosphate. These structures also demonstrate that the nucleotide site readily accommodates the substrate or substrate analogues in the absence of a bound nucleotide. StTdcD catalyzes the Mg2+ ion dependent inter-conversion of propionate and ATP to propionyl phosphate and ADP. Two distinct catalytic mechanisms have been proposed for the phosphoryl transfer reaction catalyzed by acetokinase family enzymes: 1) direct-in-line transfer mechanism and 2) triple displacement mechanism (Anthony and Spector, 1972; Matte et al., 1998). In both, the configuration of the transferred phosphate undergoes an inversion, which has been experimentally demonstrated. Structural studies carried out with the view of elucidating the catalytic mechanism of StTdcD is described in Chapter V. Fortunately, it was possible to obtain the crystal structures of StTdcD and its mutants with propionate and AMPPNP bound at the active site. The structure supported an associative SN2 type direct in-line transfer mechanism of catalysis. The studies also revealed that Arg236 and His175 are catalytically important residues. As suggested earlier, Ala88 has a major role in specificity determination. However, Ala88 is not the sole determinant of specificity. Active site volume determining residues, Arg86, His118, Asp143 and the segment Pro116-Leu117-His118 are also important for substrate specificity. The catalytic mechanism proposed in this chapter may also be applicable to other acetokinase family members. The final Chapter VI describes three different crystal structures of PlOXDC. As expected from sequence similarity with B. subtilis and T. maritima OXDCs, PlOXDC polypeptide was found to possess a bicupin structure. However, the functional unit was a trimer in contrast to BsOXDC which functions as a hexamer. The difference is shown to be due to the disorder in the amino terminal segment of PlOXDC. The polypeptide was truncated during purification by a non-specific cleavage at residue Lys26 either by thrombin used for cleaving the covalently attached GST tag or by some other protease. However, in the crystal structure, the amino terminal 90 residues were disordered. The observed trimeric form of PlOXDC may represent its inherent nature or a result of the missing N-terminal residues. There is some controversy in the literature on whether both or only one cupin domain of the protomer is catalytically active. The structures presented in this chapter provided significant information on the mode of ligand binding to PlOXDC. In one of the structures, EDO was bound to both the cupin domains and was involved in similar interactions with protein atoms. This may imply that the substrate binds at both the sites and both cupin domains may have catalytic function. The thesis ends with a short note on future perspectives. It is clear that substantial work has been carried out on acetokinases. These studies have provided significant understanding of their structure and function. In the future, appropriate site-specific mutations of the substrate specificity determining residues may be made and their effect on enzyme specificity could be studied. Similarly, mutagenesis experiments could be performed to inter-convert acetate, propionate and butyrate kinases. These studies will provide deeper insights on intricacies of enzyme function. In contrast to the work on short chain fatty acid kinases, work on OXDC should be considered preliminary and further biochemical and structural studies are needed to illustrate the catalytic mechanism and examine if the protein is a suitable candidate for generating transgenic crops resistant to insect pests. The following manuscripts have been published or will be communicated for publication based on the results presented in the thesis

    A Study of Thought, Language, Communication disorder in Schizophrenia

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    INTRODUCTION: Schizophrenia is a chronic severe psychiatric disorder. The life time prevalence ranges from 0.3 – 0.6 %. It manifests as form and content of thought disorder. It has different language behavior, conceptually divergent. These are assessed by naturalistic observation of language behavior. In western countries, more studies are done on thought, language, communication disorder, but rare in our population. We conducted a study of thought, language, communication disorder in institute of mental health, Chennai, Tamilnadu. AIMS AND OBJECTIVES: To examine type, severity, prevalence of thought, language, communication disorder in schizophrenia and difference between acute episode of schizophrenia and chronic institutionalized schizophrenia and also examine correlation between thought, language, communication disorder with socio demographic variables. METHODOLOGY: The study was conducted in Institute of Mental health, Madras Medical College, Chennai, a tertiary care centre for Tamil Nadu after approval from the Institutional Ethics Committee. Acute episode of schizophrenia patients are those who are admitted as inpatients, within first week of admission. Chronic institutionalized patients are those who are as in-patients for more than 2 years time period. A total of 100 sample size with 50 acute episode of schizophrenia patients and 50 chronic institutionalised (in-patients > 2 years duration) schizophrenia patients. Andreasen scale is used. RESULTS AND DISCUSSION: We find significant difference in type, severity, prevalence of thought language communication disorder variables in our population.Significant correlation of thought language communication variables with socio demographic variables. We find there is no signicant difference in variables with length of stayal in chronic institutionalized patients

    Reduce the complexity of the E-learning authoring process

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    For every problem, there is one solution which is simple, neat, and wrong. The production of E-Learning contents is today the largest cost factor in the E-Learning and also the major issue of insecurity. This is an obstacle with the further propagation of the E-Learning. At present there are hardly visible numbers of tools to the production of E-Leaning contents. Besides the partial very high prices for this software they have the deficiency that they are usable only after a training course phase by the E-Learning author due to their complexity and its extent. The new challenge for designers and the researchers is to develop software tools for effective E-Learning. This Master thesis proposes an E-learning authoring tool which automatically uploads the file (OpenOffice document) which is selected by the enduser to the LMS/server. It also narrates how the content and the metadata are transformed as a SCORM package as well as its simplicity comparing to the other tools
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