@article {8098, title = {Analysis of smart biomaterial containing umbilical cord blood serum protein conjugated with P-(NIPAAM) using spectroscopy [Bio-incubation Services]}, journal = {Materials Today: Proceedings}, year = {2023}, abstract = {

Human Umbilical Cord Blood Serum (HUCBS) is a complex and evolving collection of proteins that promote fetal development. In the realm of regenerative medicine, the important proteins found in HUCBS are of great interest. The smart biomaterial generated from HUCBS is described in this paper. To characterize this novel biomaterial, human umbilical cord blood was obtained in sterile vacutainers from mothers and left to clot for 24\ h at 37 {\textdegree}C. The supernatant serum was collected, centrifuged and lyophilized. The lyophilized HUCBS was homogenized with smart polymer. This sample was subjected to physico-chemical characterization using Attenuated Total Reflectance-Fourier-Transform Infrared (ATR-FTIR) Spectroscopy and Nuclear Magnetic Resonance (NMR). The quantification of protein-polymer conjugate using ATR-FTIR revealed peaks ranging between 3264 and 531\ cm-1 and that of NMR showed wide resonances in the region 0{\textendash}5\ ppm. ATR-FTIR and NMR investigations were used to determine the structural stability of protein molecules in protein-polymer complex which helps in understanding the possible clinical effectiveness of the smart biomaterial in drug delivery.

}, keywords = {ATR-FTIR, H NMR, HUCBS, P-NIPAAM, Protein-polymer conjugate}, issn = {2214-7853}, doi = {https://doi.org/10.1016/j.matpr.2023.01.285}, url = {https://www.sciencedirect.com/science/article/pii/S2214785323003759}, author = {Manasa Biligowda Latha and Ashmitha Kishan Shetty and Rajamanickam Deveswaran and Ashish Jagannath Rai and Serene Joy and Hadonahalli Munegowda Shashanka and Siddique Sha Muhammad Hussain and Suraksha Shetty} } @article {8562, title = {Comparative stability study and aggregate analysis of Bevacizumab marketed formulations using advanced analytical techniques [Biologics / Biopharmaceutical Characterization Facility]}, journal = {Heliyon}, volume = {9}, year = {2023}, pages = {e19478}, abstract = {

Bevacizumab (Bvz) is the most preferred recombinant humanized monoclonal antibody in biosimilar development due to its prominence as a standard treatment in the oncology space. Therapeutic monoclonal antibodies are typically more complex and unlikely to produce a replica. As a result, regulatory agencies allow approval of biosimilars that differ structurally and functionally from their reference product, but these differences should not have any clinical significance. To identify these significant discrepancies, it is essential to perform a thorough characterization of critical product attributes both in real-time and after storage until the product{\textquoteright}s expiration. In the present study, two Bvz biosimilar brands (Bio-1 and Bio-2) marketed in India were evaluated and compared with the reference product Avastin{\textregistered} to assess their degree of similarity. A comprehensive physicochemical characterization of biosimilars and reference product was performed using orthogonal techniques including LC-ESI-QTOF, MALDI-TOF, FTIR-ATR, iCIEF, rCE, nrCE, UV280, and RP-HPLC. Furthermore, Bvz formulations under study were subjected to various stress conditions of thermal (elevated temperature 50\ {\textpm}\ 2\ {\textdegree}C), chemical (acidic pH 3.0\ {\textpm}\ 0.2, neutral pH 7.0\ {\textpm}\ 0.2, and basic pH 10.0\ {\textpm}\ 0.2), and mechanical (agitation 200\ rpm) for comparative stability evaluation. Any alteration in the secondary structure of the native protein was detected and quantified using far-UV circular dichroism (CD), indicating an average of 15\% and 11\% loss in native antiparallel β-sheet conformation respectively in Bio-1 and Bio-2 upon exposure to elevated temperature and high pH. Additionally, covalent or non-covalent aggregates formed as a function of elevated temperature and agitation were quantified using SEC-MALS.

}, keywords = {Aggregate analysis, Bevacizumab, Biosimilars, Intact mass analysis, stress study}, issn = {2405-8440}, doi = {https://doi.org/10.1016/j.heliyon.2023.e19478}, url = {https://www.sciencedirect.com/science/article/pii/S2405844023066860}, author = {Arpit Arunkumar Bana and Nithin Sajeev and Sabyasachi Halder and Haidar Abbas Masi and Shikha Patel and Priti Mehta} } @article {8062, title = {CRISPR/Cas9 and FLP-FRT mediated regulatory dissection of the BX-C of Drosophila melanogaster [Transgenic Fly Facility]}, journal = {Chromosome Res}, volume = {31}, year = {2023}, month = {2023 Jan 31}, pages = {7}, abstract = {

The homeotic genes or Hox define the anterior-posterior (AP) body axis formation in bilaterians and are often present on the chromosome in an order collinear to their function across the AP axis. However, there are many cases wherein the Hox are not collinear, but their expression pattern is conserved across the AP axis. The expression pattern of Hox is attributed to the cis-regulatory modules (CRMs) consisting of enhancers, initiators, or repressor elements that regulate the genes in a segment-specific manner. In the Drosophila melanogaster Hox complex, the bithorax complex (BX-C) and even the CRMs are organized in an order that is collinear to their function in the thoracic and abdominal segments. In the present study, the regulatorily inert regions were targeted using CRISPR/Cas9 to generate a series of transgenic lines with the insertion of FRT sequences. These FRT lines are repurposed to shuffle the CRMs associated with Abd-B to generate modular deletion, duplication, or inversion of multiple CRMs. The rearrangements yielded entirely novel phenotypes in the fly suggesting the requirement of such complex manipulations to address the significance of higher order arrangement of the CRMs. The functional map and the transgenic flies generated in this study are important resources to decipher the collective ability of multiple regulatory elements in the eukaryotic genome to function as complex modules.

}, keywords = {Animals, CRISPR-Cas Systems, Drosophila melanogaster, Drosophila Proteins, Gene Expression Regulation, Developmental, Homeodomain Proteins, Regulatory Sequences, Nucleic Acid}, issn = {1573-6849}, doi = {10.1007/s10577-023-09716-w}, author = {Hajirnis, Nikhil and Pandey, Shubhanshu and Mishra, Rakesh K} } @article {8466, title = {Cryo-EM structure of GABA transporter 1 reveals substrate recognition and transport mechanism [National Cryo-Electron Microscopy Facility]}, journal = {Nat Struct Mol Biol}, year = {2023}, month = {2023 Jul 03}, abstract = {

The inhibitory neurotransmitter γ-aminobutyric acid (GABA) is cleared from the synaptic cleft by the sodium- and chloride-coupled GABA transporter GAT1. Inhibition of GAT1 prolongs the GABAergic signaling at the synapse and is a strategy to treat certain forms of epilepsy. In this study, we present the cryo-electron microscopy structure of Rattus norvegicus GABA transporter 1 (rGAT1) at a resolution of 3.1 {\r A}. The structure elucidation was facilitated by epitope transfer of a fragment-antigen binding (Fab) interaction site from the Drosophila dopamine transporter (dDAT) to rGAT1. The structure reveals rGAT1 in a cytosol-facing conformation, with a linear density in the primary binding site that accommodates a molecule of GABA, a displaced ion density proximal to Na site 1 and a bound chloride ion. A unique insertion in TM10 aids the formation of a compact, closed extracellular gate. Besides yielding mechanistic insights into ion and substrate recognition, our study will enable the rational design of specific antiepileptics.

}, issn = {1545-9985}, doi = {10.1038/s41594-023-01011-w}, url = {https://www.nature.com/articles/s41594-023-01011-w}, author = {Nayak, Smruti Ranjan and Joseph, Deepthi and H{\"o}fner, Georg and Dakua, Archishman and Athreya, Arunabh and Wanner, Klaus T and Kanner, Baruch I and Penmatsa, Aravind} } @article {2598, title = {Validated In Silico Model for Biofilm Formation in Escherichia coli [Bugworks Research Pvt. Ltd., a C-CAMP Startup]}, journal = {ACS Synthetic Biology}, year = {2022}, month = {01/2022}, abstract = {

Using\ Escherichia coli\ as the representative biofilm former, we report here the development of an in silico model built by simulating events that transform a free-living bacterial entity into self-encased multicellular biofilms. Published literature on \~{}300 genes associated with pathways involved in biofilm formation was curated, static maps were created, and suitably interconnected with their respective metabolites using ordinary differential equations. Precise interplay of genetic networks that regulate the transitory switching of bacterial growth pattern in response to environmental changes and the resultant multicomponent synthesis of the extracellular matrix were appropriately represented. Subsequently, the in silico model was analyzed by simulating time-dependent changes in the concentration of components by using the R and python environment. The model was validated by simulating and verifying the impact of key gene knockouts (KOs) and systematic knockdowns on biofilm formation, thus ensuring the outcomes were comparable with the reported literature. Similarly, specific gene KOs in laboratory and pathogenic\ E. coli\ were constructed and assessed. MiaA, YdeO, and YgiV were found to be crucial in biofilm development. Furthermore, qRT-PCR confirmed the elevation of expression in biofilm-forming clinical isolates. Findings reported in this study offer opportunities for identifying biofilm inhibitors with applications in multiple industries. The application of this model can be extended to the health care sector specifically to develop novel adjunct therapies that prevent biofilms in medical implants and reduce emergence of biofilm-associated resistant polymicrobial-chronic infections. The in silico framework reported here is open source and accessible for further enhancements.

}, doi = {10.1021/acssynbio.1c00445}, url = {https://doi.org/10.1021/acssynbio.1c00445}, author = {Bhowmik, Purnendu and Rajagopal, Sreenath and Hmar, Rothangamawi Victoria and Singh, Purnima and Saxena, Pragya and Amar, Prakruthi and Thomas, Teby and Ravishankar, Rajani and Nagaraj, Savitha and Katagihallimath, Nainesh and Sarangapani, Ramanujan Kadambi and Ramachandran, Vasanthi and Datta, Santanu} } @article {1724, title = {Identification of novel vaccine candidates in the whole-cell Aeromonas hydrophila biofilm vaccine through reverse vaccinology approach [Mass Spectrometry - Proteomics Facility]}, journal = {Fish \& Shellfish Immunology}, volume = {114}, year = {2021}, pages = {132-141}, abstract = {

Biofilm vaccine has been recognised as one of the successful strategy to reduce the Aeromonas hydrophila infection in fish. But, the vaccine contains the protective and non-protective proteins, which may lead to show altered heterologous adaptive immunity response. Moreover, cross protection and effectiveness of previously developed biofilm vaccine was not tested against different geographical A. hydrophila isolates. Therefore, in the present study, whole-cell A. hydrophila biofilm vaccine was evaluated in rohu, vaccinated group showed increased antibody titer and protection against the different geographical A. hydrophila isolates namely KAH1 and AAH2 with 78.9\% and 84.2\% relative percentage survival, respectively. In addition, by using the immune sera of biofilm vaccinated group, a total of six protective proteins were detected using western blot assay. Further, the same proteins were identified by nano LC-MS/MS method, a total of fourteen candidate proteins showing the immunogenic property including highly expressed OMP{\textquoteright}s tolC, bamA, lamb, AH4AK4_2542, AHGSH82_029580 were identified as potential vaccine candidates. The STRING analysis revealed that, top candidate proteins identified may potentially interact with other intracellular proteins; involved in ribosomal and (tricarboxylic acid) TCA pathway. Importantly, all the selected vaccine candidate proteins contain the B-cell epitope region. Finally, the present study concludes that, whole-cell A. hydrophila biofilm vaccine able to protect the fish against the different geographical A. hydrophila isolates. Further, through reverse vaccinology approach, a total of fourteen proteins were identified as potential vaccine candidates against A. hydrophila pathogen.

}, keywords = {Biofilm vaccine, isolates, Protection, Protective protein, Proteomics, Reverse vaccinology}, issn = {1050-4648}, doi = {https://doi.org/10.1016/j.fsi.2021.04.019}, url = {https://www.sciencedirect.com/science/article/pii/S1050464821001091}, author = {Basmeet Kaur and B.T. Naveen Kumar and Anuj Tyagi and Shanthanagouda Admane Holeyappa and Niraj Kumar Singh} } @article {1638, title = {A Novel N4-Like Bacteriophage Isolated from a Wastewater Source in South India with Activity against Several Multidrug-Resistant Clinical Pseudomonas aeruginosa Isolates [Next Gen Genomics \& National Electron Cryo-Microscopy Facilities]}, journal = {mSphere}, volume = {6}, year = {2021}, month = {2021 Jan 13}, abstract = {

Multidrug-resistant community-acquired infections caused by the opportunistic human pathogen are increasingly reported in India and other locations globally. Since this organism is ubiquitous in the environment, samples such as sewage and wastewater are rich reservoirs of bacteriophages. In this study, we report the isolation and characterization of a novel N4-like lytic bacteriophage, vB_Pae_AM.P2 (AM.P2), from wastewater in Kerala, India. AM.P2 is a double-stranded DNA podovirus that efficiently lyses the model strain, PAO1, at a multiplicity of infection as low as 0.1 phage per bacterium and resistance frequency of 6.59 {\texttimes} 10 Synergy in bactericidal activity was observed between AM.P2 and subinhibitory concentrations of the antibiotic ciprofloxacin. Genome sequencing of AM.P2 revealed features similar to those of the N4-like phages LUZ7 and KPP21. As judged by two independent assay methods, spot tests and growth inhibition, AM.P2 successfully inhibited the growth of almost 30\% of strains from a contemporary collection of multidrug-resistant clinical isolates from South India. Thus, AM.P2 may represent an intriguing candidate for inclusion in bacteriophage cocktails developed for various applications, including water decontamination and clinical bacteriophage therapy. In India, multidrug resistance determinants are much more abundant in community-associated bacterial pathogens due to the improper treatment of domestic and industrial effluents. In particular, a high bacterial load of the opportunistic pathogen in sewage and water bodies in India is well documented. The isolation and characterization of bacteriophages that could target emerging strains, representing possible epicenters for community-acquired infections, could serve as a useful alternative tool for various applications, such as phage therapy and environmental treatment. Continuing to supplement the repertoire of broad-spectrum bacteriophages is an essential tool in confronting this problem.

}, issn = {2379-5042}, doi = {10.1128/mSphere.01215-20}, author = {Menon, Nitasha D and Kumar, Megha S and Satheesh Babu, T G and Bose, Sucharita and Vijayakumar, Gayathri and Baswe, Manasi and Chatterjee, Meghna and D{\textquoteright}Silva, Jovita Rowena and Shetty, Kavya and Haripriyan, Jayalekshmi and Kumar, Anil and Nair, Samitha and Somanath, Priyanka and Nair, Bipin G and Nizet, Victor and Kumar, Geetha B} } @article {1917, title = {Novel non intrusive continuous use ZeBox technology to trap and kill airborne microbes [Biomoneta Research Pvt. Ltd., a C-CAMP Startup / Electron Microscopy Facility]}, journal = {Scientific Reports}, volume = {11}, year = {2021}, month = {11/2021}, pages = {Article number: 22779 }, abstract = {

Preventing nosocomial infection is a major unmet need of our times. Existing air decontamination technologies suffer from demerits such as toxicity of exposure, species specificity, noxious gas emission, environment-dependent performance and high power consumption. Here, we present a novel technology called {\textquotedblleft}ZeBox{\textquotedblright} that transcends the conventional limitations and achieves high microbicidal efficiency. In ZeBox, a non-ionizing electric field extracts naturally charged microbes from flowing air and deposits them on engineered microbicidal surfaces. The surface{\textquoteright}s three dimensional topography traps the microbes long enough for them to be inactivated. The electric field and chemical surfaces synergistically achieve rapid inactivation of a broad spectrum of microbes. ZeBox achieved near complete kill of airborne microbes in challenge tests (5{\textendash}9 log reduction) and\ \>90\%\ efficiency in a fully functional stem cell research facility in the presence of humans. Thus, ZeBox fulfills the dire need for a real-time, continuous, safe, trap-and-kill air decontamination technology.

}, doi = {doi.org/10.1038/s41598-021-02184-4}, author = {Kruttika S. Phadke and Deepak G. Madival and Janani Venkataraman and Debosmita Kundu and K. S. Ramanujan and Nisha Holla and Jaywant Arakeri and Gaurav Tomar and Santanu Datta and Arindam Ghatak} } @article {1323, title = {Dataset for the combined transcriptome assembly of M. oleifera and functional annotation [Next Gen Genomics Facility (INT)]}, journal = {Data in Brief}, year = {2020}, pages = {105416}, abstract = {

In this paper, we present the data acquired during transcriptome analysis of the plant Moringa oleifera [1] from five different tissues (root, stem, leaf, flower and seed) by RNA sequencing. A total of 271 million reads were assembled with an N50 of 2094bp. The combined transcriptome was assessed for transcript abundance across five tissues. The protein coding genes identified from the transcripts were annotated and used for orthology analysis. Further, enzymes involved in the biosynthesis of select medicinally important secondary metabolites, vitamins and ion transporters were identified and their expression levels across tissues were examined. The data generated by RNA sequencing has been deposited to NCBI public repository under the accession number PRJNA394193 (https://www.ncbi.nlm.nih.gov/bioproject/PRJNA394193).

}, keywords = {Annotation, Enrichment analysis, Gene Expression, Metabolic pathway, Orthology, Transcriptome}, issn = {2352-3409}, doi = {https://doi.org/10.1016/j.dib.2020.105416}, url = {http://www.sciencedirect.com/science/article/pii/S2352340920303103}, author = {K. Mohamed Shafi and Adwait G. Joshi and Iyer Meenakshi and Shaik Naseer Pasha and K. Harini and Jarjapu Mahita and Radha Sivarajan Sajeevan and Snehal D. Karpe and Pritha Ghosh and Sathyanarayanan Nitish and A. Gandhimathi and Oommen K. Mathew and Subramanian Hari Prasanna and Manoharan Malini and Eshita Mutt and Mahantesha Naika and Nithin Ravooru and Rajas M. Rao and Prashant N. Shingate and Anshul Sukhwal and Margaret S. Sunitha and Atul K. Upadhyay and Rithvik S. Vinekar and Ramanathan Sowdhamini} } @article {1465, title = {A knowledge-driven protocol for prediction of proteins of interest with an emphasis on biosynthetic pathways [Next Gen Genomics Facility (INT)]}, journal = {MethodsX}, year = {2020}, pages = {101053}, abstract = {

This protocol describes a stepwise process to identify proteins of interest from a query proteome derived from NGS data. We implemented this protocol on Moringa oleifera transcriptome to identify proteins involved in secondary metabolite and vitamin biosynthesis and ion transport. This knowledge-driven protocol identifies proteins using an integrated approach involving sensitive sequence search and evolutionary relationships. We make use of functionally important residues (FIR) specific for the query protein family identified through its homologous sequences and literature. We screen protein hits based on the clustering with true homologues through phylogenetic tree reconstruction complemented with the FIR mapping. The protocol was validated for the protein hits through qRT-PCR and transcriptome quantification. Our protocol demonstrated a higher specificity as compared to other methods, particularly in distinguishing cross-family hits. This protocol was effective in transcriptome data analysis of M. oleifera as described in Pasha et. al.{\textbullet}Knowledge-driven protocol to identify secondary metabolite synthesizing protein in a highly specific manner.{\textbullet}Use of functionally important residues for screening of true hits.{\textbullet}Beneficial for metabolite pathway reconstruction in any (species, metagenomics) NGS data.

}, keywords = {functionally important residue, homology, multiple sequence alignment, Pathway, phylogenetic analysis}, issn = {2215-0161}, doi = {https://doi.org/10.1016/j.mex.2020.101053}, url = {http://www.sciencedirect.com/science/article/pii/S2215016120302739}, author = {Adwait G. Joshi and K. Harini and Iyer Meenakshi and K. Mohamed Shafi and Shaik Naseer Pasha and Jarjapu Mahita and Radha Sivarajan Sajeevan and Snehal D. Karpe and Pritha Ghosh and Sathyanarayanan Nitish and A. Gandhimathi and Oommen K. Mathew and Subramanian Hari Prasanna and Manoharan Malini and Eshita Mutt and Mahantesha Naika and Nithin Ravooru and Rajas M. Rao and Prashant N. Shingate and Anshul Sukhwal and Margaret S. Sunitha and Atul K. Upadhyay and Rithvik S. Vinekar and Ramanathan Sowdhamini} } @article {986, title = {Enhancement of the gut barrier integrity by a microbial metabolite through the Nrf2 pathway [Discovery to Innovation Accelerator]}, journal = {Nat Commun}, volume = {10}, year = {2019}, month = {2019 Jan 09}, pages = {89}, abstract = {

The importance of gut microbiota in human health and pathophysiology is undisputable. Despite the abundance of metagenomics data, the functional dynamics of gut microbiota in human health and disease remain elusive. Urolithin A (UroA), a major microbial metabolite derived from polyphenolics of berries and pomegranate fruits displays anti-inflammatory, anti-oxidative, and anti-ageing activities. Here, we show that UroA and its potent synthetic analogue (UAS03) significantly enhance gut barrier function and inhibit unwarranted inflammation. We demonstrate that UroA and UAS03 exert their barrier functions through activation of aryl hydrocarbon receptor (AhR)- nuclear factor erythroid 2-related factor 2 (Nrf2)-dependent pathways to upregulate epithelial tight junction proteins. Importantly, treatment with these compounds attenuated colitis in pre-clinical models by remedying barrier dysfunction in addition to anti-inflammatory activities. Cumulatively, the results highlight how microbial metabolites provide two-pronged beneficial activities at gut epithelium by enhancing barrier functions and reducing inflammation to protect from colonic diseases.

}, issn = {2041-1723}, doi = {10.1038/s41467-018-07859-7}, author = {Singh, Rajbir and Chandrashekharappa, Sandeep and Bodduluri, Sobha R and Baby, Becca V and Hegde, Bindu and Kotla, Niranjan G and Hiwale, Ankita A and Saiyed, Taslimarif and Patel, Paresh and Vijay-Kumar, Matam and Langille, Morgan G I and Douglas, Gavin M and Cheng, Xi and Rouchka, Eric C and Waigel, Sabine J and Dryden, Gerald W and Alatassi, Houda and Zhang, Huang-Ge and Haribabu, Bodduluri and Vemula, Praveen K and Jala, Venkatakrishna R} } @article {1016, title = {Serum biomarkers identification by iTRAQ and verification by MRM: S100A8/S100A9 levels predict tumor-stroma involvement and prognosis in Glioblastoma [Mass Spectrometry - Metabolomics Facility].}, journal = {Sci Rep}, volume = {9}, year = {2019}, month = {2019 Feb 26}, pages = {2749}, abstract = {

Despite advances in biology and treatment modalities, the prognosis of glioblastoma (GBM) remains poor. Serum reflects disease macroenvironment and thus provides a less invasive means to diagnose and monitor a diseased condition. By employing 4-plex iTRAQ methodology, we identified 40 proteins with differential abundance in GBM sera. The high abundance of serum S100A8/S100A9 was verified by multiple reaction monitoring (MRM). ELISA and MRM-based quantitation showed a significant positive correlation. Further, an integrated investigation using stromal, tumor purity and cell type scores demonstrated an enrichment of myeloid cell lineage in the GBM tumor microenvironment. Transcript levels of S100A8/S100A9 were found to be independent poor prognostic indicators in GBM. Medium levels of pre-operative and three-month post-operative follow-up serum S100A8 levels predicted poor prognosis in GBM patients who lived beyond median survival. In vitro experiments showed that recombinant S100A8/S100A9 proteins promoted integrin signalling dependent glioma cell migration and invasion up to a threshold level of concentrations. Thus, we have discovered GBM serum marker by iTRAQ and verified by MRM. We also demonstrate interplay between tumor micro and macroenvironment and identified S100A8 as a potential marker with diagnostic and prognostic value in GBM.

}, issn = {2045-2322}, doi = {10.1038/s41598-019-39067-8}, author = {Arora, Anjali and Patil, Vikas and Kundu, Paramita and Kondaiah, Paturu and Hegde, A S and Arivazhagan, A and Santosh, Vani and Pal, Debnath and Somasundaram, Kumaravel} } @article {1084, title = {The transcriptome enables the identification of candidate genes behind medicinal value of Drumstick tree (Moringa oleifera) [Next Gen Genomics Facility (INT)].}, journal = {Genomics}, year = {2019}, month = {2019 Apr 29}, abstract = {

Moringa oleifera is a plant well-known for its nutrition value, drought resistance and medicinal properties. cDNA libraries from five different tissues (leaf, root, stem, seed and flower) of M. oleifera cultivar Bhagya were generated and sequenced. We developed a bioinformatics pipeline to assemble transcriptome, along with the previously published M. oleifera genome, to predict 17,148 gene models. Few candidate genes related to biosynthesis of secondary metabolites, vitamins and ion transporters were identified. Expressions were further confirmed by real-time quantitative PCR experiments for few promising leads. Quantitative estimation of metabolites, as well as elemental analysis, was also carried out to support our observations. Enzymes in the biosynthesis of vitamins and metabolites like quercetin and kaempferol are highly expressed in leaves, flowers and seeds. The expression of iron transporters and calcium storage proteins were observed in root and leaves. In general, leaves retain the highest amount of small molecules of interest.

}, issn = {1089-8646}, doi = {10.1016/j.ygeno.2019.04.014}, author = {Pasha, Shaik Naseer and Shafi, K Mohamed and Joshi, Adwait G and Meenakshi, Iyer and Harini, K and Mahita, Jarjapu and Sajeevan, Radha Sivarajan and Karpe, Snehal D and Ghosh, Pritha and Nitish, Sathyanarayanan and Gandhimathi, A and Mathew, Oommen K and Prasanna, Subramanian Hari and Malini, Manoharan and Mutt, Eshita and Naika, Mahantesha and Ravooru, Nithin and Rao, Rajas M and Shingate, Prashant N and Sukhwal, Anshul and Sunitha, Margaret S and Upadhyay, Atul K and Vinekar, Rithvik S and Sowdhamini, Ramanathan} } @article {870, title = {Cellular and proteomic events associated with localized formation of smut-gall during Zizania latifolia-Ustilago esculenta interaction. [Mass Spectrometry - Proteomics Facility]}, journal = {Microb Pathog}, year = {2018}, month = {2018 Oct 24}, abstract = {

The perennial wild rice Zizania latifolia is confined in the swampy habitat and wetland of the Indo-Burma biodiversity hotspot of India and infection by the biotrophic fungus Ustilago esculenta is hallmarked by swellings that develop to form localized smut-gall at the topmost internodal region. The cellular and proteomic events involved in the non-systemic colonization of Z. latifolia by U. esculenta leading to smut-gall formation is poorly understood. Proteins were extracted from the smut-gall region at the topmost internodal region below the apical meristematic tissue from the infected and uninfected parts of Z. latifolia. By combining transmission electron microscopy (TEM) and fluorescent microscopy (FM), we showed that U. esculenta hyphal morphological transitions and movement occurred both intercellularly and intracellularly while sporulation occurred intracellularly in selective cells. Following proteome profiling using two dimensional SDS-PAGE at different phenotypic phases of smut-gall development and U. esculenta infection, differentially expressed proteins bands and their relative abundance were detected and subjected to liquid chromatography-tandem mass spectrometric (LC-MS/MS) analysis. Importantly, the fungus explores at least 7 metabolic pathways and 5 major biological processes to subdue the host defense and thrive successfully on Z. latifolia. The fungus U. esculenta produces proteases and energy acquisition proteins that enhances it{\textquoteright}s defensive and survival mode in the host. The identified differentially regulated proteins shed-light into why inflorescence is being replaced by bulbous smut-gall at late stages of the disease, as well as the development of resistance in some Z. latifolia plants against U. esculenta infection.

}, issn = {1096-1208}, doi = {10.1016/j.micpath.2018.10.028}, author = {Jose, Robinson C and Bengyella, Louis and Handique, Pratap J and Talukdar, Narayan C} } @article {888, title = {Gene expression is implicated in the ability of pikas to occupy Himalayan elevational gradient. [Next Gen Genomics Facility (INT)]}, journal = {PLoS One}, volume = {13}, year = {2018}, month = {2018}, pages = {e0207936}, abstract = {

Species are shifting their ranges due to climate change, many moving to cooler and higher locations. However, with elevation increase comes oxygen decline, potentially limiting a species{\textquoteright} ability to track its environment depending on what mechanisms it has available to compensate for hypoxic stress. Pikas (Family Ochotonidae), cold-specialist small mammal species, are already undergoing elevational range shifts. We collected RNA samples from one population of Ochotona roylei in the western Himalaya at three sites- 3,600, 4,000, and 5,000 meters-and found no evidence of significant population genetic structure nor positive selection among sites. However, out of over 10,000 expressed transcripts, 26 were significantly upregulated at the 5,000 m site and were significantly enriched for pathways consistent with physiological compensation for limited oxygen. These results suggest that differences in gene expression may play a key role in enabling hypoxia tolerance on this local scale, indicating elevational flexibility that may facilitate successful range shifts in response to climate change.

}, issn = {1932-6203}, doi = {10.1371/journal.pone.0207936}, author = {Solari, Katherine A and Ramakrishnan, Uma and Hadly, Elizabeth A} } @article {769, title = {Identification and characterization of a calcium dependent bacillopeptidase from Bacillus subtilis CFR5 with novel kunitz trypsin inhibitor degradation activity. [Mass Spectrometry Facility - Proteomics]}, journal = {Food Res Int}, volume = {103}, year = {2018}, month = {2018 Jan}, pages = {263-272}, abstract = {

The cereals and pulses are considered to be an important component in the food chain due to their proteinaceous nature, but the presence of anti-nutritional factors (KTI) decreases their nutrient absorption rate. Kunitz trypsin inhibitors (KTI) reduce the bioavailability of trypsin and are the primary cause for the existence of various metabolic disorders. To overcome the inhibitory effect of KTI, a KTI degrading protein (BPC) was identified and characterized from Bacillus subtilis CFR5. BPC possesses 60\% identity with bacillopeptidase of B. subtilis 168. BPC cleaves at DFVLD and DFFNNY sites of KTI which results in the formation of three inactive KTI fragments. Subsequently, BPC was cloned in pHY300PLK and recombinant protein was used for the biochemical characterization, sequence alignment and mutational studies. The optimal temperature and pH of the BPC was 40{\textdegree}C and 8.0, respectively. BPC is a calcium dependent metalloprotease and its activity was significantly increased by 41.2-fold in the presence of 2.5mM Ca. BPC also showed moderate thermostability with the half-life of 4h at 55{\textdegree}C. Site directed mutagenesis studies in recombinant BPC revealed that mutation of Tyr with Phe, Tyr with Phe, and Pro to Arg affects the catalytic activity without affecting the conformation of BPC. Hence, Tyr, Tyr and Pro were identified as the unique residues responsible for KTI cleavage. Thus, this study leads to the identification of a novel KTI degrading protease from B. subtilis CFR5 which cleaves and deactivates the kunitz trypsin inhibitor.

}, issn = {1873-7145}, doi = {10.1016/j.foodres.2017.10.049}, author = {Sharmila, Giliyaru Ramachandra and Halami, Prakash Motiram and Venkateswaran, Gonvindarajalu} } @article {846, title = {Isolation and characterization of two lytic bacteriophages against Staphylococcus aureus from India: newer therapeutic agents against Bovine mastitis. [Electron Microscopy Facility]}, journal = {Vet Res Commun}, year = {2018}, month = {2018 Sep 15}, abstract = {

Bovine mastitis causes severe economic losses to dairy farmers. Staphylococcus aureus, is one of the most important pathogen implicated in etiology of clinical and subclinical mastitis in bovines. In view of increasing antimicrobial resistance alternatives to antibiotic therapy are much needed. The present decade has witnessed a renewed interest in phage based therapeutics and diagnostics. The present study, describes isolation and characterization of two lytic phages SAJK-IND and MSP against Staphylococcus aureus having a potential to be used in therapy against mastitis. SAJK-IND and MSP phages belonged to Myoviridae and Podoviridae families, respectively. TEM imaging of the two phages revealed an iscosahedral head. MSP phage has a short non contractile tail. SAJK-IND and MSP have a burst size of 44 {\textpm} 3 and 25 {\textpm} 5 PFU/ infected cell, respectively. SAJK-IND and MSP phages revealed ̴ 12 and ̴16 proteins, respectively on SDS-PAGE analysis. The lytic activity of the phages was specific for Staphylococcus aureus. SAJK-IND revealed 100\% lytic activity against several strains of Staphylococcus aureus isolated from mastitis milk samples whereas, MSP had only 40\% lytic activity. SAJK-IND phage genome was sequenced, assembled and deposited in Genbank under accession no MG010123.

}, issn = {1573-7446}, doi = {10.1007/s11259-018-9736-y}, author = {Ganaie, M Y and Qureshi, S and Kashoo, Z and Wani, S A and Hussain, M I and Kumar, R and Maqbool, R and Sikander, P and Banday, M S and Malla, W A and Mondal, P and Khan, R I N} } @article {865, title = {Prevention of pesticide-induced neuronal dysfunction and mortality with nucleophilic poly-Oxime topical gel. [BIG Grant Supported Entrepreneur]}, journal = {Sci Adv}, volume = {4}, year = {2018}, month = {2018 Oct}, pages = {eaau1780}, abstract = {

Organophosphate-based pesticides inhibit acetylcholinesterase (AChE), which plays a pivotal role in neuromuscular function. While spraying in the field, farmworkers get exposed to pesticides through the dermal route. Internalized pesticide inhibits AChE, which leads to neurotoxicity, cardiotoxicity, cognitive dysfunction, loss of endurance, and death in severe cases. Here, we present a nucleophilic pyridine-2-aldoxime-functionalized chitosan-based topical gel (-Oxime gel) that rapidly deactivates organophosphates, methyl parathion (MPT), on the skin of rats, which leads to reduced AChE inhibition in the blood and tissues. Testing the robustness of -Oxime gel, we report reduction in AChE inhibition following repeated dermal administration of MPT in the presence of -Oxime gel. Furthermore, -Oxime gel prevented MPT-induced neuromuscular dysfunction, loss of endurance, and locomotor coordination. We observe a 100\% survival in rats following topical MPT administration in the presence of -Oxime gel. This prophylactic gel may therefore help farmworkers by limiting pesticide-induced toxicity and mortality.

}, issn = {2375-2548}, doi = {10.1126/sciadv.aau1780}, author = {Thorat, Ketan and Pandey, Subhashini and Chandrashekharappa, Sandeep and Vavilthota, Nikitha and Hiwale, Ankita A and Shah, Purna and Sreekumar, Sneha and Upadhyay, Shubhangi and Phuntsok, Tenzin and Mahato, Manohar and Mudnakudu-Nagaraju, Kiran K and Sunnapu, Omprakash and Vemula, Praveen K} } @article {891, title = {RagC phosphorylation autoregulates mTOR complex 1. [Drosophila Facility]}, journal = {EMBO J}, year = {2018}, month = {2018 Dec 14}, abstract = {

The mechanistic (or mammalian) target of rapamycin complex 1 (mTORC1) controls cell growth, proliferation, and metabolism in response to diverse stimuli. Two major parallel pathways are implicated in mTORC1 regulation including a growth factor-responsive pathway mediated via TSC2/Rheb and an amino acid-responsive pathway mediated via the Rag GTPases. Here, we identify and characterize three highly conserved growth factor-responsive phosphorylation sites on RagC, a component of the Rag heterodimer, implicating cross talk between amino acid and growth factor-mediated regulation of mTORC1. We find that RagC phosphorylation is associated with destabilization of mTORC1 and is essential for both growth factor and amino acid-induced mTORC1 activation. Functionally, RagC phosphorylation suppresses starvation-induced autophagy, and genetic studies in reveal that RagC phosphorylation plays an essential role in regulation of cell growth. Finally, we identify mTORC1 as the upstream kinase of RagC on S21. Our data highlight the importance of RagC phosphorylation in its function and identify a previously unappreciated auto-regulatory mechanism of mTORC1 activity.

}, issn = {1460-2075}, doi = {10.15252/embj.201899548}, author = {Yang, Guang and Humphrey, Sean J and Murashige, Danielle S and Francis, Deanne and Wang, Qiao-Ping and Cooke, Kristen C and Neely, Greg and James, David E} } @article {889, title = {A strategy to identify a ketoreductase that preferentially synthesizes pharmaceutically relevant (S)-alcohols using whole-cell biotransformation [Bugworks Res. Pvt. Ltd., a C-CAMP Startup]}, journal = {Microb Cell Fact}, volume = {17}, year = {2018}, month = {2018 Dec 03}, pages = {192}, abstract = {

INTRODUCTION: Chemical industries are constantly in search of an expeditious and environmentally benign method for producing chiral synthons. Ketoreductases have been used as catalysts for enantioselective conversion of desired prochiral ketones to their corresponding alcohol. We chose reported promiscuous ketoreductases belonging to different protein families and expressed them in E.\ coli to evaluate their ability as whole-cell catalysts for obtaining chiral alcohol intermediates of pharmaceutical importance. Apart from establishing a method to produce high value (S)-specific alcohols that have not been evaluated before, we propose an in silico analysis procedure\ to predict product chirality.

RESULTS: Six enzymes originating from Sulfolobus\ sulfotaricus, Zygosaccharomyces\ rouxii, Hansenula\ polymorpha, Corynebacterium sp. ST-10, Synechococcus sp. PCC\ 7942 and Bacillus sp. ECU0013 with reported efficient activity for dissimilar substrates are compared here to arrive at an optimal enzyme for the method. Whole-cell catalysis of ketone intermediates for drugs like Aprepitant, Sitagliptin and Dolastatin using E.\ coli over-expressing these enzymes yielded (S)-specific chiral alcohols. We explain this chiral specificity for the best-performing enzyme, i.e., Z.\ rouxii ketoreductase using in silico modelling and MD simulations. This rationale was applied to five additional ketones that are used in the synthesis of Crizotinib, MA-20565\ (an antifungal agent), Sulopenem, Rivastigmine, Talampanel and Barnidipine and predicted the yield of (S) enantiomers. Experimental evaluation matched the in silico analysis wherein ~ 95\% (S)-specific alcohol with a chemical yield of 23-79\% was obtained through biotransformation. Further, the cofactor re-cycling was optimized by switching the carbon source from glucose to sorbitol that improved the chemical yield to 85-99\%.

CONCLUSIONS: Here, we present a strategy to synthesize pharmaceutically relevant chiral alcohols by ketoreductases using a cofactor balanced whole-cell catalysis scheme that is useful for the industry. Based on the results obtained in these trials, Zygosaccharomyces\ rouxii ketoreductase was identified as a proficient enzyme to obtain (S)-specific alcohols from their respective ketones. The whole-cell catalyst when combined with nutrient modulation of using sorbitol as a carbon source helped obtain high enantiomeric and chemical yield.

}, issn = {1475-2859}, doi = {10.1186/s12934-018-1036-2}, author = {Haq, Saiful F and Shanbhag, Anirudh P and Karthikeyan, Subbulakshmi and Hassan, Imran and Thanukrishnan, Kannan and Ashok, Abhishek and Sukumaran, Sunilkumar and Ramaswamy, S and Bharatham, Nagakumar and Datta, Santanu and Samant, Shalaka and Katagihallimath, Nainesh} } @article {737, title = {Lipid metabolic perturbation is an early-onset phenotype in adultmutants: amodel for lysosomal storage disorders. [Mass Spectrometry - Lipidomics]}, journal = {Mol Biol Cell}, volume = {28}, year = {2017}, month = {2017 Dec 15}, pages = {3728-3740}, abstract = {

Intracellular accumulation of lipids and swollen dysfunctional lysosomes are linked to several neurodegenerative diseases, including lysosomal storage disorders (LSD). Detailed characterization of lipid metabolic changes in relation to the onset and progression of neurodegeneration is currently missing. We systematically analyzed lipid perturbations inmutants, amodel of LSD-like neurodegeneration. Our results highlight an imbalance in brain ceramide and sphingosine in the early stages of neurodegeneration, preceding the accumulation of endomembranous structures, manifestation of altered behavior, and buildup of lipofuscin. Manipulating levels ofand altering these lipids inmutants allowed us to conclude that ceramide homeostasis is the driving force in disease progression and is integral tofunction in the adult nervous system. We identified 29 novel physical interaction partners of Spin and focused on the lipid carrier protein, Lipophorin (Lpp). A subset of Lpp and Spin colocalize in the brain and within organs specialized for lipid metabolism (fat bodies and oenocytes). Reduced Lpp protein was observed inmutant tissues. Finally, increased levels of lipid metabolites produced by oenocytes inmutants allude to a functional interaction between Spin and Lpp, underscoring the systemic nature of lipid perturbation in LSD.

}, keywords = {Animals, Carrier Proteins, Disease Models, Animal, Drosophila, Drosophila Proteins, Lipid Metabolism, Lipids, Lipoproteins, Lysosomal Storage Diseases, Lysosomes, Membrane Proteins, Mutation, Nervous System, Neurodegenerative Diseases, Phenotype}, issn = {1939-4586}, doi = {10.1091/mbc.E16-09-0674}, author = {Hebbar, Sarita and Khandelwal, Avinash and Jayashree, R and Hindle, Samantha J and Chiang, Yin Ning and Yew, Joanne Y and Sweeney, Sean T and Schwudke, Dominik} } @article {498, title = {Genome sequencing of herb Tulsi (Ocimum tenuiflorum) unravels key genes behind its strong medicinal properties.[Mass spectrometry - Metabolomics]}, journal = {BMC Plant Biol}, volume = {15}, year = {2015}, month = {2015 Aug 28}, pages = {212}, abstract = {

BACKGROUND: Krishna Tulsi, a member of Lamiaceae family, is a herb well known for its spiritual, religious and medicinal importance in India. The common name of this plant is {\textquoteright}Tulsi{\textquoteright} (or {\textquoteright}Tulasi{\textquoteright} or {\textquoteright}Thulasi{\textquoteright}) and is considered sacred by Hindus. We present the draft genome of Ocimum tenuiflurum L (subtype Krishna Tulsi) in this report. The paired-end and mate-pair sequence libraries were generated for the whole genome sequenced with the Illumina Hiseq 1000, resulting in an assembled genome of 374\ Mb, with a genome coverage of 61\ \% (612\ Mb estimated genome size). We have also studied transcriptomes (RNA-Seq) of two subtypes of O. tenuiflorum, Krishna and Rama Tulsi and report the relative expression of genes in both the varieties.

RESULTS: The pathways leading to the production of medicinally-important specialized metabolites have been studied in detail, in relation to similar pathways in Arabidopsis thaliana and other plants. Expression levels of anthocyanin biosynthesis-related genes in leaf samples of Krishna Tulsi were observed to be relatively high, explaining the purple colouration of Krishna Tulsi leaves. The expression of six important genes identified from genome data were validated by performing q-RT-PCR in different tissues of five different species, which shows the high extent of urosolic acid-producing genes in young leaves of the Rama subtype. In addition, the presence of eugenol and ursolic acid, implied as potential drugs in the cure of many diseases including cancer was confirmed using mass spectrometry.

CONCLUSIONS: The availability of the whole genome of O.tenuiflorum and our sequence analysis suggests that small amino acid changes at the functional sites of genes involved in metabolite synthesis pathways confer special medicinal properties to this herb.

}, keywords = {Gene Expression Regulation, Plant, Genome, Plant, India, Ocimum, Plant Leaves, Plants, Medicinal}, issn = {1471-2229}, doi = {10.1186/s12870-015-0562-x}, author = {Upadhyay, Atul K and Chacko, Anita R and Gandhimathi, A and Ghosh, Pritha and Harini, K and Joseph, Agnel P and Joshi, Adwait G and Karpe, Snehal D and Kaushik, Swati and Kuravadi, Nagesh and Lingu, Chandana S and Mahita, J and Malarini, Ramya and Malhotra, Sony and Malini, Manoharan and Mathew, Oommen K and Mutt, Eshita and Naika, Mahantesha and Nitish, Sathyanarayanan and Pasha, Shaik Naseer and Raghavender, Upadhyayula S and Rajamani, Anantharamanan and Shilpa, S and Shingate, Prashant N and Singh, Heikham Russiachand and Sukhwal, Anshul and Sunitha, Margaret S and Sumathi, Manojkumar and Ramaswamy, S and Gowda, Malali and Sowdhamini, Ramanathan} } @article {520, title = {Isolation of Exosomes from Blood Plasma: Qualitative and Quantitative Comparison of Ultracentrifugation and Size Exclusion Chromatography Methods. (Mass spectrometry - Proteomics)}, journal = {PLoS One}, volume = {10}, year = {2015}, month = {2015}, pages = {e0145686}, abstract = {

BACKGROUND: Exosomes are emerging targets for biomedical research. However, suitable methods for the isolation of blood plasma-derived exosomes without impurities have not yet been described.

AIM: Therefore, we investigated the efficiency and purity of exosomes isolated with potentially suitable methods; differential ultracentrifugation (UC) and size exclusion chromatography (SEC).

METHODS AND RESULTS: Exosomes were isolated from rat and human blood plasma by various UC and SEC conditions. Efficiency was investigated at serial UC of the supernatant, while in case of SEC by comparing the content of exosomal markers of various fractions. Purity was assessed based on the presence of albumin. We found that the diameter of the majority of isolated particles fell into the size range of exosomes, however, albumin was also present in the preparations, when 1h UC at 4{\textdegree}C was applied. Furthermore, with this method only a minor fraction of total exosomes could be isolated from blood as deduced from the constant amount of exosomal markers CD63 and TSG101 detected after serial UC of rat blood plasma samples. By using UC for longer time or with shorter sedimentation distance at 4{\textdegree}C, or UC performed at 37{\textdegree}C, exosomal yield increased, but albumin impurity was still observed in the isolates, as assessed by transmission electron microscopy, dynamic light scattering and immunoblotting against CD63, TSG101 and albumin. Efficiency and purity were not different in case of using further diluted samples. By using SEC with different columns, we have found that although a minor fraction of exosomes can be isolated without significant albumin content on Sepharose CL-4B or Sephacryl S-400 columns, but not on Sepharose 2B columns, the majority of exosomes co-eluted with albumin.

CONCLUSION: Here we show that it is feasible to isolate exosomes from blood plasma by SEC without significant albumin contamination albeit with low vesicle yield.

}, keywords = {Animals, Chromatography, Gel, Exosomes, Male, Plasma, Rats, Wistar, Ultracentrifugation}, issn = {1932-6203}, doi = {10.1371/journal.pone.0145686}, author = {Baranyai, Tam{\'a}s and Herczeg, Kata and On{\'o}di, Zs{\'o}fia and Voszka, Istv{\'a}n and M{\'o}dos, K{\'a}roly and Marton, Nikolett and Nagy, Gy{\"o}rgy and M{\"a}ger, Imre and Wood, Matthew J and El Andaloussi, Samir and P{\'a}link{\'a}s, Zolt{\'a}n and Kumar, Vikas and Nagy, P{\'e}ter and Kittel, {\'A}gnes and Buz{\'a}s, Edit Ir{\'e}n and Ferdinandy, P{\'e}ter and Giricz, Zolt{\'a}n} } @article {500, title = {Nickel azamacrocyclic complex activated persulphate based oxidative degradation of methyl orange: recovery and reuse of complex using adsorbents [Mass spectrometry - Metabolomics]}, journal = {RSC Adv.}, volume = {5}, year = {2015}, pages = {31716-31724}, abstract = {

Adsorbents are useful for the removal of metal complex based catalysts from the reaction medium. Moreover{,} effective catalysts may be recycled with the use of adsorbents. These facts inspired us to investigate the use of adsorbents for the recovery and reuse of a metal complex that could activate persulphate to effectively degrade an organic pollutant in water. Herein{,} we report the nickel complex (C1) activated persulphate based degradation of methyl orange (MO) in water and the removal of C1 using activated carbon (AC) and Amberlite (Am) as adsorbents. C1 adsorbed onto AC (C1-AC) was reused in the solid form to activate persulphate and degrade MO without leaching C1 into water. Additionally{,} solid C1-Am recovered from the degraded MO solution was ion exchanged using sodium chloride to obtain C1{,} which was reused for MO degradation. The study demonstrates the application of adsorbents such as AC and Am for the adsorptive recovery and reuse of a metal complex based persulphate activator.

}, doi = {10.1039/C5RA03350K}, url = {http://dx.doi.org/10.1039/C5RA03350K}, author = {Subramanian, Gokulakrishnan and Nalawade, Pranav and Hinder, Steven J. and Pillai, Suresh C. and Prakash, Halan} } @article {535, title = {Unique, polyfucosylated glycan-receptor interactions are essential for regeneration of Hydra magnipapillata.}, journal = {ACS Chem Biol}, volume = {9}, year = {2014}, month = {2014 Jan 17}, pages = {147-55}, abstract = {

Cell-cell communications, cell-matrix interactions, and cell migrations play a major role in regeneration. However, little is known about the molecular players involved in these critical events, especially cell surface molecules. Here, we demonstrate the role of specific glycan-receptor interactions in the regenerative process using Hydra magnipapillata as a model system. Global characterization of the N- and O-glycans expressed by H. magnipapillata using ultrasensitive mass spectrometry revealed mainly polyfucosylated LacdiNAc antennary structures. Affinity purification showed that a putative C-type lectin (accession number Q6SIX6) is a likely endogenous receptor for the novel polyfucosylated glycans. Disruption of glycan-receptor interactions led to complete shutdown of the regeneration machinery in live Hydra. A time-dependent, lack-of-regeneration phenotype observed upon incubation with exogenous fuco-lectins suggests the involvement of a polyfucose receptor-mediated signaling mechanism during regeneration. Thus, for the first time, the results presented here provide direct evidence for the role of polyfucosylated glycan-receptor interactions in the regeneration of H. magnipapillata.

}, keywords = {Animals, Carbohydrate Sequence, Hydra, Lectins, C-Type, Molecular Sequence Data, Polysaccharides, Regeneration}, issn = {1554-8937}, doi = {10.1021/cb400486t}, author = {Sahadevan, Sonu and Antonopoulos, Aristotelis and Haslam, Stuart M and Dell, Anne and Ramaswamy, Subramanian and Babu, Ponnusamy} } @article {477, title = {A genetic RNAi screen for IP$_{3}$/Ca{\texttwosuperior}$^{+}$ coupled GPCRs in Drosophila identifies the PdfR as a regulator of insect flight. [Drosophila facility]}, journal = {PLoS Genet}, volume = {9}, year = {2013}, month = {2013}, pages = {e1003849}, abstract = {

Insect flight is regulated by various sensory inputs and neuromodulatory circuits which function in synchrony to control and fine-tune the final behavioral outcome. The cellular and molecular bases of flight neuromodulatory circuits are not well defined. In Drosophila melanogaster, it is known that neuronal IP3 receptor mediated Ca{\texttwosuperior}$^{+}$ signaling and store-operated Ca{\texttwosuperior}$^{+}$ entry (SOCE) are required for air-puff stimulated adult flight. However, G-protein coupled receptors (GPCRs) that activate intracellular Ca{\texttwosuperior}$^{+}$ signaling in the context of flight are unknown in Drosophila. We performed a genetic RNAi screen to identify GPCRs that regulate flight by activating the IPIP$_{3}$ receptor. Among the 108 GPCRs screened, we discovered 5 IPIP$_{3}$/Ca{\texttwosuperior}$^{+}$ linked GPCRs that are necessary for maintenance of air-puff stimulated flight. Analysis of their temporal requirement established that while some GPCRs are required only during flight circuit development, others are required both in pupal development as well as during adult flight. Interestingly, our study identified the Pigment Dispersing Factor Receptor (PdfR) as a regulator of flight circuit development and as a modulator of acute flight. From the analysis of PdfR expressing neurons relevant for flight and its well-defined roles in other behavioral paradigms, we propose that PdfR signaling functions systemically to integrate multiple sensory inputs and modulate downstream motor behavior.

}, keywords = {Adult, Animals, Calcium Signaling, Drosophila melanogaster, Drosophila Proteins, Flight, Animal, Humans, Inositol 1,4,5-Trisphosphate Receptors, Neurons, Receptors, G-Protein-Coupled, RNA Interference, Signal Transduction}, issn = {1553-7404}, doi = {10.1371/journal.pgen.1003849}, author = {Agrawal, Tarjani and Sadaf, Sufia and Hasan, Gaiti} } @article {537, title = {Redox proteomics of thiol proteins in mouse heart during ischemia/reperfusion using ICAT reagents and mass spectrometry.}, journal = {Free Radic Biol Med}, volume = {58}, year = {2013}, month = {2013 May}, pages = {109-17}, abstract = {

There is strong evidence for the involvement of reactive oxygen species in ischemia/reperfusion injury. Although oxidation of individual thiol proteins has been reported, more extensive redox proteomics of hearts subjected to ischemia/reperfusion has not been performed. We have carried out an exploratory study using mass spectrometry with isotope-coded affinity tags (ICAT) aimed at identifying reversible oxidative changes to protein thiols in Langendorff perfused isolated mouse hearts subjected to 20 min ischemia with or without aerobic reperfusion for 5 or 30 min. Reduced thiols were blocked by adding N-ethylmaleimide during protein extraction, then reversibly oxidized thiols in extracts of control perfused and treated hearts were reduced and labeled with the light and heavy ICAT reagents, respectively. Protein extracts were mixed in equal amounts and relative proportions of the isotope-labeled peaks were used to quantify oxidative changes between the control and the treated groups. Approximately 300 peptides with ICAT signatures were reliably identified in each sample, with 181 peptides from 118 proteins common to all treatments. A proportion showed elevated ICAT ratios, consistent with reversible thiol oxidation. This was most evident after early reperfusion, with apparent reversal after longer reperfusion. In comparison, there was gradual accumulation of protein carbonyls and loss of GSH with longer reperfusion. Many of the thiol changes were in mitochondrial proteins, including components of electron transport complexes and enzymes involved in lipid metabolism. The results are consistent with mitochondria being a major site of oxidant generation during early cardiac reperfusion and mitochondrial thiol proteins being targets for oxidation.

}, keywords = {Animals, Isotope Labeling, Mass Spectrometry, Mice, Mitochondrial Proteins, Myocardium, Oxidation-Reduction, Proteomics, Reactive Oxygen Species, Reperfusion Injury, Sulfhydryl Compounds}, issn = {1873-4596}, doi = {10.1016/j.freeradbiomed.2013.01.021}, author = {Kumar, Vikas and Kleffmann, Torsten and Hampton, Mark B and Cannell, Mark B and Winterbourn, Christine C} } @article {478, title = {Functional implementation of Drosophila itpr mutants by rat Itpr1. [Drosophila facility]}, journal = {J Neurogenet}, volume = {26}, year = {2012}, month = {2012 Sep}, pages = {328-37}, abstract = {

The Drosophila inositol 1,4,5-trisphosphate receptor (IP(3)R) and mammalian type-1 IP(3)Rs have 57-60\% sequence similarity and share major domain homology with each other. Mutants in the single Drosophila IP(3)R gene, itpr, and Itpr1 knockout mice both exhibit lethality and defects in motor coordination. Here the authors show that the rat type-1 IP(3)R, which is the major neuronal isoform, when expressed in the pan-neuronal domain in Drosophila, functionally complements Drosophila IP(3)R function at cellular and systemic levels. It rescues the established neuronal phenotypes of itpr mutants in Drosophila, including wing posture, flight, electrophysiological correlates of flight maintenance, and intracellular calcium dynamics. This is the first in vivo demonstration of functional homology between a mammalian and fly IP(3)R. This study also paves the way for cellular and molecular analyses of the spinocerebellar ataxias in Drosophila, since SCA15/16 is known to be caused by heterozygosity of human ITPR1.

}, keywords = {Animals, Animals, Genetically Modified, Calcium, Cells, Cultured, Cytosol, Drosophila, Drosophila Proteins, Flight, Animal, Gene Expression Regulation, Genetic Therapy, Inositol 1,4,5-Trisphosphate Receptors, Larva, Movement Disorders, Mutation, Neurons, Physical Stimulation, Rats, Transcription Factors, Wings, Animal}, issn = {1563-5260}, doi = {10.3109/01677063.2012.697501}, author = {Chakraborty, Sumita and Hasan, Gaiti} } @article {712, title = {An inhibitor of nonhomologous end-joining abrogates double-strand break repair and impedes cancer progression.}, journal = {Cell}, volume = {151}, year = {2012}, month = {2012 Dec 21}, pages = {1474-87}, abstract = {

DNA Ligase IV is responsible for sealing of double-strand breaks (DSBs) during nonhomologous end-joining (NHEJ). Inhibiting Ligase IV could result in amassing of DSBs, thereby serving as a strategy toward treatment of cancer. Here, we identify a molecule, SCR7 that inhibits joining of DSBs in cell-free repair system. SCR7 blocks Ligase IV-mediated joining by interfering with its DNA binding but not that of T4 DNA Ligase or Ligase I. SCR7 inhibits NHEJ in a Ligase IV-dependent manner within cells,\ and activates the intrinsic apoptotic pathway. More importantly, SCR7 impedes tumor progression in mouse models and when coadministered with DSB-inducing therapeutic modalities enhances their sensitivity significantly. This inhibitor to target NHEJ offers a strategy toward the treatment of cancer and improvement of existing regimens.

}, keywords = {Amino Acid Sequence, Animals, Cell Line, Tumor, Disease Models, Animal, DNA Breaks, Double-Stranded, DNA End-Joining Repair, DNA Ligase ATP, DNA Ligases, Drug Design, Drug Resistance, Neoplasm, Humans, Lymphocytes, Lymphoma, Male, Mice, Mice, Inbred BALB C, Mice, Nude, Models, Molecular, Molecular Sequence Data, Neoplasms, Protein Structure, Tertiary, Pyrimidines, Radiation Tolerance, Rats, Schiff Bases, Sequence Alignment}, issn = {1097-4172}, doi = {10.1016/j.cell.2012.11.054}, author = {Srivastava, Mrinal and Nambiar, Mridula and Sharma, Sheetal and Karki, Subhas S and Goldsmith, G and Hegde, Mahesh and Kumar, Sujeet and Pandey, Monica and Singh, Ram K and Ray, Pritha and Natarajan, Renuka and Kelkar, Madhura and De, Abhijit and Choudhary, Bibha and Raghavan, Sathees C} } @article {479, title = {Interaction with a kinesin-2 tail propels choline acetyltransferase flow towards synapse. [Drosophila facility]}, journal = {Traffic}, volume = {13}, year = {2012}, month = {2012 Jul}, pages = {979-91}, abstract = {

Bulk flow constitutes a substantial part of the slow transport of soluble proteins in axons. Though the underlying mechanism is unclear, evidences indicate that intermittent, kinesin-based movement of large protein-aggregates aids this process. Choline acetyltransferase (ChAT), a soluble enzyme catalyzing acetylcholine synthesis, propagates toward the synapse at an intermediate, slow rate. The presynaptic enrichment of ChAT requires heterotrimeric kinesin-2, comprising KLP64D, KLP68D and DmKAP, in Drosophila. Here, we show that the bulk flow of a recombinant Green Fluorescent Protein-tagged ChAT (GFP::ChAT), in Drosophila axons, lacks particulate features. It occurs for a brief period during the larval stages. In addition, both the endogenous ChAT and GFP::ChAT directly bind to the KLP64D tail, which is essential for the GFP::ChAT entry and anterograde flow in axon. These evidences suggest that a direct interaction with motor proteins could regulate the bulk flow of soluble proteins, and thus establish their asymmetric distribution.

}, keywords = {Animals, Animals, Genetically Modified, Axonal Transport, Carrier Proteins, Choline O-Acetyltransferase, Cholinergic Neurons, Drosophila, Drosophila Proteins, Fluorescence Recovery After Photobleaching, Kinesin, Larva, Microtubule-Associated Proteins, Protein Interaction Domains and Motifs, Synapses}, issn = {1600-0854}, doi = {10.1111/j.1600-0854.2012.01361.x}, author = {Sadananda, Aparna and Hamid, Runa and Doodhi, Harinath and Ghosal, Debnath and Girotra, Mukul and Jana, Swadhin Chandra and Ray, Krishanu} } @article {721, title = {Synaptic activity in serotonergic neurons is required for air-puff stimulated flight in Drosophila melanogaster.}, journal = {PLoS One}, volume = {7}, year = {2012}, month = {2012}, pages = {e46405}, abstract = {

BACKGROUND: Flight is an integral component of many complex behavioral patterns in insects. The giant fiber circuit has been well studied in several insects including Drosophila. However, components of the insect flight circuit that respond to an air-puff stimulus and comprise the flight central pattern generator are poorly defined. Aminergic neurons have been implicated in locust, moth and Drosophila flight. Here we have investigated the requirement of neuronal activity in serotonergic neurons, during development and in adults, on air-puff induced flight in Drosophila.

METHODOLOGY/PRINCIPAL FINDINGS: To target serotonergic neurons specifically, a Drosophila strain that contains regulatory regions from the TRH (Tryptophan Hydroxylase) gene linked to the yeast transcription factor GAL4 was used. By blocking synaptic transmission from serotonergic neurons with a tetanus toxin transgene or by hyperpolarisation with Kir2.1, close to 50\% adults became flightless. Temporal expression of a temperature sensitive Dynamin mutant transgene (Shi(ts)) suggests that synaptic function in serotonergic neurons is required both during development and in adults. Depletion of IP(3)R in serotonergic neurons via RNAi did not affect flight. Interestingly, at all stages a partial requirement for synaptic activity in serotonergic neurons was observed. The status of serotonergic neurons was investigated in the central nervous system of larvae and adults expressing tetanus toxin. A small but significant reduction was observed in serotonergic cell number in adult second thoracic segments from flightless tetanus toxin expressing animals.

CONCLUSIONS: These studies show that loss of synaptic activity in serotonergic neurons causes a flight deficit. The temporal focus of the flight deficit is during pupal development and in adults. The cause of the flight deficit is likely to be loss of neurons and reduced synaptic function. Based on the partial phenotypes, serotonergic neurons appear to be modulatory, rather than an intrinsic part of the flight circuit.

}, keywords = {Animals, Cell Count, Central Nervous System, DNA-Binding Proteins, Drosophila melanogaster, Drosophila Proteins, Dynamins, Flight, Animal, Gene Expression Regulation, Developmental, Larva, Potassium Channels, Inwardly Rectifying, Pupa, Saccharomyces cerevisiae Proteins, Serotonergic Neurons, Synaptic Transmission, Tetanus Toxin, Transcription Factors, Transgenes, Tryptophan Hydroxylase}, issn = {1932-6203}, doi = {10.1371/journal.pone.0046405}, author = {Sadaf, Sufia and Birman, Serge and Hasan, Gaiti} } @article {483, title = {Inositol 1,4,5-trisphosphate receptor and dSTIM function in Drosophila insulin-producing neurons regulates systemic intracellular calcium homeostasis and flight. [Drosophila facility]}, journal = {J Neurosci}, volume = {30}, year = {2010}, month = {2010 Jan 27}, pages = {1301-13}, abstract = {

Calcium (Ca(2+)) signaling is known to regulate the development, maintenance and modulation of activity in neuronal circuits that underlie organismal behavior. In Drosophila, intracellular Ca(2+) signaling by the inositol 1,4,5-trisphosphate receptor and the store-operated channel (dOrai) regulates the formation and function of neuronal circuits that control flight. Here, we show that restoring InsP(3)R activity in insulin-producing neurons of flightless InsP(3)R mutants (itpr) during pupal development can rescue systemic flight ability. Expression of the store operated Ca(2+) entry (SOCE) regulator dSTIM in insulin-producing neurons also suppresses compromised flight ability of InsP(3)R mutants suggesting that SOCE can compensate for impaired InsP(3)R function. Despite restricted expression of wild-type InsP(3)R and dSTIM in insulin-producing neurons, a global restoration of SOCE and store Ca(2+) is observed in primary neuronal cultures from the itpr mutant. These results suggest that restoring InsP(3)R-mediated Ca(2+) release and SOCE in a limited subset of neuromodulatory cells can influence systemic behaviors such as flight by regulating intracellular Ca(2+) homeostasis in a large population of neurons through a non-cell-autonomous mechanism.

}, keywords = {Animals, Calcium, Calcium Signaling, Cell Membrane, Cells, Cultured, Central Nervous System, Drosophila, Drosophila Proteins, Flight, Animal, Homeostasis, Inositol 1,4,5-Trisphosphate Receptors, Insulin, Intracellular Fluid, Membrane Proteins, Mutation, Neural Pathways, Neurons, Pupa, Stromal Interaction Molecule 1}, issn = {1529-2401}, doi = {10.1523/JNEUROSCI.3668-09.2010}, author = {Agrawal, Neha and Venkiteswaran, Gayatri and Sadaf, Sufia and Padmanabhan, Nisha and Banerjee, Santanu and Hasan, Gaiti} }