Your search keyword '"Sinha, Sunita"' showing total 135 results

1. Microbial dysbiosis and the host airway epithelial response: insights into HIV-associated COPD using multi’omics profiling

Author

Jude, Marcia Smiti, Yang, Chen Xi, Filho, Fernando Studart Leitao, Hernandez Cordero, Ana I., Yang, Julia, Shaipanich, Tawimas, Li, Xuan, Lin, David, MacIsaac, Julie, Kobor, Michael S., Sinha, Sunita, Nislow, Corey, Singh, Amrit, Lam, Wan, Lam, Stephen, Guillemi, Silvia, Harris, Marianne, Montaner, Julio, Ng, Raymond T., Carlsten, Christopher, Paul Man, S. F., Sin, Don D., and Leung, Janice M.

Published

2023

2. Seven Years at High Salinity-Experimental Evolution of the Extremely Halotolerant Black Yeast Hortaea werneckii.

Author

Gostinčar, Cene, Stajich, Jason E, Kejžar, Anja, Sinha, Sunita, Nislow, Corey, Lenassi, Metka, and Gunde-Cimerman, Nina

Subjects

aneuploidy, experimental evolution, fungi, halotolerance, high salinity, Genetics

Abstract

The experimental evolution of microorganisms exposed to extreme conditions can provide insight into cellular adaptation to stress. Typically, stress-sensitive species are exposed to stress over many generations and then examined for improvements in their stress tolerance. In contrast, when starting with an already stress-tolerant progenitor there may be less room for further improvement, it may still be able to tweak its cellular machinery to increase extremotolerance, perhaps at the cost of poorer performance under non-extreme conditions. To investigate these possibilities, a strain of extremely halotolerant black yeast Hortaea werneckii was grown for over seven years through at least 800 generations in a medium containing 4.3 M NaCl. Although this salinity is well above the optimum (0.8-1.7 M) for the species, the growth rate of the evolved H. werneckii did not change in the absence of salt or at high concentrations of NaCl, KCl, sorbitol, or glycerol. Other phenotypic traits did change during the course of the experimental evolution, including fewer multicellular chains in the evolved strains, significantly narrower cells, increased resistance to caspofungin, and altered melanisation. Whole-genome sequencing revealed the occurrence of multiple aneuploidies during the experimental evolution of the otherwise diploid H. werneckii. A significant overrepresentation of several gene groups was observed in aneuploid regions. Taken together, these changes suggest that long-term growth at extreme salinity led to alterations in cell wall and morphology, signalling pathways, and the pentose phosphate cycle. Although there is currently limited evidence for the adaptive value of these changes, they offer promising starting points for future studies of fungal halotolerance.

Published

2021

3. A genome-wide CRISPR screen maps endogenous regulators of PPARG gene expression in bladder cancer

Author

Tortora, Davide, Roberts, Morgan E., Kumar, Gunjan, Kotapalli, Sudha S., Ritch, Elie, Scurll, Joshua M., McConeghy, Brian, Sinha, Sunita, Wyatt, Alexander W., Black, Peter C., and Daugaard, Mads

Published

2023

4. Beta-cell specific Insr deletion promotes insulin hypersecretion and improves glucose tolerance prior to global insulin resistance

Author

Skovsø, Søs, Panzhinskiy, Evgeniy, Kolic, Jelena, Cen, Haoning Howard, Dionne, Derek A., Dai, Xiao-Qing, Sharma, Rohit B., Elghazi, Lynda, Ellis, Cara E., Faulkner, Katharine, Marcil, Stephanie A. M., Overby, Peter, Noursadeghi, Nilou, Hutchinson, Daria, Hu, Xiaoke, Li, Hong, Modi, Honey, Wildi, Jennifer S., Botezelli, J. Diego, Noh, Hye Lim, Suk, Sujin, Gablaski, Brian, Bautista, Austin, Kim, Ryekjang, Cras-Méneur, Corentin, Flibotte, Stephane, Sinha, Sunita, Luciani, Dan S., Nislow, Corey, Rideout, Elizabeth J., Cytrynbaum, Eric N., Kim, Jason K., Bernal-Mizrachi, Ernesto, Alonso, Laura C., MacDonald, Patrick E., and Johnson, James D.

Published

2022

5. Insight into the Recent Genome Duplication of the Halophilic Yeast Hortaea werneckii: Combining an Improved Genome with Gene Expression and Chromatin Structure.

Author

Sinha, Sunita, Flibotte, Stephane, Neira, Mauricio, Formby, Sean, Plemenitaš, Ana, Cimerman, Nina Gunde, Lenassi, Metka, Gostinčar, Cene, Stajich, Jason E, and Nislow, Corey

Subjects

Chromatin, Ascomycota, Gene Expression Regulation, Fungal, Gene Duplication, Genome, Fungal, Genome Report, extremophilic yeast, gene duplication, halophile, salt tolerance, Gene Expression Regulation, Fungal, Genome, Genetics

Abstract

Extremophilic organisms demonstrate the flexibility and adaptability of basic biological processes by highlighting how cell physiology adapts to environmental extremes. Few eukaryotic extremophiles have been well studied and only a small number are amenable to laboratory cultivation and manipulation. A detailed characterization of the genome architecture of such organisms is important to illuminate how they adapt to environmental stresses. One excellent example of a fungal extremophile is the halophile Hortaea werneckii (Pezizomycotina, Dothideomycetes, Capnodiales), a yeast-like fungus able to thrive at near-saturating concentrations of sodium chloride and which is also tolerant to both UV irradiation and desiccation. Given its unique lifestyle and its remarkably recent whole genome duplication, H. werneckii provides opportunities for testing the role of genome duplications and adaptability to extreme environments. We previously assembled the genome of H. werneckii using short-read sequencing technology and found a remarkable degree of gene duplication. Technology limitations, however, precluded high-confidence annotation of the entire genome. We therefore revisited the H. wernickii genome using long-read, single-molecule sequencing and provide an improved genome assembly which, combined with transcriptome and nucleosome analysis, provides a useful resource for fungal halophile genomics. Remarkably, the ∼50 Mb H. wernickii genome contains 15,974 genes of which 95% (7608) are duplicates formed by a recent whole genome duplication (WGD), with an average of 5% protein sequence divergence between them. We found that the WGD is extraordinarily recent, and compared to Saccharomyces cerevisiae, the majority of the genome's ohnologs have not diverged at the level of gene expression of chromatin structure.

Published

2017

6. Correction to: Characterization of the gut microbiome in a porcine model of thoracic spinal cord injury

Author

Doelman, Adam, Tigchelaar, Seth, McConeghy, Brian, Sinha, Sunita, Keung, Martin S., Manouchehri, Neda, Webster, Megan, Fisk, Shera, Morrison, Charlotte, Streijger, Femke, Nislow, Corey, and Kwon, Brian K.

Published

2021

7. Characterization of the gut microbiome in a porcine model of thoracic spinal cord injury

Author

Doelman, Adam, Tigchelaar, Seth, McConeghy, Brian, Sinha, Sunita, Keung, Martin S., Manouchehri, Neda, Webster, Megan, Fisk, Shera, Morrison, Charlotte, Streijger, Femke, Nislow, Corey, and Kwon, Brian K.

Published

2021

8. Design of a Smart Pressure Transmitter and Its Temperature Compensation Using Artificial Neural Network

Author

Sinha, Sunita and Mandal, Nirupama

Published

2019

9. Lysophosphatidic acid-RAGE axis promotes lung and mammary oncogenesis via protein kinase B and regulating tumor microenvironment

Author

Ray, Rashmi, Jangde, Nitish, Singh, Satyendra Kumar, Sinha, Sunita, and Rai, Vivek

Published

2020

10. MYH9 suppresses melanoma tumorigenesis, metastasis and regulates tumor microenvironment

Author

Singh, Satyendra Kumar, Sinha, Sunita, Padhan, Jyotirmayee, Jangde, Nitish, Ray, Rashmi, and Rai, Vivek

Published

2020

11. Reduced Insulin Production Relieves Endoplasmic Reticulum Stress and Induces β Cell Proliferation

Author

Szabat, Marta, Page, Melissa M., Panzhinskiy, Evgeniy, Skovsø, Søs, Mojibian, Majid, Fernandez-Tajes, Juan, Bruin, Jennifer E., Bround, Michael J., Lee, Jason T.C., Xu, Eric E., Taghizadeh, Farnaz, O’Dwyer, Shannon, van de Bunt, Martijn, Moon, Kyung-Mee, Sinha, Sunita, Han, Jun, Fan, Yong, Lynn, Francis C., Trucco, Massimo, Borchers, Christoph H., Foster, Leonard J., Nislow, Corey, Kieffer, Timothy J., and Johnson, James D.

Published

2016

12. Decreased microbiome diversity in the HIV small airway epithelium

Author

Xu, Stella, Tsai, Amy, Sze, Marc A., Vucic, Emily A., Shaipanich, Tawimas, Harris, Marianne, Guillemi, Silvia, Yang, Julia, Sinha, Sunita, Nislow, Corey, Montaner, Julio, Lam, Wan, Lam, Stephen, Sin, Don D., Paul Man, S. F., and Leung, Janice M.

Published

2018

13. Regulation of pga operon expression and biofilm formation in Actinobacillus pleuropneumoniae by [[sigma].sup.E] and H-NS

Author

Bosse, Janine T., Sinha, Sunita, Li, Ming-Shi, O'Dwyer, Cliona A., Nash, John H.E., Rycroft, Andrew N., Kroll, J. Simon, and Langford, Paul R.

Subjects

Actinobacillus -- Genetic aspects, Actinobacillus -- Physiological aspects, Operons -- Physiological aspects, Gene expression -- Physiological aspects, Genetic regulation -- Physiological aspects, Microbial mats -- Growth, Microbial mats -- Genetic aspects, Company growth, Biological sciences

Abstract

Clinical isolates of the porcine pathogen Actinobacillus pleuropneumoniae often form adherent colonies on agar plates due to expression of an operon, pgaABCD, encoding a poly-[beta]-1,6-N-acetyl-D-glucosamine (PGA) extracellular matrix. The adherent colony phenotype, which correlates with the ability to form biofilms on the surfaces of polystyrene plates, is lost following serial passage in broth culture, and repeated passage of the nonadherent variants on solid media does not result in reversion to the adherent colony phenotype. In order to investigate the regulation of PGA expression and biofilm formation in A. pleuropneumoniae, we screened a bank of transposon mutants of the nonadherent serovar 1 strain [S4074.sup.T] and identified mutations in two genes, rseA and hns, which resulted in the formation of the adherent colony phenotype. In other bacteria, including the Enterobacteriaceae, H-NS acts as a global gene regulator, and RseA is a negative regulator of the extracytoplasmic stress response sigma factor [[sigma].sup.E]. Transcription profiling of A. pleuropneumoniae rseA and hns mutants revealed that both [[sigma].sup.E] and H-NS independently regulate expression of the pga operon. Transcription of the pga operon is initiated from a [[sigma].sup.E] promoter site in the absence of H-NS, and upregulation of [[sigma].sup.E] is sufficient to displace H-NS, allowing transcription to proceed. In A. pleuropneumoniae, H-NS does not act as a global gene regulator but rather specifically regulates biofilm formation via repression of the pga operon. Positive regulation of the pga operon by [[sigma].sup.E] indicates that biofilm formation is part of the extracytoplasmic stress response in A. pleuropneumoniae. doi: 10.1128/JB.01513-09

Published

2010

14. A Neisseria meningitidis NMB1966 mutant is impaired for invasion of respiratory epithelial cells, survival in human blood and for virulence in vivo

Author

Li, Ming-Shi, Chow, Noel Y. S., Sinha, Sunita, Halliwell, Denise, Finney, Michelle, Gorringe, Andrew R., Watson, Mark W., Kroll, J. Simon, Langford, Paul R., and Webb, Steven A. R.

Published

2009

15. Sxy induces a CRP-S regulon in Escherichia coli

Author

Sinha, Sunita, Cameron, Andrew D.S., and Redfield, Rosemary J.

Subjects

Escherichia coli -- Genetic aspects, Bacterial genetics -- Research, Biological sciences

Abstract

Escherichia coli is not considered naturally competent, yet it has homologues of the genes that most competent bacteria use for DNA uptake and processing. In Haemophilus influenzae and Vibrio cholerae, these genes are regulated by the Sxy and cyclic AMP receptor (CRP) proteins. We used microarrays to find out whether similar regulation occurs in E. coli. Expression of sxy strongly induced 63 transcriptional units, 34 of which required CRP for transcriptional activation and had promoter sites resembling the Sxy. and CRPdependent CRP-S motif previously characterized in H. influenzae. As previously reported, sxy expression also induced the sigma-H regulon. Flagellar operons were downregulated by sxy expression, although motility remained unaffected. The CRP-S regulon included all of E. coli's known competence gene homologues, so we investigated Sxy's effect on competence-associated phenotypes. A sxy knockout reduced both 'natural' plasmid transformation and competitive fitness in long-term culture. In addition, expression of plasmid-borne sxy led to production of type IV pilin, the main subunit of the DNA uptake machinery of most bacteria. Although H. influenzae Sxy only weakly activated the E. coli Sxy regulon, induction was dramatically improved when it was coexpressed with its cognate CRP, suggesting that intimate interactions between Sxy and CRP are required for transcriptional activation at CRP-S sites.

Published

2009

16. Reduced DNA binding and uptake in the absence of DsbA1 and DsbA2 of Neisseria meningitidis due to inefficient folding of the outer-membrane secretin PilQ

Author

Sinha, Sunita, Ambur, Ole Herman, Langford, Paul R., Tonjum, Tone, and Kroll, J. Simon

Subjects

Protein folding -- Genetic aspects, Neisseria meningitidis -- Genetic aspects, Neisseria meningitidis -- Physiological aspects, DNA-ligand interactions -- Research, Gene expression -- Influence, Biological sciences

Abstract

DsbA ensures the correct folding of many exported bacterial proteins by forming intramolecular disulphide bonds in the bacterial periplasm. The pathogen Neisseria meningitidis is unusual in its possession of three different dsbA genes (dsbA 1, dsbA2 and dsbA3), encoding two membrane-anchored (DsbA1 and DsbA2) and one periplasmic (DsbA3) thiol-disulphide oxidoreductase enzymes. In this study, the involvement of DsbA1 and DsbA2 in natural competence was confirmed and attributed to events in the early stages of the transformation process. Strains lacking both DsbA1 and DsbA2 were reduced in competence as a result of decreased DNA binding and uptake. Overexpression of DsbA3 could not overcome this defect, suggesting differences in substrate specificity and protein-folding abilities between the DsbA homologues. Competence in Neisseria is dependent on the expression of type IV pili, which are extruded and retracted through the outer-membrane secretin PilQ. Both DsbA1 and DsbA2 were able to specifically bind PilQ in solid-phase overlay assays. Consistent with this, deletion of both dsbA 1 and dsbA2 resulted in reduced levels of PilQ, confirming inefficient folding of PilQ, while pilus expression was apparently unaffected. The secretin PilQ is involved in DNA binding and transport as well as pilus biogenesis, and the defect in PiIQ folding resulting from the absence of DsbA1 and DsbA2 is revealed in the observed decreased DNA binding and uptake.

Published

2008

17. Functional diversity of three different DsbA proteins from Neisseria meningitidis

Author

Sinha, Sunita, Langford, Paul R., and Kroll, J. Simon

Subjects

Proteins -- Research, Biological sciences

Abstract

The genome of Neisseria meningitidis serogroup B strain MC58 contains three genes-nmb0278, nmb0294 and nmb0407--encoding putative homologues of DsbA, a periplasmic thiol disulphide oxidoreductase protein-folding catalyst of the Dsb protein family. DsbA assists the folding of periplasmic and membrane proteins in diverse organisms. While all three cloned genes complemented the DTT sensitivity of dsbA-null Escherichia coli, they showed different activities in folding specific target proteins in this background. NMB0278 protein was the most active in complementing defects in motility and alkaline phosphatase activity, while NMB0294 was the most active in folding periplasmic MalF. NMB0407 showed the weakest activity in all assays. It is extremely unusual for organisms to contain more than one chromosomal dsbA. Among the members of the genus Neisseria, only the meningococcus carries all three of these genes. Strains of Neisseria gonorrhoeae, Neisseria lactamica, Neisseria cinerea and Neisseria polysaccharea contained only homologues of nmb0278 and nmb0407, while Neisseria flava, Neisseria subflava and Neisseria flavescens carried only nmb0294. It is speculated that the versatility of the meningococcus in surviving in different colonizing and invasive disease settings may be derived in part from an enhanced potential to deploy outer-membrane proteins, a consequence of carrying an extended repertoire of protein-folding catalysts.

Published

2004

18. The availability of purine nucleotides regulates natural competence by controlling translation of the competence activator Sxy

Author

Sinha, Sunita, Mell, Joshua, and Redfield, Rosemary

Published

2013

19. Absence of Detectable Arsenate in DNA from Arsenate-Grown GFAJ-1 Cells

Author

Reaves, Marshall Louis, Sinha, Sunita, Rabinowitz, Joshua D., Kruglyak, Leonid, and Redfield, Rosemary J.

Published

2012

20. p32 promotes melanoma progression and metastasis by targeting EMT markers, Akt/PKB pathway, and tumor microenvironment.

Author

Sinha, Sunita, Singh, Satyendra Kumar, Jangde, Nitish, Ray, Rashmi, and Rai, Vivek

Published

2021

21. Murine Complement Interactions with Pseudomonas aeruginosa and Their Consequences During Pneumonia

Author

Younger, John G., Shankar-Sinha, Sunita, Mickiewicz, Marc, Brinkman, Adam S., Valencia, Gabriel A., Sarma, Vidya J., Younkin, Ellen M., Standiford, Theodore J., Zetoune, Firas S., and Ward, Peter A.

Published

2003

22. A competence-regulated toxin-antitoxin system in Haemophilus influenzae.

Author

Findlay Black, Hailey, Mastromatteo, Scott, Sinha, Sunita, Ehrlich, Rachel L., Nislow, Corey, Chang Mell, Joshua, and Redfield, Rosemary J.

Subjects

HAEMOPHILUS influenzae, HORIZONTAL gene transfer, HAEMOPHILUS diseases, OPERONS, TRANSCRIPTION factors, TOXINS, ANTITOXINS

Abstract

Natural competence allows bacteria to respond to environmental and nutritional cues by taking up free DNA from their surroundings, thus gaining both nutrients and genetic information. In the Gram-negative bacterium Haemophilus influenzae, the genes needed for DNA uptake are induced by the CRP and Sxy transcription factors in response to lack of preferred carbon sources and nucleotide precursors. Here we show that one of these genes, HI0659, encodes the antitoxin of a competence-regulated toxin-antitoxin operon ('toxTA'), likely acquired by horizontal gene transfer from a Streptococcus species. Deletion of the putative toxin (HI0660) restores uptake to the antitoxin mutant. The full toxTA operon was present in only 17 of the 181 strains we examined; complete deletion was seen in 22 strains and deletions removing parts of the toxin gene in 142 others. In addition to the expected Sxy- and CRP-dependent-competence promoter, HI0659/660 transcript analysis using RNA-seq identified an internal antitoxin-repressed promoter whose transcription starts within toxT and will yield nonfunctional protein. We propose that the most likely effect of unopposed toxin expression is non-specific cleavage of mRNAs and arrest or death of competent cells in the culture. Although the high frequency of toxT and toxTA deletions suggests that this competence-regulated toxin-antitoxin system may be mildly deleterious, it could also facilitate downregulation of protein synthesis and recycling of nucleotides under starvation conditions. Although our analyses were focused on the effects of toxTA, the RNA-seq dataset will be a useful resource for further investigations into competence regulation. [ABSTRACT FROM AUTHOR]

Published

2020

23. MicroRNA Biomarkers in Cerebrospinal Fluid and Serum Reflect Injury Severity in Human Acute Traumatic Spinal Cord Injury.

Author

Tigchelaar, Seth, Gupta, Rishab, Shannon, Casey P., Streijger, Femke, Sinha, Sunita, Flibotte, Stephane, Rizzuto, Michael A., Street, John, Paquette, Scott, Ailon, Tamir, Charest-Morin, Raphaele, Dea, Nicolas, Fisher, Charles, Dvorak, Marcel F., Dhall, Sanjay, Mac-Thiong, Jean-Marc, Parent, Stefan, Bailey, Christopher, Christie, Sean, and Van Keuren-Jensen, Kendall

Published

2019

24. Design and development of a capacitance‐based wireless pressure transmitter.

Author

Sinha, Sunita, Kachhap, Rupam V., and Mandal, Nirupama

Abstract

A novel, cost‐ effective and efficient wireless pressure measurement system is modeled for transmission of the signal in harsh environment. The sensing part involves rubber bellows with a capacitive sensor made of copper plates. For remote transmission, monitoring and controlling the mechanical displacement of the bellows is converted into dc output voltage using differentiator and precision half wave rectifier. A linearization circuit is also designed, which linearized the output voltage with a value of percentage deviation from linearity of ±1.8%. For further FSK mode of transmission, the obtained linearized voltage is converted into 1 to 5 volt with a signal conditioning circuit. The transmitted output voltage is recovered using FSK demodulator circuit, LPF and a Decision circuit at receiving end. The full scale percentage error of the measurement system lies within 5% which is in an acceptable range. The proposed method is an economic and efficient transmission technique in hazardous areas where wired transmission is not feasible. The mathematical equations explaining the functioning of the proposed transmitter have been derived. The operation of the proposed pressure transmitter has been experimentally tested. The design approach, mathematical analysis and experimental results of the proposed model are reported in this paper. [ABSTRACT FROM AUTHOR]

Published

2018

25. Reducing insulin via conditional partial gene ablation in adults reverses diet-induced weight gain.

Author

Page, Melissa M., Skovsø, Søs, Haoning Cen, Chiu, Amy P., Dionne, Derek A., Hutchinson, Daria F., Lim, Gareth E., Szabat, Marta, Flibotte, Stephane, Sinha, Sunita, Nislow, Corey, Rodrigues, Brian, and Johnson, James D.

Published

2018

26. Reduced Circulating Insulin Enhances Insulin Sensitivity in Old Mice and Extends Lifespan.

Author

Templeman, Nicole M., Flibotte, Stephane, Chik, Jenny H.L., Sinha, Sunita, Lim, Gareth E., Foster, Leonard J., Nislow, Corey, and Johnson, James D.

Abstract

Summary The causal relationships between insulin levels, insulin resistance, and longevity are not fully elucidated. Genetic downregulation of insulin/insulin-like growth factor 1 (Igf1) signaling components can extend invertebrate and mammalian lifespan, but insulin resistance, a natural form of decreased insulin signaling, is associated with greater risk of age-related disease in mammals. We compared Ins2 +/− mice to Ins2 +/+ littermate controls, on a genetically stable Ins1 null background. Proteomic and transcriptomic analyses of livers from 25-week-old mice suggested potential for healthier aging and altered insulin sensitivity in Ins2 +/− mice. Halving Ins2 lowered circulating insulin by 25%–34% in aged female mice, without altering Igf1 or circulating Igf1. Remarkably, decreased insulin led to lower fasting glucose and improved insulin sensitivity in aged mice. Moreover, lowered insulin caused significant lifespan extension, observed across two diverse diets. Our study indicates that elevated insulin contributes to age-dependent insulin resistance and that limiting basal insulin levels can extend lifespan. [ABSTRACT FROM AUTHOR]

Published

2017

27. Heparanase Overexpression Induces Glucagon Resistance and Protects Animals From Chemically Induced Diabetes.

Author

Dahai Zhang, Fulong Wang, Lal, Nathaniel, Amy Pei-Ling Chiu, Andrea Wan, Jocelyn Jia, Bierende, Denise, Flibotte, Stephane, Sinha, Sunita, Asadi, Ali, Xiaoke Hu, Taghizadeh, Farnaz, Pulinilkunnil, Thomas, Nislow, Corey, Vlodavsky, Israel, Johnson, James D., Kieffer, Timothy J., Hussein, Bahira, Rodrigues, Brian, and Zhang, Dahai

Subjects

TREATMENT of diabetes, HEPARANASE, GENETIC overexpression, GLUCAGON, FIBROBLAST growth factors, GLUCAGON-like peptide 1, GLUCOSE metabolism, DIABETES prevention, HYPERGLYCEMIA prevention, ANIMALS, DIABETES, GLYCOSIDASES, GROWTH factors, HYPERGLYCEMIA, INSULIN, ISLANDS of Langerhans, MICE

Abstract

Heparanase, a protein with enzymatic and nonenzymatic properties, contributes toward disease progression and prevention. In the current study, a fortuitous observation in transgenic mice globally overexpressing heparanase (hep-tg) was the discovery of improved glucose homeostasis. We examined the mechanisms that contribute toward this improved glucose metabolism. Heparanase overexpression was associated with enhanced glucose-stimulated insulin secretion and hyperglucagonemia, in addition to changes in islet composition and structure. Strikingly, the pancreatic islet transcriptome was greatly altered in hep-tg mice, with >2,000 genes differentially expressed versus control. The upregulated genes were enriched for diverse functions including cell death regulation, extracellular matrix component synthesis, and pancreatic hormone production. The downregulated genes were tightly linked to regulation of the cell cycle. In response to multiple low-dose streptozotocin (STZ), hep-tg animals developed less severe hyperglycemia compared with wild-type, an effect likely related to their β-cells being more functionally efficient. In animals given a single high dose of STZ causing severe and rapid development of hyperglycemia related to the catastrophic loss of insulin, hep-tg mice continued to have significantly lower blood glucose. In these mice, protective pathways were uncovered for managing hyperglycemia and include augmentation of fibroblast growth factor 21 and glucagon-like peptide 1. This study uncovers the opportunity to use properties of heparanase in management of diabetes. [ABSTRACT FROM AUTHOR]

Published

2017

28. OPTIMIZATION OF MODIFIED ROTAMETER USING HALL PROBE SENSOR WITH RESPECT TO LIQUID DENSITY AND ITS CALIBRATION USING ARTIFICIAL NEURAL NETWORK.

Author

Sinha, Sunita and Mandal, Nirupama

Subjects

CONDUCT of life, NEURAL circuitry, ROTAMETERS, MEASURING instruments, COMPUTER simulation

Abstract

Rotameter is one of the most commonly used local indicating type flow measuring instrument. For remote indication and control a secondary transducer like Hall Probe sensor, LVDT etc. is incorporated with the conventional rotameter. In this paper, a modified rotameter with Hall Probe sensor is used as a measuring instrument. The output hall voltage is proportional to the flow rate of the fluid and the change in fluid density may also vary the hall voltage. So this kind of variation shows incorrect flow rate if the density of the float is not taken to a very high value compared to the density of the fluid. But the density float may affect the flow rate measurement and introduce error. In this respect firstly the variation of Hall voltage with respect to liquid density is analyzed and then the measuring system is calibrated using ANN. The ANN calculates the correction factor with respect to the change in liquid density, which results in obtaining the output close to the desired output. The simulation results show that the calibration technique is efficient. [ABSTRACT FROM AUTHOR]

Published

2016

29. The bronchial epithelial cell bacterial microbiome and host response in patients infected with human immunodeficiency virus.

Author

Sze, Marc A., Xu, Stella, Leung, Janice M., Vucic, Emily A., Shaipanich, Tawimas, Moghadam, Aida, Harris, Marianne, Guillemi, Silvia, Sinha, Sunita, Nislow, Corey, Murphy, Darra, Hague, Cameron, Leipsic, Jonathon, Lam, Stephen, Wan Lam, Montaner, Julio S., Sin, Don D., and Paul Man, S. F.

Subjects

EPITHELIAL cells, HUMAN microbiota, HIV-positive persons, GENE expression, IMMUNE response

Abstract

Background: Chronic Obstructive Pulmonary Disease (COPD) is an important comorbidity in patients living with human immunodeficiency virus (HIV). Previous bacterial microbiome studies have shown increased abundance of specific bacterium, like Tropheryma whipplei, and no overall community differences. However, the host response to the lung microbiome is unknown in patients infected with HIV. Methods: Two bronchial brush samples were obtained from 21 HIV-infected patients. One brush was used for bacterial microbiome analysis using the Illumina MiSeq™ platform, while the other was used to evaluate gene expression patterns of the host using the Affymetrix Human Gene ST 2.0 array. Weighted gene co-expression network analysis was used to determine the relationship between the bacterial microbiome and host gene expression response. Results: The Shannon Diversity was inversely related to only one gene expression module (p = 0.02); whereas evenness correlated with five different modules (p ≤ 0.05). After FDR correction only the Firmicutes phylum was significantly correlated with any modules (FDR < 0.05). These modules were enriched for cilia, transcription regulation, and immune response. Specific operational taxonomic units (OTUs), such as OTU4 (Pasteurellaceae), were able to distinguish HIV patients with and without COPD and severe emphysema. Conclusion: These data support the hypothesis that the bacterial microbiome in HIV lungs is associated with specific host immune responses. Whether or not these responses are also seen in non-HIV infected individuals needs to be addressed in future studies. [ABSTRACT FROM AUTHOR]

Published

2016

30. Reverse Chemical Genetics: Comprehensive Fitness Profiling Reveals the Spectrum of Drug Target Interactions.

Author

Wong, Lai H., Sinha, Sunita, Bergeron, Julien R., Mellor, Joseph C., Giaever, Guri, Flaherty, Patrick, and Nislow, Corey

Subjects

*BIOCHEMICAL genetics, *DRUG interactions, *DRUG resistance, *ALLELES, *TETRAHYDROFOLATE dehydrogenase, *CANCER chemotherapy, *PHARMACEUTICAL research

Abstract

The emergence and prevalence of drug resistance demands streamlined strategies to identify drug resistant variants in a fast, systematic and cost-effective way. Methods commonly used to understand and predict drug resistance rely on limited clinical studies from patients who are refractory to drugs or on laborious evolution experiments with poor coverage of the gene variants. Here, we report an integrative functional variomics methodology combining deep sequencing and a Bayesian statistical model to provide a comprehensive list of drug resistance alleles from complex variant populations. Dihydrofolate reductase, the target of methotrexate chemotherapy drug, was used as a model to identify functional mutant alleles correlated with methotrexate resistance. This systematic approach identified previously reported resistance mutations, as well as novel point mutations that were validated in vivo. Use of this systematic strategy as a routine diagnostics tool widens the scope of successful drug research and development. [ABSTRACT FROM AUTHOR]

Published

2016

31. Transformed Recombinant Enrichment Profiling Rapidly Identifies HMW1 as an Intracellular Invasion Locus in Haemophilus influenza.

Author

Mell, Joshua Chang, Viadas, Cristina, Moleres, Javier, Sinha, Sunita, Fernández-Calvet, Ariadna, Porsch, Eric A., IIISt. Geme, Joseph W., Nislow, Corey, Redfield, Rosemary J., and Garmendia, Junkal

Subjects

HAEMOPHILUS influenzae, GENOMES, HOMOLOGOUS chromosomes, HUMAN genetic variation, HAEMOPHILUS

Abstract

Many bacterial species actively take up and recombine homologous DNA into their genomes, called natural competence, a trait that offers a means to identify the genetic basis of naturally occurring phenotypic variation. Here, we describe “transformed recombinant enrichment profiling” (TREP), in which natural transformation is used to generate complex pools of recombinants, phenotypic selection is used to enrich for specific recombinants, and deep sequencing is used to survey for the genetic variation responsible. We applied TREP to investigate the genetic architecture of intracellular invasion by the human pathogen Haemophilus influenzae, a trait implicated in persistence during chronic infection. TREP identified the HMW1 adhesin as a crucial factor. Natural transformation of the hmw1 operon from a clinical isolate (86-028NP) into a laboratory isolate that lacks it (Rd KW20) resulted in ~1,000-fold increased invasion into airway epithelial cells. When a distinct recipient (Hi375, already possessing hmw1 and its paralog hmw2) was transformed by the same donor, allelic replacement of hmw2AHi375 by hmw1A86-028NP resulted in a ~100-fold increased intracellular invasion rate. The specific role of hmw1A86-028NP was confirmed by mutant and western blot analyses. Bacterial self-aggregation and adherence to airway cells were also increased in recombinants, suggesting that the high invasiveness induced by hmw1A86-028NP might be a consequence of these phenotypes. However, immunofluorescence results found that intracellular hmw1A86-028NP bacteria likely invaded as groups, instead of as individual bacterial cells, indicating an emergent invasion-specific consequence of hmw1A-mediated self-aggregation. [ABSTRACT FROM AUTHOR]

Published

2016

32. Design and Implementation of Real-Time Flow Measurement System Using Hall Probe Sensor and PC-Based SCADA.

Author

Sinha, Sunita, Banerjee, Deblina, Mandal, Nirupama, Sarkar, Rajan, and Bera, Satish Chandra

Abstract

A rotameter is a variable-area-type flow rate measuring instrument in which the position of a metallic float in a transparent conical tube is taken as a flow rate indicator. It has the disadvantage that it is a local indicating type instrument and special type of transducer is used for its remote indication. In this paper, a noncontact flow rate measurement technique using Hall probe sensor and rotameter is designed, developed, and tested. In this design, a float carrying a thin circular permanent magnet is used, and a Hall probe sensor placed outside the rotameter tube has been used to sense the variation of magnetic field of the magnet with the variation of float position. A signal conditioner unit has been used to convert the Hall probe sensor output into 1–5 V dc signal. This dc signal output of the signal conditioner has been sent to a PC-based flow indicator through optoisolator and analog input channel of a data acquisition system (DAS) card. The PC-based flow indicator has been designed using the Lab Tech Note Book Pro software and the PC-based supervisory control and DAS. A theoretical equation has been derived to explain the operation of the system. The performance of the system has been tested experimentally, and the experimental results are reported in this paper. A very good repeatability and linearity of results has been observed. [ABSTRACT FROM PUBLISHER]

Published

2015

33. Seventeen Sxy-Dependent Cyclic AMP Receptor Protein Site-Regulated Genes Are Needed for Natural Transformation in Haemophilus influenzae.

Author

Sinha, Sunita, Mell, Joshua C., and Redfield, Rosemary J.

Subjects

*HAEMOPHILUS influenzae, *BACTERIAL transformation, *AMPA receptors, *BACTERIAL proteins, *BACTERIAL DNA, *GENETIC mutation

Abstract

Natural competence is the ability of bacteria to actively take up extracellular DNA. This DNA can recombine with the host chromosome, transforming the host cell and altering its genotype. In Haemophilus influenzae, natural competence is induced by energy starvation and the depletion of nucleotide pools. This induces a 26-gene competence regulon (Sxy-dependent cyclic AMP receptor protein [CRP-S] regulon) whose expression is controlled by two regulators, CRP and Sxy. The role of most of the CRP-S genes in DNA uptake and transformation is not known. We have therefore created in-frame deletions of each CRP-S gene and studied their competence phenotypes. All but one gene (ssb) could be deleted. Although none of the remaining CRP-S genes were required for growth in rich medium or survival under starvation conditions, DNA uptake and transformation were abolished or reduced in most of the mutants. Seventeen genes were absolutely required for transformation, with 14 of these genes being specifically required for the assembly and function of the type IV pilus DNA uptake machinery. Only five genes were dispensable for both competence and transformation. This is the first competence regulon for which all genes have been mutationally characterized. [ABSTRACT FROM AUTHOR]

Published

2012

34. Natural Transformation of Gallibacterium anatis.

Author

Kristensen, Bodil M., Sinha, Sunita, Boyce, John D., Bojesen, Anders M., Meli, Joshua C., and Redfield, Rosemary J.

Subjects

*GRAM-negative bacteria, *BACTERIAL genetics, *MUTAGENESIS, *PASTEURELLACEAE, *HAEMOPHILUS influenzae, *BIOINFORMATICS

Abstract

Gallibacterium anatis is a pathogen of poultry. Very little is known about its genetics and pathogenesis. To enable the study of gene function in G. anatis, we have established methods for transformation and targeted mutagenesis. The genus Gallibacterium belongs to the Pasteurellaceae, a group with several naturally transformable members, including Haemophilus influenzae. Bioinformatics analysis identified G. anatis homologs of the H. influenzae competence genes, and natural competence was in-duced in G. anatis by the procedure established for H. influenzae: transfer from rich medium to the starvation medium M-IV. This procedure gave reproducibly high transformation frequencies with G. anatis chromosomal DNA and with linearized plas-mid DNA carrying G. anatis sequences. Both DNA types integrated into the G. anatis chromosome by homologous recombina-tion. Targeted mutagenesis gave transformation frequencies of >2 X lO-4 transformants CFU-1. Transformation was also effi-cient with circular plasmid containing no G. anatis DNA; this resulted in the establishment of a self-replicating plasmid. Nine diverse G. anatis strains were found to be naturally transformable by this procedure, suggesting that natural competence is com-mon and the M-IV transformation procedure widely applicable for this species. The G. anatis genome is only slightly enriched for the uptake signal sequences identified in other pasteurellaceaen genomes, but G. anatis did preferentially take up its own DNA over that of Escherichia coli. Transformation by electroporation was not effective for chromosomal integration but could be used to introduce self-replicating plasmids. The findings described here provide important tools for the genetic manipulation of G. anatis. [ABSTRACT FROM AUTHOR]

Published

2012

35. Natural DNA Uptake by Escherichia coli.

Author

Sinha, Sunita and Redfield, Rosemary J.

Subjects

*ESCHERICHIA coli, *DNA, *PROTEOBACTERIA, *GENE expression, *DEOXYRIBOSE, *ESCHERICHIA

Abstract

Escherichia coli has homologues of the competence genes other species use for DNA uptake and processing, but natural competence and transformation have never been detected. Although we previously showed that these genes are induced by the competence regulator Sxy as in other gamma-proteobacteria, no conditions are known that naturally induce sxy expression. We have now tested whether the competence gene homologues encode a functional DNA uptake machinery and whether DNA uptake leads to recombination, by investigating the effects of plasmid-borne sxy expression on natural competence in a wide variety of E. coli strains. High- and low-level sxy expression alone did not induce transformation in any of the strains tested, despite varying the transforming DNA, its concentration, and the incubation conditions used. Direct measurements of uptake of radiolabelled DNA were below the limit of detection, however transformants were readily detected when recombination functions were provided by the lambda Red recombinase. This is the first demonstration that E. coli sxy expression can induce natural DNA uptake and that E. coli's competence genes do encode a functional uptake machinery. However, the amount of transformation cells undergo is limited both by low levels of DNA uptake and by inefficient DNA processing/recombination. [ABSTRACT FROM AUTHOR]

Published

2012

36. Natural competence in strains of Actinobacillus pleuropneumoniae.

Author

Bossé, Janine T., Sinha, Sunita, Schippers, Timo, Kroll, J. Simon, Redfield, Rosemary J., and Langford, Paul R.

Subjects

*ACTINOBACILLUS, *PASTEURELLACEAE, *GRAM-negative bacteria, *GENOMES, *GENETICS, *HEREDITY, *GENOMICS, *MOLECULAR genetics, *FUNCTIONAL genomics

Abstract

We have identified a highly transformable strain of Actinobacillus pleuropneumoniae whose competence is regulated by the competence-activator Sxy as in other Pasteurellaceae. Other strains were poorly transformable or nontransformable. The genomes of two poorly transformable strains contain intact sets of competence genes. Moreover, we show that the low competence of one of these strains is not due to an inability to induce sxy expression or to a defect in Sxy function, suggesting that some other component of the competence system is defective. Although the A. pleuropneumoniae sxy gene has only 24% identity to its Haemophilus influenzae homologue, both genes fully complemented an H. influenzae sxy knockout, demonstrating that Sxy function is conserved throughout the Pasteurellaceae. [ABSTRACT FROM AUTHOR]

Published

2009

37. A Neisseria meningitidis NMB1966 mutant is impaired for invasion of respiratory epithelial cells, survival in human blood and for virulence in vivo.

Author

Ming-Shi Li, Chow, Noel Y.S., Sinha, Sunita, Halliwell, Denise, Finney, Michelle, Gorringe, Andrew R., Watson, Mark W., Kroll, J. Simon, Langford, Paul R., and Webb, Steven A.R.

Subjects

NEISSERIA meningitidis, EPITHELIAL cells, MEMBRANE proteins, GLUTAMIC acid, PEPTIDOGLYCANS, OPERONS

Abstract

We sought to determine whether NMB1966, encoding a putative ABC transporter, has a role in pathogenesis. Compared to its isogenic wild-type parent strain Neisseria meningitidis MC58, the NMB1966 knockout mutant was less adhesive and invasive for human bronchial epithelial cells, had reduced survival in human blood and was attenuated in a systemic mouse model of infection. The transcriptome of the wild-type and the NMB1966 mutant was compared. The data are consistent with a previous functional assignment of NMB1966 being the ABC transporter component of a glutamate transporter operon. Forty-seven percent of all the differentially regulated genes encoded known outer membrane proteins or pathways generating complex surface structures such as adhesins, peptidoglycan and capsule. The data show that NMB1966 has a role in virulence and that remodelling of the outer membrane and surface/structures is associated with attenuation of the NMB1966 mutant. [ABSTRACT FROM AUTHOR]

Published

2009

38. Pharmacogenomics at the Point of Care: A Community Pharmacy Project in British Columbia.

Author

Breaux, Samantha, Desrosiers, Francis Arthur Derek, Neira, Mauricio, Sinha, Sunita, and Nislow, Corey

Subjects

PHARMACOGENOMICS, DRUGSTORES, MEDICAL personnel, DRUG therapy, PHARMACIST-patient relationships, DRUG analysis

Abstract

In this study 180 patients were consented and enrolled for pharmacogenomic testing based on current antidepressant/antipsychotic usage. Samples from patients were genotyped by PCR, MassArray, and targeted next generation sequencing. We also conducted a quantitative, frequency-based analysis of participants' perceptions using simple surveys. Pharmacogenomic information, including medication changes and altered dosing recommendations were returned to the pharmacists and used to direct patient therapy. Overwhelmingly, patients perceived pharmacists/pharmacies as an appropriate healthcare provider to deliver pharmacogenomic services. In total, 81 medication changes in 33 unique patients, representing 22% of all genotyped participants were recorded. We performed a simple drug cost analysis and found that medication adjustments and dosing changes across the entire cohort added $24.15CAD per patient per year for those that required an adjustment. Comparing different platforms, we uncovered a small number, 1.7%, of genotype discrepancies. We conclude that: (1). Pharmacists are competent providers of pharmacogenomic services. (2). The potential reduction in adverse drug responses and optimization of drug selection and dosing comes at a minimal cost to the health care system. (3). Changes in drug therapy, based on PGx tests, result in inconsequential changes in annual drug therapy cost with small cost increases just as likely as costs savings. (4). Pharmacogenomic services offered by pharmacists are ready for wide commercial implementation. [ABSTRACT FROM AUTHOR]

Published

2021

39. De novo pathogenic DNM1L variant in a patient diagnosed with atypical hereditary sensory and autonomic neuropathy.

Author

Tarailo‐Graovac, Maja, Zahir, Farah R., Zivkovic, Irena, Moksa, Michelle, Selby, Kathryn, Sinha, Sunita, Nislow, Corey, Stockler‐Ipsiroglu, Sylvia G., Sheffer, Ruth, Saada‐Reisch, Ann, Friedman, Jan M., Karnebeek, Clara D. M., and Horvath, Gabriella A.

Subjects

PITUITARY dwarfism, DEVELOPMENTAL delay, EXOMES, GENETIC disorders, RECESSIVE genes, NUCLEOTIDE sequencing, BASE pairs

Abstract

Background: Profiling the entire genome at base pair resolution in a single test offers novel insights into disease by means of dissection of genetic contributors to phenotypic features. Methods: We performed genome sequencing for a patient who presented with atypical hereditary sensory and autonomic neuropathy, severe epileptic encephalopathy, global developmental delay, and growth hormone deficiency. Results: Assessment of the variants detected by mapped sequencing reads followed by Sanger confirmation revealed that the proband is a compound heterozygote for rare variants within RETREG1 (FAM134B), a gene associated with a recessive form of hereditary sensory and autonomic neuropathy, but not with epileptic encephalopathy or global developmental delay. Further analysis of the data also revealed a heterozygous missense variant in DNM1L, a gene previously implicated in an autosomal dominant encephalopathy, epilepsy, and global developmental delay and confirmed by Sanger sequencing to be a de novo variant not present in parental genomes. Conclusions: Our findings emphasize the importance of genome‐wide sequencing in patients with a well‐characterized genetic disease with atypical presentation. This approach reduces the potential for misdiagnoses. [ABSTRACT FROM AUTHOR]

Published

2019

40. Cysteine mediated disulfide bond formation in RAGE V domain facilitates its functionally relevant dimerization.

Author

Jangde, Nitish, Ray, Rashmi, Sinha, Sunita, Rana, Khokan, Singh, Satyendra Kumar, Khandagale, Prashant, Acharya, Narottam, and Rai, Vivek

Subjects

*ADVANCED glycation end-products, *DIABETES, *ATHEROSCLEROSIS, *CANCER, *DIMERIZATION

Abstract

Abstract Receptor for Advanced Glycation End product (RAGE) is a multiligand receptor implicated in diverse pathological conditions such as diabetes, atherosclerosis, cancer and neural diseases. Extracellular, RAGE consists of V, C1 and C2 domains. Here, we show RAGE exists as a monomer in equilibrium with a fraction of a covalently linked dimer of monomers via its V domain through cysteine. In order to understand the functional implication of this dimer, we examined the binding capacity and functional potential of RAGE dimer via advanced glycation end products (AGEs) which shows enhanced binding capacity towards V domain, ERK phosphorylation, cytokine release and actin polymerization ability of the dimeric form for AGEs compared with the reduced monomeric form. Our data, suggests that the dimeric state of RAGE controls its function and ligand mediated signaling which may play important role in RAGE mediated various diseases. Graphical abstract Image 1 Highlights • RAGE V domain is responsible for its ligand binding and transducing the signal in cytoplasm. • V domain dimerization of RAGE occurs via cysteine mediated disulphide linkages. • Dimerization of V domain enhances RAGE signaling and functions having higher binding capacity of V domain with its ligand. [ABSTRACT FROM AUTHOR]

Published

2018

41. 14-3-3ζ coordinates adipogenesis of visceral fat.

Author

Lim, Gareth E., Albrecht, Tobias, Piske, Micah, Sarai, Karnjit, Lee, Jason T. C, Ramshaw, Hayley S., Sinha, Sunita, Guthridge, Mark A., Acker-Palmer, Amparo, Lopez, Angel F., Clee, Susanne M., Nislow, Corey, and Johnson, James D.

Published

2015

42. Genome-Wide Screen Reveals sec21 Mutants of Saccharomyces cerevisiae Are Methotrexate-Resistant.

Author

Wong, Lai H., Flibotte, Stephane, Sinha, Sunita, Chiang, Jennifer, Giaever, Guri, and Nislow, Corey

Subjects

*SACCHAROMYCES cerevisiae, *METHOTREXATE, *DRUG resistance in bacteria

Abstract

Drug resistance is a consequence of how most modern medicines work. Drugs exert pressure on cells that causes death or the evolution of resistance. Indeed, highly specific drugs are rendered ineffective by a single DNA mutation. In this study, we apply the drug methotrexate, which is widely used in cancer and rheumatoid arthritis, and perform evolution experiments on Baker's yeast to ask the different ways in which cells become drug resistant. Because of the conserved nature of biological pathways between yeast and man, our results can inform how the same mechanism may operate to render human cells resistant to treatment. Exposure of cells to smallmolecules and drug therapies imposes a strong selective pressure. As a result, cells rapidly acquiremutations in order to survive. These include resistant variants of the drug target as well as those that modulate drug transport and detoxification. To systematically explore how cells acquire drug resistance in an unbiasedmanner, rapid cost-effective approaches are required. Methotrexate, as one of the first rationally designed anticancer drugs, has served as a prototypic example of such acquired resistance. Known methotrexate resistance mechanisms include mutations that increase expression of the dihydrofolate reductase (DHFR) target as well as those that maintain function yet reduce the drug's binding affinity. Recent evidence suggests that target-independent, epistatic mutations can also result in resistance tomethotrexate. Currently, however, the relative contribution of such unlinked resistance mutations is not well understood. To address this issue, we took advantage of Saccharomyces cerevisiae as a model eukaryotic system that combined with whole-genome sequencing and a rapid screeningmethodology, allowed the identification of causativemutations thatmodulate resistance to methotrexate.We found a recurrent missense mutation in SEC21 (orthologous to human COPG1), which we confirmed in 10 de novo methotrexate-resistant strains. This sec21 allele (S96L) behaves as a recessive, gain-of-function allele, conferring methotrexate resistance that is abrogated by the presence of a wild-type copy of SEC21. These observations indicate that the Sec21p/COPI transport complex has previously uncharacterized roles in modulating methotrexate stress. [ABSTRACT FROM AUTHOR]

Published

2017

43. An Updated Collection of Sequence Barcoded Temperature-Sensitive Alleles of Yeast Essential Genes.

Author

Kofoed, Megan, Milbury, Karissa L., Chiang, Jennifer H., Sinha, Sunita, Ben-Aroya, Shay, Giaever, Guri, Nislow, Corey, Hieter, Philip, and Stirling, Peter C.

Subjects

*SACCHAROMYCES cerevisiae, *FUNGAL genetics research, *YEAST fungi genetics

Abstract

Systematic analyses of essential gene function using mutant collections in Saccharomyces cerevisiae have been conducted using collections of heterozygous diploids, promoter shut-off alleles, through alleles with destabilized mRNA, destabilized protein, or bearing mutations that lead to a temperature-sensitive (ts) phenotype. We previously described a method for construction of barcoded ts alleles in a systematic fashion. Here we report the completion of this collection of alleles covering 600 essential yeast genes. This resource covers a larger gene repertoire than previous collections and provides a complementary set of strains suitable for single gene and genomic analyses. We use deep sequencing to characterize the amino acid changes leading to the ts phenotype in half of the alleles. We also use high-throughput approaches to describe the relative ts behavior of the alleles. Finally, we demonstrate the experimental usefulness of the collection in a high-content, functional genomic screen for ts alleles that increase spontaneous P-body formation. By increasing the number of alleles and improving the annotation, this ts collection will serve as a community resource for probing new aspects of biology for essential yeast genes. [ABSTRACT FROM AUTHOR]

Published

2015

44. Atx regulates skeletal muscle regeneration via LPAR1 and promotes hypertrophy.

Author

Ray R, Sinha S, Aidinis V, and Rai V

Subjects

Animals, Cell Line, Female, Gene Expression Regulation, Humans, Hypertrophy, Male, Mice, Inbred C57BL, Mice, Knockout, Muscle, Skeletal pathology, Muscle, Skeletal physiopathology, Phosphoric Diester Hydrolases genetics, Receptors, Lysophosphatidic Acid genetics, Ribosomal Protein S6 Kinases metabolism, Satellite Cells, Skeletal Muscle pathology, Signal Transduction, Skeletal Muscle Enlargement, TOR Serine-Threonine Kinases metabolism, Mice, Lysophospholipids metabolism, Muscle Development, Muscle, Skeletal metabolism, Phosphoric Diester Hydrolases metabolism, Receptors, Lysophosphatidic Acid metabolism, Regeneration, Satellite Cells, Skeletal Muscle metabolism

Abstract

Muscle differentiation is a multifaceted and tightly controlled process required for the formation of skeletal muscle fibers. Satellite cells are the direct cellular contributors to muscle repair in injuries or disorders. Here, we show that autotaxin (Atx) expression and activity is required for satellite cell differentiation. Conditional ablation of Atx or its pharmacological inhibition impairs muscle repair. Mechanistically, we identify LPAR1 as the key receptor in Atx-LPA signaling. Myogenic gene array and pathway analysis identified that Atx-LPA signaling activates ribosomal protein S6 kinase (S6K), an mTOR-dependent master regulator of muscle cell growth via LPAR1. Furthermore, Atx transgenic mice show muscle hypertrophic effects and accelerated regeneration. Intramuscular injections of Atx/LPA show muscle hypertrophy. In addition, the regulatory effects of Atx on differentiation are conserved in human myoblasts. This study identifies Atx as a critical master regulator in murine and human muscles, identifying a promising extracellular ligand in muscle formation, regeneration, and hypertrophy., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2021

45. Pharmacogenomics at the Point of Care: A Community Pharmacy Project in British Columbia.

Author

Breaux S, Desrosiers FAD, Neira M, Sinha S, and Nislow C

Abstract

In this study 180 patients were consented and enrolled for pharmacogenomic testing based on current antidepressant/antipsychotic usage. Samples from patients were genotyped by PCR, MassArray, and targeted next generation sequencing. We also conducted a quantitative, frequency-based analysis of participants' perceptions using simple surveys. Pharmacogenomic information, including medication changes and altered dosing recommendations were returned to the pharmacists and used to direct patient therapy. Overwhelmingly, patients perceived pharmacists/pharmacies as an appropriate healthcare provider to deliver pharmacogenomic services. In total, 81 medication changes in 33 unique patients, representing 22% of all genotyped participants were recorded. We performed a simple drug cost analysis and found that medication adjustments and dosing changes across the entire cohort added $24.15CAD per patient per year for those that required an adjustment. Comparing different platforms, we uncovered a small number, 1.7%, of genotype discrepancies. We conclude that: (1). Pharmacists are competent providers of pharmacogenomic services. (2). The potential reduction in adverse drug responses and optimization of drug selection and dosing comes at a minimal cost to the health care system. (3). Changes in drug therapy, based on PGx tests, result in inconsequential changes in annual drug therapy cost with small cost increases just as likely as costs savings. (4). Pharmacogenomic services offered by pharmacists are ready for wide commercial implementation.

Published

2020

46. Erratum for Mor et al., "Identification of a New Class of Antifungals Targeting the Synthesis of Fungal Sphingolipids".

Author

Mor V, Rella A, Farnoud AM, Singh A, Munshi M, Bryan A, Naseem S, Konopka JB, Ojima I, Bullesbach E, Ashbaugh A, Linke MJ, Cushion M, Collins M, Ananthula HK, Sallans L, Desai PB, Wiederhold NP, Fothergill AW, Kirkpatrick WR, Patterson T, Wong LH, Sinha S, Giaever G, Nislow C, Flaherty P, Pan X, Cesar GV, de Melo Tavares P, Frases S, Miranda K, Rodrigues ML, Luberto C, Nimrichter L, and Del Poeta M

Published

2018

47. Comparative functional genomic screens of three yeast deletion collections reveal unexpected effects of genotype in response to diverse stress.

Author

Acton E, Lee AH, Zhao PJ, Flibotte S, Neira M, Sinha S, Chiang J, Flaherty P, Nislow C, and Giaever G

Subjects

Gene Knockout Techniques, Genome-Wide Association Study, Genotype, Saccharomyces cerevisiae genetics, Stress, Physiological

Abstract

The Yeast Knockout (YKO) collection has provided a wealth of functional annotations from genome-wide screens. An unintended consequence is that 76% of gene annotations derive from one genotype. The nutritional auxotrophies in the YKO, in particular, have phenotypic consequences. To address this issue, 'prototrophic' versions of the YKO collection have been constructed, either by introducing a plasmid carrying wild-type copies of the auxotrophic markers (Plasmid-Borne, PB prot ) or by backcrossing (Backcrossed, BC prot ) to a wild-type strain. To systematically assess the impact of the auxotrophies, genome-wide fitness profiles of prototrophic and auxotrophic collections were compared across diverse drug and environmental conditions in 250 experiments. Our quantitative profiles uncovered broad impacts of genotype on phenotype for three deletion collections, and revealed genotypic and strain-construction-specific phenotypes. The PB prot collection exhibited fitness defects associated with plasmid maintenance, while BC prot fitness profiles were compromised due to strain loss from nutrient selection steps during strain construction. The repaired prototrophic versions of the YKO collection did not restore wild-type behaviour nor did they clarify gaps in gene annotation resulting from the auxotrophic background. To remove marker bias and expand the experimental scope of deletion libraries, construction of a bona fide prototrophic collection from a wild-type strain will be required., (© 2017 The Authors.)

Published

2017

48. Serum MicroRNAs Reflect Injury Severity in a Large Animal Model of Thoracic Spinal Cord Injury.

Author

Tigchelaar S, Streijger F, Sinha S, Flibotte S, Manouchehri N, So K, Shortt K, Okon E, Rizzuto MA, Malenica I, Courtright-Lim A, Eisen A, Keuren-Jensen KV, Nislow C, and Kwon BK

Subjects

Animals, Biomarkers blood, Disease Models, Animal, Female, ROC Curve, Severity of Illness Index, Spinal Cord, Swine, MicroRNAs blood, Spinal Cord Injuries blood, Spinal Cord Injuries diagnosis

Abstract

Therapeutic development for spinal cord injury is hindered by the difficulty in conducting clinical trials, which to date have relied solely on functional outcome measures for patient enrollment, stratification, and evaluation. Biological biomarkers that accurately classify injury severity and predict neurologic outcome would represent a paradigm shift in the way spinal cord injury clinical trials could be conducted. MicroRNAs have emerged as attractive biomarker candidates due to their stability in biological fluids, their phylogenetic similarities, and their tissue specificity. Here we characterized a porcine model of spinal cord injury using a combined behavioural, histological, and molecular approach. We performed next-generation sequencing on microRNAs in serum samples collected before injury and then at 1, 3, and 5 days post injury. We identified 58, 21, 9, and 7 altered miRNA after severe, moderate, and mild spinal cord injury, and SHAM surgery, respectively. These data were combined with behavioural and histological analysis. Overall miRNA expression at 1 and 3 days post injury strongly correlates with outcome measures at 12 weeks post injury. The data presented here indicate that serum miRNAs are promising candidates as biomarkers for the evaluation of injury severity for spinal cord injury or other forms of traumatic, acute, neurologic injury.

Published

2017

49. Phenotypic diversity and genotypic flexibility of Burkholderia cenocepacia during long-term chronic infection of cystic fibrosis lungs.

Author

Lee AH, Flibotte S, Sinha S, Paiero A, Ehrlich RL, Balashov S, Ehrlich GD, Zlosnik JE, Mell JC, and Nislow C

Subjects

Adolescent, Animals, Biofilms, Burkholderia Infections complications, Burkholderia cenocepacia isolation & purification, Burkholderia cenocepacia pathogenicity, Burkholderia cenocepacia physiology, Child, Child, Preschool, Cystic Fibrosis complications, Genotype, Humans, Lung microbiology, Moths microbiology, Virulence, Young Adult, Burkholderia Infections microbiology, Burkholderia cenocepacia genetics, Cystic Fibrosis microbiology, Phenotype, Polymorphism, Genetic

Abstract

Chronic bacterial infections of the lung are the leading cause of morbidity and mortality in cystic fibrosis patients. Tracking bacterial evolution during chronic infections can provide insights into how host selection pressures-including immune responses and therapeutic interventions-shape bacterial genomes. We carried out genomic and phenotypic analyses of 215 serially collected Burkholderia cenocepacia isolates from 16 cystic fibrosis patients, spanning a period of 2-20 yr and a broad range of epidemic lineages. Systematic phenotypic tests identified longitudinal bacterial series that manifested progressive changes in liquid media growth, motility, biofilm formation, and acute insect virulence, but not in mucoidy. The results suggest that distinct lineages follow distinct evolutionary trajectories during lung infection. Pan-genome analysis identified 10,110 homologous gene clusters present only in a subset of strains, including genes restricted to different molecular types. Our phylogenetic analysis based on 2148 orthologous gene clusters from all isolates is consistent with patient-specific clades. This suggests that initial colonization of patients was likely by individual strains, followed by subsequent diversification. Evidence of clonal lineages shared by some patients was observed, suggesting inter-patient transmission. We observed recurrent gene losses in multiple independent longitudinal series, including complete loss of Chromosome III and deletions on other chromosomes. Recurrently observed loss-of-function mutations were associated with decreases in motility and biofilm formation. Together, our study provides the first comprehensive genome-phenome analyses of B. cenocepacia infection in cystic fibrosis lungs and serves as a valuable resource for understanding the genomic and phenotypic underpinnings of bacterial evolution., (© 2017 Lee et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2017

50. Heparanase Overexpression Induces Glucagon Resistance and Protects Animals From Chemically Induced Diabetes.

Author

Zhang D, Wang F, Lal N, Chiu AP, Wan A, Jia J, Bierende D, Flibotte S, Sinha S, Asadi A, Hu X, Taghizadeh F, Pulinilkunnil T, Nislow C, Vlodavsky I, Johnson JD, Kieffer TJ, Hussein B, and Rodrigues B

Subjects

Animals, Diabetes Mellitus, Experimental genetics, Diabetes Mellitus, Experimental metabolism, Diabetes Mellitus, Experimental prevention & control, Fibroblast Growth Factors metabolism, Glucagon-Like Peptide 1 metabolism, Glucuronidase genetics, Hyperglycemia blood, Hyperglycemia metabolism, Hyperglycemia prevention & control, Insulin metabolism, Islets of Langerhans drug effects, Islets of Langerhans metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Streptozocin toxicity, Glucagon metabolism, Glucuronidase metabolism

Abstract

Heparanase, a protein with enzymatic and nonenzymatic properties, contributes toward disease progression and prevention. In the current study, a fortuitous observation in transgenic mice globally overexpressing heparanase (hep-tg) was the discovery of improved glucose homeostasis. We examined the mechanisms that contribute toward this improved glucose metabolism. Heparanase overexpression was associated with enhanced glucose-stimulated insulin secretion and hyperglucagonemia, in addition to changes in islet composition and structure. Strikingly, the pancreatic islet transcriptome was greatly altered in hep-tg mice, with >2,000 genes differentially expressed versus control. The upregulated genes were enriched for diverse functions including cell death regulation, extracellular matrix component synthesis, and pancreatic hormone production. The downregulated genes were tightly linked to regulation of the cell cycle. In response to multiple low-dose streptozotocin (STZ), hep-tg animals developed less severe hyperglycemia compared with wild-type, an effect likely related to their β-cells being more functionally efficient. In animals given a single high dose of STZ causing severe and rapid development of hyperglycemia related to the catastrophic loss of insulin, hep-tg mice continued to have significantly lower blood glucose. In these mice, protective pathways were uncovered for managing hyperglycemia and include augmentation of fibroblast growth factor 21 and glucagon-like peptide 1. This study uncovers the opportunity to use properties of heparanase in management of diabetes., (© 2017 by the American Diabetes Association.)

Published

2017