You are here

Publications

Found 205 results
Author Title [ Type(Desc)] Year
Filters: First Letter Of Last Name is R  [Clear All Filters]
Journal Article
Cheng Y-W, Pincas H, Bacolod MD, Schemmann G, Giardina SF, Huang J, Barral S, Idrees K, Khan SA, Zeng Z et al..  2008.  CpG island methylator phenotype associates with low-degree chromosomal abnormalities in colorectal cancer.. Clin Cancer Res. 14(19):6005-13.
Lew JM, Mao C, Shukla M, Warren A, Will R, Kuznetsov D, Xenarios I, Robertson BD, Gordon SV, Schnappinger D et al..  2013.  Database resources for the tuberculosis community.. Tuberculosis (Edinb). 93(1):12-7.
Stewart GR, Ehrt S, Riley LW, Dale JW, McFadden J.  2000.  Deletion of the putative antioxidant noxR1 does not alter the virulence of Mycobacterium tuberculosis H37Rv.. Tuber Lung Dis. 80(4-5):237-42.
Spadoni I, Iliev ID, Rossi G, Rescigno M.  2012.  Dendritic cells produce TSLP that limits the differentiation of Th17 cells, fosters Treg development, and protects against colitis.. Mucosal Immunol. 5(2):184-93.
Spadoni I, Iliev ID, Rossi G, Rescigno M.  2012.  Dendritic cells produce TSLP that limits the differentiation of Th17 cells, fosters Treg development, and protects against colitis.. Mucosal Immunol. 5(2):184-93.
Wei J-R, Krishnamoorthy V, Murphy K, Kim J-H, Schnappinger D, Alber T, Sassetti CM, Rhee KY, Rubin EJ.  2011.  Depletion of antibiotic targets has widely varying effects on growth.. Proc Natl Acad Sci U S A. 108(10):4176-81.
Wei J-R, Krishnamoorthy V, Murphy K, Kim J-H, Schnappinger D, Alber T, Sassetti CM, Rhee KY, Rubin EJ.  2011.  Depletion of antibiotic targets has widely varying effects on growth.. Proc Natl Acad Sci U S A. 108(10):4176-81.
Zaveri A, Wang R, Botella L, Sharma R, Zhu L, Wallach JB, Song N, Jansen RS, Rhee KY, Ehrt S et al..  2020.  Depletion of the DarG antitoxin in Mycobacterium tuberculosis triggers the DNA-damage response and leads to cell death.. Mol Microbiol.
Das S, Pingle MR, Muñoz-Jordán J, Rundell MS, Rondini S, Granger K, Chang G-JJ, Kelly E, Spier EG, Larone D et al..  2008.  Detection and serotyping of dengue virus in serum samples by multiplex reverse transcriptase PCR-ligase detection reaction assay.. J Clin Microbiol. 46(10):3276-84.
Das S, Pingle MR, Muñoz-Jordán J, Rundell MS, Rondini S, Granger K, Chang G-JJ, Kelly E, Spier EG, Larone D et al..  2008.  Detection and serotyping of dengue virus in serum samples by multiplex reverse transcriptase PCR-ligase detection reaction assay.. J Clin Microbiol. 46(10):3276-84.
Robertson BD, Altmann D, Barry C, Bishai B, Cole S, Dick T, Duncan K, Dye C, Ehrt S, Esmail H et al..  2012.  Detection and treatment of subclinical tuberculosis.. Tuberculosis (Edinb). 92(6):447-52.
Robertson BD, Altmann D, Barry C, Bishai B, Cole S, Dick T, Duncan K, Dye C, Ehrt S, Esmail H et al..  2012.  Detection and treatment of subclinical tuberculosis.. Tuberculosis (Edinb). 92(6):447-52.
Rondini S, Pingle MR, Das S, Tesh R, Rundell MS, Hom J, Stramer S, Turner K, Rossmann SN, Lanciotti R et al..  2008.  Development of multiplex PCR-ligase detection reaction assay for detection of West Nile virus.. J Clin Microbiol. 46(7):2269-79.
Rondini S, Pingle MR, Das S, Tesh R, Rundell MS, Hom J, Stramer S, Turner K, Rossmann SN, Lanciotti R et al..  2008.  Development of multiplex PCR-ligase detection reaction assay for detection of West Nile virus.. J Clin Microbiol. 46(7):2269-79.
Rondini S, Pingle MR, Das S, Tesh R, Rundell MS, Hom J, Stramer S, Turner K, Rossmann SN, Lanciotti R et al..  2008.  Development of multiplex PCR-ligase detection reaction assay for detection of West Nile virus.. J Clin Microbiol. 46(7):2269-79.
McAulay K, Saito K, Warrier T, Walsh KFrances, Mathurin LDaniel, Royal-Mardi G, Lee MHee, Ocheretina O, Pape JWilliam, Fitzgerald DW et al..  2018.  Differentially Detectable Mycobacterium tuberculosis Cells in Sputum from Treatment-Naive Subjects in Haiti and Their Proportionate Increase after Initiation of Treatment.. mBio. 9(6)
Matthews KA, Senagbe KM, Nötzel C, Gonzales CA, Tong X, Rijo-Ferreira F, Bhanu NV, Miguel-Blanco C, Lafuente-Monasterio MJose, Garcia BA et al..  2020.  Disruption of the Plasmodium falciparum Life Cycle through Transcriptional Reprogramming by Inhibitors of Jumonji Demethylases.. ACS Infect Dis. 6(5):1058-1075.
Sander AF, Lavstsen T, Rask TS, Lisby M, Salanti A, Fordyce SL, Jespersen JS, Carter R, Deitsch K, Theander TG et al..  2014.  DNA secondary structures are associated with recombination in major Plasmodium falciparum variable surface antigen gene families.. Nucleic Acids Res. 42(4):2270-81.
Rusche JR, Holloman WK.  1983.  A DNA-binding protein from Ustilago maydis prefers duplex DNA without chain interruptions.. Mol Cell Biol. 3(4):605-12.
Quezada LLopez, Li K, McDonald SL, Nguyen Q, Perkowski AJ, Pharr CW, Gold B, Roberts J, McAulay K, Saito K et al..  2019.  Dual-Pharmacophore Pyrithione-Containing Cephalosporins Kill Both Replicating and Nonreplicating .. ACS Infect Dis. 5(8):1433-1445.
Quezada LLopez, Li K, McDonald SL, Nguyen Q, Perkowski AJ, Pharr CW, Gold B, Roberts J, McAulay K, Saito K et al..  2019.  Dual-Pharmacophore Pyrithione-Containing Cephalosporins Kill Both Replicating and Nonreplicating .. ACS Infect Dis. 5(8):1433-1445.
Maksymiuk C, Balakrishnan A, Bryk R, Rhee KY, Nathan C.  2015.  E1 of α-ketoglutarate dehydrogenase defends Mycobacterium tuberculosis against glutamate anaplerosis and nitroxidative stress.. Proc Natl Acad Sci U S A. 112(43):E5834-43.
Ginsberg M, James D, Ding B-S, Nolan D, Geng F, Butler JM, Schachterle W, Pulijaal VR, Mathew S, Chasen ST et al..  2012.  Efficient direct reprogramming of mature amniotic cells into endothelial cells by ETS factors and TGFβ suppression.. Cell. 151(3):559-75.
Ginsberg M, James D, Ding B-S, Nolan D, Geng F, Butler JM, Schachterle W, Pulijaal VR, Mathew S, Chasen ST et al..  2012.  Efficient direct reprogramming of mature amniotic cells into endothelial cells by ETS factors and TGFβ suppression.. Cell. 151(3):559-75.
Ginsberg M, James D, Ding B-S, Nolan D, Geng F, Butler JM, Schachterle W, Pulijaal VR, Mathew S, Chasen ST et al..  2012.  Efficient direct reprogramming of mature amniotic cells into endothelial cells by ETS factors and TGFβ suppression.. Cell. 151(3):559-75.