Microbiology and Immunology

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Journal Article
Chen Y-W, Wang H, Hupert M, Witek M, Dharmasiri U, Pingle MR, Barany F, Soper SA.  2012.  Modular microfluidic system fabricated in thermoplastics for the strain-specific detection of bacterial pathogens.. Lab Chip. 12(18):3348-55.
Coloma J, Gonzalez-Rodriguez N, Balaguer FA, Gmurczyk K, Aicart-Ramos C, Nuero ÓM, Luque-Ortega JRomán, Calugaru K, Lue NF, Moreno-Herrero F et al..  2023.  Molecular architecture and oligomerization of Candida glabrata Cdc13 underpin its telomeric DNA-binding and unfolding activity.. Nucleic Acids Res. 51(2):668-686.
Coloma J, Gonzalez-Rodriguez N, Balaguer FA, Gmurczyk K, Aicart-Ramos C, Nuero ÓM, Luque-Ortega JRomán, Calugaru K, Lue NF, Moreno-Herrero F et al..  2023.  Molecular architecture and oligomerization of Candida glabrata Cdc13 underpin its telomeric DNA-binding and unfolding activity.. Nucleic Acids Res. 51(2):668-686.
Behrens A-J, Harvey DJ, Milne E, Cupo A, Kumar A, Zitzmann N, Struwe WB, Moore JP, Crispin M.  2017.  Molecular Architecture of the Cleavage-Dependent Mannose Patch on a Soluble HIV-1 Envelope Glycoprotein Trimer.. J Virol. 91(2)
Behrens A-J, Harvey DJ, Milne E, Cupo A, Kumar A, Zitzmann N, Struwe WB, Moore JP, Crispin M.  2017.  Molecular Architecture of the Cleavage-Dependent Mannose Patch on a Soluble HIV-1 Envelope Glycoprotein Trimer.. J Virol. 91(2)
Deitsch KW, Chitnis CE.  2012.  Molecular basis of severe malaria.. Proc Natl Acad Sci U S A. 109(26):10130-1.
Schneider S, Campodonico E, Schwer B.  2004.  Motifs IV and V in the DEAH box splicing factor Prp22 are important for RNA unwinding, and helicase-defective Prp22 mutants are suppressed by Prp8.. J Biol Chem. 279(10):8617-26.
Dahlseid JN, Lew-Smith J, Lelivelt MJ, Enomoto S, Ford A, Desruisseaux M, McClellan M, Lue N, Culbertson MR, Berman J.  2003.  mRNAs encoding telomerase components and regulators are controlled by UPF genes in Saccharomyces cerevisiae.. Eukaryot Cell. 2(1):134-42.
Cheng Y-W, Shawber C, Notterman D, Paty P, Barany F.  2006.  Multiplexed profiling of candidate genes for CpG island methylation status using a flexible PCR/LDR/Universal Array assay.. Genome Res. 16(2):282-9.
Fidock DA, Nomura T, Talley AK, Cooper RA, Dzekunov SM, Ferdig MT, Ursos LM, Sidhu AB, Naudé B, Deitsch KW et al..  2000.  Mutations in the P. falciparum digestive vacuole transmembrane protein PfCRT and evidence for their role in chloroquine resistance.. Mol Cell. 6(4):861-71.
Gouzy A, Larrouy-Maumus G, Bottai D, Levillain F, Dumas A, Wallach JB, Caire-Brandli I, de Chastellier C, Di Wu T-, Poincloux R et al..  2014.  Mycobacterium tuberculosis exploits asparagine to assimilate nitrogen and resist acid stress during infection.. PLoS Pathog. 10(2):e1003928.
Ottavi S, Li K, Cacioppo JG, Perkowski AJ, Ramesh R, Gold BS, Ling Y, Roberts J, Singh A, Zhang D et al..  2023.  Mycobacterium tuberculosis PptT Inhibitors Based on Heterocyclic Replacements of Amidinoureas.. ACS Med Chem Lett. 14(7):970-976.
Buter J, Cheng T-Y, Ghanem M, Grootemaat AE, Raman S, Feng X, Plantijn AR, Ennis T, Wang J, Cotton RN et al..  2019.  Mycobacterium tuberculosis releases an antacid that remodels phagosomes.. Nat Chem Biol. 15(9):889-899.
Buter J, Cheng T-Y, Ghanem M, Grootemaat AE, Raman S, Feng X, Plantijn AR, Ennis T, Wang J, Cotton RN et al..  2019.  Mycobacterium tuberculosis releases an antacid that remodels phagosomes.. Nat Chem Biol. 15(9):889-899.
Buter J, Cheng T-Y, Ghanem M, Grootemaat AE, Raman S, Feng X, Plantijn AR, Ennis T, Wang J, Cotton RN et al..  2019.  Mycobacterium tuberculosis releases an antacid that remodels phagosomes.. Nat Chem Biol. 15(9):889-899.
Freire DMendes, Gutierrez C, Garza-Garcia A, Grabowska AD, Sala AJ, Ariyachaokun K, Panikova T, Beckham KSH, Colom A, Pogenberg V et al..  2019.  An NAD Phosphorylase Toxin Triggers Mycobacterium tuberculosis Cell Death.. Mol Cell. 73(6):1282-1291.e8.
Freire DMendes, Gutierrez C, Garza-Garcia A, Grabowska AD, Sala AJ, Ariyachaokun K, Panikova T, Beckham KSH, Colom A, Pogenberg V et al..  2019.  An NAD Phosphorylase Toxin Triggers Mycobacterium tuberculosis Cell Death.. Mol Cell. 73(6):1282-1291.e8.
Lin G, Chidawanyika T, Tsu C, Warrier T, Vaubourgeix J, Blackburn C, Gigstad K, Sintchak M, Dick L, Nathan C.  2013.  N,C-Capped dipeptides with selectivity for mycobacterial proteasome over human proteasomes: role of S3 and S1 binding pockets.. J Am Chem Soc. 135(27):9968-71.
Tan MPing, Sequeira P, Lin WWei, Phong WYee, Cliff P, Ng SHwee, Lee BHeng, Camacho L, Schnappinger D, Ehrt S et al..  2010.  Nitrate respiration protects hypoxic Mycobacterium tuberculosis against acid- and reactive nitrogen species stresses.. PLoS One. 5(10):e13356.
Tan MPing, Sequeira P, Lin WWei, Phong WYee, Cliff P, Ng SHwee, Lee BHeng, Camacho L, Schnappinger D, Ehrt S et al..  2010.  Nitrate respiration protects hypoxic Mycobacterium tuberculosis against acid- and reactive nitrogen species stresses.. PLoS One. 5(10):e13356.
Werts C, le Bourhis L, Liu J, Magalhaes JG, Carneiro LA, Fritz JH, Stockinger S, Balloy V, Chignard M, Decker T et al..  2007.  Nod1 and Nod2 induce CCL5/RANTES through the NF-kappaB pathway.. Eur J Immunol. 37(9):2499-508.
Werts C, le Bourhis L, Liu J, Magalhaes JG, Carneiro LA, Fritz JH, Stockinger S, Balloy V, Chignard M, Decker T et al..  2007.  Nod1 and Nod2 induce CCL5/RANTES through the NF-kappaB pathway.. Eur J Immunol. 37(9):2499-508.
Chen L, Xu G, Song X, Zhang L, Chen C, Xiang G, Wang S, Zhang Z, Wu F, Yang X et al..  2024.  A novel antagonist of the CCL5/CCR5 axis suppresses the tumor growth and metastasis of triple-negative breast cancer by CCR5-YAP1 regulation.. Cancer Lett. 583:216635.
Chen L, Xu G, Song X, Zhang L, Chen C, Xiang G, Wang S, Zhang Z, Wu F, Yang X et al..  2024.  A novel antagonist of the CCL5/CCR5 axis suppresses the tumor growth and metastasis of triple-negative breast cancer by CCR5-YAP1 regulation.. Cancer Lett. 583:216635.
Ehrt S, Shiloh MU, Ruan J, Choi M, Gunzburg S, Nathan C, Xie Q, Riley LW.  1997.  A novel antioxidant gene from Mycobacterium tuberculosis.. J Exp Med. 186(11):1885-96.