Molecular Basis of the Interaction ofSalmonella with the Intestinal Mucosa KH Darwin, VL Miller Clinical microbiology reviews 12 (3), 405-428, 1999 | 679 | 1999 |
The proteasome of Mycobacterium tuberculosis is required for resistance to nitric oxide KH Darwin, S Ehrt, JC Gutierrez-Ramos, N Weich, CF Nathan Science 302 (5652), 1963-1966, 2003 | 623 | 2003 |
Ubiquitin-like protein involved in the proteasome pathway of Mycobacterium tuberculosis MJ Pearce, J Mintseris, J Ferreyra, SP Gygi, KH Darwin Science 322 (5904), 1104-1107, 2008 | 453 | 2008 |
Copper in microbial pathogenesis: meddling with the metal MI Samanovic, C Ding, DJ Thiele, KH Darwin Cell host & microbe 11 (2), 106-115, 2012 | 304 | 2012 |
Type III secretion chaperone‐dependent regulation: activation of virulence genes by SicA and InvF in Salmonella typhimurium KH Darwin, VL Miller The EMBO journal, 2001 | 297 | 2001 |
InvF Is Required for Expression of Genes Encoding Proteins Secreted by the SPI1 Type III Secretion Apparatus inSalmonella typhimurium K Heran Darwin, VL Miller Journal of bacteriology 181 (16), 4949-4954, 1999 | 228 | 1999 |
A novel copper‐responsive regulon in Mycobacterium tuberculosis RA Festa, MB Jones, S Butler‐Wu, D Sinsimer, R Gerads, WR Bishai, ... Molecular microbiology 79 (1), 133-148, 2011 | 183 | 2011 |
A glutamate‐alanine‐leucine (EAL) domain protein of Salmonella controls bacterial survival in mice, antioxidant defence and killing of macrophages: role of cyclic … KB Hisert, M MacCoss, MU Shiloh, KH Darwin, S Singh, RA Jones, S Ehrt, ... Molecular microbiology 56 (5), 1234-1245, 2005 | 183 | 2005 |
The putative invasion protein chaperone SicA acts together with InvF to activate the expression of Salmonella typhimurium virulence genes KH Darwin, VL Miller Molecular microbiology 35 (4), 949-960, 2000 | 176 | 2000 |
Prokayrotic ubiquitin-like protein (Pup) proteome of Mycobacterium tuberculosis RA Festa, F McAllister, MJ Pearce, J Mintseris, KE Burns, SP Gygi, ... PloS one 5 (1), e8589, 2010 | 171 | 2010 |
Role for Nucleotide Excision Repair in Virulence of Mycobacterium tuberculosis KH Darwin, CF Nathan Infection and immunity 73 (8), 4581-4587, 2005 | 155 | 2005 |
Characterization of a Mycobacterium tuberculosis proteasomal ATPase homologue KH Darwin, G Lin, Z Chen, H Li, CF Nathan Molecular microbiology 55 (2), 561-571, 2005 | 155 | 2005 |
Identification of a Novel SalmonellaInvasion Locus Homologous to Shigella ipgDE KH Hong, VL Miller Journal of Bacteriology 180 (7), 1793-1802, 1998 | 155 | 1998 |
Self‐compartmentalized bacterial proteases and pathogenesis SM Butler, RA Festa, MJ Pearce, KH Darwin Molecular microbiology 60 (3), 553-562, 2006 | 142 | 2006 |
Type I interferon-driven susceptibility to Mycobacterium tuberculosis is mediated by IL-1Ra DX Ji, LH Yamashiro, KJ Chen, N Mukaida, I Kramnik, KH Darwin, ... Nature microbiology 4 (12), 2128-2135, 2019 | 135 | 2019 |
Binding-induced folding of prokaryotic ubiquitin-like protein on the Mycobacterium proteasomal ATPase targets substrates for degradation T Wang, KH Darwin, H Li Nature structural & molecular biology 17 (11), 1352-1357, 2010 | 133 | 2010 |
Identification of substrates of the Mycobacterium tuberculosis proteasome MJ Pearce, P Arora, RA Festa, SM Butler‐Wu, RS Gokhale, KH Darwin The EMBO journal 25 (22), 5423-5432, 2006 | 131 | 2006 |
“Depupylation” of prokaryotic ubiquitin-like protein from mycobacterial proteasome substrates KE Burns, FA Cerda-Maira, T Wang, H Li, WR Bishai, KH Darwin Molecular cell 39 (5), 821-827, 2010 | 130 | 2010 |
Prokaryotic ubiquitin-like protein pup is intrinsically disordered X Chen, WC Solomon, Y Kang, F Cerda-Maira, KH Darwin, KJ Walters Journal of molecular biology 392 (1), 208-217, 2009 | 122 | 2009 |
Prokaryotic ubiquitin-like protein (Pup), proteasomes and pathogenesis KH Darwin Nature Reviews Microbiology 7 (7), 485-491, 2009 | 120 | 2009 |