| Molecular basis of nitrate uptake by the plant nitrate transporter NRT1. 1 JL Parker, S Newstead Nature 507 (7490), 68-72, 2014 | 390 | 2014 |
| MemProtMD: automated insertion of membrane protein structures into explicit lipid membranes PJ Stansfeld, JE Goose, M Caffrey, EP Carpenter, JL Parker, S Newstead, ... Structure 23 (7), 1350-1361, 2015 | 273 | 2015 |
| REV1 protein interacts with PCNA: significance of the REV1 BRCT domain in vitro and in vivo C Guo, E Sonoda, TS Tang, JL Parker, AB Bielen, S Takeda, HD Ulrich, ... Molecular cell 23 (2), 265-271, 2006 | 272 | 2006 |
| Ubiquitin-binding motifs in REV1 protein are required for its role in the tolerance of DNA damage C Guo, TS Tang, M Bienko, JL Parker, AB Bielen, E Sonoda, S Takeda, ... Molecular and cellular biology 26 (23), 8892-8900, 2006 | 257 | 2006 |
| Contributions of ubiquitin- and PCNA-binding domains to the activity of Polymerase η in Saccharomyces cerevisiae JL Parker, AB Bielen, I Dikic, HD Ulrich Nucleic acids research 35 (3), 881-889, 2007 | 130 | 2007 |
| Mechanistic analysis of PCNA poly‐ubiquitylation by the ubiquitin protein ligases Rad18 and Rad5 JL Parker, HD Ulrich The EMBO journal 28 (23), 3657-3666, 2009 | 129 | 2009 |
| Structural basis for pH-dependent retrieval of ER proteins from the Golgi by the KDEL receptor P Bräuer, JL Parker, A Gerondopoulos, I Zimmermann, MA Seeger, ... Science 363 (6431), 1103-1107, 2019 | 119 | 2019 |
| Structural basis for amino acid transport by the CAT family of SLC7 transporters KEJ Jungnickel, JL Parker, S Newstead Nature communications 9 (1), 1-12, 2018 | 112 | 2018 |
| Structural basis for polyspecificity in the POT family of proton‐coupled oligopeptide transporters JA Lyons, JL Parker, N Solcan, A Brinth, D Li, STA Shah, M Caffrey, ... EMBO reports 15 (8), 886-893, 2014 | 112 | 2014 |
| SUMO modification of PCNA is controlled by DNA JL Parker, A Bucceri, AA Davies, K Heidrich, H Windecker, HD Ulrich The EMBO journal 27 (18), 2422-2431, 2008 | 104 | 2008 |
| Molecular basis for redox control by the human cystine/glutamate antiporter system xc− JL Parker, JC Deme, D Kolokouris, G Kuteyi, PC Biggin, SM Lea, ... Nature communications 12 (1), 1-11, 2021 | 98 | 2021 |
| A SUMO-interacting motif activates budding yeast ubiquitin ligase Rad18 towards SUMO-modified PCNA JL Parker, HD Ulrich Nucleic acids research 40 (22), 11380-11388, 2012 | 96 | 2012 |
| Current trends in α‐helical membrane protein crystallization: an update JL Parker, S Newstead Protein Science 21 (9), 1358-1365, 2012 | 95 | 2012 |
| Proton movement and coupling in the POT family of peptide transporters JL Parker, C Li, A Brinth, Z Wang, L Vogeley, N Solcan, ... Proceedings of the National Academy of Sciences 114 (50), 13182-13187, 2017 | 77 | 2017 |
| Structural basis of nucleotide sugar transport across the Golgi membrane JL Parker, S Newstead Nature 551 (7681), 521, 2017 | 74 | 2017 |
| Membrane protein crystallisation: Current trends and future perspectives JL Parker, S Newstead The Next Generation in Membrane Protein Structure Determination, 61-72, 2016 | 72 | 2016 |
| Thermodynamic evidence for a dual transport mechanism in a POT peptide transporter JL Parker, JA Mindell, S Newstead Elife 3, e04273, 2014 | 68 | 2014 |
| The genome maintenance factor Mgs1 is targeted to sites of replication stress by ubiquitylated PCNA I Saugar, JL Parker, S Zhao, HD Ulrich Nucleic acids research 40 (1), 245-257, 2011 | 67 | 2011 |
| Kynurenine importation by SLC7A11 propagates anti-ferroptotic signaling A Fiore, L Zeitler, M Russier, A Groß, MK Hiller, JL Parker, L Stier, ... Molecular Cell 82 (5), 920-932. e7, 2022 | 56 | 2022 |
| Crystal structures of the extracellular domain from PepT1 and PepT2 provide novel insights into mammalian peptide transport JH Beale, JL Parker, F Samsudin, AL Barrett, A Senan, LE Bird, D Scott, ... Structure 23 (10), 1889-1899, 2015 | 53 | 2015 |
