Transcription–translation coupling: direct interactions of RNA polymerase with ribosomes and ribosomal subunits H Fan, AB Conn, PB Williams, S Diggs, J Hahm, HB Gamper Jr, YM Hou, ... Nucleic acids research 45 (19), 11043-11055, 2017 | 85 | 2017 |
High-resolution laser scanning reveals plant architectures that reflect universal network design principles A Conn, UV Pedmale, J Chory, S Navlakha Cell systems 5 (1), 53-62. e3, 2017 | 50 | 2017 |
A statistical description of plant shoot architecture A Conn, UV Pedmale, J Chory, CF Stevens, S Navlakha Current biology 27 (14), 2078-2088. e3, 2017 | 47 | 2017 |
Derlin rhomboid pseudoproteases employ substrate engagement and lipid distortion to enable the retrotranslocation of ERAD membrane substrates A Nejatfard, N Wauer, S Bhaduri, A Conn, S Gourkanti, N Singh, T Kuo, ... Cell reports 37 (3), 2021 | 30 | 2021 |
Insights into genome recoding from the mechanism of a classic+ 1-frameshifting tRNA H Gamper, H Li, I Masuda, D Miklos Robkis, T Christian, AB Conn, ... Nature Communications 12 (1), 328, 2021 | 28 | 2021 |
Two old dogs, one new trick: A review of RNA polymerase and ribosome interactions during transcription-translation coupling AB Conn, S Diggs, TK Tam, GM Blaha International journal of molecular sciences 20 (10), 2595, 2019 | 24 | 2019 |
A statistical growth property of plant root architectures S Sultan, J Snider, A Conn, M Li, CN Topp, S Navlakha Plant Phenomics, 2020 | 4 | 2020 |
Network trade-offs and homeostasis in Arabidopsis shoot architectures A Conn, A Chandrasekhar, M Rongen, O Leyser, J Chory, S Navlakha PLoS computational biology 15 (9), e1007325, 2019 | 4 | 2019 |
Derlin rhomboid pseudoproteases employ substrate engagement and lipid distortion function for retrotranslocation of ER multi-spanning membrane substrates A Nejatfard, N Wauer, S Bhaduri, A Conn, S Gourkanti, N Singh, T Kuo, ... bioRxiv, 2021.06. 15.448428, 2021 | 2 | 2021 |
Single-Molecule Tracking Reveals Dynamic Regulation of Ribosomal Scanning HJ Hong, AL Zhang, AB Conn, G Blaha, SE O’Leary bioRxiv, 2023.09. 04.555162, 2023 | | 2023 |
Direct Interactions Between Bacterial Ribosomes and RNA Polymerase A Conn University of California, Riverside, 2020 | | 2020 |
Evidence for direct interaction between RNA polymerase and the small ribosomal subunit. G Blaha, S Diggs, AB Conn, P Williams, Y Wang The FASEB Journal 32, 526.24-526.24, 2018 | | 2018 |
Evidence for Direct Interactions between RNA Polymerase and Ribosomes. GM Blaha, H Fan, AB Conn, S Diggs, J Hahm, PB Williams, Y Wang The FASEB Journal 31, lb75-lb75, 2017 | | 2017 |
Tyrosine phosphorylation of BipA and its effect on the binding affinity of BipA G Blaha, A Conn, H Fan, J Hahm, S Diggs, W Preston, Y Wang The FASEB Journal 30, 1066.1-1066.1, 2016 | | 2016 |