#Co-corresponding author *Equal contribution

(12) Lawrence R, Shoemaker S*, Deal A*, Sangwan S, Anand A, Wang L#, Marqusee S#, Walter P# A central helical fulcrum in eIF2B coordinates allosteric regulation of Integrated Stress Response signaling. Nat. Chem. Biol; (2023) https://www.nature.com/articles/s41589-023-01453-9

(11) Subramanian A*, Wang L*, Moss T, Voorhies M, Sangwan S, Stevenson E, Pulido E, Kwok S, Krogan N, Swaney D, Floor S, Sil A, Walter P# and Mukherjee S#  A Legionella toxin mimics tRNA and glycosylates the translation machinery to trigger a ribotoxic stress response. Nat. Cell Biol. (2023) https://www.nature.com/articles/s41556-023-01248-z featured by media of the UCSF Quantitative Biosciences Institute (https://youtu.be/51fttPlGil0) and Phys.org: (https://phys.org/news/2023-12-pathogenic-bacterium-molecular-mimicry-compromise.html)

(10) Wang L#*, Toutkoushian H*, Belyy V, Kokontis C, Walter P#: Conserved structural elements specialize  ATAD1 as a membrane protein extraction machine. eLife https://doi.org/10.7554/eLife.73941

(9) Boone M*, Wang L*, Frost A, Lawrence R, Walter P#, Schoof M#: A point mutation in the nucleotide exchange factor eIF2B constitutively activates the integrated stress response by allosteric modulation eLife 2022;11:e76171

(8) Schoof M*, Wang L*, Lawrence R, Cogan Z, Walter P: Viral Evasion of the Integrated Stress Response Through eIF2-P Mimicry Nat. Commun. (2021) 12:7103

(7) Schoof M, Boone M*, Wang L*, Lawrence R*, Frost A and Walter P: eIF2B Conformation and Assembly State Regulate the Integrated Stress Response eLife 2021;10:e65703

(6) Wang L, Walter P: Msp1/ATAD1 in Protein Quality Control and Regulation of Synaptic Plasticity Annu. Rev. Cell Dev. Biol. 2020, 36:141-164

(5) Wang L, Myasnikov A, Pan X, Walter P: Structure of the AAA protein Msp1 reveals mechanism of mislocalized membrane protein extraction eLife 2020;9:e54031* *Recommended by F1000Prime: https://f1000.com/prime/737285485?bd=1

(4) Wang L, Chakravarthy S, Verdine GL: Structural basis for the lesion-searching mechanism of the bacterial MutY adenine DNA glycosylase Journal of Biological Chemistry 2017, 292, 5007-5017

(3) Wang L, Lee SJ, Verdine, GL: Structural basis for the avoidance of promutagenic DNA repair by MutY adenine DNA glycosylase Journal of Biological Chemistry 2015, 290 (28), 17096-105* *Selected in JBC virtual issue: DNA Polymerases, Damage and Repair

(2) Wang L, Liu Q, Chen J, Cui Y, Zhou B, Chen Y, Zhao Y and Li Y:  Antimicrobial activity of human islet amyloid polypeptides: an insight into amyloid peptides’ connection with antimicrobial peptides Biological Chemistry 2012, 393, 641-646

(1) Yan X, Yu B, Wang L, Tang N, and Xi C: Reactivity of [(2-Phosphino)ethenyl] zirconocene Chloride toward CpM(CO)3Cl (M=Mo, W): Formation of [(3-Phosphino)propenoyl] dicarbonyl (cyclopentadienyl) metal, {CpM(CO)2[(CO)CRdCRPPh2]} Organometallics 2009, 28, 6827-6830