By Professor Edna Hardeman

Preprints

Latham SL; O’Donnell YEI; Girgis-Cook O; Clearwater MS; Bryce NS; Mok ETY; Lynn SA; Ni J; Alfred S; Leong KH; Quek L-E; Murphy KJ; Pantarelli C; Dragutinovic I; Naeini MM; Thiel C; Cadell A; Phimmachanh M; Sharma R; Millar E; Han JZR; Hastings JF; Köhler M; Brummer T; Young A; O’Toole S; Oakes SR; Hardeman E; Lock J; Kolch W; Taft MH; Nobis M; Goldstein L; Timpson P; Parker BL; Holst J; Gunning PW; Cox TR; Morris JC; Croucher DR, 2025, A selective inhibitor of oncogenic JNK signalling perturbs metastatic outgrowth of triple-negative breast cancer through metabolic blockade, http://dx.doi.org/10.1101/2025.04.16.649243

Genoud S; Chaichim C; Porto RR; Tomanic T; Stefen H; Paric E; Sarkar S; Yoo D; Gao W; Hardeman EC; Gunning PW; Karl T; Power J; Fath T, 2025, Knock-out of Tpm4.2/actin filaments alters neuronal signaling, neurite outgrowth and behavioral phenotypes in mice, http://dx.doi.org/10.1101/2025.04.10.648285

Gan WJ; Giri R; Begun J; Abud HE; Hardeman EC; Gunning PW; Yap AS; Noordstra I, 2024, A truncation mutant of adenomatous polyposis coli (APC) impairs apical cell extrusion through elevated epithelial tissue tension, http://dx.doi.org/10.1101/2024.03.06.583801

Heydecker M; Shitara A; Chen D; Tran D; Masedunskas A; Tora M; Ebrahim S; Appaduray MA; Galeano Niño JL; Bhardwaj A; Narayan K; Hardeman EC; Gunning PW; Weigert R, 2023, Spatial and Temporal Coordination of Force-generating Actin-based Modules Drives Membrane Remodeling In Vivo., http://dx.doi.org/10.1101/2023.12.04.569944

Mann Z; Lim F; Verma S; Nanavati B; Davies J; Begun J; Hardeman E; Gunning P; Subramanyam D; Yap A; Duszyc K, 2023, Pre-existing tissue mechanical hypertension at adherens junctions disrupts apoptotic extrusion in epithelia, http://dx.doi.org/10.1101/2023.08.31.555652

Zhao X; Alibhai D; Walsh T; Tarassova N; Englert M; Birol S; Li Y; Williams C; Neal C; Burkard P; Aitken E; Waller A; Ballester-Beltran J; Gunning P; Hardeman E; Agbani E; Nieswandt B; Hers I; Ghevaert C; Poole A, 2022, Highly efficient platelet generation in lung vasculature reproduced by microfluidics, http://dx.doi.org/10.21203/rs.3.rs-2306404/v1

Redpath GMI; Rae J; Yao Y; Ruan J; Cagigas ML; Whan R; Hardeman EC; Gunning PW; Ananthanarayanan V; Parton RG; Ariotti NA, 2022, Precision super-resolution cryo-correlative light and electron microscopy for rapidin situstructural analyses of optogenetically-positioned organelles, http://dx.doi.org/10.1101/2022.11.22.516823

Kokkinos J; Sharbeen G; Ignacio RM; Pandzic E; Youkhana J; Boyer C; Haghighi K; Gunawarman M; Goldstein D; Gebski V; Pajic M; Pitiyarachchi O; Davis M; Schulstad G; Arkell OSM; Kopecky C; Gonzales-Aloy E; Erkan M; Morton J; Kavallaris M; Gunning P; Hardeman E; Johns A; Gill A; Whan R; Mawson A; Australian Pancreatic Cancer Genome Initiative ; McCarroll J; Phillips P, 2022, βIII-Tubulin is a Brake on Extrinsic Cell-Death in Pancreatic Cancer, http://dx.doi.org/10.1101/2022.09.29.510034

Zhao X; Alibhai D; Walsh T; Tarassova N; Birol S; Williams C; Neil C; Aitken E; Waller A; Ballester-Beltran J; Gunning P; Hardeman E; Agbani E; Hers I; Ghevaert C; Poole A, 2021, Platelet generation from circulating megakaryocytes is triggered in the lung vasculature, http://dx.doi.org/10.1101/2021.11.01.466743

Zhao X; Alibhai D; Walsh T; Tarassova N; Birol S; Williams C; Neil C; Aitken E; Waller A; Ballester-Beltran J; Gunning P; Hardeman E; Agbani E; Hers I; Ghevaert C; Poole A, 2021, Platelet generation from circulating megakaryocytes is triggered in the lung vasculature, http://dx.doi.org/10.21203/rs.3.rs-690639/v1

Rae J; Ferguson C; Ariotti N; Webb R; Cheng H-H; Mead J; Riches J; Hunter DJB; Martel N; Baltos J; Christopoulos A; Bryce N; Cagigas ML; Fonseka S; Hardeman E; Gunning P; Gambin Y; Hall T; Parton R, 2020, APEX-Gold: A genetically-encoded particulate marker for robust 3D electron microscopy, http://dx.doi.org/10.1101/2020.10.06.328831

Yeola A; Subramanian S; Oliver R; Lucas C; Thoms J; Yan F; Olivier J; Chacon D; Tursky M; Hung T; Power C; Hardy P; Ma D; McCarroll J; Kavallaris M; Hesson L; Beck D; Curtis D; Wong JWH; Hardeman E; Walsh W; Mobbs R; Chandrakanthan V; Pimanda J, 2020, Induction of Muscle Regenerative Multipotent Stem Cells from Human Adipocytes by PDGF-AB and 5-Azacytidine, http://dx.doi.org/10.1101/2020.06.04.130872

Ross J; Levy Y; Ripolone M; Kolb J; Turmaine M; Holt M; Moggio M; Fiorillo C; Lindqvist J; Figeac N; Zammit P; Jungbluth H; Vissing J; Witting N; Granzier H; Zanoteli E; Hardeman E; Wallgren-Pettersson C; Ochala J, 2019, Impairments in contractility and cytoskeletal organisation cause nuclear defects in nemaline myopathy, http://dx.doi.org/10.1101/518522

Abouelezz A; Stefen H; Segerstråle M; Micinski D; Minkeviciene R; Hardeman E; Gunning P; Hoogenraad C; Taira T; Fath T; Hotulainen P, 2019, Tropomyosin Tpm3.1 is required to maintain the structure and function of the axon initial segment, http://dx.doi.org/10.1101/711614

Redpath GMI; Rae J; Yao Y; Ruan J; Cagigas ML; Whan R; Hardeman EC; Gunning PW; Ananthanarayanan V; Parton RG; Ariotti N, Precision Super-Resolution Cryo-Correlative Light and Electron Microscopy for Rapid <i>in situ</i> Structural Analyses of Optogenetically-Positioned Organelles, http://dx.doi.org/10.2139/ssrn.4309027

Abouelezz A; Stefen H; Segerstråle M; Micinski D; Minkeviciene R; Hardeman EC; Gunning PW; Hoogenraad CC; Taira T; Fath T; Hotulainen P, Tropomyosin Tpm3.1 is Required to Maintain the Structure and Function of the Axon Initial Segment, http://dx.doi.org/10.2139/ssrn.3448139

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