By Professor Ewa Magdalena Goldys

Conference Abstracts

Saad S; Habibalahi A; Campbell JM; Mahbub SB; Anwer AG; Nguyen LT; Gill AJ; Wong M-G; Chou A; Goldys EM; Pollock CA, 2022, 'EXAMINING URINARY EXFOLIATED PROXIMAL TUBULE CELLS BY MORPHOLOGY-DEEP LEARNING IMAGING CELLS (RELIC) TO ASSESS KIDNEY PATHOLOGY', in NEPHROLOGY, WILEY, Vol. 27, pp. 28 - 29, https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000864433100048&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=891bb5ab6ba270e68a29b250adbe88d1

Guller A; Clement S; Goldys E, 2022, 'IMMUNOMODULATORY AND PRO-REGENERATIVE EFFECTS OF STRONG PULSED MAGNETIC FIELDS: THE IMPLICATIONS FOR BRAIN REPAIR', in TISSUE ENGINEERING PART A, MARY ANN LIEBERT, INC, Vol. 28, pp. S208 - S208, https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000821187300623&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=891bb5ab6ba270e68a29b250adbe88d1

Chen W; Zhao X; Deng W; Vo JN; Goldys EM; Cui H, 2017, 'MAGNETICALLY AND PHOTOCHEMICALLY TRIGGERED NANOMATERIAL PLATFORMS FOR NON-VIRAL DNA DELIVERY', in JOURNAL OF GENE MEDICINE, WILEY, AUSTRALIA, Univ Technol Sydney, Sydney, Vol. 20, presented at Joint 10th Annual Scientific Meeting of the Australian-Gene-and-Cell-Therapy-Society (AGCTS) and Australasian-Society-for-Stem-Cell-Research (ASSCR), AUSTRALIA, Univ Technol Sydney, Sydney, 24 May 2017 - 26 May 2017, https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000426528300050&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=891bb5ab6ba270e68a29b250adbe88d1

Chen W; Deng W; Vo J; Goldys EM, 2017, 'Enhanced Plasmid DNA Delivery from Photo-Triggered Stealth Liposomes', in MOLECULAR THERAPY, CELL PRESS, DC, Washington, Vol. 25, pp. 220 - 220, presented at 20th Annual Meeting of the American-Society-of-Gene-and-Cell-Therapy (ASGCT), DC, Washington, 10 May 2017 - 13 May 2017, https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000401083600474&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=891bb5ab6ba270e68a29b250adbe88d1

Chen W; Deng W; Zhao X; Vo JN; Goldys EM; Cui H, 2017, 'Photochemically activated liposomal platform for enhanced nuclei acids delivery', in HUMAN GENE THERAPY, MARY ANN LIEBERT, INC, GERMANY, Berlin, Vol. 28, pp. A122 - A123, presented at European-Society-of-Gene-and-Cell-Therapy (ESCGT) Congress, GERMANY, Berlin, https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000418410700391&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=891bb5ab6ba270e68a29b250adbe88d1

Working Papers

Thejer B; Adhikary P; Kaur A; Teakel S; Oosterum AV; Seth I; Pajic M; Hannan K; Pavy M; Poh P; Jazayeri J; Zaw T; Pascovici D; Ludescher M; Pawlak M; Cassano J; Turnbull L; Jazayeri M; James A; Coorey C; Roberts T; Kinder S; Hannan R; Patrick E; Molloy M; J E; Fehm T; Neubauer H; Goldys E; Weston L; CAHILL M, 2020, PGRMC1 phosphorylation affects cell shape, motility, glycolysis, mitochondrial form and function, and tumor growth, http://dx.doi.org10.21203/rs.2.22342/v3

Bertoldo MJ; Listijono DR; Ho W-HJ; Riepsamen AH; Jin XL; Selesniemi K; Goss DM; Mahbub S; Campbell JM; Habibalahi A; Loh W-GN; Youngson NA; Maniam J; Wong ASA; Richani D; Li C; Zhao Y; Marinova M; Kim L-J; Lau L; Wu RM; Mikolaizak AS; Araki T; Le Couteur DG; Turner N; Morris MJ; Walters KA; Goldys E; O’Neill C; Gilchrist RB; Sinclair DA; Homer HA; Wu LE, 2019, NAD+ repletion rescues female fertility during reproductive ageing, Cold Spring Harbor Laboratory, http://dx.doi.org10.1101/721985

Thejer B; Adhikary P; Kaur A; Teakel S; Van Oosterum A; Seth I; Pajic M; Hannan K; Pavy M; Poh P; Jazayeri J; Zaw T; Pascovici D; Ludescher M; Pawlak M; Cassano J; Turnbull L; Jazayeri M; James A; Coorey C; Roberts T; Kinder S; Hannan R; Patrick E; Molloy M; New E; Fehm T; Neubauer H; Goldys E; Weston L; Cahill M, 2019, PGRMC1 phosphorylation and cell plasticity 1: glycolysis, mitochondria, tumor growth, http://dx.doi.org10.1101/737718

Preprints

Deng F; Sang R; Li Y; Yang D; Deng W; Goldys E, 2024, Towards Understanding Trans-Cleavage of Natural and Synthetic Nucleic Acids by Cas12a for Sensitive CRISPR Biosensing, , http://dx.doi.org/10.26434/chemrxiv-2024-rw2rr

Chia S; Guo T; Goldys E; Payne S; Lovell N; Shivdasani M; Deng F, 2024, A CRISPR mediated point-of-care assay for the detection of mucosal calprotectin in an animal model of ulcerative colitis, , http://dx.doi.org/10.1101/2024.03.23.24304787

Deng F; Sang R; Li Y; Yang B; Zhai X; Xue R; Zhang C; Deng W; Goldys E, 2024, Hairpin-locker mediated CRISPR/Cas tandem system for ultrasensitive detection of DNA without pre-amplification, , http://dx.doi.org/10.1101/2024.03.05.583466

Xie Y; Habibalahi A; Anwer A; Wahi K; Gatt C; Johansson E; Holst J; Goldys E; Zanini F, 2024, Integration of hyperspectral imaging and transcriptomics from individual cells with HyperSeq, , http://dx.doi.org/10.1101/2024.01.27.577536

Deng F; Gulati S; Sang R; Li Y; Goldys E, 2024, Modulating Cas13atrans-cleavage by double strand RNA: Application to the development of an autocatalytic sensor, , http://dx.doi.org/10.1101/2024.03.05.583472

Li Y; Yang B; Deng F; Goldys E, 2023, Topological barrier to Cas12a activation by circular DNA nanostructures facilitates autocatalysis, , http://dx.doi.org/10.21203/rs.3.rs-2586294/v1

Knab A; Anwer AG; Pedersen B; Handley S; Marupally AG; Habibalahi A; Goldys EM, 2023, Towards label-free non-invasive autofluorescence multispectral imaging for melanoma diagnosis, , http://dx.doi.org/10.1101/2023.09.25.559240

Deng F; Sang R; Li Y; Deng W; Goldys E, 2023, Bifunctional circular DNA amplifier transforms a classic CRISPR/Cas sensor into an ultrasensitive autocatalytic sensor, , http://dx.doi.org/10.21203/rs.3.rs-2626952/v1

Richani D; Poljak A; Wang B; Mahbub SB; Biazik J; Campbell JM; Habibalahi A; Stocker WA; Marinova MB; Nixon B; Bustamante S; Skerrett-Byrne D; Harrison CA; Goldys E; Gilchrist RB, 2022, Oocyte and cumulus cell cooperativity and metabolic plasticity under the direction of oocyte paracrine factors, , http://dx.doi.org/10.1101/2022.09.05.506599

Habibalahi A; Campbell JM; Mahbub SB; Anwer AG; Nguyen LT; Gill AJ; Wong MG; Chou A; Pollock CA; Saad S; Goldys EM, 2022, moRphology - dEep Learning Imaging Cells (RELIC) - to Differentiate Between Normal and Pathological Kidney Exfoliated Cells, , http://dx.doi.org/10.1101/2022.04.19.488847

Campbell J; Walters S; Habibalahi A; Mahbib S; Anwer A; Grey S; Goldys E, 2022, Autofluorophores Assessed by Hyperspectral Microscopy Indicate Perturbation and Transplant Viability in Pancreatic Islets, , http://dx.doi.org/10.21203/rs.3.rs-2058969/v1

Habibalahi A; Campbell J; Tan TCY; Mahbub S; Rose R; Mustafa S; Dunning K; Goldys E, 2022, Automated identification of aneuploid cells within the inner cell mass of an embryo using a numerical extraction of morphological signatures, , http://dx.doi.org/10.1101/2022.09.06.506861

Habibalahi A; Moses D; Campbell J; Mahbub S; Barbour AP; Samra JS; Haghighi KS; Gebski VJ; Goldstein D; Goldys E, 2021, Computed Tomography Radiomics Signatures: Sensitive biomarkers for clinical decision support in pancreatic cancer- a pilot study, , http://dx.doi.org/10.1101/2021.12.03.21267217

Guller A; Kuschnerus I; Rozova V; Nadort A; Yao Y; Khabir Z; Garcia-Bennett A; Liang LO; Polikarpova A; Qian Y; Goldys EM; Zvyagin A, 2021, Chick Embryo Experimental Platform for 3D Tissue Engineering Modelling of Cancer Micrometastases for Tumor Biology, Drug Development and Nanomaterials Testing, , http://dx.doi.org/10.20944/preprints202109.0085.v1

Habibalahi A; Bertoldo M; Mahbub S; Campbell J; Goss D; Ledger W; Gilchrist R; Wu L; Goldys E, 2021, NMN treatment reverses unique deep radiomic signature morphology of oocytes from aged mice, , http://dx.doi.org/10.21203/rs.3.rs-951364/v1

Thejer BM; Adhikary PP; Kaur A; Teakel SL; Oosterum AV; Seth I; Pajic M; Hannan KM; Pavy M; Poh P; Jazayeri JA; Zaw T; Pascovici D; Ludescher M; Pawlak M; Cassano JC; Turnbull L; Jazayeri M; James AC; Coorey CP; Roberts TL; Kinder SJ; Hannan RD; Patrick E; Molloy MP; J. E; Fehm TN; Neubauer H; Goldys EM; Weston LA; CAHILL M, 2020, PGRMC1 phosphorylation affects cell shape, motility, glycolysis, mitochondrial form and function, and tumor growth, , http://dx.doi.org/10.21203/rs.2.22342/v2

Thejer BM; Adhikary PP; Kaur A; Teakel SL; Oosterum AV; Seth I; Pajic M; Hannan KM; Pavy M; Poh P; Jazayeri JA; Zaw T; Pascovici D; Ludescher M; Pawlak M; Cassano JC; Turnbull L; Jazayeri M; James AC; Coorey CP; Roberts TL; Kinder SJ; Hannan RD; Patrick E; Molloy MP; J. E; Fehm TN; Neubauer H; Goldys EM; Weston LA; CAHILL M, 2020, PGRMC1 phosphorylation affects cell shape, motility, glycolysis, mitochondrial form and function, and tumor growth, , http://dx.doi.org/10.21203/rs.2.22342/v1

Thejer BM; Adhikary PP; Teakel SL; Fang J; Weston PA; Gurusinghe S; Anwer AG; Gosnell M; Jazayeri JA; Ludescher M; Gray L-A; Pawlak M; Wallace RH; Pant SD; Wong M; Fischer T; J. E; Fehm TN; Neubauer H; Goldys EM; Quinn JC; Weston LA; CAHILL M, 2020, PGRMC1 effects on metabolism, genomic mutation and CpG methylation imply crucial roles in animal biology and disease, , http://dx.doi.org/10.21203/rs.2.20008/v1

Kelf TA; Sreenivasan VKA; Sun J; Kim EJ; Goldys EM; Zvyagin AV, 2010, Non-specific cellular uptake of surface-functionalized quantum dots, , http://dx.doi.org/10.48550/arxiv.1006.5497

Li Y; Deng F; Goldys EM, A Simple and Versatile Crispr/Cas12a-Based Immunosensing Platform: Towards Attomolar Level Sensitivity for Small Protein Diagnostics, , http://dx.doi.org/10.2139/ssrn.4047902

Deng F; Li Y; Li B; Goldys EM, Increasing Trans-Cleavage Catalytic Efficiency of Cas12a and Cas13a with Chemical Enhancers Enables Amplified Nucleic Acid Detection, , http://dx.doi.org/10.2139/ssrn.4091242

Back to profile page