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2024

Journal Article

Revealing molecular determinants governing mambalgin-3 pharmacology at acid-sensing ion channel 1 variants

Cristofori-Armstrong, Ben, Budusan, Elena, Smith, Jennifer J., Reynaud, Steve, Voll, Kerstin, Chassagnon, Irène R., Durek, Thomas and Rash, Lachlan D. (2024). Revealing molecular determinants governing mambalgin-3 pharmacology at acid-sensing ion channel 1 variants. Cellular and Molecular Life Sciences, 81 (1) 266, 266. doi: 10.1007/s00018-024-05276-2

Revealing molecular determinants governing mambalgin-3 pharmacology at acid-sensing ion channel 1 variants

2024

Journal Article

The funnel-web spider venom derived single knot peptide Hc3a modulates acid-sensing ion channel 1a desensitisation

Budusan, Elena, Payne, Colton D., Gonzalez, Tye I., Obergrussberger, Alison, Becker, Nadine, Clark, Richard J., Rosengren, K. Johan, Rash, Lachlan D. and Cristofori-Armstrong, Ben (2024). The funnel-web spider venom derived single knot peptide Hc3a modulates acid-sensing ion channel 1a desensitisation. Biochemical Pharmacology, 228 116175, 1-12. doi: 10.1016/j.bcp.2024.116175

The funnel-web spider venom derived single knot peptide Hc3a modulates acid-sensing ion channel 1a desensitisation

2024

Journal Article

Hi1a improves sensorimotor deficit following endothelin-1-induced stroke in rats but does not improve functional outcomes following filament-induced stroke in mice

Knezic, Adriana, Budusan, Elena, Saez, Natalie J., Broughton, Brad R. S., Rash, Lachlan D., King, Glenn F., Widdop, Robert E. and McCarthy, Claudia A. (2024). Hi1a improves sensorimotor deficit following endothelin-1-induced stroke in rats but does not improve functional outcomes following filament-induced stroke in mice. ACS Pharmacology and Translational Science, 7 (4), 1043-1054. doi: 10.1021/acsptsci.3c00328

Hi1a improves sensorimotor deficit following endothelin-1-induced stroke in rats but does not improve functional outcomes following filament-induced stroke in mice

2023

Journal Article

Evaluation of peptide ligation strategies for the synthesis of the bivalent acid-sensing ion channel inhibitor Hi1a

Tran, Hue N. T., Budusan, Elena, Saez, Natalie J., Norman, Alexander, Tucker, Isaac J., King, Glenn F., Payne, Richard J., Rash, Lachlan D., Vetter, Irina and Schroeder, Christina I. (2023). Evaluation of peptide ligation strategies for the synthesis of the bivalent acid-sensing ion channel inhibitor Hi1a. Organic Letters, 25 (24), 4439-4444. doi: 10.1021/acs.orglett.3c01346

Evaluation of peptide ligation strategies for the synthesis of the bivalent acid-sensing ion channel inhibitor Hi1a

2021

Journal Article

Total synthesis of the spider-venom peptide Hi1a

Duggan, Nisharnthi M., Saez, Natalie J., Clayton, Daniel, Budusan, Elena, Watson, Emma E., Tucker, Isaac J., Rash, Lachlan D., King, Glenn F. and Payne, Richard J. (2021). Total synthesis of the spider-venom peptide Hi1a. Organic Letters, 23 (21) acs.orglett.1c03112, 8375-8379. doi: 10.1021/acs.orglett.1c03112

Total synthesis of the spider-venom peptide Hi1a

2021

Journal Article

Mambalgin-3 potentiates human acid-sensing ion channel 1b under mild to moderate acidosis: implications as an analgesic lead

Cristofori-Armstrong, Ben, Budusan, Elena and Rash, Lachlan D. (2021). Mambalgin-3 potentiates human acid-sensing ion channel 1b under mild to moderate acidosis: implications as an analgesic lead. Proceedings of the National Academy of Sciences, 118 (8) e2021581118, 1-3. doi: 10.1073/pnas.2021581118

Mambalgin-3 potentiates human acid-sensing ion channel 1b under mild to moderate acidosis: implications as an analgesic lead

2017

Journal Article

CRISPR-UMI : single-cell lineage tracing of pooled CRISPR-Cas9 screens

Michlits, Georg, Hubmann, Maria, Wu, Szu-Hsien, Vainorius, Gintautas, Budusan, Elena, Zhuk, Sergei, Burkard, Thomas R., Novatchkova, Maria, Aichinger, Martin, Lu, Yiqing, Reece-Hoyes, John, Nitsch, Roberto, Schramek, Daniel, Hoepfner, Dominic and Elling, Ulrich (2017). CRISPR-UMI : single-cell lineage tracing of pooled CRISPR-Cas9 screens. Nature Methods, 14 (12), 1191-1201. doi: 10.1038/nmeth.4466

CRISPR-UMI : single-cell lineage tracing of pooled CRISPR-Cas9 screens