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Associate Professor Evelyn Sattlegger staff profile picture

Contact details +6469517709

Associate Professor Evelyn Sattlegger BSc, MSc, PhD

Associate Professor in Molecular Biology

Doctoral Mentor Supervisor
School of Food Technology and Natural Sciences

The research in my group has a large variety of applications which in part are overlapping.  For example: Health: Exact knowledge of GCN2-function will help to fight disorders that involve GCN2 such as Alzheimer’s disease, other neurological disorders, rejection of organ transplants, viral defense, virulence of Eukaryotic pathogens (e.g. fungi), eating disorders, drug side effects, heart disease, cancer.  For example, we are investigating new drug targets to better fight cancer, and we have recently discovered new anti-cancer drug leads.  Biotechnology: The fact that GCN2 regulates protein synthesis, and thereby the performance of cells, this implies that knowledge of its exact function will aid in the improvement of organisms for biotechnological applications.  Also, our extensive Molecular Biology expertise has allowed us to contribute to developing molecular biology apporaches to detect disease-causing bacteria in Food.  Basic research: Our work offers opportunities to explore the fascinating complexity of protein functions and of cross-regulations of signaling pathways.  Basic knowledge forms the crucial foundation for health and applied research.  Student training:  Yeast is very easy to handle, non toxic, cheap to maintain, fast growing, and it can be used to learn a large array of techniques.  Yeast allows comprehensive studies as it is amenable to a large variety of techniques, such as molecular, biochemical, cellular and genetic techniques, all techniques used in Biotechnology, which we all employ.  Also, we are using mammalian cell lines for some of our studies.

more information can be found at 

 

Roles and Responsibilities
Research and Teaching
Group Leader for the Molecular BioSciences Group

EXPERTISE and INTERESTS
>>  Basic Biomedical Research aimed at understanding the molecular mechanisms occurring in a healthy organism, how diseases and disorders develop, and how they can be prevented or treated.  For example, we have recently discovered promising new anti-cancer drug leads  We apply a variety of techniques in the fields of Molecular Biology/Genetics, Genetics, Cell Biology, to Biochemistry, Biotechnology
>>  Applying molecular techniques in Food Microbiology, e.g. to detect disease-causing bacteria.
>>
 Teach and mentor undergraduate, postgraduate and doctoral students, and emerging researchers

More about me...View less...

Professional

Contact details

  • Ph: +6469517709
    Location: 3.11, Science Tower C
    Campus: Manawatu

Qualifications

  • Bachelor of Science - University of Hannover (1988)
  • Master of Science - University of Hannover (1992)
  • Doctor of Philosophy - University of Hannover (1996)

Certifications and Registrations

  • Licence, Mentor Supervisor, Ƶ

Research Expertise

Research Interests

> Basic Biomedical Research aimed at understanding the molecular mechanisms occurring in a healthy organism, how diseases and disorders develop, and how they can be prevented or treated.  As model organism we use mammalian cell lines and baker’s yeast (which on the cellular level is very similar to human cells) and mammalian cell lines. 

> We apply a variety of techniques in the fields of Molecular Biology/Genetics, Genetics, Cell Biology, to Biochemistry, Biotechnology. Open to collaborations.

> Applying molecular techniques in Food Microbiology and Agriculture, e.g. to detect pathogens.

> Teach and mentor undergraduate, postgraduate and doctoral students, and emerging researchers

Research Opportunities

  • MSc, BSc(hons), PGDip  (15/07/2022) Several projects available, one with MSc Scholarship, please inquire, email e.sattlegger@massey.ac.nz. Also see https://sattleggerlab.wordpress.com. Start dates 15/7/22 or 15/2/23.

Thematics

21st Century Citizenship, Resource Development and Management, Health and Well-being, Future Food Systems

Area of Expertise

Field of research codes
Biochemistry and Cell Biology (060100): Biological Sciences (060000): Genetics (060400):
Medical And Health Sciences (110000):
Microbiology (060500): Other Biological Sciences (069900)

Keywords

EXPERTISE and INTERESTS
>> Basic Biomedical Research aimed at understanding the molecular mechanisms occurring in a healthy organism, how diseases and disorders develop, and how they can be prevented or treated.  As model organism we use mammalian cell lines and baker’s yeast (which on the cellular level is very similar to human cells, but much cheaper to work with, and due to its faster growth rate helps generate data within shorter time frames).  We apply a variety of techniques in the fields of Molecular Biology/Genetics, Genetics, Cell Biology, to Biochemistry, Biotechnology
Of high interest is the enzyme Gcn2.  Gcn2 is involved in many key biological processes, such as amino acid and fatty acid homeostasis, regulation of protein synthesis, forestalling nutrient starvation, UV and oxidative stress, controlling cell division, etc. It has being implicated in the immune system and with cancer, long term memory formation, feeding behaviour, and more
>>  Applying molecular techniques in Food Microbiology adn Agriculture, e.g. to detect pathogens.
>>
Teach and mentor undergraduate, postgraduate and doctoral students, and emerging researchers

Research Outputs

Journal

Gibbs, VJ., Lin, YH., Ghuge, AA., Anderson, RA., Schiemann, AH., Conaglen, L., . . . Sattlegger, E. (2024). GCN2 in Viral Defence and the Subversive Tactics Employed by Viruses. Journal of Molecular Biology. 436(13)
[Journal article]Authored by: Sattlegger, E., Schiemann, A.
Shanmugam, R., Anderson, R., Schiemann, AH., & Sattlegger, E. (2024). Evidence that Xrn1 is in complex with Gcn1, and is required for full levels of eIF2α phosphorylation. Biochemical Journal. 481(7), 481-498
[Journal article]Authored by: Sattlegger, E., Schiemann, A.
Ghuge, AA., Anderson, RA., Gottfried, S., Daube, C., Koloamatangi, SMBMJ., Schiemann, AH., . . . Sattlegger, E. (2023). Rapid yeast-based screen for Functionally Relevant Amino Acids (RS-FRAA) in a protein. STAR Protocols. 4(1)
[Journal article]Authored by: Sattlegger, E., Schiemann, A.
Gottfried, S., Koloamatangi, SMBMJ., Daube, C., Schiemann, AH., & Sattlegger, E. (2022). A genetic approach to identify amino acids in Gcn1 required for Gcn2 activation. PLoS ONE. 17(11 November)
[Journal article]Authored by: Sattlegger, E., Schiemann, A.
Qian, C., Castañeda-Gulla, K., Sattlegger, E., & Mutukumira, AN. (2022). Enterotoxigenicity and genetic relatedness of Staphylococcus aureus in a commercial poultry plant and poultry farm. International Journal of Food Microbiology. 363
[Journal article]Authored by: Sattlegger, E.
Ramesh, R., Dautel, M., Lee, Y., Kim, Y., Storey, K., Gottfried, S., . . . Sattlegger, E. (2021). Asp56 in actin is critical for the full activity of the amino acid starvation-responsive kinase Gcn2. FEBS Letters. 595(14), 1886-1901
[Journal article]Authored by: Sattlegger, E.
Harjes, E., Jameson, GB., Tu, YH., Burr, N., Loo, TS., Goroncy, AK., . . . Norris, GE. (2021). Experimentally based structural model of Yih1 provides insight into its function in controlling the key translational regulator Gcn2. FEBS Letters. 595(3), 324-340
[Journal article]Authored by: Edwards, P., Jameson, G., Sattlegger, E.
Ramesh, R., & Sattlegger, E. (2020). Domain II of the translation elongation factor eEF1A is required for Gcn2 kinase inhibition. FEBS Letters. 594(14), 2266-2281
[Journal article]Authored by: Sattlegger, E.
Akram, Z., Ahmed, I., Mack, H., Kaur, R., Silva, RC., Castilho, BA., . . . Munn, AL. (2020). Yeast as a Model to Understand Actin-Mediated Cellular Functions in Mammals-Illustrated with Four Actin Cytoskeleton Proteins. Cells. 9(3)
[Journal article]Authored by: Sattlegger, E.
Carvill, GL., Helbig, KL., Myers, CT., Scala, M., Huether, R., Lewis, S., . . . Kruer, MC. (2020). Damaging de novo missense variants in EEF1A2 lead to a developmental and degenerative epileptic-dyskinetic encephalopathy. Human Mutation. 41(7), 1263-1279
[Journal article]Authored by: Sattlegger, E.
Castañeda-Gulla, K., Sattlegger, E., & Mutukumira, AN. (2020). Persistent contamination of salmonella, campylobacter, escherichia coli, and staphylococcus aureus at a broiler farm in New Zealand. Canadian Journal of Microbiology. 66(3), 171-185
[Journal article]Authored by: Sattlegger, E.
Tomek, P., Gore, SK., Potts, CL., Print, CG., Black, MA., Hallermayr, A., . . . Ching, LM. (2018). Imprinted and ancient gene: A potential mediator of cancer cell survival during tryptophan deprivation. Cell Communication and Signaling. 16(1)
[Journal article]Authored by: Sattlegger, E.
Silva, RC., Castilho, BA., & Sattlegger, E. (2018). A Rapid Extraction Method for mammalian cell cultures, suitable for quantitative immunoblotting analysis of proteins, including phosphorylated GCN2 and eIF2α. MethodsX. 5, 75-82
[Journal article]Authored by: Sattlegger, E.
Lee, SJ., Ramesh, R., de Boor, V., Gebler, JM., Silva, RC., & Sattlegger, E. (2017). Cost-effective and rapid lysis of Saccharomyces cerevisiae cells for quantitative western blot analysis of proteins, including phosphorylated eIF2α. Yeast. 34(9), 371-382
[Journal article]Authored by: Sattlegger, E.
Rakesh, R., Krishnan, R., Sattlegger, E., & Srinivasan, N. (2017). Recognition of a structural domain (RWDBD) in Gcn1 proteins that interacts with the RWD domain containing proteins. Biology Direct. 12(1)
[Journal article]Authored by: Sattlegger, E.
Kruer, M., Padilla-Lopez, S., Helbig, K., Carvill, G., Myers, C., Sebe, J., . . . Mefford, H. (2016). Heterozygous de novo Mutations in EEF1A2 Lead to an Epileptic-Dyskinetic Encephalopathy. ANNALS OF NEUROLOGY. 80, S295-S296
[Journal article]Authored by: Sattlegger, E.
Silva, RC., Sattlegger, E., & Castilho, BA. (2016). Perturbations in actin dynamics reconfigure protein complexes that modulate GCN2 activity and promote an eIF2 response. Journal of Cell Science. 129(24), 4521-4533
[Journal article]Authored by: Sattlegger, E.
Silva, RC., Dautel, M., Di Genova, BM., Amberg, DC., Castilho, BA., & Sattlegger, E. (2015). The Gcn2 regulator Yih1 interacts with the cyclin dependent kinase Cdc28 and promotes cell cycle progression through G2/M in budding yeast. PLoS ONE. 10(7)
[Journal article]Authored by: Sattlegger, E.
Lee, SJ., Swanson, MJ., & Sattlegger, E. (2015). Gcn1 contacts the small ribosomal protein Rps10, which is required for full activation of the protein kinase Gcn2. Biochemical Journal. 466(3), 547-559
[Journal article]Authored by: Sattlegger, E.
Sattlegger, E., Chernova, TA., Gogoi, NM., Pillai, IV., Chernoff, YO., & Munn, AL. (2014). Yeast studies reveal moonlighting functions of the ancient actin cytoskeleton. IUBMB Life. 66(8), 538-545
[Journal article]Authored by: Sattlegger, E.
Sattlegger, E., Chernova, TA., Gogoi, NM., Pillai, IV., Chernoff, YO., & Munn, AL. (2014). Yeast studies reveal moonlighting functions of the ancient actin cytoskeleton. IUBMB Life.
[Journal article]Authored by: Sattlegger, E.
Castilho, BA., Shanmugam, R., Silva, RC., Ramesh, R., Himme, BM., & Sattlegger, E. (2014). Keeping the eIF2 alpha kinase Gcn2 in check. Biochimica et Biophysica Acta - Molecular Cell Research. 1843(9), 1948-1968
[Journal article]Authored by: Sattlegger, E.
Cambiaghi, TD., Pereira, CM., Shanmugam, R., Bolech, M., Wek, RC., Sattlegger, E., . . . Castilho, BA. (2014). Evolutionarily conserved IMPACT impairs various stress responses that require GCN1 for activating the eIF2 kinase GCN2. Biochemical and Biophysical Research Communications. 443(2), 592-597
[Journal article]Authored by: Sattlegger, E.
Cridge, AG., Visweswaraiah, J., Ramesh, R., & Sattlegger, E. (2014). Semi-quantitative colony immunoassay for determining and optimizing protein expression in Saccharomyces cerevisiae and Escherichia coli. Analytical Biochemistry. 447(1), 82-89
[Journal article]Authored by: Sattlegger, E.
Wiedemann, M., Lee, SJ., Silva, RC., Visweswaraiah, J., Soppert, J., & Sattlegger, E. (2013). Simultaneous semi-dry electrophoretic transfer of a wide range of differently sized proteins for immunoblotting.. Protocol Exchange. Retrieved from http://www.nature.com/
[Journal article]Authored by: Sattlegger, E.
Reamon-Buettner, SM., Sattlegger, E., Ciribilli, Y., Inga, A., Wessel, A., & Borlak, J. (2013). Transcriptional defect of an inherited NKX2-5 haplotype comprising a SNP, a nonsynonymous and a synonymous mutation, associated with human congenital heart disease. PLoS ONE. 8(12)
[Journal article]Authored by: Sattlegger, E.
Cambiaghi, TD., Pereira, CM., Shanmugam, R., Bolech, M., Wek, RC., Sattlegger, E., . . . Castilho, BA. (2013). Evolutionarily conserved IMPACT impairs various stress responses that require GCN1 for activating the eIF2 kinase GCN2. Biochemical and Biophysical Research Communications.
[Journal article]Authored by: Sattlegger, E.
Visweswaraiah, J., Lee, SJ., Hinnebusch, AG., & Sattlegger, E. (2012). Overexpression of eukaryotic translation elongation factor 3 impairs Gcn2 protein activation. Journal of Biological Chemistry. 287(45), 37757-37768
[Journal article]Authored by: Sattlegger, E.
Waller, T., Lee, SJ., & Sattlegger, E. (2012). Evidence that Yih1 resides in a complex with ribosomes. FEBS Journal. 279(10), 1761-1776
[Journal article]Authored by: Sattlegger, E.
Waller, T., Lee, SJ., & Sattlegger, E. (2012). Evidence that Yih1 resides in a complex with ribosomes. FEBS Journal.
[Journal article]Authored by: Sattlegger, E.
Visweswaraiah, J., Lageix, S., Castilho, BA., Izotova, L., Kinzy, TG., Hinnebusch, AG., . . . Sattlegger, E. (2011). Evidence that eukaryotic translation elongation factor 1A (eEF1A) binds the Gcn2 protein C terminus and inhibits Gcn2 activity. Journal of Biological Chemistry. 286(42), 36568-36579
[Journal article]Authored by: Sattlegger, E.
Visweswaraiah, J., Dautel, M., & Sattlegger, E. (2011). Generating highly concentrated yeast whole cell extract using low-cost equipment. Protocol Exchange. Retrieved from http://www.nature.com/protocolexchange/protocols/2025
[Journal article]Authored by: Sattlegger, E.
Sattlegger, E., Barbosa, JARG., Moraes, MCS., Martins, RM., Hinnebusch, AG., & Castilho, BA. (2011). Gcn1 and actin binding to Yih1: Implications for activation of the eIF2 kinase GCN2. Journal of Biological Chemistry. 286(12), 10341-10355
[Journal article]Authored by: Sattlegger, E.
Munn, A., & Sattlegger, E. (2009). Yeast studies reveal new roles for an ancient skeleton. Australian Biochemist. 40(2), 9-13 Retrieved from http://www98.griffith.edu.au/dspace/bitstream/handle/10072/31661/59889_1.pdf?sequence=1
[Journal article]Authored by: Sattlegger, E.
Wout, PK., Sattlegger, E., Sullivan, SM., & Maddock, JR. (2009). Saccharomyces cerevisiae Rbg1 protein and its binding partner gir2 interact on polyribosomes with Gcn1. Eukaryotic Cell. 8(7), 1061-1071
[Journal article]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2005). Polyribosome binding by GCN1 is required for full activation of eukaryotic translation initiation factor 2α kinase GCN2 during amino acid starvation. Journal of Biological Chemistry. 280(16), 16514-16521
[Journal article]Authored by: Sattlegger, E.
Pereira, CM., Sattlegger, E., Jiang, HY., Longo, BM., Jaqueta, CB., Hinnebusch, AG., . . . Castilho, BA. (2005). IMPACT, a protein preferentially expressed in the mouse brain, binds GCN1 and inhibits GCN2 activation. Journal of Biological Chemistry. 280(31), 28316-28323
[Journal article]Authored by: Sattlegger, E.
Magazinnik, T., Anand, M., Sattlegger, E., Hinnebusch, AG., & Kinzy, TG. (2005). Interplay between GCN2 and GCN4 expression, translation elongation factor 1 mutations and translational fidelity in yeast. Nucleic Acids Research. 33(14), 4584-4592
[Journal article]Authored by: Sattlegger, E.
Sattlegger, E., Swanson, MJ., Ashcraft, EA., Jennings, JL., Fekete, RA., Link, AJ., . . . Hinnebusch, AG. (2004). YIH1 is an actin-binding protein that inhibits protein kinase GCN2 and impairs general amino acid control when overexpressed. Journal of Biological Chemistry. 279(29), 29952-29962
[Journal article]Authored by: Sattlegger, E.
Alves, VS., Pimenta, DC., Sattlegger, E., & Castilho, BA. (2004). Biophysical characterization of Gir2, a highly acidic protein of Saccharomyces cerevisiae with anomalous electrophoretic behavior. Biochemical and Biophysical Research Communications. 314(1), 229-234
[Journal article]Authored by: Sattlegger, E.
Hinnebusch, AG., Dong, JS., Garcia-Barrio, M., Sattlegger, E., Krishnamoorthy, T., Qiu, HF., . . . Anderson, J. (2000). Translational control in by phosphorylation of initiation factor 2. MOLECULAR BIOLOGY OF THE CELL. 11, 1A-1A
[Journal article]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2000). Separate domains in GCN1 for binding protein kinase GCN2 and ribosomes are required for GCN2 activation in amino acid-starved cells. EMBO Journal. 19(23), 6622-6633
[Journal article]Authored by: Sattlegger, E.
Hoffmann, B., Mösch, HU., Sattlegger, E., Barthelmess, IB., Hinnebusch, A., & Braus, GH. (1999). The WD protein Cpc2p is required for repression of Gcn4 protein activity in yeast in the absence of amino-acid starvation. Molecular Microbiology. 31(3), 807-822
[Journal article]Authored by: Sattlegger, E.
Sattlegger, E., Hinnebusch, AG., & Barthelmess, IB. (1998). cpc-3, the Neurospora crassa homologue of yeast GCN2, encodes a polypeptide with juxtaposed eIF2α kinase and histidyl-tRNA synthetase- related domains required for general amino acid control. Journal of Biological Chemistry. 273(32), 20404-20416
[Journal article]Authored by: Sattlegger, E.
Müller, F., Krüger, D., Sattlegger, E., Hoffmann, B., Ballario, P., Kanaan, M., . . . Barthelmess, IB. (1995). The cpc-2 gene of Neurospora crassa encodes a protein entirely composed of WD-repeat segments that is involved in general amino acid control and female fertility. MGG Molecular & General Genetics. 248(2), 162-173
[Journal article]Authored by: Sattlegger, E.

Thesis

Cheng, Q. (2015). Occurrence of Staphylococcus aureus in a commercial poultry plant and poultry farm. (Master's Thesis)
[Masters Thesis]Edited by: Sattlegger, E.

Conference

Schiemann, A., Gottfried, S., & Sattlegger, E. (2022). A genetic approach to identify amino acids in Gcn1 required for Gcn2 activation. Poster session presented at the meeting of Translational Control meeting. Cold Spring Harbour (online attendance)
[Conference Poster]Authored by: Sattlegger, E., Schiemann, A.
Anderson, R., & Sattlegger, E. (2020). Large ribosomal proteins required for the full activation of the protein kinase Gcn2. Poster session presented at the meeting of Cold Spring Harbor, NY, USA
[Conference Poster]Authored by: Sattlegger, E.
Gottfried, S., & Sattlegger, E. (2020). Characterizing Gcn1-Gcn2 interaction, and its conservation between yeast and human.. Poster session presented at the meeting of Cold Spring Harbor, NY, USA
[Conference Poster]Authored by: Sattlegger, E.
Shanmugam, R., Anderson, R., & Sattlegger, E. (2019). Towards the Gcn1 interactome. Evidence that Xrn1 is in complex with Gcn1, and is required for full activation of Gcn2.. Poster session presented at the meeting of European Molecular Biology Laboratory (EMBL), Heidelberg, Germany
[Conference Poster]Authored by: Sattlegger, E.
Gottfried, S., & Sattlegger, E. (2019). Using yeast to decipher human Gcn1-Gcn2 interaction, and its suitability as drug target.. Poster session presented at the meeting of Yeast Products and Discovery conference, University of Sydney, Australia
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., & Gottfried, S. (2019, December). Using yeast to decipher human Gcn1-Gcn2 interaction, and its suitability as drug target.. Presented at Yeast Products and Discovery conference. University of Sydney, Australia.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2019, November). Testing a new drug target against breast cancer, using molecular biology approaches.. Presented at NZ Association of Breast Cancer Research workshop. University of Waikato, Hamilton.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Ramesh, R., Dautel, M., Kim, Y., Mann, K., Kinzy, T., Huh, WK., . . . Sattlegger, E. (2018). Screening for Actin mutations that impair the General Amino Acid Control signalling pathway. Presented by ES. Poster session presented at the meeting of Translational Control conference, Cold Spring Harbor, NY, USA
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., Harjes, E., Jameson, G., Tu, J., Burr, N., Loo, T., . . . Norris, G. (2018). Deciphering intramolecular interactions in Yih1, a negative regulator of the protein kinase Gcn2.. Poster session presented at the meeting of Translational Control Meeting,Cold Spring Harbor, NY, USA
[Conference Poster]Authored by: Edwards, P., Jameson, G., Sattlegger, E.
Sattlegger, E. (2017, November). Towards testing a New Drug Target that promises to impair Breast Cancer Cell growth - using Molecular Biology approaches.. Presented at The New Zealand Breast Cancer Symposium - United for a Cure Through Research. Auckland University of Technology, Auckland, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2017, November). Deciphering the interaction between Gcn1 and Gcn2 - proteins involved in many biological functions.. Presented at Yeast Products and Discovery conference
[Conference Oral Presentation]Authored by: Sattlegger, E.
Tomek, P., Sattlegger, E., & Ching, L-M. (2016, October). The impact of IMPACT on cancer cell survival during tryptophan deprivation.. Presented at New Zealand Society for oncology Conference. Palmerston North, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2016, July). The protein kinase Gcn2, a potential drug target to fight cancer. Presented at Maurice Wilkins Centre Molecular approaches to cancer meeting. Victoria University of Wellington.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Kruer, MC., Padilla-Lopez, S., Helbig, K., Carvill, G., Myers, C., Sebe, J., . . . Mefford, H. (2016, October). Heterozygous de novo Mutations in EEF1A2 Lead to an Epileptic-Dyskinetic Encephalopathy. Presented at Forty-Fifth Child Neurology Society (CNS) Annual Meeting. Vancouver, Canada.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2015, November). In search for novel proteins that keep in check Gcn2, a protein kinase involved in many cellular functions.. Presented at NZMS Rotorua
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2015, September). In search for novel proteins that keep in check Gcn2, a protein kinase that controls protein synthesis.. Presented at Queenstown Research Week
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2015, December). New insights into the regulation of protein kinase Gcn2.. Presented at Yeast: Products and Discovery (YPD) conferenc. Adelaide, Australia.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Cheng, Q., Sattlegger, E., & Mutukumira, AN. (2015). Using multilocus sequence typing (MLST) method to trace the potential contamination sources of final poultry products by Staphylococcus aureus. In Proceedings of the 9th CIGR Section VI International Technical Symposium(pp. 76 - 76). , 9th CIGR Section VI International Technical Symposium: Creating value from bio-resources through novel technologies Ƶ, New Zealand: CIGR
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Jameson, GB., Norris, GE., Burr, N., Loo, TS., Goroncy, A., . . . Harjes, E. (2014). Reconciling synchotron SAXS Data with NMR data for a two-domain protein.. (pp. 57 - 58). , The Australian Synchrotron Users Meeting
[Conference Abstract]Authored by: Jameson, G., Sattlegger, E.
SIlva, RC., Castilho, BA., & Sattlegger, E. (2014). The Gcn2 regulator Yih1 interacts with the cyclin dependent kinase Cdc28 and is involved in the G2/M phase of the budding yeast cell cycle.. (pp. 193 - 193). , EMBL Conference on Protein Synthesis and Translational Control
[Conference Abstract]Authored by: Sattlegger, E.
Jameson, GB., Norris, GE., Burr, N., Loo, TS., Goroncy, A., Sattlegger, E., . . . Harjes, E. (2014). Reconciling synchotron SAXS data with NMR data for a two-domain protein. Poster session presented at the meeting of The Australian Synchrotron Users Meeting 2014. Melbourne, Australia
[Conference Poster]Authored by: Jameson, G., Sattlegger, E.
SIlva, RC., Castilho, BA., & Sattlegger, E. (2014). The Gcn2 regulator Yih1 interacts with the cyclin dependent kinase Cdc28 and is involved in the G2/M phase of the budding yeast cell cycle. EMBL Conference on Protein Synthesis and Translational Control. Poster session presented at the meeting of European Molecular Biology Laboratory (EMBL), Heidelberg, Germany
[Conference Poster]Authored by: Sattlegger, E.
Jochmann, V., & Sattlegger, E. (2013). Mapping Gcn1 on the ribosome. In conference book(pp. unknown - unknown). , Queenstown Molecular Biology Meeting,
[Conference Abstract]Authored by: Sattlegger, E.
Bolech, M., Joachim, M., & Sattlegger, E. (2013). Identifying potential Yih1 binding proteins required for stimulating protein kinase Gcn2.. (pp. unknwon - unknwon). , Queenstown Molecular Biology Meeting,
[Conference Abstract]Authored by: Sattlegger, E.
Ramesh, R., & Sattlegger, E. (2013). Bimolecular Fluorescence Complementation (BiFC) mediated visualization of protein-protein interactions in vivo in real-time to understand the spatiotemporal regulation of the protein kinase Gcn2.. In conference book(pp. unknwon - unknown). , Queenstown Molecular Biology Meeting
[Conference Abstract]Authored by: Sattlegger, E.
Lee, SJ., Budkevich, T., Cridge, AG., Seberg, A., Hinnebusch, AG., Swanson, MJ., . . . Sattlegger, E. (2013). Evidence that Gcn1 binding to the 40S ribosomal head is essential for fully activating the eIF2α kinase Gcn2.. In conference book(pp. 84 - 84). , Translational Control,
[Conference Abstract]Authored by: Sattlegger, E.
Lee, SJ., Budkevich, T., Cridge, AG., Jochmann, V., Shanmugam, R., Hinnebusch, AG., . . . Sattlegger, E. (2013). Gcn1 binding to the 40S ribosome head region is essential for fully activating the ancient nutrient-sensor-kinase Gcn2.. (pp. 37 - 37). , The New Zealand Microbiological Society (NZMS) Conference,
[Conference Abstract]Authored by: Sattlegger, E.
Ramesh, R., & Sattlegger, E. (2013). Visualizing protein-protein interactions in vivo in real-time to understand the spatiotemporal regulation of the protein kinase Gcn2.. In conference book(pp. 36 - 36). , The New Zealand Microbiological Society (NZMS) Conference
[Conference Abstract]Authored by: Sattlegger, E.
SIlva, RC., Sattlegger, E., & Castilho, BA. (2013). Does the kinase Gcn2 sense the integrity of the actin cytoskeleton in yeas as found in mammals?. (pp. 69 - 69). , Yeast, Products, Discovery and more (YPD2013) conference
[Conference Abstract]Authored by: Sattlegger, E.
Lee, SJ., & Sattlegger, E. (2013). Direct contact between Gcn1 and small tibosomal protein Rps10 is required for full activation of Gcn2 stress sensing kinase.. (pp. 52 - 52). , Yeast, Products, Discovery and more (YPD2013) conference,
[Conference Abstract]Authored by: Sattlegger, E.
Jochmann, V., & Sattlegger, E. (2013). Mapping Gcn1 in the ribosome.. (pp. 47 - 47). , Yeast, Products, Discovery and more (YPD2013) conference
[Conference Abstract]Authored by: Sattlegger, E.
Silva, RC., Castilho, BA., & Sattlegger, E. (2013). Physical interaction between the Gcn2 regulator Yih1 and the cyclin-dependent kinase Cdc28.. (pp. 68 - 68). , Yeast, Products, Discovery and more (YPD2013) conference,
[Conference Abstract]Authored by: Sattlegger, E.
Shanmugam, R., & Sattlegger, E. (2013). Identification of novel Gcn1-binding proteins and their first characterization for their function in Gcn2 regulation.. (pp. 67 - 67). , Yeast, Products, Discovery and more (YPD2013) conference
[Conference Abstract]Authored by: Sattlegger, E.
Ramesh, R., & Sattlegger, E. (2013). Bimolecular fluorescence complementation (BiFC) studies to investigate protein-protein interactions involved in regulating the protein kinase Gcn2.. (pp. 62 - 62). , Yeast, Products, Discovery and more (YPD2013) conference,
[Conference Abstract]Authored by: Sattlegger, E.
Bolech, M., Joachim, M., & Sattlegger, E. (2013). Identifying potential Yih1-binding proteins required for stimulating protein kinase Gcn2.. (pp. 36 - 36). , Yeast, Products, Discovery and more (YPD2013) conference
[Conference Abstract]Authored by: Sattlegger, E.
Cambiaghi, T., Pereira, C., Bolech, M., Shanmugam, R., Sattlegger, E., & Castilho, BA. (2013). Regulation of mammalian Gcn2 by Gcn1 and IMPACT.. In conference book(pp. 117 - 117). , EMBO Protein Synthesis and Translational Control,
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Lee, SJ., Budkevich, T., Cridge, AG., Jochmann, V., Seberg, A., . . . Swanson, MJ. (2013). Gcn1 binding to the 40S ribosome head region is essential for fully activating eIF2α kinase Gcn2.. In conference book(pp. 85 - 85). , EMBO Protein Synthesis and Translational Control
[Conference Abstract]Authored by: Sattlegger, E.
Silva, RC., Sattlegger, E., & Castilho, BA. (2013). Does the kinase Gcn2 sense the integrity of the actin cytoskeleton in yeas as found in mammals?. Poster session presented at the meeting of Yeast, Products, Discovery and more (YPD2013) conference. Ƶ Auckland
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E. (2013). Direct contact between Gcn1 and small tibosomal protein Rps10 is required for full activation of Gcn2 stress sensing kinase.. Poster session presented at the meeting of Yeast, Products, Discovery and more (YPD2013) conference. Ƶ Auckland
[Conference Poster]Authored by: Sattlegger, E.
Jochmann, V., & Sattlegger, E. (2013). Mapping Gcn1 in the ribosome.. Poster session presented at the meeting of Yeast, Products, Discovery and more (YPD2013) conference. Ƶ Auckland
[Conference Poster]Authored by: Sattlegger, E.
Cambiaghi, T., Pereira, C., Bolech, M., Shanmugam, R., Sattlegger, E., & Castilho, BA. (2013). Regulation of mammalian Gcn2 by Gcn1 and IMPACT.. Poster session presented at the meeting of EMBO Protein Synthesis and Translational Control, EMBL Advanced Training Centre. Heidelberg, Germany
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E. (2013). Mapping Gcn1 on the ribosome.. Poster session presented at the meeting of Queenstown Molecular Biology Meeting. Queenstown, New Zealand
[Conference Poster]Authored by: Sattlegger, E.
Bolech, M., Joachim, M., & Sattlegger, E. (2013). Identifying potential Yih1 binding proteins required for stimulating protein kinase Gcn2.. Poster session presented at the meeting of Queenstown Molecular Biology Meeting. Queenstown, New Zealand
[Conference Poster]Authored by: Sattlegger, E.
Ramesh, R., & Sattlegger, E. (2013). Bimolecular Fluorescence Complementation (BiFC) mediated visualization of protein-protein interactions in vivo in real-time to understand the spatiotemporal regulation of the protein kinase Gcn2.. Poster session presented at the meeting of Queenstown Molecular Biology Meeting. Queenstown, New Zealand
[Conference Poster]Authored by: Sattlegger, E.
Lee, ., Lee, SJ., Budkevich, T., Cridge, AG., Jochmann, V., Shanmugam, R., . . . Sattlegger, E. (2013, November). Gcn1 binding to the 40S ribosome head region is essential for fully activating the ancient nutrient-sensor-kinase Gcn2.. Presented at The New Zealand Microbiological Society (NZMS) Conference. Hamilton, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Ramesh, R., & Sattlegger, E. (2013, November). Visualizing protein-protein interactions in vivo in real-time to understand the spatiotemporal regulation of the protein kinase Gcn2.. Presented at The New Zealand Microbiological Society (NZMS) Conference. Hamilton, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Silva, RC., Castilho, BA., & Sattlegger, E. (2013, November). Physical interaction between the Gcn2 regulator Yih1 and the cyclin-dependent kinase Cdc28.. Presented at Yeast, Products, Discovery and more (YPD2013). Ƶ Auckland.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Shanmugam, R., & Sattlegger, E. (2013, November). Identification of novel Gcn1-binding proteins and their first characterization for their function in Gcn2 regulation.. Presented at Yeast, Products, Discovery and more (YPD2013). Ƶ Auckland.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Ramesh, R., & Sattlegger, E. (2013, November). Bimolecular fluorescence complementation (BiFC) studies to investigate protein-protein interactions involved in regulating the protein kinase Gcn2.. Presented at Yeast, Products, Discovery and more (YPD2013). Ƶ Auckland.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Bolech, M., Joachim, M., & Sattlegger, E. (2013, November). Identifying potential Yih1-binding proteins required for stimulating protein kinase Gcn2.. Presented at Yeast, Products, Discovery and more (YPD2013). Ƶ Auckland.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Lee, SJ., Budkevich, R., Cridge, AG., Jochmann, V., Sanmugam R, ., Hinnebusch, AG., . . . Sattlegger, E. (2013, September). Gcn1 binding to the 40S ribosome head region is essential for fully activating eIF2α kinase Gcn2. Presented by Sattlegger.. Presented at EMBO Protein Synthesis and Translational Control. EMBL Advanced Training Centre, Heidelberg, Germany.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Dautel, M., Mann, K., Jochmann, V., Ellert, C., & Sattlegger, E. (2012). Identification of Mutations in Actin that affect General Amino Acid Control response.. (pp. 85 - 85). , Translational Control
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Lee, SJ., Jochmann, J., Seberg, A., & Swanson, MJ. (2012). Gcn1 binding to the 40S ribosomal head is essential for fully activating the eIF2α kinase Gcn2.. In conference booklet(pp. unknown - unknowm). , New Zealand Microbiological Society (NZMS) Conference
[Conference Abstract]Authored by: Sattlegger, E.
Lee, SJ., Budkevich, T., Cridge, AG., Seberg, A., Hinnebusch, AG., Swanson, MJ., . . . Sattlegger, E. (2012). Evidence that Gcn1 binding to the 40S ribosomal head is essential for fully activating the eIF2α kinase Gcn2. Poster session presented at the meeting of CSHL Translational Control
[Conference Poster]Authored by: Sattlegger, E.
Dautel, M., Mann, K., Jochmann, V., Ellert, C., & Sattlegger, E. (2012). Identification of Mutations in Actin that affect General Amino Acid Control response.. Poster session presented at the meeting of CSHL Translational Control. Cold Spring Harbor, NY, USA
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., Sattlegger, E., Lee, SJ., Jochmann, J., Seberg, A., & Swanson, MJ. (2012, November). Gcn1 binding to the 40S ribosomal head is essential for fully activating the eIF2α kinase Gcn2.. Presented at New Zealand Microbiological Society (NZMS) Conference. Dunedin, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
see title/description for more detail, ., & Sattlegger, E. (2011). regular poster presentations by ES. The abstract of each poster was published in Conference booklets: Linkage between translation elongation factors (eEFs) and the kinase Gcn2. Visweswaraiah J, Su J Lee, Lageix S, Castilho BA, Izotova L, Kinzy TG, Hinnebusch AG, and Sattlegger E. 7-11/9/2011 - Gcn1 and actin binding to the central region of Yih1: Implications on Gcn2 activation. Sattlegger E, Moraes MCS, Martins RM, Hinnebusch AG, Barbosa JARG, & Castilho BA. 9-13/9/2009. Poster session presented at the meeting of Conference on Protein Synthesis and Translational Control, European Molecular Biology Laboratory (EMBL), Heidelberg, Germany, 2009, and
[Conference Poster]Authored by: Sattlegger, E.
Visweswaraiah, J., Lee, SJ., Lageix, S., Castilho, BA., Izotova, L., Kinzy, TG., . . . Sattlegger, E. (2011). Linkage between translation elongation factors (eEFs) and the kinase Gcn2. Sep 2011. Poster session presented at the meeting of EMBO Protein Synthesis and Translational Control, EMBL Advanced Training Centre, Heidelberg, Germany
[Conference Poster]Authored by: Sattlegger, E.
Lee, SJ., Seberg, A., Swanson, M., & Sattlegger, E. (2011). Evidence that Gcn1 mediates activation of the nutrient sensor Gcn2 via the ribosomal protein Rps10. Nov 2011. Poster session presented at the meeting of New Zealand Microbiological Society (NZMS) Conference, Convention Centre, Palmerston North, New Zealand
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E. (2011, November). Sensing nutient availability in fungi – new insights. Nov 2011. Presented at New Zealand Microbiological Society (NZMS) Conference. Convention Centre, Palmerston North, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Visweswaraiah, J., Lee, SJ., Lageix, S., Castilho, BA., Izotova, L., Kinzy, TG., . . . Sattlegger, E.(2011, September 7). Linkage between translation elongation factors (eEFs) and the kinase Gcn2.. (pp. 282 - 282). , EMBO Protein Synthesis and Translational Control germany: Mera Druck GmbH, Sandhausen
[Conference Abstract]Authored by: Sattlegger, E.
Visweswaraiah, J., Lee, SJ., Lageix, S., Castilho, BA., Izotova, L., Kinzy, TG., . . . Sattlegger, E. (2011). Linkage between translation elongation factors (eEFs) and the kinase Gcn2.. Poster session presented at the meeting of EMBO Protein Synthesis and Translational Control, EMBL Advanced Training Centre, Heidelberg, Germany. see above
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E. (2011, August). Revealing novel links between protein synthesis and the nutrient sensor Gcn2.. Presented at QMB Signalling Satellite. Queenstown, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
see title/description for more detail, ., & Sattlegger, E. (2010). regular poster presentations by ES, The abstract of each poster was published in Conference booklets: Pinpointing amino acids in Yih1 responsible for affecting GCN1 function. Sattlegger E, Moraes MCS, Martins RM, Hinnebusch AG, Barbosa JARG, and BA Castilho BA. 3-7/9/2010. - Does Yih1 associate with polyribosomes independently of Gcn1? Waller T & Sattlegger E. 3-7/9/2010 - Simultaneous binding of EF1A and the kinase GCN2 to the ribosome? Visweswaraiah J, Hinnebusch AG, and Sattlegger E. 9-13/9/2008 - YIH1, a negative regulator of the eIF2α kinase GCN2, binds actin and GCN1 in overlapping regions. Waller TM, Hinnebusch AG, and Sattlegger E. 6-10/9/2006. Poster session presented at the meeting of Translational Control Conference, Cold Spring Harbor Laboratory, NY, USA, in 2006, 2008, and
[Conference Poster]Authored by: Sattlegger, E.
Dautel, M., Mann, K., & Sattlegger, E.(2010, November 30). Actin-YIH1 interaction - does the cytoskeleton talk to the kinase regulator?. In New Zealand Microbiological Society and New Zealand Society for Biochemistry and Molecular Biology, New Zealand Microbiological Society and New Zealand Society for Biochemistry and Molecular Biology: New Zealand Microbiological Society, New Zealand Society for Biochemistry and Molecular Biology
[Conference Abstract]Authored by: Sattlegger, E.
Visweswaraiah, J., Hinnebusch, A., & Sattlegger, E.(2010, November 30). Sensing starvation and protein synthesis - can both happen on the ribosome simultaneously?. , NZMS and NZSBMB Joint Meeting
[Conference Abstract]Authored by: Sattlegger, E.
Dautel, M., Mann, K., & Sattlegger, E. (2010, November). Actin-YIH1 Interaction - does the cytoskeleton talk to the kinase regulator. Presented at NZMS and NZSBMB Joint Meeting. The University of Auckland, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Dautel, M., Mann, K., & Sattlegger, E.(2010, November 30). Actin-YIH1 interaction - does the cytoskeleton talk to the kinase regulator?. , NZMS and NZSBMB Joint Meeting
[Conference Abstract]Authored by: Sattlegger, E.
Waller, T., & Sattlegger, E.(2010, September 13). Does Yih1 associate with polyribosomes independently of GCN1?. (pp. 248). , Translational Control: CSH
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E.(2010, November 29). Regulating the ancient food sensor Gcn2. , Symposium on Fungal and Yeast Cell Biology
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Moraes, M., Martins, R., Hinnebusch, A., Barbosa, J., & Castilho, B.Pinpointing amino acids in YIH1 responsible for affecting GCN1 functions. : Translational Control
[Conference Paper in Published Proceedings]Authored by: Sattlegger, E.
Waller, T., & Sattlegger, E. (2010). Does Yih1 associate with polyribosomes independently of Gcn1?. Poster session presented at the meeting of Cold Spring Harbor, NY, USA. Cold Spring Harbour
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., Moraes, MCS., Martins, RM., Hinnebusch, AG., Barbosa, JARG., & Castilho, BA. (2010). Pinpointing amino acids in Yih1 responsible for affecting Gcn1 function. . Cold Spring Harbor, NY, USA
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E. (2010, June). Yeast molecular biology. Presented at Auckland Fungal Biology Group meeting. Auckland University.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2010, November). Regulating the ancient food sensor Gcn2. Presented at Symposium on Fungal and Yeast Cell Biology. Ƶ, Auckland, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Visweswaraiah, J., Hinnebusch, AG., & Sattlegger, E. (2010, November). Sensing starvation and protein synthesis: Can both happen on the ribosome simultaneously?. Presented at Small things, Big Ideas. Auckland, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., & Dautel, M. (2010, November). Shedding light on the link between the actin cytoskeleton and stress response. Presented at “Small things, Big Ideas”. Auckland, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., & Waller, T.(2010, September 3). Does Yih1 associate with polyribosomes independently of Gcn1.
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Moraes, MCS., Martins, RM., Hinnebusch, AG., Barbosa, JARG., & Castilho, BA.(2010, September 13). Pinpointing amino acids in Yih1 responsible for affecting GCN1 function. (pp. 249).
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Visweswaraiah J, ., & Hinnebusch AG, . (2010, November). Sensing starvation and protein synthesis: Can both happen on the ribosome simultaneously?. Presented at Small things, Big Ideas. Auckland, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., & Dautel M, . (2010, November). Shedding light on the link between the actin cytoskeleton and stress response.. Presented at Small things, Big Ideas. Auckland, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Barbosa, J., Moraes, M., Martins, R., Castilho, B., Sattlegger, E., & Hinnebusch, A.Gcn1 and actin binding to the central region of Yih1: Implications on Gcn2 activation. (pp. 228 - 228). : EMBO Conference Series on Protein Synthesis and Translational Control
[Conference Paper in Published Proceedings]Authored by: Sattlegger, E.
Sattlegger, E., Moraes, MCS., Martins, RM., Hinnebusch, AG., Barbosa, JARG., & Castilho, B.(2009, December 6). Memory versus starvation what can yeast tell us about Yih1 mediated regulation of protein kinase Gcn2?. , Combio 2009
[Conference Abstract]Authored by: Sattlegger, E.
Cridge, A., Lee, S., & Sattlegger, E.(2009, December 6). Amino acid starvation response in Saccharomyces cerevisiae: Molecular mechanisms involving protein switches and ribosomes. , Combio Christchurch Convention Centre
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Moraes, MCS., Martins, RM., Hinnebusch, AG., Barbosa, JARG., & Castilho, BA. (2009). Memory versus Starvation. What can yeast tell us about Yih1 mediated regulation of protein kinase Gcn2?. Poster session presented at the meeting of ComBio Conference, Christchurch, New Zealand
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E. (2009, February). Using Saccharomyces for basic research, biomedical research, and biotechnology. Presented at Inaugural New Zealand Yeast Group Meeting. Bethel’s beach, University of Auckland.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., Moraes, MCS., Martins, RM., Hinnebusch, AG., Barbosa, JARG., & Castilho, BA. (2009, December). Starvation versus memory: What can yeast tell us about Yih1-mediated regualtion of protein kinase Gcn2?. Presented at Yeast: Products and Discovery. Charles Hawker Conference Centre, The University of Adelaide, Waite Campus, Australia.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., Cridge, A., & Lee, SJ. (2009, December). Amino acid starvation response in Saccharomyces cerevisiae: Molecular mechanisms involving protein switches and ribosomes. Presented at ComBio Conference. Christchurch, New Zealand.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., Moraes, MCS., Martins, RM., Hinnebusch, AG., Barbosa, JARG., & JARG, B.(2009, September 14). Gcn1 and actin binding to the central region of Yih1: Implications on Gcn2 activation. , EMBL Conference on Protein Synthesis and Translational Control
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Moraes, MCS., Martins, RM., Hinnebusch, AG., Barbosa, JARG., & Castilho, BA.(2009, December 6). Memory versus Starvation. What can yeast tell us about Yih1 mediated regulation of protein kinase Gcn2?. , ComBio Conference
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E. (2009, December). Starvation versus memory: What can yeast tell us about Yih1-mediated regulation of protein kinase Gcn2. Presented at Yeast: Products and Discovery. University of Adelaide, SA, Australia.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., Moraes, MC., Martins, RM., Hinnebusch, H., Barbosa, JA., & Castilho, BA. (2009). Starvation versus memory: What can yeast tell us about Yih1-medicated regulation of protein kinase Gcn2?. In Yeast: Products and Discovery(pp. 1 - 20). : University of Adelaide
[Conference Abstract]Authored by: Sattlegger, E.
Visweswaraiah, J., & Sattlegger, E.Exclusive ribosome occupancy of EF3 and GCN1?. (pp. 15 - 15). : Biological Sciences Student Research Symposium 2008
[Conference Paper in Published Proceedings]Authored by: Sattlegger, E.
Dautel, M., & Sattlegger, E.(2008, December 11). IMPACT, actin, GCN2: Hunger management not only in yeast. , Biological Sciences Student Research Symposium 2008
[Conference Abstract]Authored by: Sattlegger, E.
Macfarlane, R., & Sattlegger, E.(2008, December 11). Optimizing expression and purification of selected general amino acid control (GAAC) proteins. , Biological Sciences Student Research Symposium 2008
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E. (2008). Gcn1 and actin binding to the central region of Yih1: Implications on Gcn2 activation. Poster session presented at the meeting of EMBO Conference on Protein Synthesis and Translational Control, European Molecular Biology Laboratory (EMBL), Heidelberg, Germany. Heidelberg, Germany
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., & Dautel, M. (2008, December). IMPACT, actin, GCN2: Hunger management not only in yeast. Presented at Student symposium. Ƶ, Auckland.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., & Visweswaraiah, J. (2008, December). Exclusive Ribosome Occupancy of EF3 and GCN1?. Presented at Student symposium. Ƶ, Auckland.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., & MacFarlane, R. (2008, December). Optimizing expression and purification of selected General Amino Acid Control (GAAC) proteins. Presented at Student symposium. Ƶ, Auckland.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Visweswaraiah, J., Hinnebusch, AG., & Sattlegger, E. (2008). Simultaneous binding of EF1A and the kinase GCN2 to the ribosome?. Poster session presented at the meeting of Translational Control Conference, Cold Spring Harbor, NY, USA. New York, NY
[Conference Poster]Authored by: Sattlegger, E.
Visweswaraiah, J., Hinnebusch, AG., & Sattlegger, E. (2008). Simultaneous binding of EF1A and the kinase GCN2 to the ribosome?. In Proceedings of the 2008 Meeting on Translational Control(pp. 319). : CSH
[Conference Abstract]Authored by: Sattlegger, E.
Dautel, M., Mann, KJ., & Sattlegger, E.(2008). Using yeast to unravel the link between actin, GCN2-signalling, and the brain protein IMPACT. . Queenstown, NZ
[Conference Other]Authored by: Sattlegger, E.
Dautel, M., Mann, KJ., & Sattlegger, E. (2008). Using yeast to unravel the link between actin, GCN2-signalling, and the brain protein IMPACT. In Queenstown Molecular Biology Meetings: 18th Annual Queenstown Molecular Biology Meeting(pp. 138). : QMB
[Conference Abstract]Authored by: Sattlegger, E.
Dautel, M., Mann, KJ., & Sattlegger, E. (2008). Using yeast to unravel the link between actin, GCN2-signalling, and the brain protein IMPACT. Poster session presented at the meeting of Queenstown Molecular Biology Meetings: 3rd New Zealand Proteins Meeting. Queenstown, NZ
[Conference Poster]Authored by: Sattlegger, E.
Dautel, M., Mann, KJ., & Sattlegger, E. (2008). Using yeast to unravel the link between actin, GCN2-signalling, and the brain protein IMPACT. In Queenstown Molecular Biology Meetings: 3rd New Zealand Proteins Meeting(pp. 234). : QMB
[Conference Abstract]Authored by: Sattlegger, E.
Dautel, M., Mann, KJ., & Sattlegger, E. (2008). Using yeast to unravel the link between actin, GCN2-signalling, and the brain protein IMPACT. Poster session presented at the meeting of Queenstown Molecular Biology Meetings: 2nd Queenstown Signal Transduction Meetings. Queenstown, NZ
[Conference Poster]Authored by: Sattlegger, E.
Mann, K., & Sattlegger, E. (2007). Does actin control GCN2 kinase-activity via YIH1?. (pp. S63 - S63). : XXIII International Conference on Yeast Genetic and Molecular Biology
[Conference Paper in Published Proceedings]Authored by: Sattlegger, E.
Mann, K., & Sattlegger, E. (2007). Does actin control GCN2 kinase-activity via YIH1?. (pp. S63 - S63). : XXIII International Conference on Yeast Genetic and Molecular Biology
[Conference Paper in Published Proceedings]Authored by: Sattlegger, E.
Sattlegger, E., & Visweswaraiah, J. (2007). Translation machinery and stress-sensing complex: how do they get along on the ribosome?. Presented at student symposium. Ƶ Palmerston North.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Dautel, M., Mann, KJ., & Sattlegger, E. (2007). Actin-YIH1 interaction - Does the cytoskeleton talk to the kinase regulator?. Poster session presented at the meeting of Joint New Zealand Microbiological Society (NZMS)-New Zealand Society for Biochemistry and Molecular Biology (NZSBMB) Annual Conference. Victoria University of Wellington, Wellington, New Zealand
[Conference Poster]Authored by: Sattlegger, E.
Dautel, M., Mann, KJ., & Sattlegger, E. (2007). Actin-YIH1 interaction - Does the cytoskeleton talk to the kinase regulator?. In Joint New Zealand Microbiological Society (NZMS)-New Zealand Society for Biochemistry and Molecular Biology (NZSBMB) Annual Conference(pp. 105). : NZMS / NZSBMB
[Conference Abstract]Authored by: Sattlegger, E.
Visweswaraiah, J., Hinnebusch, AG., & Sattlegger, E. (2007). Translation machinery and stress-sensing complex: How do they get along on the ribosome?. In Joint New Zealand Microbiological Society (NZMS)-New Zealand Society for Biochemistry and Molecular Biology (NZSBMB) Annual Conference(pp. 93). : NZMS / NZSBMB
[Conference Abstract]Authored by: Sattlegger, E.
Visweswaraiah, J., Hinnebusch, AG., & Sattlegger, E. (2007, November). Translation machinery and stress-sensing complex: How do they get along on the ribosome?. Presented at Joint New Zealand Microbiological Society (NZMS)-New Zealand Society for Biochemistry and Molecular Biology (NZSBMB) Annual Conference. Victoria University of Wellington, Wellington, NZ.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2007, July). Does actin control GCN2 kinase-activity via YIH1?. Presented at 23rd International Conference on Yeast Genetics and Molecular Biology. Melbourne, VIC.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Visweswaraiah, J., & Sattlegger, E. (2007, July). How does GCN2 capture the starvation signal?. Presented at Crosstalk / New Zealand Society for Biochemistry and Molecular Biology Signal Transduction Symposium. University of Auckland, Auckland, NZ.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Visweswaraiah, J., & Sattlegger, E. (2007). How does GCN2 capture the starvation signal?. In Crosstalk / New Zealand Society for Biochemistry and Molecular Biology Signal Transduction Symposium(pp. 17). : Crosstalk / New Zealand Society for Biochemistry and Molecular Biology
[Conference Abstract]Authored by: Sattlegger, E.
Dautel, M., Mann, KJ., & Sattlegger, E. (2007). Is actin controlling the GCN2 signalling pathway?. In Crosstalk / New Zealand Society for Biochemistry and Molecular Biology Signal Transduction Symposium(pp. 19). : Crosstalk / New Zealand Society for Biochemistry and Molecular Biology
[Conference Abstract]Authored by: Sattlegger, E.
Dautel, M., Mann, KJ., & Sattlegger, E. (2007). Is actin controlling the GCN2 signalling pathway?. Poster session presented at the meeting of Crosstalk / New Zealand Society for Biochemistry and Molecular Biology Signal Transduction Symposium. University of Auckland, Auckland, NZ
[Conference Poster]Authored by: Sattlegger, E.
Mann, KJ., & Sattlegger, E. (2007). Does actin control GCN2 kinase-activity via YIH1?. In 23rd International Conference on Yeast Genetics and Molecular Biology(pp. S63). : John Wiley and Sons [Yeast, 24(S1)]
[Conference Abstract]Authored by: Sattlegger, E.
Mann, KJ., & Sattlegger, E. (2007). Does actin control GCN2 kinase-activity via YIH1?. Poster session presented at the meeting of 23rd International Conference on Yeast Genetics and Molecular Biology. Melbourne, VIC
[Conference Poster]Authored by: Sattlegger, E.
Waller, TM., Hinnebusch, AG., & Sattlegger, E. (2006). How do actin and YIH1 regulate the activity of GCN2, a kinase essential for overcoming amino acid starvation?. In 16th Annual Queenstown Molecular Biology Meeting(pp. 10). : QMB Society
[Conference Abstract]Authored by: Sattlegger, E.
Waller, TM., Hinnebusch, AG., & Sattlegger, E. (2006). YIH1, a negative regulator of the eIF2α kinase GCN2, binds actin and GCN1 in overlapping regions. Poster session presented at the meeting of Translational Control. Cold Spring Harbor , NY
[Conference Poster]Authored by: Sattlegger, E.
Waller, TM., Hinnebusch, AG., & Sattlegger, E. (2006). YIH1, a negative regulator of the eIF2α kinase GCN2, binds actin and GCN1 in overlapping regions. In Translational Control(pp. 314). : Cold Spring Harbor Laboratory
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E. (2006, August). How do actin and YIH1 regulate the activity of GCN2, a kinase essential for overcoming amino acid starvation?. Presented at 16th Annual Queenstown Molecular Biology Meeting. Queenstown, NZ.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2005). Signalling amino acid starvation - studies at the molecular level. (pp. 43). , 2nd Barossa meeting - Signalling Networks: Barossa Science Amongst the Vines Institute of Medical and Veterinary Science: Division of Human Immunology
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2005, November). Signalling amino acid starvation: Studies at a molecular level. Presented at 2nd Barossa Meeting - Signalling Networks: Barossa Science Amongst the Vines. Barossa Valley, SA.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2005). Polysome binding by GCN1 is required for full activation of eIF2α kinase GCN2 in amino acid limitation. (pp. 231). , The European Molecular Biology Organization Conference on Protein Synthesis and Translational Control Sandhausen, Germany: MeraDruck GmbH, Sandhausen
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2005). Polyribosome binding by GCN1 is required for full activation of eIF2α kinase GCN2 in amino acid limitation. Poster session presented at the meeting of The European Molecular Biology Organization Conference on Protein Synthesis and Translational Control. Heidelberg, Germany
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2004). Activation of eIF2α kinase GCN2 requires GCN1-ribosome interaction and attendant modulation of A-site function by GCN1. (pp. 64). , Yeast Genetics and Molecular Biology Meeting Bethesda, Maryland, WA: The Genetics Society of America
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2004, July). Activation of eIF2α kinase GCN2 requires GCN1-ribosome interaction and attendant modulation of A-site function by GCN1. Presented at Yeast Genetics and Molecular Biology Meeting. University of Washington, Seattle, WA.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2004). Evidence that binding to polysomes and modulating A-site function by GCN1 is required for activating eIF2α kinase GCN2. (pp. Unpaged). , Baltimore/Washington Protein Synthesis Meeting Baltimore, MD: Johns Hopkins University School of Medicine
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2004, April). Evidence that binding to polysomes and modulating A-site function by GCN1 is required for activating eIF2α kinase GCN2. Presented at Baltimore/Washington Protein Synthesis Meeting. Baltimore, MD.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2004). GCN1 binding to translating ribosomes is essential for activation of the eIF2α kinase GCN2. In Translational Control: Abstract Papers Presented at the 2004 Meeting on Translational Control(pp. 322 - 322). , Translational Control Meeting Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2004). GCN1 binding to translating ribosomes is essential for activation of the eIF2α kinase GCN2. Poster session presented at the meeting of Translational Control Meeting 2004. Cold Spring Harbor, NY
[Conference Poster]Authored by: Sattlegger, E.
Pereira, CM., Sattlegger, E., Longo, BM., Jaqueta, CB., Hinnebusch, AG., Mello, LE., . . . Castilho, BA. (2004). IMPACT, a protein preferentially expressed in the mouse brain, binds GCN1, and its abundance is inversely correlated with eIF2α phosphorylation levels. In Translational Control Meeting(pp. 299). , Translational Control Meeting 2004 Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press
[Conference Abstract]Authored by: Sattlegger, E.
Pereira, CM., Sattlegger, E., Longo, BM., Jaqueta, CB., Hinnebusch, AG., Mello, LE., . . . Castilho, BA. (2004). IMPACT, a protein preferentially expressed in the mouse brain, binds GCN1, and its abundance is inversely correlated with eIF2α phosphorylation levels. Poster session presented at the meeting of Translational Control Meeting 2004. Cold Spring Harbor, NY
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2004). Activation of eIF2α kinase GCN2 requires GCN1-ribosome interaction and attendant modulation of A-site function by GCN1. Poster session presented at the meeting of National Institutes of Health Research Festival. Bethesda, MD
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., Swanson, MJ., Ashcraft, EA., Jennings, JL., Link, AJ., & Hinnebusch, AG. (2003). YIH1 is an Actin-binding protein that negatively regulates the eIF2α-kinase GCN2 when Actin is sparse. Poster session presented at the meeting of 2003 National Institutes of Health Research Festival. Bethesda, MD
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., Valente, L., Andersen, G., Kinzy, TG., & Nierhaus, K. (2002). Elucidating the function of the GCN1/20 complex on the ribosome. Poster session presented at the meeting of Max Planck Institute for Molecular Genetics: Day of Scientific Exchange. Berlin, Germany
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., Swanson, MJ., Link, AJ., & Hinnebusch, AG. (2002). Role of YIH1 in negative regulation of eIF2α kinase GCN2. Poster session presented at the meeting of Translational Control Meeting. Cold Spring Harbor, NY
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., Swanson, MJ., Link, AJ., & Hinnebusch, AG. (2002). Role of YIH1 in negative regulation of eIF2α kinase GCN2. (pp. 308 - 308). , Translational Control Meeting Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Swanson, MJ., Link, AJ., & Hinnebusch, AG. (2002). Negative regulation of general amino acid control by actin and YIH1, the yeast homolog of mammalian IMPACT. Poster session presented at the meeting of National Institutes of Health Research Festival. Bethesda, MD
[Conference Poster]Authored by: Sattlegger, E.
Dong, J., Qiu, H., Sattlegger, E., Garcia Barrio, M., Francklyn, CS., & Hinnebusch, AG. (2001, October). A domain related to histidyl-tRNA synthetase in GCN2 mediates kinase activation by uncharged tRNA by an autoinhibitory mechanism. Presented at 4th West Coast Meeting on mRNA Stability and Translation. Seattle, WA.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., Swanson, MJ., & Hinnebusch, AG. (2001). Binding of GCN1 near the ribosomal A-site and to the N-terminus of GCN2 is required for activation of the kinase GCN2 in amino acid starved cells. In 66th Cold Spring Harbor Symposium on Quantitative Biology: The Ribosome(pp. 132). , 66th Cold Spring Harbor Symposium on Quantitative Biology: The Ribosome Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Swanson, MJ., & Hinnebusch, AG. (2001). Binding of GCN1 near the ribosomal A-site and to the N-terminus of GCN2 is required for activation of the kinase GCN2 in amino acid starved cells. Poster session presented at the meeting of 66th Cold Spring Harbor Symposium on Quantitative Biology: The Ribosome. Cold Spring Harbor, NY
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., Swanson, M., & Hinnebusch, A. (2001). Binding of GCN1 near the ribosomal A-site and to the N-terminus of GCN2 is required for activation of the kinase GCN2 in amino acid starved cells.. In YEAST Vol. 18 (pp. S193 - S193). : JOHN WILEY & SONS LTD
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Swanson, MJ., & Hinnebusch, AG. (2001). Binding of GCN1 near the ribosomal A-site and to the N-terminus of GCN2 is required for activation of the kinase GCN2 in amino acid starved cells. Poster session presented at the meeting of 20th International Conference on Yeast Genetics and Molecular Biology. Prague, Czech Republic
[Conference Poster]Authored by: Sattlegger, E.
Dong, J., Qiu, H., Sattlegger, E., Garcia Barrio, M., Francklyn, CS., & Hinnebusch, AG. (2001). A domain related to histidyl-tRNA synthetase in GCN2 mediates kinase activation by uncharged tRNA by an autoinhibitory mechanism. (pp. 11). , 4th West Coast Meeting on mRNA Stability and Translation Seattle, WA: University of Washington
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Garcia Barrio, M., Dong, J., Ufano, S., & Hinnebusch, AG. (2000). Binding of the GCN1/GCN20 complex to the N-terminus of GCN2 is required for the eIF2α kinase activity of GCN2 in amino acid starved cells. (pp. 285). , Meeting on Translational Control Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press
[Conference Abstract]Authored by: Sattlegger, E.
Sattlegger, E., Garcia Barrio, M., Dong, J., Ufano, S., & Hinnebusch, AG. (2000). Binding of the GCN1/GCN20 complex to the N-terminus of GCN2 is required for the eIF2α kinase activity of GCN2 in amino acid starved cells. Poster session presented at the meeting of Meeting on Translational Control. Cold Spring Harbor, NY
[Conference Poster]Authored by: Sattlegger, E.
Sattlegger, E., & Hinnebusch, AG. (2000). Separate domains in GCN1 for binding protein kinase GCN2 and ribosomes are required for GCN2 activation in amino acid starved cells. Poster session presented at the meeting of National Institutes of Health Research Festival 2000. Bethesda, MD
[Conference Poster]Authored by: Sattlegger, E.
Hinnebusch, AG., Dong, J., Garcia Barrio, M., Sattlegger, E., Krishnamoorthy, T., Qiu, H., . . . Anderson, J. (2000, December). Mechanism of translational control in yeast by phosphorylation of initiation factor 2. Presented at American Society for Cell Biology 40th Annual Meeting. San Francisco, CA.
[Conference Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E.Revealing novel links between protein synthesis and the nutrient sensor Gcn2. 29 Aug 2011.
[Conference Oral Presentation]Authored by: Sattlegger, E.

Other

Sattlegger, E. (2020, September). Shedding light on protein-protein interactions relevant for regulating Gcn2 - A protein kinase implicated in health and disease.. In Faculty, Western Michigan University, Kalamazoo, MI, USA. Presented at Virtual seminar due to COVID19 related travel restrictions. Western Michigan University, Kalamazoo, MI, USA.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2019, September). Shedding light on the complex mechanism of Gcn2 regulation, a kinase implicated in health and disease.. In Faculty, University of Graz, Graz, Austria. Presented at University of Graz, Graz, Austria.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2018, September). Studies on the regulation of Gcn2 - an enzyme implicated in many biological functions as well as disease.. In Faculty, Midwestern University, Phoenix, AZ, USA. Presented at Midwestern University, Phoenix, AZ, USA.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2017, September). Characterising protein-protein interactions relevant for the activation of Gcn2 – a protein kinase involved in many biological functions as well as diseases/disorders.. In Faculty, Charite, Berlin, Germany. Presented at Charite, Berlin, Germany.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2017, September). Investigating protein-protein interactions relevant for the function of protein kinase Gcn2.. In Faculty, University of Oxford, UK. Presented at University of Oxford, UK.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2017, September). Towards understanding the function and regulation of the protein kinase Gcn2 – molecular and genetic approaches.. In Faculty and students, Hamburg University of Applied Sciences, Hamburg, Germany. Presented at Hamburg University of Applied Sciences, Hamburg, Germany.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2016, September). Understanding Gcn2 - a protein kinase implicated in various diseases. In Faculty, Midwestern University, Phoenix, AZ, USA. Presented at Midwestern University, Phoenix, AZ, USA.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2016, September). Towards a better understanding of Gcn2 function - a protein kinase relevant for many biological processes and implicated in various diseases/disorders.. In Faculty, Georgia Institute of Technology, USA. Presented at Georgia Institute of Technology.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2015, April). In search for novel proteins that keep in check Gcn2, an enzyme implicated in many biological functions and diseases/disorders. (University of Sao Paulo, Brazil).
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2014, August). Towards understanding how cells keep in check Gcn2, a protein kinase involved in many crucial biological functions and implicated in diseases/disorders. (Emory Unversity, Altanta, GA, USA, 20/8/2014 , Georgia Institute of Technology, Atlanta, GA, USA, 18/8/2014).
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2014, August). Towards understanding how cells keep in check Gcn2, a protein kinase involved in many crucial biological functions and implicated in diseases/disorders..
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2014, June). The protein kinase Gcn2. An ancient nutrient sensor that inadvertently supports cancer cell growth.. Presented at The University of Auckland, Faculty of Medical and Health Sciences, Auckland.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2013, November). Using baker’s yeast as guinea pig for understanding mammalian/human signal transduction pathways.. Presented at Ƶ Albany, New Zealand.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2013, August). Mapping Gcn1 on the ribosome, using genetic methods.. Presented at Charité Medical University, Berlin, Germany.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2013, August). Towards understanding the regulatory network controlling the protein kinase Gcn2 (University of Nijmegen, The Netherlands).
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2012, September). Results on Gcn2 regulators (National Institutes of Health (NIH), USA).
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2012, August). Using yeast to understand how our cells sense and overcome starvation for amino acids..
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2010). regular invitations to give oral presentation on new research findings: Cytoskeletal effects on sensing amino acid starvation: when amino acid hunger is actin up. 20 Sep 2008 - Interactome studies on the GAAC pathway. 24 Sep 2010 - Biology department, University of Nebraska, Omaha, NE, USA.. Presented at Biology department, University of Nebraska, Omaha, NE, USA. 2008 and.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2010, June). Yeast molecular biology.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2010, September). Interactome studies on the GAAC pathway, Sep 24 2010. Presented at University of Nebraska, Omaha, NE, USA.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2009, November). Research - Sattlegger group. In Biosciences team of the Australian Wine Research Institute (AWRI).
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2009, April). Gcn proteins are important for (Eukaryotic) cells. Presented at Ludwig Maximilian University, Munich, Germany.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2009, November). Protein synthesis and sensing starvation for amino acids - What is the connection?. Presented at Adelaide Wine Research Institute (AWRI), Australia.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2008, March). Das Enträtseln von wichtigen biologischen Prozessen - Wie kann Bäkerhefe uns dabei helfen? [Unravelling the molecular mechanism of important biological processes – How can baker’s yeast help us?].
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2008, March). Unravelling the molecular mechanism of important biological processes- How baker's yeast help us?. In Hamburg University of Applied Sciences. Presented at Hamburg, Germany.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2008, May). Ƶing the function of YIH1, the yeast homologue of the brain protein impact. In Universita Degli Studi di Trento. Presented at Trento, Italy.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2007). Hungry (f)or memory? Unravelling molecular mechanisms involved in regulating the protein kinase GCN2. Presented at University of Auckland, Auckland, NZ.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2007, May). Die Hefe ist eine kleine Pflanze" (Yeast is a little plant). In Institute of Botany Seminar.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2006, September). How do we know that we are hungry? Sensing amino acid starvation. What is the molecular mechanism? And more implications .... In Department of Biology. Presented at University of Nebraska, Omaha, NE.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2006). What can baker's yeast tell us about neurons?. Presented at Auckland, New Zealand.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2006). How do we know we are hungry?: Unravelling molecular mechanisms involved in signalling amino acid starvation. Presented at University of Auckland, Auckland, NZ.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2005, September). Sensing amino acid starvation. What is the molecular mechanism? And more implications.... : Max Planck Institute for Molecular Genetics.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2005, September). Sensing amino acid starvation. What is the molecular mechanism? How does the cell respond adequately? More implications.... : Georg-August University.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2004, February). Elucidating the signaling of amino acid starvation in Eukaryotes. : Max Planck Institute for Molecular Genetics.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2003, November). Elucidating the function of the ribosome in sensing amino acid starvation in Eukaryotes. : 8th Workshop on Experimental Strategies for Ribosomal Research.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2001, November). Stringent control in yeast. : Max Planck Institute for Molecular Genetics.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E. (2001, May). Separate domains in GCN1 for binding protein kinase GCN2 and ribosomes are required for GCN2 activation in amino acid-starved cells. : LMGR-LGRD-SDRRM Joint Seminar.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E.regular invitations to give oral presentation on research conducted by students from Hamburg University who worked in the Sattlegger lab as interns: Ein Einblick in die Forschung eines wichtigen Signaltransduktionsweges. [Insights into the research on an important signal transduction pathway]. 22 Sep 2011 - Unravelling the molecular mechanism of important biological processes- How can baker's yeast help us? 08 Mar 2008 - University of Applied Sciences, Hamburg, Germany.. Presented at University of Applied Sciences, Hamburg, Germany..
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E.Newest results on Gcn1-ribosome interaction. 19/20 Sept 2011. Presented at Charite, Berlin, Germany.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E.Ein Einblick in die Forschung eines wichtigen Signaltransduktionsweges. [Insights into the research on an important signal transduction pathway] 22 Sept 2011. Presented at University of Applied Sciences, Hamburg, Germany.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E.The newest findings on Gcn2 regulation. 16 Sept 2011. Presented at Gerhard-August University Goettingen, Germany.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E., & Munn, A.N/A this is science art: Designed science art image for Journal Cover, together with Alan Munn, Griffith University, Australia, for the Journal Australian Biochemist, 40(2):9-13. (pp. cover - cover).
[Other]Authored by: Sattlegger, E.
Sattlegger, E.Binding of Gcn proteins to ribosomes – what do we know so far?. Presented at Max Planck Institute of Molecular Genetics and Charité joint Seminar, Berlin, Germany.
[Oral Presentation]Authored by: Sattlegger, E.
Sattlegger, E.Cytoskeletal effects on sensing amino acid starvation: when amino acid hunger is actin up. Presented at University of Nebraska, Omaha, NE.
[Oral Presentation]Authored by: Sattlegger, E.

Uncategorised

Anderson, R., & Sattlegger, E.MarchMarchSattlegger, E., & Anderson, R.MarchMarchSattlegger, E., & Anderson, R.JanuaryJanuarySattlegger, E., & Anderson, R.MarchJanuaryJanuary
[Preprint]Authored by: Sattlegger, E.

Consultancy and Languages

Languages

  • German
    Last used: - current
    Spoken ability: Excellent
    Written ability: Excellent
  • English
    Last used: - current
    Spoken ability: Excellent
    Written ability: Excellent

Teaching and Supervision

Teaching Statement

Teaching in the fields of Molecular Biology, Genetics, Biochemistry, Cell Biology

Summary of Doctoral Supervision

Position Current Completed
Main Supervisor 4 6
Co-supervisor 1 5

Current Doctoral Supervision

Main Supervisor of:

  • Yu Hsiang Lin - Doctor of Philosophy
    Deciphering ribosome-protein interactions relevant for Gcn2 activation.
  • Victoria Gibbs - Doctor of Philosophy
    In-depth characterisation of the human GCN1-GCN2 interaction
  • Aditi Ghuge - Doctor of Philosophy
    Testing novel peptides that target virtually all types of cancer.
  • Reuben Anderson - Doctor of Philosophy
    In-depth characterisation of a protein-protein interaction

Co-supervisor of:

  • Aseel Mohammad - Doctor of Philosophy
    Investigating the Role of G-Quadruplexes in Oncogene Silencing

Completed Doctoral Supervision

Main Supervisor of:

  • 2022 - Susanne Gottfried - Doctor of Philosophy
    Characterising Parameters in Gcn1 Relevant for Gcn2 Activation
  • 2019 - Hayley Prescott - Doctor of Philosophy
    Studies Toward Evaluating Gcn2 as a Drug Target
  • 2016 - Rashmi Ramesh - Doctor of Philosophy
    Unravelling the dynamics of protein- protein interactions in the Gcn2 signal transduction pathway
  • 2015 - Renuka Shanmugam - Doctor of Philosophy
    Identification of Gcn1 binding proteins and characterization of their effect on Gcn2 function
  • 2012 - Martina Dautel - Doctor of Philosophy
    Shedding light on the link between the actin cytoskeleton and stress response in Saccharomyces cerevisiae
  • 2011 - Jyothsna Visweswaraiah - Doctor of Philosophy
    Discovering links between elongation factors and general amino acid control in Saccharomyce cerevisiae

Co-supervisor of:

  • 2024 - Hannah Hawley - Doctor of Philosophy
    Investigating HDAC4 aggregation in a Drosophila model of neuronal development
  • 2024 - Jinting Zhu - Doctor of Philosophy
    Few-shot Learning for Malware Detection
  • 2012 - Katie Hartnup - Doctor of Philosophy
    Ancient DNA Analysis of Maori Feather Cloaks and Kete: Implications for Conservation and Culture
  • 2011 - Elmira Mohandesan - Doctor of Philosophy
    The evolution of the Mitochondrial DNA in Tuatara (Sphenodon punctatus)
  • 2011 - William Waugh - Doctor of Philosophy
    DNA Barcoding the Birds of New Zealand

Media and Links

Other Links