Karla Münzner

Karla Münzner is a PhD student in the lab of Eva Lindström (Program of Limnology, Department of Ecology and Genetics). She is a freshwater ecologist and studies an alga called Gonyostomum semen, or "gubbslem", as it's known in Swedish. You can find "gubbslem" in brown water lakes all over Sweden, and when it grows a lot in a short time, it causes slimy algae blooms. However, we still don't know a lot about this alga: Why does it like brown water lakes that much? What causes the slimy blooms? How will those blooms impact water quality and lake ecosystems in the future? Karla's recently published hypothesis is that "gubbslem" needs high iron concentrations in the water to grow, and that it thrives in brown water lakes because iron concentrations in those lakes are also high. This summer, she is collaborating with researchers at the Norwegian University of Life Sciences (Oslo) to find out if the slimy "gubbslem" blooms can reduce carbon dioxide emissions from Scandinavian brown water lakes.

Münzner, K., Gollnisch, R., Rengefors, K., Koreiviene, J. & Lindström, E.S. High iron requirements for growth in the nuisance alga Gonyostomum semen (Raphidophyceae). Journal of Phycology (2021). https://doi.org/10.1111/jpy.13170

Letian Bao

Letian is a new Ph.D. student in the lab of Prof. Anthony Forster (Program of Molecular Biology, Molecular Life Sciences, Department of Cell and Molecular Biology). His current research investigates influences of the peptide release kinetics by unnatural amino acids. He came into this field after his master study majored in cell and molecular biology, during which he joined the Forster lab, worked on overcoming chromoproteins limitations and published a paper in Analytical Biochemistry. Chromoproteins (CPs) share a similar structure with fluorescent proteins but have dark colors under ambient light, which enable inexpensive instrument-free analysis. However, CPs have strong toxicities. When they are heavily expressed in E. coli in order to show dark colors, their E. coli hosts lost colors in liquid culture in several days due to the mutations which silence CPs’ expression. He overcame CPs’ limitations by engineering a red fluorescent protein which has dark red color under ambient light and lower toxicity.

Bao L, Menon P N K, Liljeruhm J, et al. Overcoming chromoprotein limitations by engineering a red fluorescent protein. Analytical Biochemistry, 2020, 611: 113936. https://doi.org/10.1016/j.ab.2020.113936

Hannah Byrne

Hannah is a PhD student in the lab of Per Ahlberg (Program of Evolutionary Organismal Biology, Department of Organismal Biology). Her current research investigates the poorly understood biotic turnover across the Devonian-Carboniferous boundary, 358.9 million-years-ago (Ma), at the time of one of Earth’s major mass extinction events. Having a background in marine biology and oceanography, she came to the field of palaeontology through her Master’s project, looking at palaeotides during the Silurian-Devonian period (420 – 380 Ma), which has recently been published in Proc Roy Soc A. Her work was part of a collaboration project involving researchers from Bangor University and University of Oxford, UK and Uppsala University, where they used numerical tidal simulations to test the basis of the hypothesis that large tides could have been an environmental driver in the development of lungs in bony fish and later the development of limbs in early tetrapods. The paper has been well-received, with well-known physicist and public science figure, Brian Cox, tweeting about it!

Byrne, H. M., Green, J. A. M., Balbus, S. A., & Ahlberg, P. E. Tides: A key environmental driver of osteichthyan evolution and the fish-tetrapod transition?. Proceedings of the Royal Society A (2020).  https://doi.org/10.1098/rspa.2020.0355

An article by Science Daily

And a Tweet storm on the topic: https://twitter.com/ProfBrianCox/status/1320288451690958849