Laboratories for biology and molecular biology

The Faculty of Science and Technology at UiS has several laboratories within the field of biology and molecular biology. Here is an overview of relevant equipment and facilities.

Published 30. Mar. 2022. Updated on 01. Mar. 2024

These study programmes use the laboratories in teaching:

Get to know our laboratories within biology and molecular biology.

Tissue culture laboratory

Tissue culture is an important tool in biotechnology, and can be applied to study for example mechanism of disease development and drug effects on the cellular level. 

Our lab is fully equipped for cell culture, and the lab is divided in separate zones for work with mammalian cells, fish cells and parasites. The laboratory is located in close proximity to downstream analytical equipment such as flow cytometers and microscopes. 

Instruments

CO₂ incubators
Biosafety cabinets
Guava Muse Cell Analyzer
Olympus CKX41 inverterted microscope
Agilent Seahorse XFp Analyzer
Agilent Seahorse XF

Methods

Tissue culture
Measurments of proliferation and viability.
Metabolic phenotyping

Contact person: Julie Nikolaisen

Flow cytometry

Flow cytometry is an high throughput method for studying single cells in a suspension. At UiS we have several flow cytometers and also cell sorters.

Cells can be labelled with fluorescent conjugated antibodies or stained with fluorescent markers. The cells are passing the laser beam as beads on a sting due to hydrodynamic focusing, and diffraction and fluorescence intensity is measured for each individual cell, and gives data on cell size, granularity and the relative level of the fluorescent marker. We also have the possibility to sort individual cell or cell populations of interest for continued culture or downstream analysis.

Instruments

Cytoflex B3 R1 V0
Accuri C6
Sysmex CyFlow® Space

Methods

Multiparameter analyses
Study hetrogenous cell populations
Cell sorting

Contact persons: Hanne Røland Hagland og Krista Michelle Kaster

Sequencing

Sequencing methods have been continued to improve since the origin and today, with the advancements of new technologies in the field, scientists are able to sequence whole genomes of different organisms for a wide range of applications. These are different sequencing platforms which, differ from each other in terms of method and length of sequenced template and which one to use is crucial in relation to the results and subsequent analysis methods one can use.

Next generation Sequencing: Second generation sequencing methods, also called next generation sequencing (NGS), are currently the most used sequencing method. NGS also known as massively parallel sequencing technologies and can produce thousands or millions of sequences simultaneously. Third-Generation Sequencing: The method is relatively new and called the next era of DNA sequencing technology, termed third-generation sequencing (TGS). Third generation sequencing, also called long-read sequencing, is mainly used for sequencing nucleotides in long sequences without having to divide the template up into small pieces. Chromium System (short-read sequencing technologies): An Advanced technology (Next GEM technology) with a single cell approach. Next GEM (Gel Beads-in-emulsion) technology, from 10X genomics is a microfluidics-based method which, enables integrated analysis of single cells at a massive scale to generate tens of thousands of single cell partitions, each containing an identifying barcode for downstream analysis.

Instruments

Oxford Nanopore MinION
Illumina iSeq100
Chromium Controller from10X genomic

Methods

Whole genome sequencing 
Whole exome sequencing 
Targeted RNA/DNA sequencing

Contact persons: Dugassa Nemie Feyissa

Zebra fish laboratory

Zebrafish are a model fish species that have a fully sequenced genome and conserved molecular regions that allow direct comparisons to higher level vertebrates, such as humans.

These small aquatic fish are utilized, from the embryo till the adult stages, in multiple disciplines. Due to their spawning frequency, fast developmental time, and translucent bodies during early life stages, they are ideal organisms to work with to answer questions regarding developmental biology, epigenetics and studying mechanisms of disease.

The equipment and resources available in the zebrafish facility includes a state-of-the-art, flow through aquarium system that offers individual tanks to rear and spawn adult zebrafish and offers the ability to work with transgenic zebrafish lines. A stereoscope with a temperature controlled heatblock, a high-definition color camera capable of taking images and videos, including fluorescence, and computer capable of processing large video files is available for use. A microinjector is attached to the stereoscope that allows molecular manipulation in embryonic zebrafish (microRNA and morpholino injections) and chemical dosing to simulate maternal transfer. A temperature controlled and photoperiod adjustable incubator is available when working with early life stages. The zebrafish lab can be used by bachelor students working with a faculty member at UiS, current master and Ph.D. students, postdoctoral researchers, and visiting scholars.

Instruments