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Research description

Research area/interest: Characterization and employment of microvesicles for the delivery of biotherapeutic agents.


Comprehensive RNA-Sequencing Analysis in Serum and Muscle Reveals Novel Small RNA Signatures with Biomarker Potential for DMD
Coenen-stass Aml, Sork H, Gatto S, Godfrey C, Bhomra A, Krjutškov K, et al
Molecular therapy. Nucleic acids 2018;13():1-15

Heterogeneity and interplay of the extracellular vesicle small RNA transcriptome and proteome
Sork H, Corso G, Krjutskov K, Johansson Hj, Nordin Jz, Wiklander Opb, et al
Scientific reports 2018;8(1):10813-

Lipid-based Transfection Reagents Exhibit Cryo-induced Increase in Transfection Efficiency
Sork H, Nordin Jz, Turunen Jj, Wiklander Op, Bestas B, Zaghloul Em, et al
Molecular therapy. Nucleic acids 2016;5():e290-

Extracellular vesicle in vivo biodistribution is determined by cell source, route of administration and targeting
Wiklander Op, Nordin Jz, O'loughlin A, Gustafsson Y, Corso G, Mäger I, et al
Journal of extracellular vesicles 2015;4():26316-

A Peptide-based Vector for Efficient Gene Transfer In Vitro and In Vivo
Lehto T, Simonson Oe, Mager I, Ezzat K, Sork H, Copolovici Dm, et al
MOLECULAR THERAPY 2011;19(8):1457-67

Design of a peptide-based vector, PepFect6, for efficient delivery of siRNA in cell culture and systemically in vivo
Andaloussi Se, Lehto T, Mäger I, Rosenthal-aizman K, Oprea Ii, Simonson Oe, et al
Nucleic acids research 2011;39(9):3972-87

Evaluation of the 124-plex SNP typing microarray for forensic testing
Krjutskov K, Viltrop T, Palta P, Metspalu E, Tamm E, Suvi S, et al

Development of a single tube 640-plex genotyping method for detection of nucleic acid variations on microarrays
Krjutskov K, Andreson R, Magi R, Nikopensius T, Khrunin A, Mihailov E, et al


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Hälsovägen 7, KFC, plan 5, lab 514