1989 - Member of Academia Europaea
Member of the European Molecular Biology Organization (EMBO)
His primary scientific interests are in Molecular biology, Cell nucleus, Cell biology, Nuclear pore and RNA. His work carried out in the field of Molecular biology brings together such families of science as Transcription factor II B, Cytoplasm, Transcription factor and Synaptonemal Complex Protein 1. The various areas that Bertil Daneholt examines in his Cell nucleus study include Ribonucleoprotein, Heterogeneous ribonucleoprotein particle and Nucleoplasm.
In his research, Protein biosynthesis and Transport protein is intimately related to RNA-binding protein, which falls under the overarching field of Cell biology. His work investigates the relationship between Nuclear pore and topics such as Biophysics that intersect with problems in Messenger RNA and Genetics. His RNA study frequently links to other fields, such as Transcription.
His scientific interests lie mostly in Molecular biology, RNA, Biophysics, Ribonucleoprotein and Cell biology. He has included themes like Polytene chromosome, Chromatin, Transcription, Gene and Nucleoplasm in his Molecular biology study. The RNA study combines topics in areas such as Nucleolus, Chromosome, DNA and Agarose.
His Biophysics study incorporates themes from Electron microscope, Anatomy and Nuclear pore. The study incorporates disciplines such as Cell nucleus, Secretory protein and RNA splicing in addition to Ribonucleoprotein. His Cell nucleus research is multidisciplinary, incorporating perspectives in Transport protein and RNA-binding protein.
His primary areas of investigation include Molecular biology, Nucleoplasm, Biophysics, Messenger RNP and Cell biology. His research in Molecular biology intersects with topics in Ribonucleoprotein, RNA, Nuclear pore, Messenger RNA and Cell nucleus. His work deals with themes such as Chromatin and Transcription, which intersect with Nucleoplasm.
He interconnects Stratum corneum, Synaptonemal complex, Electron microscope, Human skin and Granule in the investigation of issues within Biophysics. The concepts of his Messenger RNP study are interwoven with issues in Polytene chromosome and Polysome. His study looks at the relationship between Cell biology and fields such as Protein biosynthesis, as well as how they intersect with chemical problems.
Molecular biology, Cell nucleus, Cell biology, Nucleoplasm and Actin-binding protein are his primary areas of study. Molecular biology is closely attributed to Cytoplasm in his research. His Cell nucleus course of study focuses on Ribonucleoprotein and Nucleus.
Bertil Daneholt studies Cell biology, namely Nuclear pore. His study looks at the relationship between Nucleoplasm and topics such as Chromatin, which overlap with Poly-binding protein, Polymerase and Transcription. Bertil Daneholt has researched RNA in several fields, including Polytene chromosome and Biophysics.
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The murine SCP3 gene is required for synaptonemal complex assembly, chromosome synapsis, and male fertility.
Li Yuan;Jian-Guo Liu;Jian Zhao;Eva Brundell.
Molecular Cell (2000)
Translocation of a specific premessenger ribonucleoprotein particle through the nuclear pore studied with electron microscope tomography.
Hans Mehlin;Bertil Daneholt;Ulf Skoglund.
A nuclear cap-binding complex binds Balbiani ring pre-mRNA cotranscriptionally and accompanies the ribonucleoprotein particle during nuclear export.
N Visa;E Izaurralde;J Ferreira;B Daneholt.
Journal of Cell Biology (1996)
A Pre-mRNA-Binding Protein Accompanies the RNA from the Gene through the Nuclear Pores and into Polysomes
Neus Visa;Alla T Alzhanova-Ericsson;Xin Sun;Elena Kiseleva.
Assembly and transport of a premessenger RNP particle
Proceedings of the National Academy of Sciences of the United States of America (2001)
A Look at Messenger RNP Moving through the Nuclear Pore
Nuclear actin is associated with a specific subset of hnRNP A/B-type proteins
Piergiorgio Percipalle;Andreas Jonsson;Dmitri Nashchekin;Christina Karlsson.
Nucleic Acids Research (2002)
Three-dimensional structure of a specific pre-messenger RNP particle established by electron microscope tomography
U. Skoglund;K. Andersson;B. Strandberg;B. Daneholt.
Characterization of active transcription units in Balbiani rings of Chironomus tentans.
M.M. Lamb;B. Daneholt.
Sedimentation properties of the newly synthesized RNA from isolated nuclear components of Chironomus tentans salivary gland cells.
J.-E. Edström;B. Daneholt.
Journal of Molecular Biology (1967)
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