von Thomas Fester | Sep 29, 2016 | Biochemistry, Molecular Structures, News
Biochemistry The animated gif shows a spliceosome after its first catalytic step (as described by Galej et al.) and has been adapted from an entry (5LJ5) in the Protein Data Bank. The RNA to be spliced is given in yellow colour, the RNA-part of the spliceosome in...
von Thomas Fester | Sep 29, 2016 | Biochemistry, News
Molecular biology Source: Hatorangan et al., The Plant Cell 28, 1815 – 1827 Scivit News – Visual Science More illustrations from Scivit More videos from Scivit Have a video abstract based on this cartoon (300 Euro) ← Previous News Further News...
von Thomas Fester | Sep 29, 2016 | Biochemistry, News
Plant signaling Source: Shahzad et al., Cell 167, 87 – 98 Scivit News – Visual Science More illustrations from Scivit More videos from Scivit Have a video abstract based on this cartoon (300 Euro) ← Previous News Further News...
von Thomas Fester | Sep 29, 2016 | Biochemistry, Molecular Medicine, News
Molecular medicine Source: Fabbiano et al., Cell Metabolism 24, 434 – 446 Scivit News – Visual Science More illustrations from Scivit More videos from Scivit Have a video abstract based on this cartoon (300 Euro) ← Previous News Further News...
von Thomas Fester | Sep 29, 2016 | Biochemistry, Molecular Structures, News
Spliceosomes are complex molecular machineries responsible for removing introns from precursor-RNAs during gene expression. Splicesosomes are assembled from RNA- and protein-molecules, with RNAs as the main catalytic components. Assembly and catalytic activity...
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