Shivarov et al. designed and validated a novel bead-based suspension assay using BNA[NC] probes for the Luminex Lab Scan 200 flow platform to detect and quantify somatic mutations in Leukemia! -.- Shivarov et al. recently develop and validated a novel bead-based… Read More ›
FISH Probes
What are Circular Oligonucleotides?
Circular oligonucleotides are covalently closed singular DNA or RNA strands that are resistant to degradation by many cellular DNA and RNA decay machineries. [Source: (left) Modelling DNA; Phil. Trans. R. Soc. A-2006-Harris-3319-34; (right) David Goodsell: The self-splicing RNA in PDB… Read More ›
Are viruses hiding within us?
Recent research results indicate that viral sequences are part of us. Endogenous viral elements (EVEs) or endogenous retroviral elements (ERVs) have been identified in eukaryotic genomes including the human genome. The findings revealed the enormous scale of the invasion of… Read More ›
Why should I test my CHO cell culture for virus infections?
The answer is: … CHO cells can be infected in bioreactors with viruses such as Vesivirus 2117! … The presence of a virus in a bioreactor can inflict major losses for biotech and pharmaceutical companies involved in the manufacturing of… Read More ›
RNA FISH can be used to visualize subcellular locations of RNA or RNA-RBP complexes including the location of noncoding RNAs !
RNA FISH allows the identification and localization of noncoding RNAs in cells ! Ribonucleic Acid Fluorescence In Situ Hybridization (RNA FISH) is a visualization technique that allows simultaneous detection, localization, and quantification of individual RNA molecules at the subcellular level…. Read More ›
Bridged Nucleic Acid based FISH
Bridged Nucleic Acid (BNA) based FISH probes are smart tools available from Biosynthesis Inc. Recent advancements in the design and development of molecular probes and image analysis has made fluorescence in situ hybridization (FISH) a powerful tool. Although being a… Read More ›
Q-FISHing to monitor molecular aging
By Klaus D. Linse Fluorescence In Situ Hybridization (FISH) for Telomere Length Quantification or Q-FISH evolves into High-Throughput Q-FISH Fluorescence in situ hybridization (FISH) is a powerful tool and probes that exhibit high DNA and RNA affinities promise to improve… Read More ›