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New!
Go Beyond RNA: Unveiling Downstream-of-Gene Transcripts (DoG RNAs)
This webinar will cover:
• What DoG RNAs are
• DoG RNA biogenesis
• DoG-derived chimera RNAs and circular RNAs
• DoG functions and diseases
• DoG RNA profiling by Arraystar DoG RNA microarray
• DoG RNA research roadmap
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R-Loops: An Active Player in Cancer and Diseases
This webinar will cover:
• The emergence of R-loops
• R-loops in cancer
• R-loops in neural diseases
• R-loops in cardiovascular diseases
• R-loop profiling
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Extrachromosomal Circular DNAs
- The extraordinary eccDNAs in cancer and diseases
This webinar will cover :
• What eccDNAs are
• eccDNA molecular functions and diseases
• eccDNA biomarkers
• Profiling eccDNAs
• eccDNA research roadmap
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The Latest Highlights on CircRNA in Cancer
This webinar covers:
• Beyond miRNA sponge: circRNA functions and m6A modification, e.g. immunity, protein binding.
• Updates of circRNA in diseases and biomarker applications
• Overcoming the challenges: why use microarray over seq for circRNA expressional profiling and epitranscriptomic profiling
• Approaches and roadmaps to study circRNA expression and modification
• Case studies and highlights of recent cancer circRNA profiling and studies
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New Discoveries in m6A Epitranscriptomics
This webinar covers:
• The m6A epitranscriptomic landscape from mRNA to lncRNA
• New discoveries of m6A in cancer, cardiovascular and Covid19 diseases
• New tools with the power to profile percent modification stoichiometry and at single base resolution
• m6A research roadmap - how to design a m6A project
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Raising the Bar of Multi-transcriptomic Profiling of Small RNAs
This webinar covers:
• Small RNA biotypes and functional mechanisms
• Biomarker uses of small RNAs
• Challenges of quantifying small RNAs
• Arraystar small RNA profiling technologies
• Roadmap to study small RNA expression
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How to Profile Small RNA Modifications?
This webinar covers:
• Small RNA modifications in biological functions and diseases
• Small RNA modifications as biomarkers
• Challenges of small RNA modification profiling
• Solution to small RNA modification profiling with microarrays
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How to Study LncRNA Expression and Modifications?
This webinar covers:
• Why and how to profile lncRNA expression
• Why use microarray over seq for lncRNA profiling
• Why lncRNA m6A modification is important
• What is the best way to profile lncRNA modification
• The latest success stories in lncRNA research
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m6A Profiling at Single Nucleotide Resolution
Arraystar m6A Single Nucleotide Arrays uses methyl-sensitive MazF RNase to precisely locate the m6A site and microarray for ultrasensitive detection. The webinar covers: 1) The roles of m6A sites in human cancers and diseases; 2) How to best profile and study m6A sites.
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tRNAs - The rising star of wobble gene regulators
- nrStar™ tRNA PCR Arrays
tRNAs are not only the fundamental component in protein translation, but also new found regulatory molecules. Watch and learn more about tRNAs, the rising star of wobble gene regulators!
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The latest development of LncRNA profiling technology
- Arraystar LncRNA Arrays newly released in 2019
Learn the latest publications about the limitations of RNA-seq for LncRNA profiling, and what’s new our recently updated LncRNA microarrays can offer.
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Quantify the percentage of modification at transcript level
- Arraystar Epitranscriptomic Arrays
Current transcriptome-wide RNA modification profiling methods deal mostly with mapping the modification sites but are unable to achieve modification stoichiometry. The lack of such quantitative information has been a major concern for scientists. This video presents how Arraystar Epitranscriptomic two-color channel microarrays quantify the percentage of RNA that is modified for each transcript isoform.
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The only practical choice for circular RNA profiling
Circular RNAs (circRNA) are resistant to exonuclease degradation and some can be present at abundant yet cell type specific levels. Many circRNAs harbor multiple microRNA binding sites to function as microRNA sponges in gene regulation. Their unique properties poses special profiling challenges. We will discuss the best practical circRNA profiling solutions and share the success stories.
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Super-enhancer lncRNAs - The master regulators
Super-enhancers are top ranking master gene regulators that program the cell lineages, types, identities, and diseases. Super-enhancer lncRNAs (SE-lncRNA) transcribed from the super-enhancers activate the target coding genes by multiple mechanisms. Arraystar SE-lncRNA microarrays simultaneously profile SE-lncRNAs and their target genes, with high sensitivity, unambiguous isoform detection, comprehensive annotations and transcript-specific level accuracy.
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