Potential Uses or Applications of the CRISPR Cas System ! -.- Several Uses of Cas9 Induced Double Strand Breaks for Genomic Engineering as Suggested by Basset and Li in 2014 are listed below. -.- Most applications of CRISPR Cas9 use… Read More ›
LincRNA
Structural Models of the CRISPR Cas System!
As of December 2013 90 solved structures were available in the PubMed structural database related to the CRISPR Cas System! -.- A few these models are shown below! A PubMed search for “CRISPR Cas” showed that close to 90 solved… Read More ›
Highlighted Reports on the CRISPR Cas System!
Selected papers for CRISPR Cas! Segal and Meckler in 2013 state in ‘Genome Engineering at the Dawn of the Golden Age,’ that, “In summary, compared with ZFNs, TALENs can be designed for more targets, are more likely to be active… Read More ›
What is a CRISPR Cas system?
The CRISPR-Cas systems found in bacteria and archaea are versatile small RNAs for adaptive defense and regulation Bacteria and archaea have evolved various defense and regulatory mechanisms allowing them to react to various stressful situations caused by the environment, such… Read More ›
Are MicroRNAs the new players in metabolism and metabolic disorders?
Micro RNAs (miRNAs) have recently emerged as key regulators of metabolic processes! . More and more evidence is accumulating that suggest that the dysregulation of miRNAs may contribute to metabolic abnormalities such as the misregulation of cholesterol and lipid metabolism, insulin… Read More ›
Piwi-RNAs, the Defenders of the Genome
What are Piwi- or piRNAs ? Here is the answer: P-element induced wimpy testis (Piwi)-RNAs, or Piwi-interacting RNA, or piRNAs are small RNAs typically 23 to 35 nucleotides long . . During the recent 16 years a group of small… 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 ›
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