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Recently, researchers have begun to put together a more comprehensive picture surrounding the “central dogma” of molecular biology, leading to the revelation that RNA is not just a simple genetic messenger, but rather a complex signaling molecule which is present in an increasing number of structural forms. A variety of iterations in which RNA exists allow the molecule to function as the template for translating the genetic code into protein, as the post-transcriptional regulator and the gene silencer, additionally, as recently discovered, a modulator of epigenetic elements.

Specific classes of non-coding RNA (ncRNA) ―short RNAs (including micro RNA (miRNA), short interfering RNA (siRNA), and piwi-interacting RNA (piRNA)) and long non-coding RNAs (lncRNA)―regulate gene expression through epigenetic mechanisms, influencing several cellular processes, such as X chromosome inactivation, genomic imprinting, some cellular processes, and cancer. LncRNAs tether epigenetic complexes that are capable of methylating DNA and modifying histones to the chromatin, thereby enabling allele and locus-specific regulation. Moreover, lncRNAs, because of their length, are suited for orchestrating specific regulatory events particular to a target locus. In addition, miRNA has shown to be linked with cancer and can act as oncogenes or tumor-suppressor genes. They can be involved in establishing DNA methylation and regulating histone modification through interacting with their target mRNA to alter chromatin of the corresponding DNA template.

https://www.creative-biogene.com/services/rna-seq-profiling-services.html
Recently, researchers have begun to put together a more comprehensive picture surrounding the “central dogma” of molecular biology, leading to the revelation that RNA is not just a simple genetic messenger, but rather a complex signaling molecule which is present in an increasing number of structural forms. A variety of iterations in which RNA exists allow the molecule to function as the template for translating the genetic code into protein, as the post-transcriptional regulator and the gene silencer, additionally, as recently discovered, a modulator of epigenetic elements. Specific classes of non-coding RNA (ncRNA) ―short RNAs (including micro RNA (miRNA), short interfering RNA (siRNA), and piwi-interacting RNA (piRNA)) and long non-coding RNAs (lncRNA)―regulate gene expression through epigenetic mechanisms, influencing several cellular processes, such as X chromosome inactivation, genomic imprinting, some cellular processes, and cancer. LncRNAs tether epigenetic complexes that are capable of methylating DNA and modifying histones to the chromatin, thereby enabling allele and locus-specific regulation. Moreover, lncRNAs, because of their length, are suited for orchestrating specific regulatory events particular to a target locus. In addition, miRNA has shown to be linked with cancer and can act as oncogenes or tumor-suppressor genes. They can be involved in establishing DNA methylation and regulating histone modification through interacting with their target mRNA to alter chromatin of the corresponding DNA template. https://www.creative-biogene.com/services/rna-seq-profiling-services.html
RNA-seq Profiling Services - Creative Biogene
Creative Biogene is able to offer a comprehensive range of RNA-seq profiling services to uncover the presence and quantity of RNA for gene expression profiling across the transcriptome.
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