The constant interplay between DNA methylation, histone modifications and small interfering RNAs – including micro-RNA – provides the basis for establishing a cellular epigenomic network. Its occurrence depends on various endogenic and exogenic factors and is specific to a given type of cell and during a precise period of time. Thus, an epigenomic network is where phenomena known for a long time as »tissue and time specific gene expression« – both necessary for proper cell functioning – are manifested. A cancer cell is an excellent example of disturbed epigenomic network. Because of the reversible nature of the epigenomic process, the network can be partially or fully restored by the use of epigenomic drugs, to date, the inhibitors of DNA m...
An organism has a unique genome but may have dif-ferent tissue-specific epigenomes. Distinct from th...
The epigenome plays the pivotal role as interface between genome and environment. True genome-wide a...
Genetic aberrations, including chromosomal rearrangements, loss or amplification of DNA, and point m...
The constant interplay between DNA methylation, histone modifica-tions and small interfering RNAs – ...
The constant interplay between DNA methylation, histone modifications and small interfering RNAs – i...
The epigenomic era has revealed a well-connected network of molecular processes that shape the chrom...
Epigenetics deals with the interactions between genes and the immediate cellular environment. These ...
Appropriate patterns of DNA methylation and histone modifications are required to assure cell identi...
Epigenetics has become a fast-growing area of study in cellular biology. An epigenetic trait is defi...
In the past, the term epigenetics was used to describe all biological phenomena that do not follow n...
Epigenetics “above or over genetics” is the term used for processes that result in modifications whi...
Epigenetics is a science of inheritable organism properties that are not associated with changes in ...
Epigenetics is the study of heritable changes in gene activities that are not caused by changes in t...
Epigenetics is rising to prominence in biology as a mechanism by which environmental factors have in...
While the eukaryotic genome is the same throughout all somatic cells in an organism, there are spec...
An organism has a unique genome but may have dif-ferent tissue-specific epigenomes. Distinct from th...
The epigenome plays the pivotal role as interface between genome and environment. True genome-wide a...
Genetic aberrations, including chromosomal rearrangements, loss or amplification of DNA, and point m...
The constant interplay between DNA methylation, histone modifica-tions and small interfering RNAs – ...
The constant interplay between DNA methylation, histone modifications and small interfering RNAs – i...
The epigenomic era has revealed a well-connected network of molecular processes that shape the chrom...
Epigenetics deals with the interactions between genes and the immediate cellular environment. These ...
Appropriate patterns of DNA methylation and histone modifications are required to assure cell identi...
Epigenetics has become a fast-growing area of study in cellular biology. An epigenetic trait is defi...
In the past, the term epigenetics was used to describe all biological phenomena that do not follow n...
Epigenetics “above or over genetics” is the term used for processes that result in modifications whi...
Epigenetics is a science of inheritable organism properties that are not associated with changes in ...
Epigenetics is the study of heritable changes in gene activities that are not caused by changes in t...
Epigenetics is rising to prominence in biology as a mechanism by which environmental factors have in...
While the eukaryotic genome is the same throughout all somatic cells in an organism, there are spec...
An organism has a unique genome but may have dif-ferent tissue-specific epigenomes. Distinct from th...
The epigenome plays the pivotal role as interface between genome and environment. True genome-wide a...
Genetic aberrations, including chromosomal rearrangements, loss or amplification of DNA, and point m...
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