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chromatinBuilding
Both transcription and splicing take place in a nuclear environment which, at face value, may seem refractory to the efficiency afforded by the coupling of both processes. This environment, chromatin, was once viewed as only a passive packaging system for genetic material, with very little contribution to the variety of nuclear activities occurring within and around it. However, overwhelming evidence now points to the chromatin environment as being highly dynamic, and an active player in nuclear activities
Precursor mRNA splicing is one of the most highly regulated processes in metazoan species. In additi...
The intimate relationship between the higher-order chromatin organisation and the regulation of gene...
Messenger RNA (mRNA) is transcribed by RNA polymerase II (Pol II) and has to undergo multiple proces...
Both transcription and splicing take place in a nuclear environment which, at face value, may seem r...
Both transcription and splicing take place in a nuclear environment which, at face value, may seem r...
Both transcription and splicing take place in a nuclear environment which, at face value, may seem r...
Both transcription and splicing take place in a nuclear environment which, at face value, may seem r...
Splicing and alternative splicing are involved in the expression of most human genes, playing key ro...
Splicing is a predominantly co-tran-scriptional process that has been shown to be tightly coupled to...
RNA plays a central role in the determination of the phenotype of the cell. The molecular mechanisms...
It is well known that RNA splicing and other pre-mRNA processing reactions happen cotranscriptionall...
It is well known that RNA splicing and other pre-mRNA processing reactions happen cotranscriptionall...
The regulation of alternative splicing remains a mystery, as introns often harbour numerous decoy mo...
Alternative precursor messenger RNA (pre-mRNA) splicing plays a pivotal role in the flow of genetic ...
AbstractCoupling of transcription and alternative splicing via regulation of the transcriptional elo...
Precursor mRNA splicing is one of the most highly regulated processes in metazoan species. In additi...
The intimate relationship between the higher-order chromatin organisation and the regulation of gene...
Messenger RNA (mRNA) is transcribed by RNA polymerase II (Pol II) and has to undergo multiple proces...
Both transcription and splicing take place in a nuclear environment which, at face value, may seem r...
Both transcription and splicing take place in a nuclear environment which, at face value, may seem r...
Both transcription and splicing take place in a nuclear environment which, at face value, may seem r...
Both transcription and splicing take place in a nuclear environment which, at face value, may seem r...
Splicing and alternative splicing are involved in the expression of most human genes, playing key ro...
Splicing is a predominantly co-tran-scriptional process that has been shown to be tightly coupled to...
RNA plays a central role in the determination of the phenotype of the cell. The molecular mechanisms...
It is well known that RNA splicing and other pre-mRNA processing reactions happen cotranscriptionall...
It is well known that RNA splicing and other pre-mRNA processing reactions happen cotranscriptionall...
The regulation of alternative splicing remains a mystery, as introns often harbour numerous decoy mo...
Alternative precursor messenger RNA (pre-mRNA) splicing plays a pivotal role in the flow of genetic ...
AbstractCoupling of transcription and alternative splicing via regulation of the transcriptional elo...
Precursor mRNA splicing is one of the most highly regulated processes in metazoan species. In additi...
The intimate relationship between the higher-order chromatin organisation and the regulation of gene...
Messenger RNA (mRNA) is transcribed by RNA polymerase II (Pol II) and has to undergo multiple proces...
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