Gene regulation is the process by which cells control the expression of their genes, determining when, where, and to what extent each gene is expressed. It is a fundamental mechanism that allows cells ...

Gene regulation is the fundamental process through which cells control the expression of genetic information, ensuring that genes are activated at the appropriate time and in the correct context. In ...

Gene expression and features of the DNA–protein complex chromatin were mapped together at high spatial resolution in tissue sections of the mouse or human brain. This spatially resolved technology ...

KYOTO – An international team of researchers has taken an important step toward understanding how gene expression is controlled across the human genome. A new study has comprehensively analyzed ...

For the first time, researchers have developed a genome-scale way to map the regulatory role of transcription factors, proteins that play a key role in gene expression and determining a plant's ...

Controlling gene expression is essential to growth, development, and sustained life. This requires regulating the spacial, temporal, and developmental expression of genes in a wide diversity of cell ...

Genes are regulated by complex interactions involving transcription factors, DNA regulatory regions, and epigenetic modifications which alter chromatin structure. Modifications to chromatin regulate ...

A newly developed mouse model enables real-time visualization of RNA Polymerase II (RNAP2) during DNA transcription, as ...

Your skin cells are clearly different from your brain cells even though they both develop in the same person and carry the same genes. They are different because each cell type expresses a particular ...

Although HPVs do express some unspliced mRNAs (Figure 2), most HPV mRNAs are the products of constitutive and alternative splicing. Constitutive splicing is where every intron in the primary RNA ...