ElShamah - Reason & Science: Defending ID and the Christian Worldview
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ElShamah - Reason & Science: Defending ID and the Christian Worldview

Welcome to my library—a curated collection of research and original arguments exploring why I believe Christianity, creationism, and Intelligent Design offer the most compelling explanations for our origins. Otangelo Grasso


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Regulation of transcription

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1Regulation of transcription Empty Regulation of transcription Thu Jun 04, 2015 2:59 pm

Otangelo


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Regulation of transcription



Regulated Transcription-- Movie Narrative (Advanced Look)

Our transcription animation provides an overview of the major steps involved in RNA production. In this animation, we will take a closer look at the events that prepare the DNA for transcription.

mRNA, and eventually proteins, are produced when and where they are needed in an organism. Some genes, such as those for housekeeping proteins in processes like glycolosis-- are expressed all of the time. These genes undergo what is known as constitutive transcription.

Other proteins are only produced at specific times in certain cells. In these cells, genes undergo a process called regulated transcription.

Transcription is regulated by proteins called transcription factors. These factors are proteins that are produced in the cytoplasm and eventually migrate into the nucleus where they interact with DNA and activate transcription.

These transcription factors only interact with specific genes, those genes whose transcription they control. Most eukaryotic species have over 1000 transcription factors.

Regulated transcription begins when a signal is received by the cell. This signal, often a protein, begins a signal transduction cascade that lets the cell know certain proteins are now needed. The most common activation event for a protein in a signal pathway is the addition of a phosphate group.

That activated protein in turn interacts with another protein. This interaction leads to the phosphorylation of the next protein in the pathway.

There is often a series of proteins that are activated by phosphorylation. At the end of this cascade, the final protein will be activated and then enter the nucleus. It must make this journey because transcription only occurs inside the nucleus.

After entering through a nuclear pore, the protein interacts with the specific transcription factor responsible for activating mRNA production. As with the earlier proteins, the transcription factor is modified through phosphorylation.

The activated transcription factor will next bind to an enhancer region. The enhancer is a region of DNA upstream of the transcription start site that binds a transcription factor.

The transcription factor then binds to the DNA and moves to interact with the rest of the transcription protein complex, located at the transcription start site.

When the formation of this complex is complete, transcription of the gene will begin. It is this sequence of events that ensures genes required for a specific tissue or only at a specific time are expressed appropriately.

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