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Marker genes and their role in plant biotechnology

Published by Admin in Geneneral Botany
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For more information, log on to-http://shomusbiology.weebly.com/Download the study materials here-http://shomusbiology.weebly.com/bio-materials.htmlA marker gene is a gene used in nuclear biology to determine if a nucleic acid sequence has been successfully inserted into an organism's DNA. There are two types of marker genes: a selectable marker and a marker for screening.A selectable marker protects the organism from a selective agent that would normally kill it or prevent its growth. In a transformation reaction, depending on the transformation efficiency, only one in a several million to billion cells may take up DNA. Rather than checking every single cell, scientists use a selective agent to kill all cells that do not contain the foreign DNA, leaving only the desired ones.Antibiotics are the most common selective agents. In bacteria, antibiotics are used almost exclusively. In plants, antibiotics that kill the chloroplast are often used as well, although tolerance to salts and growth-inhibiting hormones is becoming more popular. In mammals, resistance to antibiotics that would kill the mitochondria is used as a selectable marker.A marker for screening will make cells containing the gene look different. There are three types of screening commonly used:Green fluorescent protein makes cells glow green under UV light. A specialized microscope is required to see individual cells. Yellow and red versions are also available, so scientists can look at multiple genes at once. It is commonly used to measure gene expression.GUS assay (using β-glucuronidase) is an excellent method for detecting a single cell by staining it blue without using any complicated equipment. The drawback is that the cells are killed in the process. It is particularly common in plant science.Blue white screen is used in both bacteria and eukaryotic cells. The bacterial lacZ gene encodes a beta-galactosidase enzyme. When media containing certain galactosides (e.g. X-gal) is added, cells expressing the gene convert the X-gal to a blue product and can be seen with the naked eye. Source of the article published in description is Wikipedia. I am sharing their material. Copyright by original content developers of Wikipedia.Link- http://en.wikipedia.org/wiki/Main_Page

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