6.6: Expressed Sequence Tags
- Page ID
- 4838
Only a very small percentage (1.2% in humans) of the DNA in vertebrate genomes encodes proteins (the "proteome") because the exons of most genes are separated by much-longer introns between our genes lie vast amounts of DNA much of which appears to regulate the expression of our genes but is not transcribed and translated into a protein product. So even when the complete sequence of a genome is known, it is often difficult to spot particular genes (open reading frames or ORFs).
One approach to solving the problem is to examine a transcriptome of the organism. Most commonly this is defined as: All the messenger RNA (mRNA) molecules transcribed from the genome. It is "a" transcriptome, not "the" transcriptome, because what genes are transcribed in a cell depends on the kind of cell (e.g., liver cell vs. lymphocyte) and what the cell is doing at that time, e.g.,
- getting ready to divide by mitosis;
- responding to the arrival of a hormone or cytokine;
- getting ready to secrete a protein product.
Expressed Sequence Tags (ESTs)
ESTs are short (200–500 nucleotides) DNA sequences that can be used to identify a gene that is being expressed in a cell at a particular time.
The Procedure:
- Isolate the messenger RNA (mRNA) from a particular tissue (e.g., liver)
- Treat it with reverse transcriptase. Reverse transcriptase is a DNA polymerase that uses RNA as its template. Thus it is able to make genetic information flow in the reverse (RNA ->DNA) of its normal direction (DNA -> RNA).
- This produces complementary DNA (cDNA). Note that cDNA differs from the normal gene in lacking the intron sequences.
- Sequence 200–500 nucleotides at both the 5′ and 3′ ends of each cDNA.
- Examine the database of the organism's genome to find a matching sequence.