What is iSpinach?

iSpinach is an improved version of Spinach, an aptamer which can bind to fluorescent protein and increase their fluorescent properties after forming a complex.

Generation of iSpinach

RNA aptamers or short oligonucleotide RNA sequences have been isolated which can bind to fluorescent proteins and improve their properties.

One example of such an aptamer is Spinach which can bind to 3,5-difluoro-4-hydroxybenzylidene imidazolinone (DFHBI), a dye which is commercially available and resembles native GFP. This dye is non-toxic, permeable to cell membranes, has low interaction with native components inside a cell, and low fluorescence when unbound to any compound. Spinach is a DFHBI-binding aptamer which can enhance its fluorescence by 200 times. However, the first Spinach aptamer was thermally unstable and had limited folding efficiency. This led to the development of a newer version of Spinach which was termed iSpinach.

Structure of iSpinach

iSpinach consists of a G-quadraplex structure which has helical structures with guanine tetrads. The G-quadraplex structure can form either one or more strands. The recognition of DFHBI is achieved by a pocket consisting of the G-quartet, a base triple, and an unpaired G residue. As this structure is stabilized by potassium ions, presence or absence of ions can change the fluorescence associated with iSpinach.

Performance of iSpinach

Increased size and fluorescence

iSpinach is 1.3 times smaller than the previous versions of Spinach aptamer (Spinach and Spinach2). This leads to increased permeability inside cells. Also, the fluorescence of iSpinach is 1.4 times higher than its previous aptamer versions. This increased fluorescence is attributed to two main properties: iSpinach has two times higher affinity towards DFHBI, and its folding efficiency has also improved dramatically when compared to previous versions.

Increased thermostability

The melting point of the complex formed between iSpinach and DFHBI has increased by 8°C, compared to previous Spinach versions.  This led to increased thermal stability in iSpinach.

Presence of ions

It is known than potassium can increase the stability of Spinach aptamers, however, iSpinach is more stable in the presence of other ions, such as lithium, cesium, and sodium. Also, sodium increases the fluorescence of the iSpinach by two times.

Folding efficiency

The folding efficiency of iSpinach is 60%, which is higher than Spinach and Spinach2. The increased folding efficiency also leads to increased binding with DFHBI.

Applications of iSpinach

The improved fluorescence and folding properties of iSpinach could make it a valuable tool as a fluorescent probe inside cells. iSpinach has been used to visualised ribozymes, and it was found that iSpinach is a better contender than Spinach or other DFHBI-binding proteins. It could measure the ribozyme activity without altering the activity levels. There was no fluorescence observed when Spinach2 was used. Thus, iSpinach can perform even in vivo conditions and maintains the activity of the enzyme.

Biosensor

The improved folding and florescence properties make it a good candidate as a biosensor.

Probes for ionic microenvironment

Several probes and previous Spinach aptamers only fluoresce in high potassium conditions. However, iSpinach can work even in cellular ionic levels and this has been tested experimentally.

Limitations of iSpinach

One of the main limitations of iSpinach is that its affinity towards DFHBI can be improved. One of the ways to resolve this is to have more stringent selection criteria for binding when iSpinach aptamers are isolated. iSpinach can also dissociate in the presence of light, therefore using stronger light source can help in identifying mutant with less light-dependent dissociation rates.

Sources

Further Reading

Last Updated: Jul 19, 2023

Dr. Surat P

Written by

Dr. Surat P

Dr. Surat graduated with a Ph.D. in Cell Biology and Mechanobiology from the Tata Institute of Fundamental Research (Mumbai, India) in 2016. Prior to her Ph.D., Surat studied for a Bachelor of Science (B.Sc.) degree in Zoology, during which she was the recipient of an Indian Academy of Sciences Summer Fellowship to study the proteins involved in AIDs. She produces feature articles on a wide range of topics, such as medical ethics, data manipulation, pseudoscience and superstition, education, and human evolution. She is passionate about science communication and writes articles covering all areas of the life sciences.  

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