PT  - JOURNAL ARTICLE
AU  - Shyam Solanki
AU  - Gazala Ameen
AU  - Jin Zhao
AU  - Jordan Flaten
AU  - Pawel Borowicz
AU  - Robert Brueggeman
TI  - Visualization of spatial gene expression in plants by modified RNAscope fluorescent <em>in situ</em> hybridization
AID  - 10.1101/2020.04.01.020727
DP  - 2020 Jan 01
TA  - bioRxiv
PG  - 2020.04.01.020727
4099  - http://biorxiv.org/content/early/2020/04/03/2020.04.01.020727.short
4100  - http://biorxiv.org/content/early/2020/04/03/2020.04.01.020727.full
AB  - In situ analysis of biomarkers such as DNA, RNA and proteins are important for research and diagnostic purposes. At the RNA level, plant gene expression studies rely on qPCR, RNAseq and probe-based in situ hybridization (ISH). However, for ISH experiments poor stability of RNA and RNA based probes commonly results in poor detection or poor reproducibility. Recently, the development and availability of the RNAscope RNA-ISH method addressed these problems by novel signal amplification and background suppression. This method is capable of simultaneous detection of multiple target RNAs down to the single molecule level in individual cells, allowing researchers to study spatio-temporal patterning of gene expression. However, this method has not been optimized thus poorly utilized for plant specific gene expression studies which would allow for fluorescent multiplex detection. Here we provide a step-by-step method for sample collection and pretreatment optimization to perform the RNAscope assay in the leaf tissues of model monocot plant barley. We have shown the ubiquitous HvGAPH and predominantly stomatal guard cell expressed Rpg1 expression pattern in barley leaf sections and described the improve RNAcope methodology suitable for plant tissues using confocal laser microscope. By addressing the problems in the sample collection and incorporating additional sample backing steps we have significantly reduced the section detachment and experiment failure problems. Further, by reducing the time of protease treatment, we minimized the sample disintegration due to over digestion of barley tissues. Thus, we optimized the RNAscope detection method in plants to visualize the spatial expression and semi-quantification of target RNAs which can be employed in other plants such as the widely utilized model dicot plant Arabidopsis.(ISH)in situ hybridization(OCT)Optimal Cutting Temperature(PBS)Phosphate Buffered Saline(DIC)Differential interface contrast(NBF)Neutral Buffered Formalin(FFPE)Formaldehyde Fixed And Paraffin Embedded