Hello everyone,

In this past couple of weeks I encountered a different problem which is giving me a lot of stress, I hope you can give me some suggestions. I did RNAseq analysis in a fungal species year ago using a genome file and genes predicted from AUGUSTUS ( which were generated by my lab member). Based on that I selected a candidate gene that I found really interesting and did some benchwork to knock it out. Recently, my collegue used my RNAseq data to improve gene annotation using program called FUNANNOTATE which predicted more genes than augustus. So because we have an improved genome file and annotation file I decided to revisit my RNAseq data and found some differentially expressed genes (the numbers are greater than before may be due to new annotation file).

The candidate gene that I selected for knockout was 1.6 Kb. But from the new analysis I found that this 1.6 Kb region has two genes based on new annotation from funannotate and are 178 bp apart from each other. I tried to search if the 178 bp had promoter sequences or not but I could not find it. Should I consider this 1.6Kb region as one gene or two genes? I don't know which prediction tool to trust. Please help me what I should do.

Thank you, Ambika

As you pointed, you are predicting genes, any prediction program has some error rate in the prediction, the only way to get the real one will be with validation. In the lab, you can validate your genes simply by RT-PCR, design some primers to validate if your sequences are connected or not, extract RNA, and do the RT-PCR. Also, 176 bp is too short to be a promoter, sound like it is an intronic region between exons, look for splicing signals.

Gene prediction is not perfect, mis-annotated genes are quite common. Because fungi usually have very compact genomes, predicted genes that are merged (two genes called as one) or split (one gene called as two) usually occour. It is always a good idea for non-model organisms to manually curate genes for downstream experiments, e.g. knockout. Take a look at homologs of your gene in other species to see how they are annotated, also take a look at the predicted gene structure to spot something odd, e.g. too long or too short intron, incompatibility with RNA-seq data, etc.

Map your RNAseq to your genome (with splice aware aligner e.g. hisat2 or star) and load your genome along with the annotation and the bam file in a genome browser (e.g Jbrowse). If you have reads in this region it might be easy to visually say if it is two loci merged in one.