Cycads are the only gymnosperms forming a symbiosis with nitrogen fixing cyanobacteria, inhabiting a specialized organ: the coralloid roots. Our research investigates the endophytic bacterial community inhabiting the coralloid roots of two cycads from Panama. We sampled coralloid roots from Zamia nana (terrestrial) and Zamia pseudoparasitica (epiphytic). Then, we used the 16S rRNA amplicon marker to identify all bacteria. We also designed a new marker to amplify the rbcL-rbcX spacer and around 100 bp of the rbcX gene, targeting cyanobacteria. We found that using 16S, endophytic bacteria diversity is represented mainly by the phylum Actinobacteria, Cyanobacteria and Proteobacteria. In addition, 16S analysis showed that Zamia species do not share a core cyanobacterial community (using a stringent 75% and 90% thresholds), while the two species shared 4 ASVs at a 50% threshold. Using the newly developed rbcL-rbcX marker revealed that both species share a core cyanobacterial community represented by a single amplicon sequence variant (ASV1) (Nostoc sp.) at 90% threshold that is found in the same phylogenetic clade of mostly Panamanian symbiotic cyanobacteria. Using a 75% threshold, only three ASVs (ASV1, ASV2, ASV3) were present across samples and five ASVs at 50% threshold. This new marker can effectively identify cyanobacteria ASVs and provide a better resolution for microbial analyses in plant and fungal cyanobacterial symbioses.