• RINKE, C.,ET AL. (2013). INSIGHTS INTO THE PHYLOGENY AND CODING POTENTIAL OF MICROBIAL DARK MATTER. NATURE, 499(7459), 431–437.
• INTERNATIONAL GLOSSINA GENOME INITIATIVE. (2014). GENOME SEQUENCE OF THE TSETSE FLY (GLOSSINA MORSITANS): VECTOR OF AFRICAN TRYPANOSOMIASIS. SCIENCE, 344(6182), 380–386.
• KOPF, A.,ET AL. (2015). THE OCEAN SAMPLING DAY CONSORTIUM. GIGA SCIENCE, 4(1), 27.
• NOBU, M. K.., ET AL. (2016). PHYLOGENY AND PHYSIOLOGY OF CANDIDATE PHYLUM “ATRIBACTERIA” (OP9/JS1) INFERRED FROM CULTIVATION-INDEPENDENT GENOMICS. THE ISME JOURNAL, 10(2), 273–286.
• DOUDOUMIS, V., ET AL. (2017). CHALLENGING THE WIGGLESWORTHIA, SODALIS, WOLBACHIA SYMBIOSIS DOGMA IN TSETSE FLIES: SPIROPLASMA IS PRESENT IN BOTH LABORATORY AND NATURAL POPULATIONS. SCIENTIFIC REPORTS, 7(1), 4699.
• VASILIADOU, I. A., ΕΤ AL. (2018) TOXICITY ASSESSMENT OF PHARMACEUTICAL COMPOUNDS ON MIXED CULTURE FROM ACTIVATED SLUDGE USING RESPIROMETRIC TECHNIQUE: THE ROLE OF MICROBIAL COMMUNITY STRUCTURE. THE SCIENCE OF THE TOTAL ENVIRONMENT, 630: 809–19
• DOUDOUMIS, V., ET AL. (2018). DIFFERENT LABORATORY POPULATIONS SIMILAR BACTERIAL PROFILE? THE CASE OF GLOSSINA PALPALIS GAMBIENSIS. BMC MICROBIOLOGY 18, 148.