Liua C., Emami S. N., Pettersson J., Ranford-Cartwright L., Faye I., Parmryd I., (2018).  Vγ9Vδ2 T cells proliferate in response to phosphoantigens released from erythrocytes infected with asexual and gametocyte stage Plasmodium falciparum, Cellular Immunology,  PMID: 30177348

Liu N., Uppuluri P., Broggi A., Besold A., Ryman K., Kambara H., Solis N., Lorenz V., Qi W., Zaldivar MA., Emami S.N., Boa B., An D., Bonilla F., Sola-Visner M., Filler S., Luo HR., Engstrom Y., Ljungdahl PO., Culotta VC., Zanoni I., Lopez- Ribot JL.,Koehler JR., (2018). Intersection of phosphate transport, oxidative stress and TOR signalling in Candida albicans virulence, PLOS Pathogens, DOI.

Vafa Homann M., Emami S.N., Yaman V., Stenström C., Sonden K., Ramström H., Karlsson M., Asghar M., Färnert A., (2017), Detection of malaria parasites after treatment in travelers: A 12-months longitudinal study and statistical modelling analysis. EBioMedicine, DOI: 10.1016/j.ebiom.2017.10.003: PMID: 29050948

Emami S.N., Lindberg B.G., Hua S., Mozuraitis R., Lehmann P., Birgersson G., Hill S., Borg-Karlson A.K., Ignell R., Faye F., (2017), A key malaria metabolite modulates vector blood seeking, feeding, and susceptibility to infection. Science, 335: 1076-1080: PMID:28183997

Emami, S. N., Ranford-Cartwright, L. C. & Ferguson, H. M., (2017), The transmission potential of malaria-infected mosquitoes (An.gambiae-Keele, An.arabiensis-Ifakara) is altered by the vertebrate blood type they consume during parasite development. Nature Scientific reports,7, 40520: PMID:28094293

Shakeri Manesh S., Sangsuwan T., Pour Khavari, A., Fotouhi A., Emami S.N. & Haghdoost S., (2017), MTH1, an 8-oxo-2′-deoxyguanosine triphosphatase, and MYH, a DNA glycosylase, cooperate to inhibit mutations induced by chronic exposure to oxidative stress of ionizing radiation. Mutagenesis, 1–8.  DOI:10.1093/mutage/gex003: PMID: 28340109

Mohamed Adia M., Emami S.N., Byamukama R., Faye I., Borg-Karlson A.K., (2016), Antiplasmodial activity and phytochemical analysis of extracts from selected Ugandan medicinal plants., Journal of Ethnopharmacology, 20;186:14-9: PMID:27019273

Emami S.N., Ranford-Cartwright L., Ferguson H.M., (2013), The impact of low erythrocyte density in human blood on the fitness and energetic reserves of the African malaria vector Anopheles gambiae. Malaria Journal, 12: 1-11: PMID: 23374331

Vatandoost H., Emami S.N., Oshaghi M.A., Abai M.R., Akbarzadeh K., Piazzak N.,  & Townson H. (2011), Ecology of malaria vector Anopheles culicifacies in a malarious area, Sistan and Baluchestan province, southeast Iran. Eastern Mediterranean Health Journal, 17 (5): 439-445: PMID: 21796958

Oshaghi MA, Ravasan NM, Javadian E, Rassi Y, Sadraei J, Enayati AA, Vatandoost H, Zare Z, Emami S.N., (2009), Application of predictive degree day model for field development of sandfly vectors of visceral leishmaniasis in northwest of Iran., J Vector Borne Diseases, 01;46(4):247-55: PMID: 19959849

Emami S.N.,Vatandoost H., Oshaghi M.A., Mohtarami F., & Javadian, E., Raeisi A.,: (2007), Morphological method for sexing anopheline larvae. J Vector Borne Diseases, 44: 245-249: PMID: 18092530