Person: DEVECİ, GÖZDE
Loading...
Status
Organizational Units
4 results
Search Results
Now showing 1 - 4 of 4
Publication Metadata only Genetic disruption of nucleoside transporter 4 reveals its critical roles in malaria parasite sporozoite functions.(2022-08-24T00:00:00Z) Deveci, GÖZDE; Kamil, Mohd; Kina, Umit; Temel, Binnur Aydogan; Aly, Ahmed S I; DEVECİ, GÖZDE; KAMIL, MOHD; KINA, ÜMİT YAŞAR; TEMEL, BİNNURPublication Metadata only Single Dose Mixed Species Malaria Vaccination of Genetically Attenuated Blood Stage Malaria Parasites Induce Sterile Immunity Against Lethal Challenge by Both Species(2021-09-13T00:00:00Z) Deveci, Gözde; Temel, Binnur; Aly, Ahmed Sayed Ibrahım; DEVECİ, GÖZDE; TEMEL, BİNNUR; ALY, AHMED SAYED IBRAHıMPublication Metadata only A single dose of genetically-attenuated malaria blood-stage parasites protects against two Plasmodium species infections.(2023-01-16) Deveci G.; Kamil M.; Aly A. S. I.; DEVECİ, GÖZDEPublication Metadata only Mitochondrial Spermidine Synthase is Essential for Blood-stage growth of the Malaria Parasite(2022-12-01T00:00:00Z) KAMIL, MOHD; KINA, ÜMİT YAŞAR; DEVECİ, GÖZDE; Akyuz, Sevim N.; Yilmaz, Ilknur; ALY, Ahmed Sayed Ibrahım; KAMIL, MOHD; KINA, ÜMİT YAŞAR; DEVECİ, GÖZDE; ALY, AHMED SAYED IBRAHıM© 2022Positively-charged polyamines are essential molecules for the replication of eukaryotic cells and are particularly important for the rapid proliferation of parasitic protozoa and cancer cells. Unlike in Trypanosoma brucei, the inhibition of the synthesis of intermediate polyamine Putrescine caused only partial defect in malaria parasite blood-stage growth. In contrast, reducing the intracellular concentrations of Spermidine and Spermine by polyamine analogs caused significant defects in blood-stage growth in Plasmodium yoelii and P. falciparum. However, little is known about the synthesizing enzyme of Spermidine and Spermine in the malaria parasite. Herein, malaria parasite conserved Spermidine Synthase (SpdS) gene was targeted for deletion/complementation analyses by knockout/knock-in constructs in P. yoelii. SpdS was found to be essential for blood-stage growth. Live fluorescence imaging in blood-stages and sporozoites confirmed a specific mitochondrial localization, which is not known for any polyamine-synthesizing enzyme so far. This study identifies SpdS as an excellent drug targeting candidate against the malaria parasite, which is localized to the parasite mitochondrion.