22
mar
Vabljeni na predavanje Ding Yi: »Hydrogen peroxide induces apoptotic–like cell death in Microcystis aeruginosa in a dose–dependent manner«
Nacionalni inštitut za biologijo Vas vabi, da se udeležite predavanja:
»Hydrogen peroxide induces apoptotic–like cell death in Microcystis aeruginosa
in a dose–dependent manner«
ki ga bo predstavila Ding Yi, Institute of Hydrobiology,
The Chinese Academy of Sciences, China
Predavanje bo v petek, 23. marca 2012, ob 14.00 uri, v Biološkem središču, Večna pot 111, v Ljubljani, v predavalnici B2.
Doktorska kandidatka iz Wuhan-a Ding Yi, ki je izpopolnjevanju pri izr. prof.dr. Bojanu Sedmaku bo predstavila svojo matično inštitucijo in delo, ki ga bo dokončala na Nacionalnem inštitutu za biologijo v Ljubljani. Njeno raziskovalno delo je usmerjeno na raziskave toksičnih cvetenj cianobakterij, ki predstavlja akuten zdravstven in ekonomski problem na večini ozemlja Kitajske.
V svoji predstavitvi se bo osredotočila predvsem na mehanizem propada cianobakterijskih cvetenj. To je dogodek pri katerem se sprostijo vsi nevarni toksični in genotoksični proizvodi cianobakterij v vodno okolje in ogrožajo zdravje ljudi in vseh drugih organizmov, ki prihajajo z njimi v stik. Eden izmed mehanizmov razgradnje cianobakterijske populacije je tudi do sedaj še nepojasnjena različica programirane celične smrti (PCD), ki jo lahko izzovemo z vnosom vodikovega peroksida (H2O2).
Summary:
Traditionally, cyanobacteria were considered immortal unless eaten by zooplankton or otherwise damaged. There is recent evidence that phytoplankton, cyanobacteria included, can undergo programmed cell death (PCD) in response to environmental stress. A well–known form of PCD is apoptosis, which is accompanied by plasma membrane blebbing, chromatin condensation, involvement of cysteine proteases (caspases) and the fragmentation of DNA. However, various types of PCD with overlapping morphological and physiological hallmarks have been described in unicellular organisms. Other cell death types termed “paraptosis”, “aponecrosis” and “autophagy”, which are fundamentally different from apoptosis, have also been described.
Among the toxic cyanobacteria, Microcystis aeruginosa is frequently present in highly eutrophic lakes and often dominate the phytoplankton communities in eutrophic lakes and ponds. M. aeruginosa produces the hepatotoxin microcystin, which is a threat to human and environmental health. Recently, it has been reported that M. aeruginosa NIES 843 and PCC 7806 harbour genes for PCD that may be related to the rapid collapse of Microcystis blooms in the environment. Therefore, the bloom–forming cyanobacterial species M. aeruginosa is an ideal organism to utilize in order to address cellular mechanisms under specific environmental conditions. This lecture will focus on the M. aeruginosa capability of executing apoptosis by pursuing morphological, molecular and physiological characteristics after exposure to H2O2.
Predavanje bo v angleškem jeziku.
Vljudno vabljeni!
