Stress-induced pseudocyst formation-a newly identified mechanism of protection against organic solvents in Acanthamoebae of the T4 genotype
J Kliescikova, J Kulda, E Nohynkova - Protist, 2011 - Elsevier
Differentiation into highly resistant double-walled cysts is a major mechanism allowing
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
Stress-Induced Pseudocyst Formation-A Newly Identified Mechanism of Protection against Organic Solvents in Acanthamoebae of the T4 Genotype
J Kliescikova, J Kulda, E Nohynkova - Protist, 2011 - Elsevier
Differentiation into highly resistant double-walled cysts is a major mechanism allowing
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
Stress-induced pseudocyst formation--a newly identified mechanism of protection against organic solvents in acanthamoebae of the T4 genotype.
J Kliescikova, J Kulda, E Nohynkova - Protist, 2010 - europepmc.org
Differentiation into highly resistant double-walled cysts is a major mechanism allowing
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
Stress-Induced Pseudocyst Formation-A Newly Identified Mechanism of Protection against Organic Solvents in Acanthamoebae of the T4 Genotype
J Kliescikova, J Kulda, E Nohynkova - Protist, 2011 - infona.pl
Differentiation into highly resistant double-walled cysts is a major mechanism allowing
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
Stress-induced pseudocyst formation--a newly identified mechanism of protection against organic solvents in acanthamoebae of the T4 genotype
J Kliescikova, J Kulda, E Nohynkova - Protist, 2011 - hero.epa.gov
Differentiation into highly resistant double-walled cysts is a major mechanism allowing
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
Stress-induced pseudocyst formation-a newly identified mechanism of protection against organic solvents in acanthamoebae of the T4 genotype.
J Kliescikova, J Kulda, E Nohynkova - 2011 - cabidigitallibrary.org
Differentiation into highly resistant double-walled cysts is a major mechanism allowing
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
Stress-induced pseudocyst formation--a newly identified mechanism of protection against organic solvents in acanthamoebae of the T4 genotype
J Kliescikova, J Kulda, E Nohynkova - Protist, 2011 - pubmed.ncbi.nlm.nih.gov
Differentiation into highly resistant double-walled cysts is a major mechanism allowing
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
Stress-Induced Pseudocyst Formation-A Newly Identified Mechanism of Protection against Organic Solvents in Acanthamoebae of the T4 Genotype
J Kliescikova, J Kulda, E Nohynkova - Protist, 2011 - infona.pl
Differentiation into highly resistant double-walled cysts is a major mechanism allowing
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …
amphizoic acanthamoebae to survive under long-lasting, unfavourable environmental …