AIM: To develop a method for conducting pulsed-field gel electrophoresis (PFGE) on Flavobacterium columnare, to use PFGE to characterize F. columnare channel catfish isolates, and to determine whether variation in pathogenic potential exists in F. columnare isolates from channel catfish. METHODS AND RESULTS: On the basis of PFGE-derived profiles, similarity dendrograms constructed for more than 30 F. columnare isolates showed two major genetic groups with more than 60% similarity. Channel catfish fingerlings challenged with PFGE group A isolates by bath immersion had significantly higher average mortalities (>60%) than fish challenged with PFGE group B isolates (<9%). However, abrasion and skin mucus removal made channel catfish fingerlings susceptible to disease caused by group B isolates following immersion exposure. CONCLUSION: Our results suggest that two genetic divisions of F. columnare channel catfish isolates exist, and that isolates in PFGE group A isolates tend to be more pathogenic to immunocompetent channel catfish fingerlings than PFGE group B isolates. SIGNIFICANCE AND IMPACT OF THE STUDY: PFGE is a potentially useful tool for determining whether F. columnare isolates are more likely to be primary or secondary pathogens. Pathogenesis research for columnaris disease in catfish should focus on pathogenic isolates from PFGE group A.
AIM: To develop a method for conducting pulsed-field gel electrophoresis (PFGE) on Flavobacterium columnare, to use PFGE to characterize F. columnarechannel catfish isolates, and to determine whether variation in pathogenic potential exists in F. columnare isolates from channel catfish. METHODS AND RESULTS: On the basis of PFGE-derived profiles, similarity dendrograms constructed for more than 30 F. columnare isolates showed two major genetic groups with more than 60% similarity. Channel catfish fingerlings challenged with PFGE group A isolates by bath immersion had significantly higher average mortalities (>60%) than fish challenged with PFGE group B isolates (<9%). However, abrasion and skin mucus removal made channel catfish fingerlings susceptible to disease caused by group B isolates following immersion exposure. CONCLUSION: Our results suggest that two genetic divisions of F. columnarechannel catfish isolates exist, and that isolates in PFGE group A isolates tend to be more pathogenic to immunocompetent channel catfish fingerlings than PFGE group B isolates. SIGNIFICANCE AND IMPACT OF THE STUDY: PFGE is a potentially useful tool for determining whether F. columnare isolates are more likely to be primary or secondary pathogens. Pathogenesis research for columnaris disease in catfish should focus on pathogenic isolates from PFGE group A.
Authors: Hasan C Tekedar; Attila Karsi; Allison F Gillaspy; David W Dyer; Nicole R Benton; Jeremy Zaitshik; Stefanie Vamenta; Michelle M Banes; Nagihan Gülsoy; Mary Aboko-Cole; Geoffrey C Waldbieser; Mark L Lawrence Journal: J Bacteriol Date: 2012-05 Impact factor: 3.490
Authors: Sindhu Kaimal; Bradley D Farmer; Nilima N Renukdas; Hisham A Abdelrahman; Anita M Kelly Journal: Front Physiol Date: 2022-05-11 Impact factor: 4.755
Authors: Annelies Maria Declercq; Freddy Haesebrouck; Wim Van den Broeck; Peter Bossier; Annemie Decostere Journal: Vet Res Date: 2013-04-24 Impact factor: 3.683