Genomic
diversity amongst Vibrio isolates from different sources determined by
fluorescent amplified fragment length polymorphism
F.L. Thompson, B. Hoste, K. Vandemeulebroecke, J.
Swings-2001
Systematic and Applied Microbiology, 24(4): 520-538
(from Current Contents)
Abstract :
The genomic diversity among 506 strains of the family
Vibrionaceae was analysed using Fluorescent Amplified Fragments Length
Polymorphisms (FAFLP). Isolates were from different sources (e.g. fish,
mollusc, shrimp, rotifers, Artemia, and their culture water) in different
countries, mainly from the aquacultural environment. Clustering of the FAFLP
band pat-terns resulted in 69 clusters. A majority of the actually known
species of the family Vibrionaceae formed separate clusters. Certain species
e.g. V. alginolyticus, V. cholerae, V. cincinnatiensis, V. diabolicus, V.
diazotrophicus, V. harveyi, V. logei, V. natriegens, V. nereis, V.
splendidus and V. tubiashii were found to be ubiquitous, whereas V.
halioticoli, V. ichthyoenteri, V. pectenicida and V. wodanis appear to be
exclusively associated with a particular host or geographical region. Three
main categories of isolates could be distinguished: (1) isolates with
genomes related (i.e. with greater than or equal to45% FATLP pattern
similarity) to one of the known type strains; (2) isolates clustering
(greater than or equal to 45% pattern similarity) with more than one type
strain; (3) isolates with genomes unrelated (<45% pattern similarity) to
any of the type strains. The latter group consisted of 236 isolates
distributed in 31 clusters indicating that many culturable taxa of the
Vibrionaceae remain as yet to be described.
(State Univ Ghent, Microbiol Lab, KL Ledeganckstr 35,
B-9000 Ghent, Belgium, e-mail: Fabiano.Thompson@rug.ac.be)