White spot syndrome virus
(WSSV) PCR-positive Artemia cysts yield PCR-negative nauplii that
fail to transmit WSSV when fed to shrimp postlarvae
Y.-S.
Chang, C.-F. Lo, S.-E. Peng, K.-F. Liu, C.-H. Wang, G.-H. Kou-2002
Diseases of Aquatic Organisms, 49(1): 1-10
Abstract:
Positive results were obtained with nested white spot
syndrome virus (WSSV) diagnostic PCR performed on 5 commercial brands of
dry-packed Artemia cysts using several WSSV genomic sequence-specific
primers. In 2 brands, PCR and nucleotide sequence analysis found CØT and CØG
point mutations in the pms 146 WSSV amplicon, but in all 5 brands, the
nucleotide sequences that were successfully amplified by the rr1, rr2
and tk-tmk gene-specific primer sets were identical to those of Penaeus
monodon WSSV. However, despite the inarguable presence of WSSV or
WSSV-like template DNA, we were unable to detect WSSV by PCR in hatched
nauplii derived from PCR-positive cysts or in P. monodon postlarvae
fed Artemia nauplii hatched from such cysts. Most simply, these
results suggested that the cysts were externally contaminated with WSSV or
WSSV-like template material that was removed during hatching and washing of
the nauplii. Given the small sequence variations found, it may also have
been a variety of WSSV non-infectious for P. monodon or Artemia
and derived from other crustaceans or arthropods in the Artemia
environment. However, we could not establish this conclusively and a small
possibility remained that the PCR template in these tests was derived from
WSSV template present internally in the cysts and derived from infected Artemia
adults. However small, this possibility must be vigorously tested, given
the impact that a positive outcome could have on the shrimp industry.
(Department of Zoology, National Taiwan University,
Taipei, Taiwan, ROC. E-mail of C.-F. Lo: gracelow@ccms.ntu.edu.tw,
or G.-H. Kou ghkou@ccms.ntu.edu.tw)