Consequently, the farmed production

Consequently, the farmed production of
P. monodon has significantly decreased in the last several years.
Domestication and selective breeding programs are crucial for
obtaining high quality broodstock and seedling leading to the sustainability
of shrimp farming Selective breeding for improved culture
performance, disease resistance, and other desirable traits cannot be
achieved until this species is domesticated and seed are mass produced
using closed-life-cycle, captive populations
This will require the use of high quality pond-reared broodstock rather
than ocean-caught broodstock Progress
in genetic and biotechnology researches in penaeid shrimp have
been slow because of a lack of knowledge on fundamental aspects of
their reproduction and growth. Therefore, mechanisms
controlling reproductive maturation and growth of P. monodon at the
molecular level are important and can be directly applied to the shrimp
industry.
In aquaculture, the primary goal of genetic selection is the growth
improvement of economically important species. Although the genes
that affect a polygenetic trait such as growth can typically be identified
through the genetic linkage maps, a number of potential candidate
genes can be selected based on a known relationship between physiological
or biochemical processes and a particular trait . These candidate genes are promising for the future development
of gene-assisted selection (GAS) markers.
Molecular markers that allow selection of juveniles and
broodstock with a high breeding value for reproductive maturation
and/or growth rates are useful for the shrimp industry. Information
on correlation between genotypic and phenotypic variations in penaeid
shrimp is rather limited. Identification of molecular markers linked with
growth/reproduction or those regulating the growth/reproduction
mechanisms can be applied to improve artificial selection processes
of P. monodon.
The X-box binding protein gene encodes a bZIP-containing transcription
factor that plays a key role in the unfolded protein response (UPR),
an evolutionarily conserved signaling pathway activated by an overload
of misfolded proteins in the endoplasmic reticulum (ER) . Recently, Souid et al.
characterized Xbp1 in Drosophila melanogaster. Loss of function of
DXbp1 induced a recessive larval lethality, thus, revealing an essential
requirement for this gene.
To assess the possible biological roles of Xbp1 in reproduction and
growth of P. monodon, the PmXbp1 cDNA sequence was characterized.
Expression patterns of PmXbp1 during ovarian development in wild
P. monodon broodstock were examined. Effects of eyestalk ablation
(wild broodstock) and serotonin induction (domesticated broodstock)
on expression levels of ovarian PmXbp1 were examined. In addition,
analysis of relationships between SNP detected by SSCP and DNA
sequencing and expression levels of PmXbp1, and growth traits in juvenile
shrimp was examined.