Abstract
White spot disease (WSD) which is caused by white spot syndrome virus (WSSV) creates severe epizootics in captured and cultured black tiger shrimp, resulting a huge loss in the economic output of the aquaculture industry worldwide. Performing selective breeding using DNA markers would prove to be a potential cost effective strategy for long term disease control in shrimps. In the present investigation, microsatellite DNA fingerprints were compared between naturally occurring WSSV resistant and susceptible populations of Penaeus monodon. After PCR with a set of shrimp specific primers three reproducible DNA fragments of varying sizes were found, among which 442 bp and 236 bp fragments were present in considerably higher frequencies in the WSSV susceptible shrimp population (p ≤ 0.0001). After WSSV challenge experiment the copy no. of WSSV was determined using real-time PCR, where it was found to be almost 4 × 103 fold higher in WSSV susceptible shrimps than in the resistant ones. Thus, these microsatellite DNA markers will be useful to distinguish between WSSV susceptible and resistant brood stocks of P. monodon. Sequencing studies revealed that these DNA markers were novel in P. monodon. Highest WSSV resistance using these DNA markers, was observed in the shrimp populations of Andaman Island and Chennai among the different coastal areas of India, suggesting these places as safe for specific pathogen resistant brood stock shrimp collection. This study will be a very effective platform towards understanding the molecular pathogenesis of WSD for generation of disease free shrimp aquaculture industry.
Highlights
Aquaculture industry enjoys an exponentially profitable market worldwide and deals with various valuable marine and fresh water invertebrate and vertebrate species
Microsatellite DNA marker analysis of shrimp genomic DNA PCR amplification by the shrimp specific primers taken from microsatellite locus of P. monodon produced two significant DNA fingerprints in order to differentiate between white spot syndrome virus (WSSV) resistant and disease susceptible shrimp populations
By virtue of its brilliant adaptivity, WSSV persists in the cultured ponds even after they are completely dried at the end of the cultivation season
Summary
Aquaculture industry enjoys an exponentially profitable market worldwide and deals with various valuable marine and fresh water invertebrate and vertebrate species. Penaeus monodon, is one of the most economically important native cultivated species of India due to its bigger size, higher nutritional value and huge demand as food delicacies across the globe. They contribute to 95% of the total production of the captured and cultured shrimps in India [1]. Proneness of the shrimp species towards many deadly viral diseases is an alarming factor in aquaculture industry [2]. Several preventive measures were tested and applied throughout the world against the WSSV infection, but with a very less success rate [6,7,8,9]
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