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References (30)
-
JM Tsai, HC Wang, JH Leu, HH Hsiao, AH Wang, GH Kou, CF Lo (2004)
Genomic and proteomic analysis of thirty-nine structural proteins of shrimp white spot syndrome virusJ Virol, 78
-
PM Doran (2006)
Foreign protein degradation and instability in plants and plant tissue culturesTrends Biotechnol, 24
-
A Hosseini Tafreshi, M Shariati (2009)
Dunaliella biotechnology: methods and applicationsJ Appl Microbiol, 107
-
J Witteveldt, CC Cifuents, JM Vlak, MCW Hulten (2004)
Protection of Penaeus monodon against white spot syndrome virus by oral vaccinationJ Virol, 78
-
CM Caipang, N Verjan, EL Ooi, H Kondo, I Hirono, T Aoki, H Kiyono, Y Yuki (2008)
Enhanced survival of shrimp, Penaeus ( Marsupenaeus ) japonicus from white spot syndrome disease after oral administration of recombinant VP28 expressed in Brevibacillus brevisFish Shellfish Immunol, 25
-
GH Yi, ZM Wang, YP Qi, LG Yao, J Qian, LB Hu (2004)
Vp28 of shrimp white spot syndrome virus is involved in the attachment and penetration into shrimp cellsJ Biochem Mol Biol, 37
-
S Rajeshkumar, C Venkatesan, M Sarathi, V Sarathbabu, J Thomas, K Anver Basha, AS Sahul Hameed (2009)
Oral delivery of DNA construct using chitosan nanoparticles to protect the shrimp from white spot syndrome virus (WSSV)Fish Shellfish Immunol, 26
-
JM Tsai, HC Wang, JH Leu, AH Wang, Y Zhung, PJ Walker, GH Kou, CF Lo (2006)
Identification of the nucleocapsid, tegument, and envelope proteins of the shrimp white spot syndrome virus virionJ Virol, 80
-
S Rosales-Mendoza, LM Paz-Maldonado, RE Soria-Guerra (2012)
Chlamydomonas reinhardtii as a viable platform for the production of recombinant proteins: current status and perspectivesPlant Cell Rep, 31
-
CH Mejía-Ruíz, S Vega-Peña, P Alvarez-Ruiz, CM Escobedo-Bonilla (2011)
Double-stranded RNA against white spot syndrome virus (WSSV) vp28 or vp26 reduced susceptibility of Litopenaeus vannamei to WSSV, and survivors exhibited decreased susceptibility in subsequent re-infectionsJ Invertebr Pathol, 107
-
CL Hou, Y Cao, RH Xie, YZ Wang, HH Du (2011)
Characterization and diagnostic use of a monoclonal antibody for VP28 envelope protein of white spot syndrome virusVirol Sin, 26
-
X Tang, CL Hew (2007)
Expression, purification and crystallization of two major envelope proteins from white spot syndrome virusActa Crystallogr Sect F Struct Biol Cryst Commun, 63
-
K Yoganandhan, SM Syed, RB Narayanan, AS Sahul Hameed (2004)
Production of polyclonal antiserum against recombinant VP28 protein and its application for the detection of white spot syndrome virus in crustaceansJ Fish Dis, 27
-
SY Feng, LX Xue, HT Liu, PJ Lu (2009)
Improvement of efficiency of genetic transformation for Dunaliella salina by glass beads methodMol Biol Rep, 36
-
R Surzycki, K Greenham, K Kitayama, F Dibal, R Wagner, JD Rochaix, T Ajam, S Surzycki (2009)
Factors effecting expression of vaccines in microalgaeBiologicals, 37
-
HH Wang, WB Yin, ZM Hu (2009)
Advances in chloroplast engineeringJ Genet Genomics, 36
-
MM Bradford (1976)
Rapid and sensitive method for quantitation of microgram quantities of protein utilizing principle of protein-dye bindingAnal Biochem, 72
-
A Barzegari, MA Hejazi, N Hosseinzadeh, S Eslami, E Mehdizadeh Aghdam, MS Hejazi (2010)
Dunaliella as an attractive candidate for molecular farmingMol Biol Rep, 37
-
F Zhu, X Zhang (2012)
Protection of shrimp against white spot syndrome virus (WSSV) with β-1, 3- d -glucan-encapsulated vp28-siRNA particlesMar Biotechnol (NY), 14
-
TL Walker, S Purton, DK Becker, C Collet (2005)
Mocroalgae as bioreactorsPlant Cell Rep, 24
-
RK Jha, ZR Xu, SJ Bai, JY Sun, WF Li, J Shen (2007)
Protection of Procambarus clarkii against white spot syndrome virus using recombinant oral vaccine expressed in Pichia pastorisFish Shellfish Immunol, 22
-
KQ Wei, JX Yang (2011)
Histological alterations and immune response in the crayfish Procambarus clarkii given rVP28-incorporated dietsFish Shellfish Immunol, 31
-
SM Syed, J Kwang (2011)
Oral vaccination of baculovirus-expressed VP28 displays enhanced protection against white spot syndrome virus in Penaeus monodonPLoS One, 6
-
A Namikoshi, JL Wu, T Yamashita, T Nishizawa, T Nishioka, M Arimoto (2004)
Vaccination trials with Penaeus japonicus to induce resistance to white spot syndrome virusAquaculture, 229
-
LL Fu, JB Shuai, ZR Xu, JR Li, WF Li (2010)
Immune responses of Fenneropenaeus chinensis against white spot syndrome virus after oral delivery of VP28 using Bacillus subtilis as vehiclesFish Shellfish Immunol, 28
-
MCW Hulten, J Witteveldt, M Snippe, JM Vlak (2001)
White spot syndrome virus envelope protein VP28 is involved in the systemic infection of shrimpVirology, 285
-
D Ning, X Leng, Q Li, W Xu (2011)
Surface-displayed VP28 on Bacillus subtilis spores induce protection against white spot syndrome virus in crayfish by oral administrationJ Appl Microbiol, 111
-
HH Du, LL Fu, YX Xu, ZS Kil, ZR Xu (2007)
Improvement in a simple method for isolating white spot syndrome virus (WSSV) from the crayfish Procambarus clarkiiAquaculture, 262
-
M Muto, RE Henry, SP Mayfield (2009)
Accumulation and processing of a recombinant protein designed as a cleavable fusion to the endogenous Rubisco LSU protein in Chlamydomonas chloroplastBMC Biotechnol, 9
-
F Zhu, HH Du, ZG Miao, HZ Quan, ZR Xu (2009)
Protection of Procambarus clarkii against white spot syndrome virus using inactivated WSSVFish Shellfish Immunol, 26
- Publisher
- Springer Journals
- Copyright
- Copyright © 2014 by Springer-Verlag Wien
- Subject
- Biomedicine; Virology; Medical Microbiology; Infectious Diseases
- ISSN
- 0304-8608
- eISSN
- 1432-8798
- DOI
- 10.1007/s00705-013-1856-7
- pmid
- 24081826
- Publisher site
- See Article on Publisher Site
Abstract
Although a white spot syndrome virus (WSSV) subunit vaccine could significantly enhance the immune response and benefit the shrimp host, its practical application is currently not feasible because of drawbacks in existing expression systems. We generated a transgenic Dunaliella salina ( D. salina ) strain by introducing the WSSV VP28 gene to produce a novel oral WSSV subunit vaccine. Following transformation of D. salina , VP28 gene expression was assessed by reverse transcription polymerase chain reaction (RT-PCR) assays, enzyme-linked immunosorbent assays (ELISAs), and western blot analysis. The RT-PCR results indicated that the VP28 gene was successfully expressed in D. salina cells. The presence of recombinant VP28 proteins with natural bioactivity was confirmed by western blot analysis and ELISA. Animal vaccination experiments indicated that transgenic D. salina can induce protection against WSSV by oral delivery in crayfish. Our findings indicate that the VP28 gene can be successfully expressed in transgenic D. salina and can be applied as an oral vaccine to protect crayfish against WSSV. We have demonstrated that it is feasible to produce an oral vaccine using D. salina , and thereby provide a new method for controlling other viral diseases in crustaceans.
Journal
Archives of Virology – Springer Journals
Published: Mar 1, 2014