| # | Date |
Title Long |
Author |
|
[ 1 ]
|
2009
|
High osteoprotegerin serum levels in primary biliary cirrhosis are associated with disease severity but not with the mRNA gene expression in liver tissue [electronic resource].
|
Guañabens, Núria
|
|
[ 2 ]
|
2007
|
Recombinant dimeric small immunoproteins neutralize transmissible gastroenteritis virus infectivity efficiently in vitro and confer passive immunity in vivo. [Erratum: 2007 Mar., v. 88, pt. 3, p. 1073.]
|
Bestagno, M.
|
|
[ 3 ]
|
2006
|
Antibody derivative expressed from viral vectors passively immunizes pigs against transmissible gastroenteritis virus infection when supplied orally in crude plant extracts [electronic resource].
|
Monger, Wendy
|
|
[ 4 ]
|
2003
|
Comparative sequence analysis to revise the current taxonomy of the family Coronaviridae.
|
Gonzalez, J.M.
|
|
[ 5 ]
|
2003
|
Transmissible gastroenteritis coronavirus gene 7 is not essential but influences in vivo virus replication and virulence.
|
Ortego, J.
|
|
[ 6 ]
|
2002
|
In vitro and in vivo expression of foreign genes by transmissible gastroenteritis coronavirus-derived minigenomes.
|
Alonso, S.
|
|
[ 7 ]
|
2000
|
Characterization of the sialic acid binding activity of transmissible gastroenteritis coronavirus by analysis of haemagglutination-deficient mutants.
|
Krempl, C.
|
|
[ 8 ]
|
1999
|
Replication and packaging of transmissible gastroenteritis coronavirus-derived synthetic minigenomes.
|
Izeta, A.
|
|
[ 9 ]
|
1999
|
Targeted recombination demonstrates that the spike gene of transmissible gastroenteritis coronavirus is a determinant of its enteric tropism and virulence.
|
Sanchez, C.M.
|
|
[ 10 ]
|
1998
|
Engineering passive immunity in transgenic mice secreting virus-neutralizing antibodies in milk.
|
Castilla, J.
|
|
[ 11 ]
|
1998
|
Transgenic mice secreting coronavirus neutralizing antibodies into the milk.
|
Sola, I.
|
|
[ 12 ]
|
1998
|
Two types of virus-related particles are found during transmissible gastroenteritis virus morphogenesis.
|
Risco, C.
|
|
[ 13 ]
|
1996
|
Adenovirus recombinant expressing the spike glycoprotein of porcine respiratory coronavirus is immunogenic in swine.
|
Callebaut, P.
|
|
[ 14 ]
|
1996
|
Transmissible gastroenteritis coronavirus, but not the related porcine respiratory coronavirus, has a sialic acid (N-glycolylneuraminic acid) binding activity.
|
Schultze, B.
|
|
[ 15 ]
|
1996
|
Transmissible gastroenteritis coronavirus contains a spherical core shell consisting of M and N proteins.
|
Risco, C.
|
|
[ 16 ]
|
1996
|
Tropism of human adenovirus type 5-based vectors in swine and their ability to protect against transmissible gastroenteritis coronavirus.
|
Torres, J.M.
|
|
[ 17 ]
|
1995
|
Analysis of the sialic acid-binding activity of transmissible gastroenteritis virus.
|
Schultze, B.
|
|
[ 18 ]
|
1995
|
Development of protection against coronavirus induced diseases.
|
Enjuanes, L.
|
|
[ 19 ]
|
1995
|
Induction of antibodies protecting against transmissible gastroenteritis coronavirus (TGEV) by recombinant adenovirus expressing TGEV spike protein.
|
Torres, J.M.
|
|
[ 20 ]
|
1995
|
Induction of transmissible gastroenteritis coronavirus specific immune responses using vectors with enteric tropism.
|
Enjuanes, L.
|
|
[ 21 ]
|
1995
|
Membrane protein molecules of transmissible gastroenteritis coronavirus also expose the carboxy-terminal region on the external surface of the virion.
|
Risco, C.
|
|
[ 22 ]
|
1995
|
Molecular bases of tropism in the PUR46 cluster of transmissible gastroenteritis coronaviruses.
|
Ballesteros, M.L.
|
|
[ 23 ]
|
1995
|
Structure and encapsidation of transmissible gastroenteritis coronavirus (TGEV) defective interfering genomes.
|
Mendez, A.
|
|
[ 24 ]
|
1995
|
Transmissible gastroenteritis coronavirus nucleoprotein epitope elicits T helper cells that collaborate in the in vitro antibody synthesis to the three major structural viral proteins.
|
Anton, I.M.
|
|
[ 25 ]
|
1993
|
Construction of a recombinant adenovirus for the expression of the glycoprotein S antigen of porcine respiratory coronavirus.
|
Callebaut, P.
|
|
[ 26 ]
|
1993
|
Evolution and tropism of transmissible gastroenteritis coronavirus.
|
Enjuanes, L.
|
|
[ 27 ]
|
1993
|
Induction of an immune response to transmissible gastroenteritis coronavirus using vectors with enteric tropism.
|
Smerdou, C.
|
|
[ 28 ]
|
1993
|
N-acetylneuraminic acid plays a critical role for the haemagglutinating activity of avian infectious bronchitis virus and porcine transmissible gastroenteritis virus.
|
Schultze, B.
|
|
[ 29 ]
|
1992
|
Antigenic structure of transmissible gastroenteritis virus nucleoprotein.
|
Alonso, J.M.M.
|
|
[ 30 ]
|
1992
|
Epitope specificity of protective lactogenic immunity against swine transmissible gastroenteritis virus.
|
Diego, M. de
|
|
[ 31 ]
|
1992
|
Genetic evolution and tropism of transmissible gastroenteritis coronaviruses.
|
Sanchez, C.M.
|
|
[ 32 ]
|
1991
|
Residues involved in the antigenic sites of transmissible gastroenteritis coronavirus S glycoprotein.
|
Gebauer, F.
|
|
[ 33 ]
|
1990
|
Analysis and simulation of a neutralizing epitope of transmissible gastroenteritis virus.
|
Posthumus, W.P.A.
|
|
[ 34 ]
|
1990
|
Antigenic homology among coronaviruses related to transmissible gastroenteritis virus.
|
Sanchez, C.M.
|
|
[ 35 ]
|
1990
|
Linear neutralizing epitopes on the peplomer protein of coronaviruses.
|
Posthumus, W.P.A.
|
|
[ 36 ]
|
1990
|
Localization of antigenic sites of the E2 glycoprotein of transmissible gastroenteritis coronavirus.
|
Correa, I.
|
|
[ 37 ]
|
1990
|
Location of antigenic sites of the S-glycoprotein of transmissible gastroenteritis virus and their conservation in coronaviruses.
|
Enjuanes, L.
|
|
[ 38 ]
|
1990
|
Mechanisms of transmissible gastroenteritis coronavirus neutralization.
|
Sune, C.
|
|
[ 39 ]
|
1989
|
Induction of transmissible gastroenteritis coronavirus-neutralizing antibodies in vitro by virus-specific T helper cell hybridomas.
|
Bullido, M.J.
|
|
[ 40 ]
|
1989
|
Inter-specific analysis of Drosophila alcohol dehydrogenase by an immunoenzymatic assay using monoclonal antibodies.
|
Fibla, J.
|
|
[ 41 ]
|
1988
|
Extensive antigenic heterogeneity of foot-and-mouth disease virus of serotype C.
|
Mateu, M.G.
|
|
[ 42 ]
|
1988
|
Lack of protection in vivo with neutralizing monoclonal antibodies to transmissible gastroenteritis virus.
|
Wesley, R.D.
|
|
[ 43 ]
|
1987
|
Critical epitopes in transmissible gastroenteritis virus neutralization.
|
Enjuanes, L.
|
|
[ 44 ]
|
1986
|
Use PP321 to control pests of lucerne under Spanish conditions.
|
Gruenholz, P.
|
|
[ 45 ]
|
1985
|
Monoclonal antibodies specific for African swine fever virus proteins.
|
Sanz, A.
|
|
[ 46 ]
|
1984
|
Porcine leukocyte cellular subsets sensitive to African swine fever virus in vitro.
|
Casal, I.
|
|
[ 47 ]
|
1983
|
African swine fever virus.
|
Wardley, R.C.
|
|
[ 48 ]
|
1979
|
Cross-links in African swine fever virus DNA.
|
Ortin, J.
|
|
[ 49 ]
|
1977
|
Sensitivity of macrophages from different species to Africanswine fever (ASF) virus.
|
Enjuanes, L.
|
|
[ 50 ]
|
1976
|
Isolation and properties of the DNA of African swine fever (ASF) virus.
|
Enjuanes, L.
|
|
[ 51 ]
|
1976
|
Titration of African swine fever (ASF) virus.
|
Enjuanes, L.
|
