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United States Department of Agriculture

Agricultural Research Service

Satyanarayana Tatineni (Ts)
Research Plant Pathologist


Publications (Clicking on the reprint icon Reprint Icon will take you to the publication reprint.)
The coat protein and NIa protease of two potyviridae family members independently confer superinfection exclusion -
Tatineni, S., French, R. 2016. The coat protein and NIa protease of two Potyviridae family members independently confer superinfection exclusion. Journal of Virology. 90(23):10886-10905.
Temperature-dependent Wsm1 and Wsm2 gene-specific blockage of viral long-distance transport provides resistance to Wheat streak mosaic virus and Triticum mosaic virus in wheat -
Tatineni, S., Wosul, E.N., Bartels, M.S., Hein, G.L., Graybosch, R.A. 2016. Temperature-dependent Wsm1 and Wsm2 gene-specific blockage of viral long-distance transport provides resistance to Wheat streak mosaic virus and Triticum mosaic virus in wheat. Molecular Plant-Microbe Interactions. 29(9):724-738.
Wheat streak mosaic virus-encoded NIa-Pro and coat protein are involved in virus superinfection exclusion -
Tatineni, S. 2016. Wheat streak mosaic virus-encoded NIa-Pro and coat protein are involved in virus superinfection exclusion. American Phytopathological Society Annual Meeting. [abstract] American Phytopathological Society..
Wheat streak mosaic virus P1: Defining the minimal region required for the suppression of RNA silencing activity -
Gupta, A., Hein, G.L., Tatineni, S. 2016. Wheat streak mosaic virus P1: Defining the minimal region required for the suppression of RNA silencing activity. American Phytopathological Society Annual Meeting. [abstract] American Phytopathological Society..
Triticum mosaic virus exhibits limited population variation yet shows evidence of parallel evolution after replicated serial passage in wheat -
Bartels, M.S., French, R.C., Graybosch, R.A., Tatineni, S. 2016. Triticum mosaic virus exhibits limited population variation yet shows evidence of parallel evolution after replicated serial passage in wheat. Virology. 492:92-100.
'A unique 5’ translation element discoverd in Triticum mosaic virus' Reprint Icon -
Zhang, J., Roberts, R., Mayberry, L.K., Tatineni, S., Browning, K.S., Rakotondrafara, A. 2015. 'A unique 5’ translation element discoverd in Triticum mosaic virus'. Journal of Virology. J Virol 89:12427–12440.
Incidence of Wheat streak mosaic virus, Triticum mosaic virus, and Wheat mosaic virus in wheat curl mites recovered from maturing winter wheat spikes Reprint Icon -
Byamukama, E., Tatineni, S., Hein, G.L., Mcmechan, A.J., Wegulo, S.N. 2016. Incidence of Wheat streak mosaic virus, Triticum mosaic virus, and Wheat mosaic virus in wheat curl mites recovered from maturing winter wheat spikes. Plant Disease. 100:318-323.
Eriophyid mite vectors of plant viruses -
Stenger, D.C., Hein, G.L., Tatineni, S., French, R.C. 2016. Eriophyid mite vectors of plant viruses. In: J.K. Brown, editor. Vector-Mediated Transmission of Plant Pathogens. St. Paul, MN: APS Press. p. 263-274.
In vitro transcripts of wild-type and fluorescent protein-tagged triticum mosaic virus (family potyviridae) are biologically active in wheat Reprint Icon -
Tatineni, S., McMechan, A.J., Bartels, M.S., Hein, G.L., Graybosch, R.A. 2015. In vitro transcripts of wild-type and fluorescent protein-tagged triticum mosaic virus (family potyviridae) are biologically active in wheat. Phytopathology. 105:1496-1505.
Effect of temperature on wheat streak mosaic virus replication and movement in resistant and susceptible wheat cultivars Reprint Icon -
Wosula, E.N., Tatineni, S., Wegulo, S.N., Hein, G.L. 2015. Effect of temperature on wheat streak mosaic virus replication and movement in resistant and susceptible wheat cultivars. American Phytopathological Society Annual Meeting. 117-P.
Viral suppressors of RNA silencing in Wheat mosaic virus (WMoV) Reprint Icon -
Gupta, A., Hein, G.L., Graybosch, R.A., Tatineni, S. 2015. Viral suppressors of RNA silencing in Wheat mosaic virus (WMoV). American Phytopathological Society Annual Meeting. 726-P.
Role of wheat streak mosaic virus-encoded proteins in disease development Reprint Icon -
Tatineni, S. 2015. Role of wheat streak mosaic virus-encoded proteins in disease development. American Phytopathological Society Annual Meeting. 90-O.
Impact of Wheat streak mosaic virus and Triticum mosaic virus co-infection of wheat on transmission rates by wheat curl mites -
Oliveira-Hofman, C., Wegulo, S.N., Tatineni, S., Hein, G.L. 2015. Impact of Wheat streak mosaic virus and Triticum mosaic virus co-infection of wheat on transmission rates by wheat curl mites. Plant Disease. Plant Disease 99, 1170-1174.
Dynamics of small RNAs of virus and host origin from wheat streak mosaic virus and/or triticum mosaic virus infected susceptible and temperature-sensitive resistant wheat cultivars -
Tatineni, S., Riethoven, J., Graybosch, R.A., French, R.C., Mitra, A. 2014. Dynamics of small RNAs of virus and host origin from wheat streak mosaic virus and/or triticum mosaic virus infected susceptible and temperature-sensitive resistant wheat cultivars. PLoS One 9(11):e111577. doi:10.1371/journal.pone.0111577.
An eriophyid mite-transmitted plant virus contains eight genomic RNA segments with unusual heterogeneity in the nucleocapsid protein -
Tatineni, S., Mcmechan, A.J., Wosula, E.N., Wegulo, S.N., Graybosch, R.A., French, R.C., Hein, G.L. 2014. An eriophyid mite-transmitted plant virus contains eight genomic RNA segments with unusual heterogeneity in the nucleocapsid protein. Journal of Virology. Journal of Virology 88: 11834-11845.
Multiple roles of Wheat streak mosaic virus coat protein in virus biology -
Tatineni, S., Mcmechan, A.J., Hein, G.L. 2014. Multiple roles of Wheat streak mosaic virus coat protein in virus biology. American Phytopathological Society. 94-S.
Differential transmission of Triticum mosaic virus by wheat curl mite populations collected in the Great Plains Reprint Icon -
Mcmechan, A.J., Tatineni, S., French, R.C., Hein, G.L. 2014. Differential transmission of Triticum mosaic virus by wheat curl mite populations collected in the Great Plains. Plant Disease. 98:806-810.
Wheat streak mosaic virus infects systemically despite extensive coat protein deletions: identification of virion assembly and cell-to-cell movement determinants Reprint Icon -
Tatineni, S., Kovacs, F., French, R.C. 2014. Wheat streak mosaic virus infects systemically despite extensive coat protein deletions: identification of virion assembly and cell-to-cell movement determinants. Journal of Virology. 88:1366-1380.
The c-terminus of wheat streak mosaic virus coat protein is involved in differential infection of wheat and maize through host-specific long-distance transport Reprint Icon -
Tatineni, S., French, R.C. 2014. The c-terminus of wheat streak mosaic virus coat protein is involved in differential infection of wheat and maize through host-specific long-distance transport. Molecular Plant-Microbe Interactions. 27:150-162.
Quantification of yield loss caused by Triticum mosaic virus and Wheat streak mosaic virus in winter wheat under field conditions Reprint Icon -
Byamukama, E., Tatineni, S., Hein, G.L., Graybosch, R.A., Baenziger, P.S., French, R.C., Wegulo, S.N. 2014. Quantification of yield loss caused by Triticum mosaic virus and Wheat streak mosaic virus in winter wheat under field conditions. Plant Disease. 98:127-133.
Deletions in the coat protein cistron of wheat streak mosaic virus induced more severe symptoms than the wild-type virus -
Tatineni, S., French, R.C. 2013. Deletions in the coat protein cistron of wheat streak mosaic virus induced more severe symptoms than the wild-type virus. American Phytopathological Society Annual Meeting. 103:S2.143.
Citrus tristeza virus-host interactions Reprint Icon -
Dawson, W.O., Garnsey, S.M., Tatineni, S., Folimonova, S., Harper, S.J., Gowda, S. 2013. Citrus tristeza virus-host interactions. Frontiers in Microbiology. 4:88. DOI: 10.3389/fmicb.2013.00088.
Variants of Triticum mosaic virus isolated from wheat in Colorado Reprint Icon -
Seifers, D., Tatineni, S., French, R.C. 2013. Variants of Triticum mosaic virus isolated from wheat in Colorado. Plant Disease. 97:903-911.
Triticum mosaic poacevirus enlists P1 rather than HC-Pro to suppress RNA silencing-mediated host defense Reprint Icon -
Tatineni, S., Li, R., Qu, F., Morris, J.T., French, R.C. 2012. Triticum mosaic poacevirus enlists P1 rather than HC-Pro to suppress RNA silencing-mediated host defense. Virology. 433: 104-115.
Identification of distinct functions of Wheat streak mosaic virus coat protein in virion assembly and virus movement -
Tatineni, S., French, R.C. 2012. Identification of distinct functions of Wheat streak mosaic virus coat protein in virion assembly and virus movement. Phytopathology. 112: S4.118.
Triticum Mosaic Virus: Genetic evidence for recent population expansion and balancing selection -
French, R.C., Siefers, D.L., Wegulo, S.N., Tatineni, S. 2012. Triticum Mosaic Virus: Genetic evidence for recent population expansion and balancing selection. American Phytopathological Society Abstracts. 112:S4.42.
Enhancement or attenuation of disease by deletion of genes from Citrus tristeza virus Reprint Icon -
Tatineni, S., Dawson, W.O. 2012. Enhancement or attenuation of disease by deletion of genes from Citrus tristeza virus. Journal of Virology. 86: 7850-7857.
Effects of single and double infections of winter wheat by Triticum mosaic virus and Wheat streak mosaic virus on yield determinants -
Byamukama, E., Tatineni, S., Hein, G., Graybosch, R.A., Baenziger, P., French, R.C., Wegulo, S. 2012. Effects of single and double infections of winter wheat by Triticum mosaic virus and Wheat streak mosaic virus on yield determinants. Plant Disease. 96:859-864.
Tritimovirus P1 functions as a suppressor of RNA silencing and an enhancer of disease symptoms Reprint Icon -
Young, B.A., Stenger, D.C., Ou, F., Morris, T., Tatineni, S., French, R.C. 2012. Tritimovirus P1 functions as a suppressor of RNA silencing and an enhancer of disease symptoms. Virus Research. 163: 672-677.
A plant virus evolved by acquiring multiple non-conserved genes to extend its host range Reprint Icon -
Tatineni, S., Robertson, C.J., Garnsey, S.M., Dawson, W.O. 2011. A plant virus evolved by acquiring multiple non-conserved genes to extend its host range. Proceedings of the National Academy of Sciences. 108:42:17366-17371.
Co-inoculation of wheat with Triticum mosaic virus and Wheat streak mosaic virus exacerbates loss of fresh and dry matter -
Byamukama, E., Tatineni, S., Hein, G., Wegulo, S. 2011. Co-inoculation of wheat with Triticum mosaic virus and Wheat streak mosaic virus exacerbates loss of fresh and dry matter. American Phytopathological Society Annual Meeting. Phytopathology 101:S24.
The P1 cistron of Triticum mosaic virus (genus Poacevirus; family Potyviridae) is a suppressor of RNA silencing -
Tatineni, S., French, R.C. 2011. The P1 cistron of Triticum mosaic virus (genus Poacevirus; family Potyviridae) is a suppressor of RNA silencing. American Society for Virology Meeting. Abstract #Wa-4, page 78.
The N-terminal region of Wheat streak mosaic virus coat protein is a host- and strain-specific long-distance transport factor Reprint Icon -
Tatineni, S., Van Winkle, D.H., French, R.C. 2011. The N-terminal region of Wheat streak mosaic virus coat protein is a host- and strain-specific long-distance transport factor. Journal of Virology. 85: 1718-1731.
Efficient and stable expression of GFP through Wheat streak mosaic virus-based vectors in cereal hosts using a range of cleavage sites: Formation of dense fluorescent aggregates for sensitive virus tracking Reprint Icon -
Tatineni, S., Mcmechan, A., Hein, G., French, R.C. 2011. Efficient and stable expression of GFP through Wheat streak mosaic virus-based vectors in cereal hosts using a range of cleavage sites: Formation of dense fluorescent aggregates for sensitive virus tracking. Virology. 410:268-281, doi:10.1016/j.virol.2010.10.043.
GFP is Efficiently Expressed by Wheat Streak Mosaic Virus Using a Range of Tritimovirus NIa Cleavage Sites and Forms Dense Aggregates in Cereal Hosts -
Tatineni, S., French, R.C. 2010. GFP is Efficiently Expressed by Wheat Streak Mosaic Virus Using a Range of Tritimovirus NIa Cleavage Sites and Forms Dense Aggregates in Cereal Hosts. American Phytopathological Society Annual Meeting. Phytopathology Volume 100, Page S125.
Heterologous Minor Coat Proteins of Citrus Tristeza Virus Strains Affect Encapsidation, but the Coexpression of HSP70h and p61 Restores Encapsidation to Wild-Type Levels Reprint Icon -
Tatineni, S., Gowda, S., Dawson, W.O. 2010. Heterologous Minor Coat Proteins of Citrus Tristeza Virus Strains Affect Encapsidation, but the Coexpression of HSP70h and p61 Restores Encapsidation to Wild-Type Levels. Virology. Volume 402:262-270.
Characterization of the Triticum Mosaic Virus Genome and Interactions between Triticum Mosaic Virus and Wheat Streak Mosaic Virus -
Tatineni, S., French, R.C. 2011. Characterization of the Triticum Mosaic Virus Genome and Interactions between Triticum Mosaic Virus and Wheat Streak Mosaic Virus. Workshop Proceedings. Abstract presented at Hard Winter Wheat Workers Workshop, University of Nebraska, Lincoln, NE March 7-9, 2010.
Wheat Cultivar-Specific Disease Synergism and Alteration of Virus Accumulation During Co-Infection with Wheat Streak Mosaic Virus and Triticum Mosaic Virus Reprint Icon -
Tatineni, S., Graybosch, R.A., Hein, G.L., Wegulo, S.N., French, R.C. 2010. Wheat Cultivar-Specific Disease Synergism and Alteration of Virus Accumulation During Co-Infection with Wheat Streak Mosaic Virus and Triticum Mosaic Virus. Phytopathology, volume 100, pages 230-238.
The Pathogenicity Determinant of Citrus Tristeza Virus Causing the Seedling Yellows Syndrome is Located at the 3’-Terminal Region of the Viral Genome -
Albiach-Marti, M.R., Robertson, C., Gowda, S., Tatineni, S., Belliure, B., Garnsey, S.M., Folimonova, S.Y., Moreno, P., Dawson, W.O. 2010. The Pathogenicity Determinant of Citrus Tristeza Virus Causing the Seedling Yellows Syndrome is Located at the 3’-Terminal Region of the Viral Genome. Molecular Plant Pathology, Volume 11 (1), pages 55-67.
Triticum Mosaic Virus: A Distinct Member of the Family Potyviridae with an Unusually Long Leader Sequence -
Tatineni, S., Ziems, D., Wegulo, S.W., French, R.C. 2009. Triticum Mosaic Virus: A Distinct Member of the Family Potyviridae with an Unusually Long Leader Sequence. Phytopathology 99:S127.
Accumulation of a 5’ proximal subgenomic RNA of Citrus tristeza virus is correlated with encapsidation by the minor coat protein Reprint Icon -
Gowda, S., Tatineni, S., Folimonova, S.V., Hilf, M.E., Dwason, W.O. 2009. Accumulation of a 5’ proximal subgenomic RNA of Citrus tristeza virus is correlated with encapsidation by the minor coat protein. Virology 389, 122-131.
Triticum Mosaic Virus: A Distinct Member of the Family Potyviridae with an Unusually Long Leader Sequence Reprint Icon -
Tatineni, S., Ziems, A.D., Wegulo, S.N., French, R.C. 2009. Triticum Mosaic Virus: A Distinct Member of the Family Potyviridae with an Unusually Long Leader Sequence. Phytopathology. 99:943-950.
Molecular Characterization of the Meyer Lemon Isolate of Citrus Tatter Leaf Virus: Complete Genome Sequence and Development of Biologically Active In Vitro Transcripts Reprint Icon -
Tatineni, S., Afunian, M.R., Hilf, M.E., Gowda, S., Dawson, W.O., Garnsey, S.M. 2009. Molecular Characterization of Citrus tatter leaf virus Historically Associated with Meyer Lemon Trees: Complete Genome Sequence and Development of Biologically Active In Vitro Transcripts. Phytopathology Volume 99, Pages 423-431.
Characterization of the 5’- and 3’-terminal subgenomic RNAs produced by a capillovirus: evidence for a CP subgenomic RNA Reprint Icon -
Tatineni, S., Afunian, M.R., Gowda, S., Hilf, M.E., Bar-Joseph, M., Dawson, W.O. 2009. Characterization of the 5’- and 3’-terminal subgenomic RNAs produced by a capillovirus: evidence for a CP subgenomic RNA. Virology 385 (2009) 521–528.
In planta distribution and quantification of Asiatic strain of citrus Huanglongbing pathogen -
Sagaram, U.S., Tatineni, S., Kim, J., Wang, N. 2008. In planta distribution and quantification of Asiatic strain of citrus Huanglongbing pathogen. American Phytopathological Society Annual Meeting. Phytopathology 98: S128 (2008).
Citrus tristeza virus: survival at the edge of the movement continuum -
Folimonova, S.Y., Folimonov, A.S., Tatineni, S., Dawson, W.O. 2008. Citrus tristeza virus: survival at the edge of the movement continuum. Journal of Virology, Volume 82, page 6546-6556.
A capillovirus produces two 3’-terminal and two 5’-terminal sgRNAs in infected tissue: evidence for a CP sgRNA -
Tatineni, S., Afunian, M., Hilf, M.E., Gowda, S., Garnsey, S.M., Dawson, W.O. 2008. A capillovirus produces two 3’-terminal and two 5’-terminal sgRNAs in infected tissue: evidence for a CP sgRNA. American Society for Virology 27th annual meeting abstracts.
Last Modified: 8/26/2016
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