Stanton Gelvin Publications

Liu, N., Lee, L.-Y., Yu, Y., and Gelvin, S.B. 2023.Myosin VIII and XI isoforms interact with Agrobacterium VirE2 protein and help direct transport from the plasma membrane to the perinuclear region during transformation.  BioRxIV MS ID#: BIORXIV/2023/531343.

Nishizawa-Yokoi, A., and Gelvin, S.B. 2023. Transformation and regeneration of DNA polymerase q mutant rice plants. Plant Direct 2023;7:e526. doi:10.1002/pld3.526.

Singer, K., Lee, L.-Y., Yuan, J., and Gelvin, S.B. 2022. Characterization of T-circles and their formation under various conditions reveal similarities to Agrobacterium T-DNA integration patterns. Front. Plant Sci. Front. Plant Sci.13:849930. doi:10.3389/fpls.2022.849930.

Gelvin, S.B. 2021.  Plant DNA repair and Agrobacterium T-DNA integration.  Int. J. Mol. Sci. 22: 8458.  doi org/10.3390/ijms22168458

Lapham, R.A., Lee, L.-Y., Xhako, E., Gomez, E.G., Nivya, V.M., and Gelvin, S.B. 2021. Agrobacterium VirE2 protein modulates plant gene expression and mediates transformation from its location outside the nucleus. Front. Plant Sci. 12:684192. DOI: 10.3389/fpls.2021.684192.

Nishizawa-Yokoi, A., Saika, H., Hara, N., Lee, L.-Y., Toki, X., and Gelvin, S.B. 2020. Agrobacterium T-DNA integration in somatic cells does not require the activity of DNA polymerase theta.  New Phytol. 229, 2859-2872.  doi:10.1111/nph.17032.  Published with commentary: Faure, D. Is there a unique integration mechanism of Agrobacterium T-DNA into the plant genome? New Phytol. 229, 2386-2388.

Li, X., Yang, Q., Peng, L., Tu, H., Lee, L.-Y., Gelvin, S.B., and Pan,   S.Q. 2020. Agrobacterium-delivered VirE2 interacts with host nucleoporin CG1 to facilitate the nuclear import of VirE2-coated T complex. Proc. Natl. Acad. Sci. USA. 117, 26389-26497. doi:10.1073/pnas.200964517.

Hsu, C-T., Cheng, Y.-J., Yuan, Y.-H., Hung, W.-F., Cheng, Q-.W., Wu, F.-H. Lee, L.-Y., Gelvin, S.B, and Lin, C.-S. 2019. Application of Cas12a and nCas9‑activation‑induced cytidine deaminase for genome editing and as a non‑sexual strategy to generate homozygous/multiplex edited plants in the allotetraploid genome of tobacco.  Plant Mol. Biol. 101, 355-371.  doi.org/10.1007/s11103-019-00907-w.

Lee, K., Eggenberger, A.L., Banakar, R., McCaw, M., Zhu, H., Main, M., Kang, M., Gelvin, S.B., and Wang, K. 2019. CRISPR/Cas9-mediated targeted T-DNA integration in rice. Plant Mol. Biol. doi: org/10.1007/s11103-018-00819-1

Vaghchhipawala, Z., Radke, S., Nagy, E., Russell, M.L., Johnson, S., Gelvin, S.B., Gilbertson, L., and Ye, X. 2018. RepB C-terminus mutation of a pRi-repABC binary vector affects plasmid copy number in Agrobacterium and transgene copy number in plants. PLoS ONE 13(11):e0200972. Doi: 10:1371/journal.pone.0200972.

Gelvin, S.B. 2018. The VirE-asy way to genetically transform plants. Trends Microbiol. doi.org/10.1016/j.tim.2018.10.003.

Dokládal, L., Benková, E., Honys, D., Dupláková, N., Lee, L.-Y., Gelvin, S. B., Sýkorová, E. 2018. An armadillo-domain protein participates in a telomerase interaction network. Plant Mol Biol. 97:407-420.

Lapham, R., Lee, L.-Y., Tsugama, D., Lee, S., Mengiste, T., Gelvin, S. G. 2018. VIP1 and its homologs are not required for Agrobacterium-mediated transformation, but play a role in Botrytis and salt stress responses. Front Plant Sci. 9:749. doi: 10.3389/fpls.2018.00749.

Lin, C.-S., Hsu, C.-T., Yang, L.-H., Lee, L.-Y., Fu, J.-Y., Cheng, Q.-W., Wu, F.-H., Hsiao, H.C.-W., Zhang, Y., Zhang, R., Chang, W.-J., Yu, C.-T., Wang, W., Liao, L.-J., Gelvin, S.B., Shi, M.-C. 2018. Application of protoplast technology to CRISPR/Cas9 mutagenesis: from single-cell mutation detection to mutant plant regeneration. Plant Biotechnol J. doi: 10.1111/pbi.12870.

Gelvin, SB. 2017. Integration of Agrobacterium T-DNA into the plant genome. Annu Rev Genet. 51:195-217.

Iwakawa, H., Carter, B. C., Bishop, B. C., Ogas, J., Gelvin, S. B. 2017. Perturbation of H3K27me3-associated epigenetic processes increases Agrobacterium-mediated transformation. Mol Plant Microbe Interact. 30:35-44.

Altpeter, F., Springer, N.M., Bartley, L.E., Blechl, A.E., Brutnell, T.P., Citovsky, V., Conrad, L.J., Gelvin, S.B., Jackson, D.P., Kausch, A.P., Lemaux, P.G., Medford, J.I., Orozco-Cárdenas, M.L., Tricoli, D.M., Van Eck, J., Voytas, D.F., Walbot, V., Wang, K., Zhang, Z.J., Stewart, C.N., Jr. 2016. Advancing crop transformation in the era of genome editing. Plant Cell 28:1510-1520.

Wei, F.-J., Kuang, L.-Y., Oung, H.-M., Cheng, S.-Y., Wu, H.-P., Huang, L.-T., Tseng, Y.-T., Chiou, W.-Y., Hsieh-Feng, V., Chung, C.-H., Yu, S.-M., Lee, L.-Y., Gelvin, S.B., and Hsing, Y.-I. C. 2016. Somaclonal variation does not preclude the use of rice transformants for genetic screening. Plant J. 85:648-659.

Dokládal, L., Honys, D., Rana, R., Lee, L.-Y., Gelvin, S.B., and Sýkorová, E. 2015. cDNA library screening identifies protein interactors potentially involved in non-telomeric roles of Arabidopsis telomerase. Front. Plant Sci. 6:985 doi:10.389/fpls.2015.00985.

Hwang, H.-H., Gelvin, S.B., and Lai, E.-M. 2015. Editorial: "Agrobacterium biology and its application to transgenic plant production". Front. Plant Sci. 6:265. doi: 10.3389/fpls.2015.00265.

Park, S.-Y., Vaghchhipawala, Z., Vasudevan, B., Lee, L.-Y., Shen, Y., Singer, K., Waterworth, W.M., Zhang, Z., West, C.E., Mysore, K.S., and Gelvin, S.B.  2015.  Agrobacterium T-DNA integration into the plant genome can occur without the activity of key non-homologous end-joining proteins.  Plant J. 81:934-946.  doi: 10.1111/tpj.12779.

Sardesai, N., Laluk, K., Mengiste, T., and Gelvin, S.B.  2014.  The Myb transcription factor MTF1 is a unidirectional regulator of susceptibility to Agrobaterium. Plant Signaling Behavior pii:328983. http://dx.doi.org/10.4161/psb.28983

Park, S.-Y., Yin, X., Duan, K., Gelvin, S.B., and Zhang, Z.  2014.  Heat shock protein 90.1 plays a role in Agrobacterium-mediated plant transformation.  Mol. Plant  7:1793-1796.  doi: 10.1093/mp/ssu091.

Yong, S., Lee, L.-Y., and Gelvin, S.B.  2014.  Is VIP1 important for Agrabacterium-mediated transformation? The Plant Journal 79:848-860.

Lee, L.-Y., and Gelvin, S.B.  2014.  Bimolecular fluorescence complementation for imaging protein-protein interactions in plant hosts of microbial pathogens. In Methods in Molecular Biology: Host-Bacteria Interactions. (A.C. Vergunst and D. O'Callaghan, eds.).  Springer, Humana Press. Vol. 1197. pp. 185-208.  DOI: 10.1007/978-1-4939-1261-2_11.

Sardesi, N., Lee, L.-Y., Chen, H., Yi, H.-C., Olbricht, G.R., Stirnberg, A., Jeffries, J., Xiong, K., Doerge, R.W., and Gelvin, S.B.  2013.  Cytokinins secreted by Agrobacterium promote transformation by repressing a plant myb transcription factor.  Science Signaling 6(302):ra100.  DOI: 10.1126/scisignal.2004518.  (This article was featured both in a Science podcast and in a journal cover photo.  The article was selected by The Latest Science for its impact on scientific knowledge.)

Lee, L.-Y., Wu, F.-H., Hsu, C.-T., Shen, S.-C., Yeh, H.Y., Liao, D.-C., Fang, M.-J., Liu, N.-T., Yen, Y.-C., Dokládal, L., Sýkorová, E., Gelvin, S.B., and Lin, C.-S. 2012. Screening a cDNA library for protein-protein interactions directly in planta.  Plant Cell. 24: 1746-1759.  doi/10.1105/tpc.112.097998

Gelvin, S.B.  2012. Traversing the cell: Agrobacterium T-DNA’s journey to the host genome. Front. Plant Sci. 3:52. doi: 10.3389/fpls.2012.00052.

Gelvin, S.B.  2010.  Improving the quality of plant transformation events.  ISB News Rep. July, 2010.

Gelvin, S.B.  2010. Manipulating plant histone genes to improve Agrobacterium- and direct DNA-mediated plant genetic transformation.  Inform. Systems Biotechnol. News Rep. March, 2010.

Gelvin, S.B. 2010. Finding a way to the nucleus. Current Opin Microbiol. 13: 53-58. DOI 10.1016/j.mib.2009.11.003.

Gelvin, S.B. 2010. Plant proteins involved in Agrobacterium-mediated genetic transformation. Annu Rev Phytopathol. 48: 45-68.

Oltmanns, H., Frame, B., Lee, L.-Y., Johnson, S., Li, B., Wang, K., Gelvin, S. B. 2010.
Generation "backbone" free, low transgene copy plants by launching T-DNA from the Agrobacterium chromosome. Plant Physiol. 1158-1166.

Gelvin, S. B. 2009. Agrobacterium in the genomics age. Plant Physiol. 150: 1665-1676.

Zheng, Y., He, X.-W., Ying, Y.-H., Lu, J.-F., Gelvin, S. B., Shou, H.-X. 2009. Expression of the Arabidopsis thaliana histone gene AtHTA1 enhances rice transformation efficiency. Mol. Plant. 2: 832-837.

Tenea, G.N., Spantzel, J., Lee, L.-Y., Zhu, Y., Lin, K., Johnson, S.J., Gelvin, S.B. 2009. Over-expression of several Arabidopsis histone genes increases Agrobacterium-mediated transformation and transgene expression in plant cells. Plant Cell. 3350-3367.

Hodges, L. D., Lee, L. -Y., McNett, H., Gelvin, S. B., Ream, W. 2009. Agrobacterium rhizogenes GALLS gene encodes two secreted proteins required for transformation of plants. J. Bacteriol. 191: 355-364.

Lee, L. Y., Gelvin, S. B. 2008. T-DNA binary vectors and systems. Plant Physiol. 146: 325-332.

Gelvin, S. B. 2008. Agrobacterium-mediated DNA transfer, and then some. Nature Biotechnology. 26: 998-1000.

Bhattacharjee, S., Lee, L.-Y., Oltmanns, H., Cao, H., Veena, Cuperus, J., Gelvin, S.B. 2008. Impa-4, an Arabidopsis importin α isoform, is preferentially involved in Agrobacterium-mediated plant transformation. Plant Cell. 20: 2661-2680.
doi: 10.1105/tpc.108.060467.

Lee, L.-Y., Fang, M.-J., Kuang, L.-Y., Gelvin, S.B. 2008. Vectors for multi-color bimolecular fluorescence complementation to investigate protein-protein interactions in living plant cells. Plant Methods. 4: 24. doi:10.1186/1746-4811-4-24.

Crane, Y. M., Gelvin, S. B. 2007. RNAi-mediated gene silencing reveals involvement of Arabidopsis chromatin-related genes in Agrobacterium-mediated root transformation. Proc Natl Acad Sci U S A. 104: 15156-15161.

Gelvin, S. B., Kim, S. I. 2007. Effect of chromatin upon Agrobacterium T-DNA integration and transgene expression. Biochim Biophys Acta. 1769: 410-421.

Kim, S. I., Veena, Gelvin, S. B. 2007. Genome-wide analysis of Agrobacterium T-DNA integration sites in the Arabidopsis genome generated under non-selective conditions. Plant J. 51: 779-791.

Lee, L. Y., Kononov, M. E., Bassuner, B., Frame, B. R., Wang, K., Gelvin, S. B. 2007. Novel plant transformation vectors containing the superpromoter. Plant Physiol. 145: 1294-1300.

Citovsky, V., Lee, L. Y., Vyas, S., Glick, E., Chen, M. H., Vainstein, A., Gafni, Y., Gelvin, S. B., Tzfira, T. 2006. Subcellular localization of interacting proteins by bimolecular fluorescence complementation in planta. Journal of Molecular Biology. 362: 1120-1131.

Gelvin, S. B. 2006. Agrobacterium transformation of Arabidopsis thaliana roots: a quantitative assay. Methods Mol Biol. 343: 105-113.

Gelvin, S. B. 2006. Agrobacterium virulence gene induction. Methods Mol Biol. 343: 77-84.

Hwang, H. H., Mysore, K. S., Gelvin, S. B. 2006. Transgenic Arabidopsis plants expressing Agrobacterium tumefaciens VirD2 protein are less susceptible to Agrobacterium transformation. Molecular Plant Pathology. 7: 473-484.

Yi, H., Sardesai, N., Fujinuma, T., Chan, C. W., Veena, Gelvin, S. B. 2006. Constitutive expression exposes functional redundancy between the Arabidopsis histone H2A gene HTA1 and other H2A gene family members. Plant Cell. 18: 1575-1589.

Gelvin, S. B. 2005. Viral-mediated plant transformation gets a boost. Nat Biotechnol. 23: 684-685.

Gelvin, S. B. 2005. Agricultural biotechnology: gene exchange by design. Nature. 433: 583-584.

Gaspar, Y. M., Nam, J., Schultz, C. J., Lee, L. Y., Gilson, P. R., Gelvin, S. B., Bacic, A. 2004. Characterization of the Arabidopsis lysine-rich arabinogalactan-protein AtAGP17 mutant (rat1) that results in a decreased efficiency of agrobacterium transformation. Plant Physiology. 135: 2162-2171.

Hwang, H. H., Gelvin, S. B. 2004. Plant proteins that interact with VirB2, the Agrobacterium tumefaciens pilin protein, mediate plant transformation. Plant Cell. 16: 3148-3167.

Lee, L. Y., Gelvin, S. B. 2004. Osa protein constitutes a strong oncogenic suppression system that can block vir-dependent transfer of IncQ plasmids between Agrobacterium cells and the establishment of IncQ plasmids in plant cells. J Bacteriol. 186: 7254-7261.

Tao, Y., Rao, P. K., Bhattacharjee, S., Gelvin, S. B. 2004. Expression of plant protein phosphatase 2C interferes with nuclear import of the Agrobacterium T-complex protein VirD2. Proc Natl Acad Sci U S A. 101: 5164-5169.

Gelvin, S. B. 2003. Improving plant genetic engineering by manipulating the host. Trends Biotechnol. 21: 95-98.

Gelvin, S. B. 2003. Agrobacterium-mediated plant transformation: the biology behind the "gene-jockeying" tool. Microbiol Mol Biol Rev. 67: 16-37, table of contents.

Tian, L., Wang, J., Fong, M. P., Chen, M., Cao, H., Gelvin, S. B., Chen, Z. J. 2003. Genetic control of developmental changes induced by disruption of Arabidopsis histone deacetylase 1 (AtHD1) expression. Genetics. 165: 399 - 409.

Tian, L., Wang, J. L., Fong, M. P., Chen, M., Cao, H. B., Gelvin, S. B., Chen, Z. J. 2003. Genetic control of developmental changes induced by disruption of Arabidopsis histone deacetylase 1 (AtHD1) expression. Genetics. 165: 399-409.

van Attikum, H., Bundock, P., Overmeer, R. M., Lee, L. Y., Gelvin, S. B., Hooykaas, P. J. 2003. The Arabidopsis AtLIG4 gene is required for the repair of DNA damage, but not for the integration of Agrobacterium T-DNA. Nucleic Acids Res. 31: 4247 - 4255.

Veena, Jiang, H., Doerge, R. W., Gelvin, S. B. 2003. Transfer of T-DNA and Vir proteins to plant cells by Agrobacterium tumefaciens induces expression of host genes involved in mediating transformation and suppresses host defense gene expression. Plant J. 35: 219-236.

Zhu, Y., Nam, J., Carpita, N. C., Matthysse, A. G., Gelvin, S. B. 2003. Agrobacterium-mediated root transformation is inhibited by mutation of an Arabidopsis cellulose synthase-like gene. Plant Physiol. 133: 1000-1010.

Zhu, Y., Nam, J., Humara, J. M., Mysore, K. S., Lee, L. Y., Cao, H., Valentine, L., Li, J., Kaiser, A. D., Kopecky, A. L., Hwang, H. H., Bhattacharjee, S., Rao, P. K., Tzfira, T., Rajagopal, J., Yi, H., Veena, Yadav, B. S., Crane, Y. M., Lin, K., Larcher, Y., Gelvin, M. J., Knue, M., Ramos, C., Zhao, X., Davis, S. J., Kim, S. I., Ranjith-Kumar, C. T., Choi, Y. J., Hallan, V. K., Chattopadhyay, S., Sui, X., Ziemienowicz, A., Matthysse, A. G., Citovsky, V., Hohn, B., Gelvin, S. B. 2003. Identification of Arabidopsis rat mutants. Plant Physiol. 132: 494-505.

Yi, H., Mysore, K. S., Gelvin, S. B. 2002. Expression of the Arabidopsis histone H2A-1 gene correlates with susceptibility to Agrobacterium transformation. Plant J. 32: 285-298.

Lee, L. Y., Humara, J. M., Gelvin, S. B. 2001. Novel constructions to enable the integration of genes into the Agrobacterium tumefaciens C58 chromosome. Mol Plant Microbe Interact. 14: 577-579.

Gelvin, S. B. 2000. Agrobacterium and Plant Genes Involved in T-DNA Transfer and Integration. Annu Rev Plant Physiol Plant Mol Biol. 51: 223-256.

Mysore, K. S., Kumar, C. T., Gelvin, S. B. 2000. Arabidopsis ecotypes and mutants that are recalcitrant to Agrobacterium root transformation are susceptible to germ-line transformation. Plant J. 21: 9-16.

Mysore, K. S., Nam, J., Gelvin, S. B. 2000. An Arabidopsis histone H2A mutant is deficient in Agrobacterium T-DNA integration. Proc Natl Acad Sci U S A. 97: 948-953.

Lee, L. Y., Gelvin, S. B., Kado, C. I. 1999. pSa causes oncogenic suppression of Agrobacterium by inhibiting VirE2 protein export. J Bacteriol. 181: 186-196.

Nam, J., Mysore, K. S., Zheng, C., Knue, M. K., Matthysse, A. G., Gelvin, S. B. 1999. Identification of T-DNA tagged Arabidopsis mutants that are resistant to transformation by Agrobacterium. Mol Gen Genet. 261: 429-438.

Gelvin, S. B. 1998. Agrobacterium VirE2 proteins can form a complex with T strands in the plant cytoplasm. J Bacteriol. 180: 4300-4302.

Gelvin, S. B. 1998. The introduction and expression of transgenes in plants. Curr Opin Biotechnol. 9: 227-232.

Gelvin, S. B. 1998. Multigene plant transformation: More is better!. Nature Biotechnology. 16: 1009-1010.

Mysore, K. S., Bassuner, B., Deng, X. B., Darbinian, N. S., Motchoulski, A., Ream, W., Gelvin, S. B. 1998. Role of the Agrobacterium tumefaciens VirD2 protein in T-DNA transfer and integration. Mol Plant Microbe Interact. 11: 668-683.

Nam, J., Mysore, K. S., Gelvin, S. B. 1998. Agrobacterium tumefaciens transformation of the radiation hypersensitive Arabidopsis thaliana mutants uvh1 and rad5. Mol Plant Microbe Interact. 11: 1136-1141.

Kononov, M. E., Bassuner, B., Gelvin, S. B. 1997. Integration of T-DNA binary vector backbone sequences into the tobacco genome: evidence for multiple complex patterns of integration. Plant J. 11: 945-957.

Nam, J., Matthysse, A. G., Gelvin, S. B. 1997. Differences in susceptibility of Arabidopsis ecotypes to crown gall disease may result from a deficiency in T-DNA integration. Plant Cell. 9: 317-333.

Gray, J., Gelvin, S. B., Meilan, R., Morris, R. O. 1996. Transfer RNA is the source of extracellular isopentenyladenine in a Ti-plasmidless strain of Agrobacterium tumefaciens. Plant Physiology. 110: 431-438.

He, S., Abad, A. R., Gelvin, S. B., Mackenzie, S. A. 1996. A cytoplasmic male sterility-associated mitochondrial protein causes pollen disruption in transgenic tobacco. Proc Natl Acad Sci U S A. 93: 11763-11768.

Karcher, S. J., Gelvin, S. B. 1996. Transgenic plants for the undergraduate teaching laboratory. Plant Physiology. 111: 179-179.

Narasimhulu, S. B., Deng, X. B., Sarria, R., Gelvin, S. B. 1996. Early transcription of Agrobacterium T-DNA genes in tobacco and maize. Plant Cell. 8: 873-886.

Ni, M., Cui, D., Gelvin, S. B. 1996. Sequence-specific interactions of wound-inducible nuclear factors with mannopine synthase 2 promoter wound-responsive elements. Plant Mol Biol. 30: 77-96.

Ni, M., Cui, D., Einstein, J., Narasimhulu, S., Vergara, C. E., Gelvin, S. B. 1995. Strength and Tissue-Specificity of Chimeric Promoters Derived from the Octopine and Mannopine Synthase Genes. Plant Journal. 7: 661-676.

Rong, L. J., Carpita, N. C., Mort, A., Gelvin, S. B. 1994. Soluble Cell-Wall Compounds from Carrot Roots Induce the Pica and Pgl Loci of Agrobacterium-Tumefaciens. Molecular Plant-Microbe Interactions. 7: 6-14.

Yusibov, V. M., Steck, T. R., Gupta, V., Gelvin, S. B. 1994. Association of single-stranded transferred DNA from Agrobacterium tumefaciens with tobacco cells. Proc Natl Acad Sci U S A. 91: 2994-2998.

Filichkin, S. A., Gelvin, S. B. 1993. Formation of a putative relaxation intermediate during T-DNA processing directed by the Agrobacterium tumefaciens VirD1,D2 endonuclease. Mol Microbiol. 8: 915-926.

Hood, E. E., Gelvin, S. B., Melchers, L. S., Hoekema, A. 1993. New Agrobacterium Helper Plasmids for Gene-Transfer to Plants. Transgenic Research. 2: 208-218.

Liu, C. N., Steck, T. R., Habeck, L. L., Meyer, J. A., Gelvin, S. B. 1993. Multiple Copies of Virg Allow Induction of Agrobacterium-Tumefaciens-Vir Genes and T-DNA Processing at Alkaline Ph. Molecular Plant-Microbe Interactions. 6: 144-156.

Morris, R. O., Blevins, D. G., Dietrich, J. T., Durley, R. C., Gelvin, S. B., Gray, J., Hommes, N. G., Kaminek, M., Mathews, L. J., Meilan, R., Reinbott, T. M., Sayavedrasoto, L. 1993. Cytokinins in Plant-Pathogenic Bacteria and Developing Cereal-Grains. Australian Journal of Plant Physiology. 20: 621-637.

Ritchie, S. W., Lui, C. N., Sellmer, J. C., Kononowicz, H., Hodges, T. K., Gelvin, S. B. 1993. Agrobacterium-Tumefaciens-Mediated Expression of Gusa in Maize Tissues. Transgenic Research. 2: 252-265.

Filichkin, S. A., Gelvin, S. B. 1992. Effect of dimethyl sulfoxide concentration on specificity of primer matching in PCR. Biotechniques. 12: 828-830.

Gray, J., Wang, J., Gelvin, S. B. 1992. Mutation of the miaA gene of Agrobacterium tumefaciens results in reduced vir gene expression. J Bacteriol. 174: 1086-1098.

Kononowicz, H., Wang, Y. E., Habeck, L. L., Gelvin, S. B. 1992. Subdomains of the octopine synthase upstream activating element direct cell-specific expression in transgenic tobacco plants. Plant Cell. 4: 17-27.

Li, X. Q., Liu, C. N., Ritchie, S. W., Peng, J. Y., Gelvin, S. B., Hodges, T. K. 1992. Factors influencing Agrobacterium-mediated transient expression of gusA in rice. Plant Mol Biol. 20: 1037-1048.

Liu, C. N., Li, X. Q., Gelvin, S. B. 1992. Multiple copies of virG enhance the transient transformation of celery, carrot and rice tissues by Agrobacterium tumefaciens. Plant Mol Biol. 20: 1071-1087.

Krishnan, M., Burgner, J. W., Chilton, W. S., Gelvin, S. B. 1991. Transport of nonmetabolizable opines by Agrobacterium tumefaciens. J Bacteriol. 173: 903-905.

Rong, L. J., Karcher, S. J., Gelvin, S. B. 1991. Genetic and molecular analyses of picA, a plant-inducible locus on the Agrobacterium tumefaciens chromosome. J Bacteriol. 173: 5110-5120.

Gelvin, S. B. 1990. Crown Gall Disease and Hairy Root Disease : A Sledgehammer and a Tackhammer. Plant Physiol. 92: 281-285.

Gelvin, S. B., Habeck, L. L. 1990. vir genes influence conjugal transfer of the Ti plasmid of Agrobacterium tumefaciens. J Bacteriol. 172: 1600-1608.

Rong, L., Karcher, S. J., O'Neal, K., Hawes, M. C., Yerkes, C. D., Jayaswal, R. K., Hallberg, C. A., Gelvin, S. B. 1990. picA, a novel plant-inducible locus on the Agrobacterium tumefaciens chromosome. J Bacteriol. 172: 5828-5836.

Chang, C. C., Jayaswal, R. K., Chen, C. M., Gelvin, S. B. 1989. Altered Imino Diacid Synthesis and Transcription in Crown Gall Tumors with Transposon Tn5 Insertions in the 3 End of the Octopine Synthase Gene. Journal of Bacteriology. 171: 5922-5927.

Leisner, S. M., Gelvin, S. B. 1989. Multiple domains exist within the upstream activator sequence of the octopine synthase gene. Plant Cell. 1: 925-936.

Veluthambi, K., Krishnan, M., Gould, J. H., Smith, R. H., Gelvin, S. B. 1989. Opines stimulate induction of the vir genes of the Agrobacterium tumefaciens Ti plasmid. J Bacteriol. 171: 3696-3703.

Williamson, J. D., Hirsch-Wyncott, M. E., Larkins, B. A., Gelvin, S. B. 1989. Differential Accumulation of a Transcript Driven by the CaMV 35S Promoter in Transgenic Tobacco. Plant Physiol. 90: 1570-1576.

Csonka, L. N., Gelvin, S. B., Goodner, B. W., Orser, C. S., Siemieniak, D., Slightom, J. L. 1988. Nucleotide sequence of a mutation in the proB gene of Escherichia coli that confers proline overproduction and enhanced tolerance to osmotic stress. Gene. 64: 199-205.

Leisner, S. M., Gelvin, S. B. 1988. Structure of the octopine synthase upstream activator sequence. Proc Natl Acad Sci U S A. 85: 2553-2557.

Orser, C. S., Goodner, B. W., Johnston, M., Gelvin, S. B., Csonka, L. N. 1988. The Escherichia coli proB gene corrects the proline auxotrophy of Saccharomyces cerevisiae pro1 mutants. Mol Gen Genet. 212: 124-128.

Veluthambi, K., Ream, W., Gelvin, S. B. 1988. Virulence genes, borders, and overdrive generate single-stranded T-DNA molecules from the A6 Ti plasmid of Agrobacterium tumefaciens. J Bacteriol. 170: 1523-1532.

Williamson, J. D., Galili, G., Larkins, B. A., Gelvin, S. B. 1988. The Synthesis of a 19 Kilodalton Zein Protein in Transgenic Petunia Plants. Plant Physiol. 88: 1002-1007.

Coates, D., Taliercio, E. W., Gelvin, S. B. 1987. Chromatin Structure of Integrated T-DNA in Crown Gall Tumors. Plant Molecular Biology. 8: 159-168.

DiRita, V. J., Gelvin, S. B. 1987. Deletion analysis of the mannopine synthase gene promoter in sunflower crown gall tumors and Agrobacterium tumefaciens. Mol Gen Genet. 207: 233-241.

Gelvin, S. 1987. Interspecies and Interkingdom Genetic Exchange. Plant Molecular Biology. 8: 357-358.

Gelvin, S. 1987. How to Normalize the Quantitation of Gene-Expression in Transgenic Plants. Plant Molecular Biology. 8: 358-359.

Gelvin, S. B. 1987. Accurate Expression of Genes in Transgenic Plants - Do Fundamental Differences Exist between Eukaryotes. Plant Molecular Biology. 8: 355-357.

Jayaswal, R. K., Veluthambi, K., Gelvin, S. B., Slightom, J. L. 1987. Double-stranded cleavage of T-DNA and generation of single-stranded T-DNA molecules in Escherichia coli by a virD-encoded border-specific endonuclease from Agrobacterium tumefaciens. J Bacteriol. 169: 5035-5045.

Veluthambi, K., Jayaswal, R. K., Gelvin, S. B. 1987. Virulence genes A, G, and D mediate the double-stranded border cleavage of T-DNA from the Agrobacterium Ti plasmid. Proc Natl Acad Sci U S A. 84: 1881-1885.

Goldsbrough, P. B., Gelvin, S. B., Larkins, B. A. 1986. Expression of Maize Zein Genes in Transformed Sunflower Cells. Molecular & General Genetics. 202: 374-381.

Gelvin, S. B., Karcher, S. J., Goldsbrough, P. B. 1985. Use of a Tr T-DNA Promoter to Express Genes in Plants and Bacteria. Molecular & General Genetics. 199: 240-248.

Komro, C. T., Dirita, V. J., Gelvin, S. B., Kemp, J. D. 1985. Site-Specific Mutagenesis in the Tr-DNA Region of Octopine-Type Ti-Plasmids. Plant Molecular Biology. 4: 253-263.

Taliercio, E. W., Coates, D., Gelvin, S. B. 1985. The Nucleosome Structure of the Ribosomal-Rna Genes of Some Tumorous and Nontumorous Nicotiana Cell-Lines. Plant Molecular Biology. 5: 247-255.

Virts, E. L., Gelvin, S. B. 1985. Analysis of transfer of tumor-inducing plasmids from Agrobacterium tumefaciens to Petunia protoplasts. J Bacteriol. 162: 1030-1038.

Karcher, S. J., Dirita, V. J., Gelvin, S. B. 1984. Transcript Analysis of Tr DNA in Octopine-Type Crown Gall Tumors. Molecular & General Genetics. 194: 159-165.

Gelvin, S. B., Karcher, S. J., DiRita, V. J. 1983. Methylation of the T-DNA in Agrobacterium tumefaciens and in several crown gall tumors. Nucleic Acids Res. 11: 159-174.

Aldrich, J., Gelvin, S., Cattolico, R. A. 1982. Extranuclear DNA of a Marine Chromophytic Alga : RESTRICTION ENDONUCLEASE ANALYSIS. Plant Physiol. 69: 1189-1195.

Gelvin, S. B., Thomashow, M. F., McPherson, J. C., Gordon, M. P., Nester, E. W. 1982. Sizes and map positions of several plasmid-DNA-encoded transcripts in octopine-type crown gall tumors. Proc Natl Acad Sci U S A. 79: 76-80.

Stuart, K. D., Gelvin, S. B. 1982. Localization of kinetoplast DNA maxicircle transcripts in bloodstream and procyclic form Trypanosoma brucei. Mol Cell Biol. 2: 845-852.

Gelvin, S. B., Gordon, M. P., Nester, E. W., Aronson, A. I. 1981. Transcription of the Agrobacterium Ti plasmid in the bacterium and in crown gall tumors. Plasmid. 6: 17-29.

Stuart, K., Gelvin, S. R. 1980. Kinetoplast DNA of normal and mutant Trypanosoma brucei. Am J Trop Med Hyg. 29: 1075-1081.

Gelvin, S. B., Howell, S. H. 1979. Small Repeated Sequences in the Chloroplast Genome of Chlamydomonas-Reinhardi. Molecular & General Genetics. 173: 315-322.

Howell, S. H., Gelvin, S. 1978. The messenger RNAs and genes coding for the small and large subunits of ribulose 1,5-bisphosphate carboxylase/oxygenase in Chlamydomonas reinhardi. Basic Life Sci. 11: 363-378.

Gelvin, S., Heizmann, P., Howell, S. H. 1977. Identification and cloning of the chloroplast gene coding for the large subunit of ribulose-1,5-bisphosphate carboxylase from Chlamydomonas reinhardi. Proc Natl Acad Sci U S A. 74: 3193-3197.

Gelvin, S., Howell, S. H. 1977. Identification and Precipitation of the Polyribosomes in Chlamydomonas reinhardi Involved in the Synthesis of the Large Subunit of D-ribulose-1,5-bisphosphate Carboxylase. Plant Physiol. 59: 471-477.

Howell, S. H., Heizmann, P., Gelvin, S., Walker, L. L. 1977. Identification and Properties of the Messenger RNA Activity in Chlamydomonas reinhardi Coding for the Large Subunit of D-ribulose-1,5-bisphosphate Carboxylase. Plant Physiol. 59: 464-470.

Gelvin, S. B. March 2010. Manipulating plant histone genes to improve Agrobacterium- and direct DNA-mediated plant genetic transformation. Inform Systems Biotechnol News Report.

Gelvin, S. B. July 2010. Improving the quality of plant transformation events. Inform Systems Biotechnol News Report.