Akira Kawaguchi. (2022) Biocontrol of Grapevine Crown Gall Performed Using Allorhizobium vitis Strain ARK-1. Applied Microbiology 2:4, pages 981-991.
Crossref
Atul Bhargava & Shilpi SrivastavaAtul Bhargava & Shilpi Srivastava. 2019. Participatory Plant Breeding: Concept and Applications. Participatory Plant Breeding: Concept and Applications
29
68
.
Manjul Dutt, Lígia Erpen & Jude W. Grosser. (2018) Genetic transformation of the ‘W Murcott’ tangor: comparison between different techniques. Scientia Horticulturae 242, pages 90-94.
Crossref
Elena García-Cano, Hagit Hak, Shimpei Magori, Sondra G. LazarowitzVitaly Citovsky. (2018)
The
Agrobacterium
F-Box Protein Effector VirF Destabilizes the
Arabidopsis
GLABROUS1 Enhancer/Binding Protein-Like Transcription Factor VFP4, a Transcriptional Activator of Defense Response Genes
. Molecular Plant-Microbe Interactions® 31:5, pages 576-586.
Crossref
Mehmet C. Baloglu, Musa Kavas, Songül Gürel & Ekrem Gürel. 2018. Crop Improvement Through Microbial Biotechnology. Crop Improvement Through Microbial Biotechnology
1
25
.
Shuchishweta Vinay Kendurkar & Mamatha Rangaswamy. 2018. Biotechnologies of Crop Improvement, Volume 2. Biotechnologies of Crop Improvement, Volume 2
335
366
.
Pilar Sabuquillo, Adela Gea, Isabel M. Matas, Cayo Ramos & Jaime Cubero. (2016) The use of stable and unstable green fluorescent proteins for studies in two bacterial models: Agrobacterium tumefaciens and Xanthomonas campestris pv. campestris. Archives of Microbiology 199:4, pages 581-590.
Crossref
Akira KAWAGUCHIKoji INOUE, Koji TANINA & Mizuho NITA. (2017) Biological control for grapevine crown gall using nonpathogenic <i>Rhizobium vitis</i> strain ARK-1. Proceedings of the Japan Academy, Series B 93:8, pages 547-560.
Crossref
Divya Mohanty, Atika Chandra & Rajesh Tandon. 2016. Molecular Breeding for Sustainable Crop Improvement. Molecular Breeding for Sustainable Crop Improvement
343
395
.
Adi Zaltsman, Benoît Lacroix, Yedidya Gafni & Vitaly Citovsky. (2012)
Disassembly of synthetic
Agrobacterium
T-DNA–protein complexes via the host SCF
VBF
ubiquitin–ligase complex pathway
. Proceedings of the National Academy of Sciences 110:1, pages 169-174.
Crossref
Ana Leonor Rivera, Miguel Gómez-Lim, Francisco Fernández & Achim M. Loske. (2012) Physical methods for genetic plant transformation. Physics of Life Reviews 9:3, pages 308-345.
Crossref
İbrahim İlker Özyiğit. 2012. Crop Production for Agricultural Improvement. Crop Production for Agricultural Improvement
317
361
.
Bushra Rashid, Tayyab Husnain & Sheikh Riazuddin. 2012. Crop Production for Agricultural Improvement. Crop Production for Agricultural Improvement
263
290
.
Amit Kumar Verma, Virupaksha U. Patil & Ramesh S. Bhat. (2011) A transiently expressed transposase system to generate Ds-tagged mutants for functional genomics in sorghum. Plant Cell, Tissue and Organ Culture (PCTOC) 107:1, pages 181-185.
Crossref
E. A. Filipenko, E. V. Deineko & V. K. Shumnyi. (2009) Specific features of T-DNA insertion regions in transgenic plants. Russian Journal of Genetics 45:11, pages 1289-1301.
Crossref
Lingaraj Sahoo & Pawan K. Jaiwal. 2009. Compendium of Transgenic Crop Plants. Compendium of Transgenic Crop Plants
115
132
.
Walt Ream. 2008. Agrobacterium: From Biology to Biotechnology. Agrobacterium: From Biology to Biotechnology
279
313
.
Sumita Jha. 2007. Biotechnology, Second Edition. Biotechnology, Second Edition
297
333
.
J. C. Popelka & T. J. V. Higgins. 2007. Transgenic Crops IV. Transgenic Crops IV
251
262
.
Jochen Kumlehn, Liliya Serazetdinova, Goetz Hensel, Dirk Becker & Horst Loerz. (2006) Genetic transformation of barley (Hordeum vulgare L.) via infection of androgenetic pollen cultures with Agrobacterium tumefaciens. Plant Biotechnology Journal 4:2, pages 251-261.
Crossref
Jianxiong Li, Alexander Krichevsky, Manjusha Vaidya, Tzvi Tzfira & Vitaly Citovsky. (2005)
Uncoupling of the functions of the
Arabidopsis
VIP1 protein in transient and stable plant genetic transformation by
Agrobacterium
. Proceedings of the National Academy of Sciences 102:16, pages 5733-5738.
Crossref
J Carlos Popelka, Nancy Terryn & T.J.V Higgins. (2004) Gene technology for grain legumes: can it contribute to the food challenge in developing countries?. Plant Science 167:2, pages 195-206.
Crossref
Vitaly Citovsky, Anat Kapelnikov, Shachar Oliel, Nehama Zakai, Maria R. Rojas, Robert L. Gilbertson, Tzvi Tzfira & Abraham Loyter. (2004) Protein Interactions Involved in Nuclear Import of the Agrobacterium VirE2 Protein in Vivo and in Vitro. Journal of Biological Chemistry 279:28, pages 29528-29533.
Crossref
Noel O. I. Cogan, H. John Newbury, Angela M. Oldacres, James R. Lynn, Michael J. Kearsey, Graham J. King & Ian J. Puddephat. (2004) Identification and characterization of QTL controlling Agrobacterium-mediated transient and stable transformation of Brassica oleracea. Plant Biotechnology Journal 2:1, pages 59-69.
Crossref
Tzvi Tzfira & Vitaly Citovsky. (2003) The Agrobacterium-Plant Cell Interaction. Taking Biology Lessons from a Bug
. Plant Physiology 133:3, pages 943-947.
Crossref
Tzvi TzfiraLeah Renée FrankmanManjusha VaidyaVitaly Citovsky. (2003)
Site-Specific Integration of
Agrobacterium tumefaciens
T-DNA via Double-Stranded Intermediates
. Plant Physiology 133:3, pages 1011-1023.
Crossref
Hongmei Jiang, R.W. Doerge & Stanton B. Gelvin. (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
. The Plant Journal 35:2, pages 219-236.
Crossref
Elisabeth Grohmann, Günther Muth & Manuel Espinosa. (2003) Conjugative Plasmid Transfer in Gram-Positive Bacteria. Microbiology and Molecular Biology Reviews 67:2, pages 277-301.
Crossref
Pierpaolo Ceci, Andrea Ilari, Elisabetta Falvo & Emilia Chiancone. (2003) The Dps Protein of Agrobacterium tumefaciens Does Not Bind to DNA but Protects It toward Oxidative Cleavage. Journal of Biological Chemistry 278:22, pages 20319-20326.
Crossref
Stanton B. Gelvin. (2003)
Agrobacterium
-Mediated Plant Transformation: the Biology behind the “Gene-Jockeying” Tool
. Microbiology and Molecular Biology Reviews 67:1, pages 16-37.
Crossref
Johannes Siemens & Thomas Pickardt. 2003. Encyclopedia of Cell Technology. Encyclopedia of Cell Technology.
Lingaraj Sahoo, Twinkle Sugla & Pawan K. Jaiwal. 2003. Applied Genetics of Leguminosae Biotechnology. Applied Genetics of Leguminosae Biotechnology
89
120
.
HoChul Yi, Kirankumar S. Mysore & Stanton B. Gelvin. (2002)
Expression of the
Arabidopsis
histone
H2A-1
gene correlates with susceptibility to
Agrobacterium
transformation
. The Plant Journal 32:3, pages 285-298.
Crossref
Tzvi Tzfira, Manjusha Vaidya & Vitaly Citovsky. (2002)
Increasing plant susceptibility to
Agrobacterium
infection by overexpression of the
Arabidopsis
nuclear protein VIP1
. Proceedings of the National Academy of Sciences 99:16, pages 10435-10440.
Crossref
Y.H. Jia, L.P. Li, Q.M. Hou & Shen Q. Pan. (2002) An Agrobacterium gene involved in tumorigenesis encodes an outer membrane protein exposed on the bacterial cell surface. Gene 284:1-2, pages 113-124.
Crossref
Richard Walden. 2002. Encyclopedia of Molecular Biology. Encyclopedia of Molecular Biology.
Greg Gibson. (2002) Microarrays in ecology and evolution: a preview. Molecular Ecology 11:1, pages 17-24.
Crossref
Xiu Q. Xu, Luo P. Li & Shen Q. Pan. (2008)
Feedback regulation of an
Agrobacterium
catalase gene
katA
involved in
Agrobacterium
–plant interaction
. Molecular Microbiology 42:3, pages 645-657.
Crossref
Philippe Crouzet & Barbara Hohn. 2005. Encyclopedia of Life Sciences. Encyclopedia of Life Sciences.
B.K. Amoah, H. Wu, C. Sparks & H.D. Jones. (2001) Factors influencing Agrobacterium‐mediated transient expression of uidA in wheat inflorescence tissue. Journal of Experimental Botany 52:358, pages 1135-1142.
Crossref
Andrew Binns & Angela Campbell. 2005. Encyclopedia of Life Sciences. Encyclopedia of Life Sciences.
Leon Otten. 2005. Encyclopedia of Life Sciences. Encyclopedia of Life Sciences.
Riadh Ghorbel, Stefano La-Malfa, Maria M. López, Annik Petit, Luis Navarro & Leandro Peña. (2001) Additional copies of virG from pTiBo542 provide a super-transformation ability to Agrobacterium tumefaciens in citrus. Physiological and Molecular Plant Pathology 58:3, pages 103-110.
Crossref
Barbara Schrammeijer, Eddy Risseeuw, Werner Pansegrau, Tonny J.G Regensburg-Tuı̈nk, William L Crosby & Paul J.J Hooykaas. (2001) Interaction of the virulence protein VirF of Agrobacterium tumefaciens with plant homologs of the yeast Skp1 protein. Current Biology 11:4, pages 258-262.
Crossref
Metinee Srivatanakul, Sung Hun Park, Maria G. Salas & Roberta Hawkins Smith. (2001) Transformation parameters enhancing T-DNA expression in kenaf (Hibiscus cannabinus). Journal of Plant Physiology 158:2, pages 255-260.
Crossref
JAMES R. ALFANO & ALAN COLLMER. 2001. Principles of Bacterial Pathogenesis. Principles of Bacterial Pathogenesis
179
226
.
Sophie Chateau, Rajbir S. Sangwan & Brigitte S. Sangwan‐Norreel. (2000) Competence of Arabidopsis thaliana genotypes and mutants for Agrobacterium tumefaciens‐mediated gene transfer: role of phytohormones. Journal of Experimental Botany 51:353, pages 1961-1968.
Crossref
Metinee Srivatanakul, Sung Hun Park, Maria G. Salas & Roberta H. Smith. (2000) Additional virulence genes influence transgene expression: transgene copy number, integration pattern and expression. Journal of Plant Physiology 157:6, pages 685-690.
Crossref
Brian M. Wilkins & Angela T. Thomas. (2002) DNA‐independent transport of plasmid primase protein between bacteria by the I1 conjugation system. Molecular Microbiology 38:3, pages 650-657.
Crossref
Nicole Bechtold, Bénédicte Jaudeau, Sylvie Jolivet, Bruno Maba, Daniel Vezon, Roger Voisin & Georges Pelletier. (2000)
The Maternal Chromosome Set Is the Target of the T-DNA in the
in Planta
Transformation of
Arabidopsis thaliana
. Genetics 155:4, pages 1875-1887.
Crossref
F Gadani, G Bindler, H Pijenburg, L Rossi & J Zuber. (2000) Current PCR Methods for the Detection, Identification and Quantification of Genetically Modified Organisms(GMOs): a Brief Review. Beiträge zur Tabakforschung International/Contributions to Tobacco Research 19:2, pages 85-96.
Crossref
John Zupan, Theodore R. Muth, Olga Draper & Patricia Zambryski. (2000) The transfer of DNA from Agrobacterium tumefaciens into plants: a feast of fundamental insights. The Plant Journal 23:1, pages 11-28.
Crossref
Tzvi Tzfira & Vitaly Citovsky. (2000)
From host recognition to T-DNA integration: the function of bacterial and plant genes in the
Agrobacterium
-plant cell interaction
. Molecular Plant Pathology 1:4, pages 201-212.
Crossref
Matxalen Llosa, John Zupan, Christian Baron & Patricia Zambryski. (2000)
The N- and C-Terminal Portions of the
Agrobacterium
VirB1 Protein Independently Enhance Tumorigenesis
. Journal of Bacteriology 182:12, pages 3437-3445.
Crossref
Sylvie De Buck, Chris De Wilde, Marc Van Montagu & Ann Depicker. (2000)
Determination of the T-DNA Transfer and the T-DNA Integration Frequencies upon Cocultivation of
Arabidopsis thaliana
Root Explants
. Molecular Plant-Microbe Interactions® 13:6, pages 658-665.
Crossref
Anatol A Belogurov, Eugene P Delver, Olga V Agafonova, Natali G Belogurova, Lan-Ying Lee & Clarence I Kado. (2000) Antirestriction protein ard (type C) encoded by IncW plasmid psa has a high similarity to the “protein transport” domain of TraC1 primase of promiscuous plasmid RP4 1 1Edited by M. Gottesman. Journal of Molecular Biology 296:4, pages 969-977.
Crossref
Kirankumar S. Mysore, Jaesung Nam & Stanton B. Gelvin. (2000)
An
Arabidopsis
histone H2A mutant is deficient in
Agrobacterium
T-DNA integration
. Proceedings of the National Academy of Sciences 97:2, pages 948-953.
Crossref
Kirankumar S. Mysore, C. T. Ranjith Kumar & Stanton B. Gelvin. (2001)
Arabidopsis
ecotypes and mutants that are recalcitrant to
Agrobacterium
root transformation are susceptible to germ‐line transformation
. The Plant Journal 21:1, pages 9-16.
Crossref
Xiu Q. Xu & Shen Q. Pan. (2002)
An
Agrobacterium
catalase is a virulence factor involved in tumorigenesis
. Molecular Microbiology 35:2, pages 407-414.
Crossref
Helen A. Stafford. (2000) Crown gall disease andAgrobacterium tumefaciens: A study of the history, present knowledge, missing information, and impact on molecular genetics. The Botanical Review 66:1, pages 99-118.
Crossref
D. H. Clapham, R. J. Newton, S. Sen & S. von Arnold. 2000. Molecular Biology of Woody Plants. Molecular Biology of Woody Plants
105
118
.
C. Walter & L. J. Grace. 2000. Molecular Biology of Woody Plants. Molecular Biology of Woody Plants
79
104
.
P. J. J. Hooykaas. 2000. Metabolic Engineering of Plant Secondary Metabolism. Metabolic Engineering of Plant Secondary Metabolism
51
67
.
Christopher D. Sundberg & Walt Ream. (1999)
The
Agrobacterium tumefaciens
Chaperone-Like Protein, VirE1, Interacts with VirE2 at Domains Required for Single-Stranded DNA Binding and Cooperative Interaction
. Journal of Bacteriology 181:21, pages 6850-6855.
Crossref
Sylvie De Buck, Anni Jacobs, Marc Van Montagu & Ann Depicker. (1999) The DNA sequences of T-DNA junctions suggest that complex T-DNA loci are formed by a recombination process resembling T-DNA integration. The Plant Journal 20:3, pages 295-304.
Crossref
Sylvie De Buck, Anni Jacobs, Marc Van Montagu & Ann Depicker. (1999) The DNA sequences of T-DNA junctions suggest that complex T-DNA loci are formed by a recombination process resembling T-DNA integration. The Plant Journal 20:3, pages 295-304.
Crossref
Luoping Li, Yanjun Li, Tit Meng Lim & Shen Q. Pan. (1999)
GFP-aided confocal laser scanning microscopy can monitor
Agrobacterium tumefaciens
cell morphology and gene expression associated with infection
. FEMS Microbiology Letters 179:1, pages 141-146.
Crossref
Xue-Rong Zhou & Peter J. Christie. (1999)
Mutagenesis of the
Agrobacterium
VirE2 Single-Stranded DNA-Binding Protein Identifies Regions Required for Self-Association and Interaction with VirE1 and a Permissive Site for Hybrid Protein Construction
. Journal of Bacteriology 181:14, pages 4342-4352.
Crossref
Wanyin Deng, Lishan Chen, Wen‐Tao Peng, Xiaoyou Liang, Susumu Sekiguchi, Milton P. Gordon, Luca Comai & Eugene W. Nester. (2002)
VirE1 is a specific molecular chaperone for the exported single‐stranded‐DNA‐binding protein VirE2 in
Agrobacterium
. Molecular Microbiology 31:6, pages 1795-1807.
Crossref
Alicja Ziemienowicz, Dirk Görlich, Erich Lanka, Barbara Hohn & Luca Rossi. (1999) Import of DNA into mammalian nuclei by proteins originating from a plant pathogenic bacterium. Proceedings of the National Academy of Sciences 96:7, pages 3729-3733.
Crossref
Magdolna G. Sebestyén & Jon A. Wolff. 1999. Nonviral Vectors for Gene Therapy. Nonviral Vectors for Gene Therapy
139
169
.
Thomas J. Burr, Carlo Bazzi, Sandor Süle & Leon Otten. (1998)
Crown Gall of Grape: Biology of
Agrobacterium vitis
and the Development of Disease Control Strategies
. Plant Disease 82:12, pages 1288-1297.
Crossref
John R Zupan, Doyle Ward & Patricia Zambryski. (1998) Assembly of the VirB transport complex for DNA transfer from Agrobacterium tumefaciens to plant cells. Current Opinion in Microbiology 1:6, pages 649-655.
Crossref
Olivier Voinnet, Philippe Vain, Susan Angell & David C Baulcombe. (1998) Systemic Spread of Sequence-Specific Transgene RNA Degradation in Plants Is Initiated by Localized Introduction of Ectopic Promoterless DNA. Cell 95:2, pages 177-187.
Crossref
Stanton B. Gelvin. (1998)
Agrobacterium
VirE2 Proteins Can Form a Complex with T Strands in the Plant Cytoplasm
. Journal of Bacteriology 180:16, pages 4300-4302.
Crossref
Biserka Relić, Mirjana Andjelković, Luca Rossi, Yoshikuni Nagamine & Barbara Hohn. (1998)
Interaction of the DNA modifying proteins VirD1 and VirD2 of
Agrobacterium tumefaciens
: Analysis by subcellular localization in mammalian cells
. Proceedings of the National Academy of Sciences 95:16, pages 9105-9110.
Crossref
Kirankumar S. Mysore, Burgund Bassuner, Xiao-bing Deng, Nune S. Darbinian, Andrei Motchoulski, Walt Ream & Stanton B. Gelvin. (1998)
Role of the
Agrobacterium tumefaciens
VirD2 Protein in T-DNA Transfer and Integration
. Molecular Plant-Microbe Interactions® 11:7, pages 668-683.
Crossref
Léon Otten & Julien Schmidt. (1998)
A T-DNA from the
Agrobacterium tumefaciens
Limited-Host-Range Strain AB2/73 Contains a Single Oncogene
. Molecular Plant-Microbe Interactions® 11:5, pages 335-342.
Crossref
Andy Prescott, Rob Briddon & Wendy Harwood. 1998. Molecular Biomethods Handbook. Molecular Biomethods Handbook
251
269
.