Nickolas J. Panopoulos spends much of his time researching Pseudomonas syringae, Microbiology, Metabolic engineering, Stilbenoid and Genetics. His Pseudomonas syringae study is concerned with the field of Gene as a whole. His research on Microbiology frequently links to adjacent areas such as Pseudomonadaceae.
The Stilbenoid study combines topics in areas such as Plant defense against herbivory, Biotechnology and Plant evolution. His research links Structural motif with Genetics. Nickolas J. Panopoulos combines subjects such as Southern blot, Conserved sequence, Xanthomonas campestris, Molecular biology and Transposable element with his study of Plasmid.
Pseudomonas syringae, Microbiology, Gene, Genetics and Biochemistry are his primary areas of study. His Pseudomonas syringae research is multidisciplinary, relying on both Plasmid, Pseudomonadaceae, Mutant, Escherichia coli and Molecular biology. His study on Halo blight is often connected to Hypersensitive response, Strain and Ornithine Carbamoyltransferase as part of broader study in Microbiology.
His work is dedicated to discovering how Gene, Effector are connected with Type three secretion system, Gene silencing, Pseudomonas and Botany and other disciplines. His Biochemistry study integrates concerns from other disciplines, such as Microorganism and Ice nucleus. In his work, Plant evolution, Phenylpropanoid and Biotechnology is strongly intertwined with Plant defense against herbivory, which is a subfield of Stilbenoid.
His primary areas of study are Gene, Effector, Pseudomonas syringae, Microbiology and Metabolic engineering. His Gene research is included under the broader classification of Genetics. His work deals with themes such as Nucleic acid sequence, Xanthomonas, Pseudomonadaceae, Ralstonia solanacearum and Pseudomonadales, which intersect with Pseudomonas syringae.
His Microbiology research incorporates elements of Host cell cytoplasm, Type VI secretion system and Klebsiella variicola, Klebsiella, Klebsiella pneumoniae. Nickolas J. Panopoulos has researched Metabolic engineering in several fields, including Stilbenoid, Biotechnology and Phenylpropanoid. As a part of the same scientific family, he mostly works in the field of Stilbenoid, focusing on Plant defense against herbivory and, on occasion, Plant evolution.
The scientist’s investigation covers issues in Metabolic engineering, Stilbenoid, Biochemistry, Phenylpropanoid and Human health. His Biochemistry research includes elements of Naringenin, Flavanone, Flavonols, Kaempferol and Polyamine homeostasis. His Phenylpropanoid research integrates issues from Plant defense against herbivory, Biotechnology and Plant evolution.
Nickolas J. Panopoulos integrates many fields, such as Human health and engineering, in his works.
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Gene cluster of Pseudomonas syringae pv. "phaseolicola" controls pathogenicity of bean plants and hypersensitivity of nonhost plants.
P B Lindgren;R C Peet;N J Panopoulos.
Journal of Bacteriology (1986)
BIOTECHNOLOGY OF FLAVONOIDS AND OTHER PHENYLPROPANOID-DERIVED NATURAL PRODUCTS. PART I: CHEMICAL DIVERSITY, IMPACTS ON PLANT BIOLOGY AND HUMAN HEALTH
Filippos Ververidis;Emmanouil Trantas;Emmanouil Trantas;Carl Douglas;Guenter Vollmer.
Biotechnology Journal (2007)
Unified nomenclature for broadly conserved hrp genes of phytopathogenic bacteria
A. J. Bogdanove;S. V. Beer;U. Bonas;C. A. Boucher.
Molecular Microbiology (1996)
A Combined Biological and Enzymatic Amplification (Bio-Pcr) Technique to Detect Pseudomonas-Syringae Pv Phaseolicola in Bean Seed Extracts
N. W. Schaad;S. S. Cheong;S. Tamaki;E. Hatziloukas.
Metabolic engineering of the complete pathway leading to heterologous biosynthesis of various flavonoids and stilbenoids in Saccharomyces cerevisiae.
Emmanouil Trantas;Nickolas Panopoulos;Nickolas Panopoulos;Filippos Ververidis.
Metabolic Engineering (2009)
Plant and environmental sensory signals control the expression of hrp genes in Pseudomonas syringae pv. phaseolicola.
L G Rahme;M N Mindrinos;N J Panopoulos.
Journal of Bacteriology (1992)
HrpZ Psph from the plant pathogen Pseudomonas syringae pv. phaseolicola binds to lipid bilayers and forms an ion-conducting pore in vitro
Justin Lee;Birgit Klüsener;George Tsiamis;Conrad Stevens.
Proceedings of the National Academy of Sciences of the United States of America (2001)
Conserved features of type III secretion.
A. P. Tampakaki;V. E. Fadouloglou;A. D. Gazi;N. J. Panopoulos.
Cellular Microbiology (2004)
Molecular cloning, chromosomal mapping, and sequence analysis of copper resistance genes from Xanthomonas campestris pv. juglandis: homology with small blue copper proteins and multicopper oxidase.
Yuang-An Lee;M. Hendson;N. J. Panopoulos;M. N. Schroth.
Journal of Bacteriology (1994)
An ice nucleation reporter gene system: identification of inducible pathogenicity genes in Pseudomonas syringae pv. phaseolicola.
P. B. Lindgren;R. Frederick;A. G. Govindarajan;N. J. Panopoulos.
The EMBO Journal (1989)
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