Mark Gijzen mainly focuses on Botany, Phytophthora sojae, Genetics, Oomycete and Gene. His Botany research integrates issues from Cyclase activity, Terpene and Phenylalanine. His Phytophthora sojae research incorporates themes from Complementary DNA and Expressed sequence tag.
His research integrates issues of Phytophthora and Root rot in his study of Genetics. His studies in Oomycete integrate themes in fields like Phytophthora ramorum and Phytophthora infestans. The Gene study combines topics in areas such as Pathogen and Microbiology.
Mark Gijzen mainly investigates Phytophthora sojae, Genetics, Gene, Botany and Biochemistry. Mark Gijzen has included themes like Expressed sequence tag, Oomycete, Genomics, Phytophthora ramorum and Phytophthora infestans in his Phytophthora sojae study. His study in Phytophthora ramorum is interdisciplinary in nature, drawing from both Phytophthora cinnamomi and Phytophthora capsici.
His studies deal with areas such as Phytophthora and Effector as well as Genetics. His Botany research is multidisciplinary, incorporating perspectives in Cyclase activity and Terpene. His research investigates the connection between Biochemistry and topics such as Embryo that intersect with issues in Glucosinolate, Rapeseed and Brassica.
Mark Gijzen focuses on Phytophthora sojae, Gene, Genetics, Oomycete and Effector. His Phytophthora sojae study often links to related topics such as Peptide sequence. His work on Genome and Sequence analysis as part of general Gene research is often related to Artificial intelligence and Heterologous expression, thus linking different fields of science.
His Genome research is multidisciplinary, incorporating elements of Gene cluster, Pathogen and Locus. His Oomycete study integrates concerns from other disciplines, such as Phytophthora, Botany and Phytophthora infestans. His work on Phytophthora cinnamomi, Phytophthora ramorum and Phytophthora capsici as part of general Botany study is frequently linked to Albugo candida and Pythium ultimum, therefore connecting diverse disciplines of science.
Mark Gijzen mostly deals with Phytophthora sojae, Genetics, Oomycete, Effector and Phytophthora. His Phytophthora sojae study is focused on Gene in general. His Effector study frequently draws connections to other fields, such as Virulence.
The concepts of his Genome study are interwoven with issues in Transcriptome, Gene expression and Gene expression profiling. His Gene silencing study combines topics from a wide range of disciplines, such as RNA, Small RNA and Allele. His Phytophthora infestans research incorporates themes from Ecology and Phytophthora cinnamomi.
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Phytophthora Genome Sequences Uncover Evolutionary Origins and Mechanisms of Pathogenesis
Brett M. Tyler;Sucheta Tripathy;Xuemin Zhang;Paramvir Dehal;Paramvir Dehal.
The Top 10 oomycete pathogens in molecular plant pathology
Sophien Kamoun;Oliver Furzer;Jonathan D. G. Jones;Howard S. Judelson.
Molecular Plant Pathology (2015)
Stevia rebaudiana: its agricultural, biological, and chemical properties
J. E. Brandle;A. N. Starratt;M. Gijzen.
Canadian Journal of Plant Science (1998)
Expression of a Phytophthora sojae necrosis-inducing protein occurs during transition from biotrophy to necrotrophy
Dinah Qutob;Sophien Kamoun;Mark Gijzen.
Plant Journal (2002)
Phytotoxicity and Innate Immune Responses Induced by Nep1-Like Proteins
Dinah Qutob;Birgit Kemmerling;Frédéric Brunner;Isabell Küfner.
The Plant Cell (2007)
Nep1-like proteins from plant pathogens: recruitment and diversification of the NPP1 domain across taxa.
Mark Gijzen;Thorsten Nürnberger.
Defense Mechanisms of Conifers: Differences in Constitutive and Wound-Induced Monoterpene Biosynthesis Among Species
Efraim Lewinsohn;Mark Gijzen;Rodney Croteau.
Plant Physiology (1991)
Patterns of gene expression upon infection of soybean plants by Phytophthora sojae.
Pat Moy;Dinah Qutob;B. Patrick Chapman;Ian Atkinson.
Molecular Plant-microbe Interactions (2004)
Molecular characterization of the enzyme catalyzing the aryl migration reaction of isoflavonoid biosynthesis in soybean.
Christopher L. Steele;Mark Gijzen;Dinah Qutob;Richard A. Dixon.
Archives of Biochemistry and Biophysics (1999)
Cracks in the palisade cuticle of soybean seed coats correlate with their permeability to water.
Fengshan Ma;Ewa Cholewa;Tasneem Mohamed;Carol A. Peterson.
Annals of Botany (2004)
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