Mark J. Banfield

9.4k citations

112 papers · 6.2k indexed · h-index 46

Impact in

Plant Science top 0.2%
- Plant-Microbe Interactions and Immunity
- Plant Pathogenic Bacteria Studies
- Plant Parasitism and Resistance
- Plant Molecular Biology Research
- Plant Virus Research Studies
- Plant Pathogens and Resistance
- Legume Nitrogen Fixing Symbiosis
Cell Biology top 2%
- Plant Pathogens and Fungal Diseases

Papers in

Plant Science 63
- Plant-Microbe Interactions and Immunity 53
- Plant Pathogenic Bacteria Studies 25
- Plant Parasitism and Resistance 16
- Plant Virus Research Studies 14
- Plant Pathogens and Resistance 9
Endocrinology 5

Co-authors: Sophien Kamoun R.L. Brady Abbas Maqbool Marina Franceschetti Richard K. Hughes Ryohei Terauchi Juan Carlos De la Concepción Tolga O. Bozkurt
Journals: Journal of Biological Chemistry (12 papers)Proceedings of the National Academy of Sciences (9 papers)Molecular Plant-Microbe Interactions (6 papers)PLoS Pathogens (6 papers)eLife (6 papers)
Partner nations: United Kingdom Japan United States

In The Last Decade

Mark J. Banfield

112 papers receiving 6.1k citations

Peers

Countries citing papers authored by Mark J. Banfield

Since Specialization

Citations

This map shows the geographic impact of Mark J. Banfield's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Mark J. Banfield with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Mark J. Banfield more than expected).

Fields of papers citing papers by Mark J. Banfield

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Mark J. Banfield. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Mark J. Banfield. The network helps show where Mark J. Banfield may publish in the future.

Co-authors

The 25 scholars most cited alongside Mark J. Banfield, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with Mark J. Banfield Line = papers co-authored together Mark J. Banfield links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	Bioengineering a plant NLR immune receptor with a robust binding interface toward a conserved fungal pathogen effector Proceedings of the National Academy of Sciences ·Rafał Zdrzałek, Yuxuan Xi, Thorsten Langner, Adam R. Bentham, Yohann Petit, Juan Carlos De la Concepción, Adeline Harant, Motoki Shimizu, Vincent Were, Nicholas J. Talbot, Ryohei Terauchi, Sophien Kamoun, Mark J. Banfield	2024	19
2	Pathways to engineering plant intracellular NLR immune receptors Current Opinion in Plant Biology ·Rafał Zdrzałek, Caroline Stone, Juan Carlos De la Concepción, Mark J. Banfield, Adam R. Bentham	2023	26
3	Allelic compatibility in plant immune receptors facilitates engineering of new effector recognition specificities The Plant Cell ·Adam R. Bentham, Juan Carlos De la Concepción, Javier Vega Benjumea, Jiorgos Kourelis, Sally Jones, Melanie Mendel, Jack Stubbs, Clare E. M. Stevenson, Josephine H. R. Maidment, Mark Youles, Rafał Zdrzałek, Sophien Kamoun, Mark J. Banfield	2023	19
4	Regressive evolution of an effector following a host jump in the Irish potato famine pathogen lineage PLoS Pathogens ·Erin K. Zess, Yasin Dagdas, Esme Peers, Abbas Maqbool, Mark J. Banfield, Tolga O. Bozkurt, Sophien Kamoun	2022	7
5	The Piks allele of the NLR immune receptor Pik breaks the recognition of AvrPik effectors of rice blast fungus Journal of Integrative Plant Biology ·Gui Xiao, Wenjuan Wang, Muxing Liu, Ya Li, Jianbin Liu, Marina Franceschetti, Zhaofeng Yi, Xiaoyuan Zhu, Zhengguang Zhang, Guodong Lu, Mark J. Banfield, Jun Wu, Bo Zhou	2022	18
6	Perception of structurally distinct effectors by the integrated WRKY domain of a plant immune receptor Proceedings of the National Academy of Sciences ·Nitika Mukhi, Hannah Brown, Danylo Gorenkin, Pingtao Ding, Adam R. Bentham, Clare E. M. Stevenson, Jonathan D. G. Jones, Mark J. Banfield	2021	37
7	The rice NLR pair Pikp-1/Pikp-2 initiates cell death through receptor cooperation rather than negative regulation PLoS ONE ·Rafał Zdrzałek, Sophien Kamoun, Ryohei Terauchi, Hiromasa Saitoh, Mark J. Banfield	2020	27
8	A molecular roadmap to the plant immune system Journal of Biological Chemistry ·Adam R. Bentham, Juan Carlos De la Concepción, Nitika Mukhi, Rafał Zdrzałek, Markus Draeger, Danylo Gorenkin, Richard K. Hughes, Mark J. Banfield	2020	106
9	N-terminal β-strand underpins biochemical specialization of an ATG8 isoform PLoS Biology ·Erin K. Zess, Cassandra Jensen, Neftaly Cruz‐Mireles, Juan Carlos De la Concepción, Jan Sklenář, Madlen Stephani, Richard Imre, Elisabeth Roitinger, Richard K. Hughes, Khaoula Belhaj, Karl Mechtler, Frank L.H. Menke, Tolga O. Bozkurt, Mark J. Banfield, Sophien Kamoun, Abbas Maqbool, Yasin Dagdas	2019	45
10	Arabidopsis downy mildew effector HaRxL106 suppresses plant immunity by binding to RADICAL‐INDUCED CELL DEATH1 New Phytologist ·Lennart Wirthmueller, Shuta Asai, Ghanasyam Rallapalli, Jan Sklenář, Georgina Fabro, Dae Sung Kim, Ruth Lintermann, Pinja Jaspers, Michael Wrzaczek, Jaakko Kangasjärvi, Dan MacLean, Frank L.H. Menke, Mark J. Banfield, Jonathan D. G. Jones	2018	43
11	A new structural class of bacterial thioester domains reveals a slipknot topology Protein Science ·O K Miller, Mark J. Banfield, Ulrich Schwarz‐Linek	2018	12
12	Phytophthora infestans effector SFI3 targets potato UBK to suppress early immune transcriptional responses New Phytologist ·Qin He, Hazel McLellan, Richard K. Hughes, Petra C. Boevink, Miles R. Armstrong, Yuan Lu, Mark J. Banfield, Zhendong Tian, Paul R. J. Birch	2018	37
13	Lessons in Effector and NLR Biology of Plant-Microbe Systems Molecular Plant-Microbe Interactions ·Aleksandra Białas, Erin K. Zess, Juan Carlos De la Concepción, Marina Franceschetti, Helen G. Pennington, Kentaro Yoshida, Jessica Upson, Emilie Chanclud, Chih‐Hang Wu, Thorsten Langner, Abbas Maqbool, Freya A. Varden, Lida Derevnina, Khaoula Belhaj, Koki Fujisaki, Hiromasa Saitoh, Ryohei Terauchi, Mark J. Banfield, Sophien Kamoun	2017	89
14	Structural Basis of Host Autophagy-related Protein 8 (ATG8) Binding by the Irish Potato Famine Pathogen Effector Protein PexRD54 Journal of Biological Chemistry ·Abbas Maqbool, Richard K. Hughes, Yasin Dagdas, Nicholas Tregidgo, Erin K. Zess, Khaoula Belhaj, Adam Round, Tolga O. Bozkurt, Sophien Kamoun, Mark J. Banfield	2016	64
15	An effector of the Irish potato famine pathogen antagonizes a host autophagy cargo receptor eLife ·Yasin Dagdas, Khaoula Belhaj, Abbas Maqbool, Angela Chaparro‐Garcia, Pooja Pandey, Benjamin Pêtre, Nadra Tabassum, Neftaly Cruz‐Mireles, Richard K. Hughes, Jan Sklenář, Joe Win, Frank L.H. Menke, Kim Findlay, Mark J. Banfield, Sophien Kamoun, Tolga O. Bozkurt	2016	171
16	Tomato I2 Immune Receptor Can Be Engineered to Confer Partial Resistance to the Oomycete Phytophthora infestans in Addition to the Fungus Fusarium oxysporum Molecular Plant-Microbe Interactions ·Artemis Giannakopoulou, John F. C. Steele, María Eugenia Segretin, Tolga O. Bozkurt, Ji Zhou, Silke Robatzek, Mark J. Banfield, Marina Pais, Sophien Kamoun	2015	66
17	Effector Specialization in a Lineage of the Irish Potato Famine Pathogen Science ·Suomeng Dong, Remco Stam, Liliana M. Cano, Jing Song, Jan Sklenář, Kentaro Yoshida, Tolga O. Bozkurt, Ricardo Oliva, Zhenyu Liu, Miaoying Tian, Joe Win, Mark J. Banfield, Alexandra M. E. Jones, Renier A. L. van der Hoorn, Sophien Kamoun	2014	160
18	A Highly Unusual Thioester Bond in a Pilus Adhesin Is Required for Efficient Host Cell Interaction* Journal of Biological Chemistry ·Jonathan A. Pointon, Wendy D. Smith, Gerhard Saalbach, Allister Crow, Michael Kehoe, Mark J. Banfield	2010	72
19	Conformation of the EPEC Tir Protein in Solution: Investigating the Impact of Serine Phosphorylation at Positions 434/463 Biophysical Journal ·Paul R. Race, Alexandra S. Solovyova, Mark J. Banfield	2007	14
20	Crystal Structure of SmcL, a Bacterial Neutral Sphingomyelinase C from Listeria Journal of Biological Chemistry ·Amy E.A. Openshaw, Paul R. Race, Héctor J. Monzó, J A Vázquez-Boland, Mark J. Banfield	2005	43

About Mark J. Banfield

Mark J. Banfield is a scholar working on Plant Science, Endocrinology, Biotechnology, Immunology and Cell Biology, having authored 112 papers that have together received 6.2k indexed citations. Recurring topics across this work include Plant-Microbe Interactions and Immunity (53 papers), Plant Pathogenic Bacteria Studies (25 papers), Plant Parasitism and Resistance (16 papers), Plant Virus Research Studies (14 papers), Toxin Mechanisms and Immunotoxins (13 papers), Enzyme Structure and Function (10 papers), Plant Pathogens and Resistance (9 papers) and Plant Pathogens and Fungal Diseases (8 papers). The work is most often cited by research in Plant Science (4.1k citations), Cell Biology (734 citations), Biotechnology (333 citations), Molecular Biology (2.6k citations) and Horticulture (34 citations). Mark J. Banfield has collaborated with scholars based in United Kingdom, Japan and United States. Frequent co-authors include Sophien Kamoun, R.L. Brady, Abbas Maqbool, Marina Franceschetti, Richard K. Hughes, Ryohei Terauchi, Juan Carlos De la Concepción, Tolga O. Bozkurt, Joe Win and Christopher Dennison. Their work appears in journals such as Journal of Biological Chemistry, Proceedings of the National Academy of Sciences, Molecular Plant-Microbe Interactions, PLoS Pathogens and eLife.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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