Works (10)

Updated: April 13th, 2023 05:10

2023 article

Two pathogen loci determine Blumeria graminis f. sp. tritici virulence to wheat resistance gene Pm1a

Kloppe, T., Whetten, R. B., Kim, S.-B., Powell, O. R., Lueck, S., Douchkov, D., … Cowger, C. (2023, March 18). NEW PHYTOLOGIST, Vol. 3.

author keywords: Blumeria graminis; effector; genome-wide association study; host resistance; powdery mildew; Triticum aestivum; wheat
Sources: Web Of Science, ORCID
Added: March 19, 2023

2022 article

Close encounters in the corn field

Balint-Kurti, P., & Kim, S.-B. (2022, May 2). MOLECULAR PLANT, Vol. 15, pp. 802–804.

By: P. Balint-Kurti & S. Kim

Sources: Web Of Science, ORCID
Added: February 12, 2022

2021 journal article

Analysis of the transcriptomic, metabolomic, and gene regulatory responses to Puccinia sorghi in maize

MOLECULAR PLANT PATHOLOGY, 22(4), 465–479.

By: S. Kim, L. Broeck n, S. Karre, H. Choi*, S. Christensen*, G. Wang, Y. Jo*, W. Cho*, P. Balint-Kurti

author keywords: common rust; gene regulatory network; maize; Puccinia sorghi; RNA‐ Seq
Sources: ORCID, Web Of Science
Added: March 1, 2021

2021 journal article

Genome‐wide functional analysis of hot pepper immune receptors reveals an autonomous NLR clade in seed plants

New Phytologist, 229(1), 532–547.

By: H. Lee*, H. Mang*, E. Choi*, Y. Seo*, M. Kim*, S. Oh*, S. Kim, D. Choi*

author keywords: Capsicum annuum; cell death; coiled‐ coil domain; plant NLR; singleton NLR
Source: ORCID
Added: November 17, 2020

2021 journal article

Maize Plants Chimeric for an Autoactive Resistance Gene Display a Cell-Autonomous Hypersensitive Response but Non-Cell Autonomous Defense Signaling

MOLECULAR PLANT-MICROBE INTERACTIONS, 34(6), 606–616.

By: S. Karre, S. Kim, B. Kim*, R. Khangura*, S. Sermons, B. Dilkes*, G. Johal*, P. Balint-Kurti

author keywords: cell death; plant responses to pathogens; resistance genes
Sources: ORCID, Web Of Science
Added: July 22, 2021

2021 journal article

The maize ZmMIEL1 E3 ligase and ZmMYB83 transcription factor proteins interact and regulate the hypersensitive defence response

MOLECULAR PLANT PATHOLOGY, 22(6), 694–709.

By: S. Karre, S. Kim, R. Samira & P. Balint-Kurti

author keywords: hypersensitive response; maize; proteasome; ubiquitin ligase
Sources: Web Of Science, ORCID
Added: April 7, 2021

2020 journal article

Multiple insertions of COIN , a novel maize Foldback transposable element, in the Conring gene cause a spontaneous progressive cell death phenotype

The Plant Journal, 104(3), 581–595.

By: S. Kim, S. Karre n, Q. Wu*, M. Park*, E. Meyers n, H. Claeys*, R. Wisser*, D. Jackson*, P. Balint‐Kurti n

author keywords: maize; Zea mays; lesion; transposable element
Source: ORCID
Added: August 4, 2020

2020 journal article

Use of virus‐induced gene silencing to characterize genes involved in modulating hypersensitive cell death in maize

Molecular Plant Pathology, 21(12), 1662–1676.

By: C. Murphree n, S. Kim, S. Karre n, R. Samira n & P. Balint‐Kurti n

author keywords: hypersensitive response; maize; VIGS
Source: ORCID
Added: October 10, 2020

2019 journal article

A maize cytochrome b-c1 complex subunit protein ZmQCR7 controls variation in the hypersensitive response

PLANTA, 249(5), 1477–1485.

By: Y. He, S. Kim & P. Balint-Kurti

author keywords: Hypersensitive response; Maize; Mitochondrial electron transport chain; Reactive oxygen species; Resistance genes
Sources: Web Of Science, ORCID
Added: May 6, 2019

2018 journal article

The Coiled-Coil and Leucine-Rich Repeat Domain of the Potyvirus Resistance Protein Pvr4 Has a Distinct Role in Signaling and Pathogen Recognition

Molecular Plant-Microbe Interactions®, 31(9), 906–913.

By: S. Kim, H. Lee*, E. Choi*, E. Park*, J. Kim*, K. Moon*, H. Kim*, D. Choi*

Source: ORCID
Added: March 22, 2019

Employment

Updated: April 21st, 2023 13:09

2023 - present

University of Nebraska–Lincoln Lincoln, Nebraska, US
Assistant Professor Plant Pathology