Michael K Udvardi
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Explore the profile of Michael K Udvardi including associated specialties, affiliations and a list of published articles.
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107
Citations
7830
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Recent Articles
11.
Brear E, Bedon F, Gavrin A, Kryvoruchko I, Torres-Jerez I, Udvardi M, et al.
New Phytol
. 2020 Jun;
228(2):667-681.
PMID: 32533710
Legumes establish symbiotic relationships with soil bacteria (rhizobia), housed in nodules on roots. The plant supplies carbon substrates and other nutrients to the bacteria in exchange for fixed nitrogen. The...
12.
Boschiero C, Dai X, Lundquist P, Roy S, de Bang T, Zhang S, et al.
Plant Physiol
. 2020 Feb;
183(1):399-413.
PMID: 32079733
A growing number of small secreted peptides (SSPs) in plants are recognized as important regulatory molecules with roles in processes such as growth, development, reproduction, stress tolerance, and pathogen defense....
13.
Roy S, Liu W, Nandety R, Crook A, Mysore K, Pislariu C, et al.
Plant Cell
. 2019 Oct;
32(1):15-41.
PMID: 31649123
Since 1999, various forward- and reverse-genetic approaches have uncovered nearly 200 genes required for symbiotic nitrogen fixation (SNF) in legumes. These discoveries advanced our understanding of the evolution of SNF...
14.
Liu C, Breakspear A, Stacey N, Findlay K, Nakashima J, Ramakrishnan K, et al.
Nat Commun
. 2019 Jun;
10(1):2848.
PMID: 31253759
During root nodule symbiosis, intracellular accommodation of rhizobia by legumes is a prerequisite for nitrogen fixation. For many legumes, rhizobial colonization initiates in root hairs through transcellular infection threads. In...
15.
Pislariu C, Sinharoy S, Torres-Jerez I, Nakashima J, Blancaflor E, Udvardi M
Plant Physiol
. 2019 May;
180(3):1480-1497.
PMID: 31061106
Symbiotic nitrogen fixation by rhizobia in legume root nodules is a key source of nitrogen for sustainable agriculture. Genetic approaches have revealed important roles for only a few of the...
16.
Sun L, Gill U, Nandety R, Kwon S, Mehta P, Dickstein R, et al.
Plant J
. 2019 Feb;
98(6):1106-1119.
PMID: 30776165
From a single transgenic line harboring five Tnt1 transposon insertions, we generated a near-saturated insertion population in Medicago truncatula. Using thermal asymmetric interlaced-polymerase chain reaction followed by sequencing, we recovered...
17.
Kim B, Dai X, Zhang W, Zhuang Z, Sanchez D, Lubberstedt T, et al.
Bioinformatics
. 2018 Dec;
35(14):2512-2514.
PMID: 30508039
Summary: We present GWASpro, a high-performance web server for the analyses of large-scale genome-wide association studies (GWAS). GWASpro was developed to provide data analyses for large-scale molecular genetic data, coupled...
18.
Mazarei M, Baxter H, Li M, Biswal A, Kim K, Meng X, et al.
Front Plant Sci
. 2018 Aug;
9:1114.
PMID: 30127793
Switchgrass ( L.) is a leading lignocellulosic bioenergy feedstock. Cellulose is a major component of the plant cell walls and the primary substrate for saccharification. Accessibility of cellulose to enzymatic...
19.
Leon-Mediavilla J, Senovilla M, Montiel J, Gil-Diez P, Saez A, Kryvoruchko I, et al.
Front Plant Sci
. 2018 Jul;
9:990.
PMID: 30042781
Zinc (Zn) is an essential nutrient for plants that is involved in almost every biological process. This includes symbiotic nitrogen fixation, a process carried out by endosymbiotic bacteria (rhizobia) living...
20.
Biswal A, Atmodjo M, Li M, Baxter H, Yoo C, Pu Y, et al.
Nat Biotechnol
. 2018 Feb;
36(3):249-257.
PMID: 29431741
Cell walls in crops and trees have been engineered for production of biofuels and commodity chemicals, but engineered varieties often fail multi-year field trials and are not commercialized. We engineered...