Thomas J Baum
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Explore the profile of Thomas J Baum including associated specialties, affiliations and a list of published articles.
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93
Citations
3766
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Recent Articles
1.
Pellegrin C, Damm A, Sperling A, Molloy B, Shin D, Long J, et al.
Proc Natl Acad Sci U S A
. 2025 Mar;
122(11):e2415861122.
PMID: 40063806
Pathogens must precisely tailor their gene expression to cause infection. However, a signaling cascade from host signal to effector production has remained elusive for metazoan pathogens. Here, we show that...
2.
Mejias J, Margets A, Bredow M, Foster J, Khwanbua E, Goshon J, et al.
Plant Cell Rep
. 2025 Mar;
44(4):72.
PMID: 40063264
We developed a set of GATEWAY vectors to accelerate gene function analysis in soybean composite plants to rapidly screen transgenic roots and investigate subcellular localization, protein-protein interactions, and root-pathogen interactions....
3.
Mejias J, Kozlowski D, Goshon J, Maier T, Baum T
Sci Rep
. 2025 Feb;
15(1):4468.
PMID: 39915584
The soybean-cyst nematode (SCN; Heterodera glycines) is one of the most destructive pests affecting soybean crops. Effective management of SCN is imperative for the sustainability of soybean agriculture. A promising...
4.
Margets A, Foster J, Kumar A, Maier T, Masonbrink R, Mejias J, et al.
Mol Plant Microbe Interact
. 2024 Aug;
37(11):751-764.
PMID: 39158991
The soybean cyst nematode (SCN; ) facilitates infection by secreting a repertoire of effector proteins into host cells to establish a permanent feeding site composed of a syncytium of root...
5.
Kwon K, Masonbrink R, Maier T, Gardner M, Severin A, Baum T, et al.
Phytopathology
. 2024 Jul;
114(10):2341-2350.
PMID: 38976643
Soybean cyst nematode (SCN, ) is most effectively managed through planting resistant soybean cultivars, but the repeated use of the same resistance sources has led to a widespread emergence of...
6.
Masonbrink R, Maier T, Muppirala U, Seetharam A, Lord E, Juvale P, et al.
BMC Genomics
. 2024 May;
25(1):537.
PMID: 38822236
No abstract available.
7.
Siddique S, Radakovic Z, Hiltl C, Pellegrin C, Baum T, Beasley H, et al.
Nat Commun
. 2022 Oct;
13(1):6190.
PMID: 36261416
Plant-parasitic nematodes are a major threat to crop production in all agricultural systems. The scarcity of classical resistance genes highlights a pressing need to find new ways to develop nematode-resistant...
8.
Verma A, Lin M, Smith D, Walker J, Hewezi T, Davis E, et al.
Mol Plant Pathol
. 2022 Sep;
23(12):1765-1782.
PMID: 36069343
Plant-parasitic cyst nematodes use a stylet to deliver effector proteins produced in oesophageal gland cells into root cells to cause disease in plants. These effectors are deployed to modulate plant...
9.
Bennett M, Piya S, Baum T, Hewezi T
Plant Physiol
. 2022 May;
189(4):2432-2453.
PMID: 35579365
Despite the known critical regulatory functions of microRNAs, histone modifications, and DNA methylation in reprograming plant epigenomes in response to pathogen infection, the molecular mechanisms underlying the tight coordination of...
10.
Vieira P, Myers R, Pellegrin C, Wram C, Hesse C, Maier T, et al.
PLoS Pathog
. 2021 Nov;
17(11):e1010036.
PMID: 34748609
The burrowing nematode, Radopholus similis, is an economically important plant-parasitic nematode that inflicts damage and yield loss to a wide range of crops. This migratory endoparasite is widely distributed in...