Matthew K Gilbert

Overview

Explore the profile of Matthew K Gilbert including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 25

Citations 319

Followers 0

Related Specialties

Microbiology

Genetics

General Medicine

Top 10 Co-Authors

Brian M Mack

Matthew D Lebar

Jeffrey W Cary

Geromy G Moore

Deepak Bhatnagar

Kanniah Rajasekaran

David D Fang

Rebecca R Sweany

Marina Naoumkina

Carol H Carter-Wientjes

Published In

PLoS One

Toxins (Basel)

Genetics

Microbiol Resour Announc

Front Microbiol

Affiliations

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Recent Articles

An environmental isolate of , 20EI1, reduces growth in an iron-dependent manner and alters secondary metabolism

Wyman E, Grayburn W, Gilbert M, Lebar M, Lohmar J, Cary J, et al.

Front Microbiol . 2025 Feb; 15:1514950. PMID: 39902287

Introduction: is an opportunistic pathogenic fungus that infects oilseed crops worldwide. When colonizing plants, it produces mycotoxins, including carcinogenic compounds such as aflatoxins. Mycotoxin contamination results in an important economic...

Variations in Kojic Acid Production and Corn Infection Among Isolates Suggest a Potential Role as a Virulence Factor

Sweany R, Gilbert M, Carter-Wientjes C, Moore G, Lebar M

Toxins (Basel) . 2024 Dec; 16(12). PMID: 39728797

Kojic acid is a secondary metabolite with strong chelating and antioxidant properties produced by and . Although antioxidants and chelators are important virulence factors for plant pathogens, the ecological role...

Divergent corn population is composed of prolific conidium producers: Implications for saprophytic disease cycle

Sweany R, Mack B, Gebru S, Mammel M, Cary J, Moore G, et al.

Mycologia . 2024 May; 116(4):536-557. PMID: 38727560

The ascomycete fungus infects and contaminates corn, peanuts, cottonseed, and tree nuts with toxic and carcinogenic aflatoxins. Subdivision between soil and host plant populations suggests that certain strains are specialized...

Microbiota of maize kernels as influenced by infection in susceptible and resistant inbreds

Moore G, Chalivendra S, Mack B, Gilbert M, Cary J, Rajasekaran K

Front Microbiol . 2023 Nov; 14:1291284. PMID: 38029119

Background: Nearly everything on Earth harbors a microbiome. A microbiome is a community of microbes (bacteria, fungi, and viruses) with potential to form complex networks that involve mutualistic and antagonistic...

A mutant cotton fatty acid desaturase 2-1d allele causes protein mistargeting and altered seed oil composition

Shockey J, Gilbert M, Thyssen G

BMC Plant Biol . 2023 Mar; 23(1):147. PMID: 36932365

Background: Cotton (Gossypium sp.) has been cultivated for centuries for its spinnable fibers, but its seed oil also possesses untapped economic potential if, improvements could be made to its oleic...

Putative Core Transcription Factors Affecting Virulence in during Infection of Maize

Gilbert M, Mack B, Lebar M, Chang P, Gross S, Sweany R, et al.

J Fungi (Basel) . 2023 Jan; 9(1). PMID: 36675939

is an opportunistic pathogen responsible for millions of dollars in crop losses annually and negative health impacts on crop consumers globally. strains have the potential to produce aflatoxin and other...

Dataset for transcriptomic profiles associated with development of sexual structures in

Luis J, Carbone I, Mack B, Lebar M, Cary J, Gilbert M, et al.

Data Brief . 2022 Mar; 42:108033. PMID: 35330736

Information on the transcriptomic changes that occur within sclerotia of during its sexual cycle is very limited and warrants further research. The findings will broaden our knowledge of the biology...

Development of sexual structures influences metabolomic and transcriptomic profiles in Aspergillus flavus

Luis J, Carbone I, Mack B, Lebar M, Cary J, Gilbert M, et al.

Fungal Biol . 2022 Feb; 126(3):187-200. PMID: 35183336

Sclerotium (female) fertility, the ability of a strain to produce ascocarps, influences internal morphological changes during sexual reproduction in Aspergillus flavus. Although sclerotial morphogenesis has been linked to secondary metabolite...

Flavonoids Modulate the Accumulation of Toxins From in Maize Kernels

Castano-Duque L, Gilbert M, Mack B, Lebar M, Carter-Wientjes C, Sickler C, et al.

Front Plant Sci . 2021 Dec; 12:761446. PMID: 34899785

is an opportunistic fungal pathogen capable of producing aflatoxins, potent carcinogenic toxins that accumulate in maize kernels after infection. To better understand the molecular mechanisms of maize resistance to growth...

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Genetic Responses and Aflatoxin Inhibition during Co-Culture of Aflatoxigenic and Non-Aflatoxigenic

Sweany R, Mack B, Moore G, Gilbert M, Cary J, Lebar M, et al.

Toxins (Basel) . 2021 Nov; 13(11). PMID: 34822579

Aflatoxin is a carcinogenic mycotoxin produced by . Non-aflatoxigenic (Non-tox) isolates are deployed in corn fields as biocontrol because they substantially reduce aflatoxin contamination via direct replacement and additionally via...