Multiple Copies of flhDC in Paraburkholderia unamae Regulate Flagellar Gene Expression, Motility, and Biofilm Formation
Autor: | Andreh Fiterz, Michael Onofre, Mary Sarkisian, Maria Shibatsuji, Dro Amirian, Salma Soltani, Shelley Thai, Brenda Dimaya, Nora Garabedian, Maria Vardapetyan, Roberto A. Hernández, Fabrizio Billi, Andrew Ovakimyan, Emily Burnett, Martin Zakarian, Hassan Abdulla, Ashley Arnell, Luke Butcher, Ania Shirvanian, Allison Garcia, Zade Hikmat, Artin Bazikyan, Matthew Wada, Michelle R. Lum, Cuauhtemoc Ramirez, Nathan Brandt, Thuthiri T. Lwin, Ryan Toan Ngo, Luiza Barseghyan, Firas Hikmat, Aaron Kavanaugh, Jeanine Naegle, Xavier Munoz, Adan Escamilla, Jennifer Ngoc Pham |
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Rok vydání: | 2021 |
Předmět: | |
Zdroj: | Journal of Bacteriology. 203 |
ISSN: | 1098-5530 0021-9193 |
DOI: | 10.1128/jb.00293-21 |
Popis: | FlhDC is a heterohexameric complex that acts as a master regulator of flagellar biosynthesis genes in numerous bacteria. Previous studies have identified a single flhDC operon encoding this complex. However, we found that two flhDC loci are present throughout Paraburkholderia, and two additional flhC copies are also present in Paraburkholderia unamae. Systematic deletion analysis in P. unamae of the different flhDC copies showed that one of the operons, flhDC1, plays the predominant role, with deletion of its genes resulting in a severe inhibition of motility and biofilm formation. Expression analysis using promoter-lacZ fusions and real-time quantitative PCR support the primary role of flhDC1 in flagellar gene regulation, with flhDC2 a secondary contributor. Phylogenetic analysis shows the presence of the flhDC1 and flhDC2 operons throughout Paraburkholderia. In contrast, Burkholderia and other bacteria only carry the copy syntenous with flhDC2. The variations in impact each copy of flhDC has on downstream processes indicate that regulation of FlhDC in P. unamae, and likely other Paraburkholderia species, is regulated at least in part by the presence of multiple copies of these genes. IMPORTANCE Motility is important in the colonization of plant roots by beneficial and pathogenic bacteria, with flagella playing essential roles in host cell adhesion, entrance, and biofilm formation. Flagellar biosynthesis is energetically expensive. Its complex regulation by the FlhDC master regulator is well studied in peritrichous flagella expressing enterics. We report the unique presence throughout Paraburkholderia of multiple copies of flhDC. In P. unamae, the flhDC1 copy showed higher expression and a greater effect on swim motility, flagellar development, and regulation of downstream genes, than the flhDC2 copy that is syntenous to flhDC in Escherichia coli and pathogenic Burkholderia spp. The flhDC genes have evolved differently in these plant-growth-promoting bacteria, giving an additional layer of complexity in gene regulation by FlhDC. |
Databáze: | OpenAIRE |
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