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1.
Mol Microbiol ; 121(5): 865-881, 2024 05.
Artigo em Inglês | MEDLINE | ID: mdl-38366323

RESUMO

In the human pathogen Staphylococcus aureus, branched-chain fatty acids (BCFAs) are the most abundant fatty acids in membrane phospholipids. Strains deficient for BCFAs synthesis experience auxotrophy in laboratory culture and attenuated virulence during infection. Furthermore, the membrane of S. aureus is among the main targets for antibiotic therapy. Therefore, determining the mechanisms involved in BCFAs synthesis is critical to manage S. aureus infections. Here, we report that the overexpression of SAUSA300_2542 (annotated to encode an acyl-CoA synthetase) restores BCFAs synthesis in strains lacking the canonical biosynthetic pathway catalyzed by the branched-chain α-keto acid dehydrogenase (BKDH) complex. We demonstrate that the acyl-CoA synthetase activity of MbcS activates branched-chain carboxylic acids (BCCAs), and is required by S. aureus to utilize the isoleucine derivative 2-methylbutyraldehyde to restore BCFAs synthesis in S. aureus. Based on the ability of some staphylococci to convert branched-chain aldehydes into their respective BCCAs and our findings demonstrating that branched-chain aldehydes are in fact BCFAs precursors, we propose that MbcS promotes the scavenging of exogenous BCCAs and mediates BCFA synthesis via a de novo alternative pathway.


Assuntos
Coenzima A Ligases , Ácidos Graxos , Staphylococcus aureus , Aldeídos/metabolismo , Proteínas de Bactérias/metabolismo , Proteínas de Bactérias/genética , Vias Biossintéticas , Ácidos Carboxílicos/metabolismo , Coenzima A Ligases/metabolismo , Coenzima A Ligases/genética , Ácidos Graxos/metabolismo , Ácidos Graxos/biossíntese , Infecções Estafilocócicas/microbiologia , Staphylococcus aureus/metabolismo , Staphylococcus aureus/genética , Staphylococcus aureus/enzimologia
2.
J Mol Biol ; 435(2): 167916, 2023 01 30.
Artigo em Inglês | MEDLINE | ID: mdl-36495920

RESUMO

Pioneer transcription factors (pTFs) can bind directly to silent chromatin and promote vital transcriptional programs. Here, by integrating high-resolution nuclear magnetic resonance (NMR) spectroscopy with biochemistry, we reveal new structural and mechanistic insights into the interaction of pluripotency pTFs and functional partners Sox2 and Oct4 with nucleosomes. We find that the affinity and conformation of Sox2 for solvent-exposed nucleosome sites depend strongly on their position and DNA sequence. Sox2, which is partially disordered but becomes structured upon DNA binding and bending, forms a super-stable nucleosome complex at superhelical location +5 (SHL+5) with similar affinity and conformation to that with naked DNA. However, at suboptimal internal and end-positioned sites where DNA may be harder to deform, Sox2 favors partially unfolded and more dynamic states that are encoded in its intrinsic flexibility. Importantly, Sox2 structure and DNA bending can be stabilized by synergistic Oct4 binding, but only on adjacent motifs near the nucleosome edge and with the full Oct4 DNA-binding domain. Further mutational studies reveal that strategically impaired Sox2 folding is coupled to reduced DNA bending and inhibits nucleosome binding and Sox2-Oct4 cooperation, while increased nucleosomal DNA flexibility enhances Sox2 association. Together, our findings fit a model where the site-specific DNA bending propensity and structural plasticity of Sox2 govern distinct modes of nucleosome engagement and modulate Sox2-Oct4 synergism. The principles outlined here can potentially guide pTF site selection in the genome and facilitate interaction with other chromatin factors or chromatin opening in vivo.


Assuntos
DNA , Conformação de Ácido Nucleico , Nucleossomos , Fatores de Transcrição SOXB1 , Sequência de Bases , Cromatina , DNA/química , DNA/metabolismo , Nucleossomos/metabolismo , Domínios Proteicos , Fatores de Transcrição SOXB1/química , Fatores de Transcrição SOXB1/genética , Fatores de Transcrição SOXB1/metabolismo , Ressonância Magnética Nuclear Biomolecular , Fator 3 de Transcrição de Octâmero/química , Fator 3 de Transcrição de Octâmero/genética , Fator 3 de Transcrição de Octâmero/metabolismo , Humanos
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