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1.
Proteins ; 87(8): 699-705, 2019 08.
Artigo em Inglês | MEDLINE | ID: mdl-30958578

RESUMO

InterPro family IPR020489 comprises ~1000 uncharacterized bacterial proteins. Previously we showed that overexpressing the Escherichia coli representative of this family, EcYejG, conferred low-level resistance to aminoglycoside antibiotics. In an attempt to shed light on the biochemical function of EcYejG, we have solved its structure using multinuclear solution NMR spectroscopy. The structure most closely resembles that of domain III from elongation factor G (EF-G). EF-G catalyzes ribosomal translocation and mutations in EF-G have also been associated with aminoglycoside resistance. While we were unable to demonstrate a direct interaction between EcYejG and the ribosome, the protein might play a role in translation.


Assuntos
Proteínas de Escherichia coli/química , Escherichia coli/química , Fator G para Elongação de Peptídeos/química , Modelos Moleculares , Ressonância Magnética Nuclear Biomolecular , Biossíntese de Proteínas , Conformação Proteica , Domínios Proteicos , Ribossomos/química
2.
Proc Natl Acad Sci U S A ; 109(14): E804-11, 2012 Apr 03.
Artigo em Inglês | MEDLINE | ID: mdl-22308366

RESUMO

The hydrophobin EAS from the fungus Neurospora crassa forms functional amyloid fibrils called rodlets that facilitate spore formation and dispersal. Self-assembly of EAS into fibrillar rodlets occurs spontaneously at hydrophobic:hydrophilic interfaces and the rodlets further associate laterally to form amphipathic monolayers. We have used site-directed mutagenesis and peptide experiments to identify the region of EAS that drives intermolecular association and formation of the cross-ß rodlet structure. Transplanting this region into a nonamyloidogenic hydrophobin enables it to form rodlets. We have also determined the structure and dynamics of an EAS variant with reduced rodlet-forming ability. Taken together, these data allow us to pinpoint the conformational changes that take place when hydrophobins self-assemble at an interface and to propose a model for the amphipathic EAS rodlet structure.


Assuntos
Amiloide/metabolismo , Fungos/metabolismo , Sequência de Aminoácidos , Espectroscopia de Ressonância Magnética , Espectrometria de Massas , Microscopia Eletrônica de Transmissão , Dados de Sequência Molecular , Mutagênese Sítio-Dirigida , Homologia de Sequência de Aminoácidos
3.
J Biol Chem ; 286(18): 15955-63, 2011 May 06.
Artigo em Inglês | MEDLINE | ID: mdl-21454575

RESUMO

Class I fungal hydrophobins form amphipathic monolayers composed of amyloid rodlets. This is a remarkable case of functional amyloid formation in that a hydrophobic:hydrophilic interface is required to trigger the self-assembly of the proteins. The mechanism of rodlet formation and the role of the interface in this process have not been well understood. Here, we have studied the effect of a range of additives, including ionic liquids, alcohols, and detergents, on rodlet formation by two class I hydrophobins, EAS and DewA. Although the conformation of the hydrophobins in these different solutions is not altered, we observe that the rate of rodlet formation is slowed as the surface tension of the solution is decreased, regardless of the nature of the additive. These results suggest that interface properties are of critical importance for the recruitment, alignment, and structural rearrangement of the amphipathic hydrophobin monomers. This work gives insight into the forces that drive macromolecular assembly of this unique family of proteins and allows us to propose a three-stage model for the interface-driven formation of rodlets.


Assuntos
Amiloide/química , Aspergillus nidulans/química , Proteínas Fúngicas/química , Neurospora crassa/química , Amiloide/genética , Aspergillus nidulans/genética , Proteínas Fúngicas/genética , Neurospora crassa/genética , Transição de Fase , Proteínas Recombinantes/química , Proteínas Recombinantes/genética
4.
J Mol Biol ; 389(3): 606-18, 2009 Jun 12.
Artigo em Inglês | MEDLINE | ID: mdl-19414016

RESUMO

The transcription factor Tbx20 acts within a hierarchy of T-box factors in lineage specification and morphogenesis in the mammalian heart and is mutated in congenital heart disease. T-box family members share a approximately 20-kDa DNA-binding domain termed the T-box. The question of how highly homologous T-box proteins achieve differential transcriptional control in heart development, while apparently binding to the same DNA sequence, remains unresolved. Here we show that the optimal DNA recognition sequence for the T-box of Tbx20 corresponds to a T-half-site. Furthermore, we demonstrate using purified recombinant domains that distinct T-boxes show significant differences in the affinity and kinetics of binding and in conformational stability, with the T-box of Tbx20 displaying molten globule character. Our data highlight unique features of Tbx20 and suggest mechanistic ways in which cardiac T-box factors might interact synergistically and/or competitively within the cardiac regulatory network.


Assuntos
DNA/química , Miocárdio/metabolismo , Proteínas com Domínio T/química , Sequência de Aminoácidos , Animais , Sequência de Bases , Sequência Consenso , Humanos , Camundongos , Dados de Sequência Molecular , Estabilidade Proteica , Estrutura Terciária de Proteína
5.
J Mol Biol ; 382(3): 708-20, 2008 Oct 10.
Artigo em Inglês | MEDLINE | ID: mdl-18674544

RESUMO

Class I hydrophobins are fungal proteins that self-assemble into robust amphipathic rodlet monolayers on the surface of aerial structures such as spores and fruiting bodies. These layers share many structural characteristics with amyloid fibrils and belong to the growing family of functional amyloid-like materials produced by microorganisms. Although the three-dimensional structure of the soluble monomeric form of a class I hydrophobin has been determined, little is known about the molecular structure of the rodlets or their assembly mechanism. Several models have been proposed, some of which suggest that the Cys3-Cys4 loop has a critical role in the initiation of assembly or in the polymeric structure. In order to provide insight into the relationship between hydrophobin sequence and rodlet assembly, we investigated the role of the Cys3-Cys4 loop in EAS, a class I hydrophobin from Neurospora crassa. Remarkably, deletion of up to 15 residues from this 25-residue loop does not impair rodlet formation or reduce the surface activity of the protein, and the physicochemical properties of rodlets formed by this mutant are indistinguishable from those of its full-length counterpart. In addition, the core structure of the truncation mutant is essentially unchanged. Molecular dynamics simulations carried out on the full-length protein and this truncation mutant binding to an air-water interface show that, although it is hydrophobic, the loop does not play a role in positioning the protein at the surface. These results demonstrate that the Cys3-Cys4 loop does not have an integral role in the formation or structure of the rodlets and that the major determinant of the unique properties of these proteins is the amphipathic core structure, which is likely to be preserved in all hydrophobins despite the high degree of sequence variation across the family.


Assuntos
Cisteína/química , Proteínas Fúngicas/química , Proteínas Fúngicas/metabolismo , Neurospora crassa , Estrutura Terciária de Proteína , Ar , Sequência de Aminoácidos , Simulação por Computador , Cristalografia por Raios X , Cisteína/metabolismo , Proteínas Fúngicas/genética , Proteínas Fúngicas/ultraestrutura , Modelos Moleculares , Dados de Sequência Molecular , Neurospora crassa/citologia , Neurospora crassa/metabolismo , Proteínas Nucleares/química , Proteínas Nucleares/genética , Proteínas Nucleares/metabolismo , Proteínas Nucleares/ultraestrutura , Alinhamento de Sequência , Homologia de Sequência de Aminoácidos , Propriedades de Superfície , Água
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