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1.
Fungal Genet Biol ; 171: 103873, 2024 03.
Artigo em Inglês | MEDLINE | ID: mdl-38266703

RESUMO

The Rho family of monomeric GTPases act as signaling proteins to establish and maintain cell polarity and other essential cellular processes. Rho3 is a GTPase of the Rho family that is exclusive of fungi that regulate cell polarity in yeast. However, studies have yet to explore its function in filamentous fungi. In this work, we investigated the role of RHO-3 in the model organism Neurospora crassa. Confocal microscopy analysis revealed that RHO-3 localizes in the outer region of the Spitzenkörper (Spk), in the plasma membrane from region II to the beginning of region III, and in the septa of mature hyphae. The phenotypic effect of the rho-3 deletion was analyzed. The results revealed that the rho-3 null strain showed severe defects in growth rate, aerial hyphae length, and conidia production. The organization of the Spk is also affected in the absence of RHO-3. Co-expression analysis of GFP-RHO-3 with glucan synthase 1 (GS-1-mChFP) and chitin synthase 1 (CHS-1-mChFP) revealed that RHO-3 localizes in the external region of the Spk in the macrovesicles zone. In summary, our results suggest that RHO-3 is not essential for the polarized growth of hyphae but plays a significant role in hyphal extension rate, conidiation, sexual reproduction and the integrity of the Spk, possibly regulating the delivery of macrovesicles to the apical dome.


Assuntos
Proteínas Fúngicas , Neurospora crassa , Proteínas Fúngicas/genética , Proteínas Fúngicas/metabolismo , Hifas , Membrana Celular/metabolismo , Saccharomyces cerevisiae/metabolismo
2.
Fungal Genet Biol ; 168: 103824, 2023 10.
Artigo em Inglês | MEDLINE | ID: mdl-37454888

RESUMO

In filamentous fungi, the hypha orientation is essential for polarized growth and morphogenesis. The ability to re-orient tip growth in response to environmental cues is critical for the colony survival. Therefore, hyphal tip orientation and tip extension are distinct mechanisms that operate in parallel during filamentous growth. In yeast, the axial growth orientation requires a pathway regulated by Rsr1p/Bud1p, a Ras-like GTPase protein, which determines the axial budding pattern. However, in filamentous fungi the function of the Rsr1/Bud1p gene (krev-1 homolog) has not been completely characterized. In this work, we characterized the phenotype of a homokaryon mutant Bud1p orthologous in Neurospora crassa (△bud-1) and tagged BUD-1 with the green fluorescent protein (GFP) to determine its localization and cell dynamics under confocal microscopy. During spore germination BUD-1 was localized at specific points along the plasma membrane and during germ tube emergence it was located at the tip of the germ tubes. In mature hyphae BUD-1 continued to be located at the cell tip and was also present at sites of branch emergence and at the time of septum formation. The △bud-1 mutant showed a delayed germination, and the orientation of hyphae was somewhat disrupted. Also, the hypha diameter was reduced approximately 37 % with respect to the wild type. The lack of BUD-1 affected the Spitzenkörper (Spk) formation, trajectory, the localization of polarisome components BNI-1 and SPA-2, and the actin cytoskeleton polarization. The results presented here suggest that BUD-1 participates in the establishment of a new polarity axis. It may also mediate the delivery of secretory vesicles for the efficient construction of new plasma membrane and cell wall.


Assuntos
Neurospora crassa , Esporos Fúngicos/genética , Esporos Fúngicos/metabolismo , Proteínas Fúngicas/genética , Proteínas Fúngicas/metabolismo , GTP Fosfo-Hidrolases/metabolismo , Hifas
3.
Fungal Genet Biol ; 157: 103634, 2021 12.
Artigo em Inglês | MEDLINE | ID: mdl-34634482

RESUMO

Agmatinase is a metallohydrolase involved in the hydrolysis of agmatine to produce urea and putrescine. Although its role in organisms is still under study, there are no reports of this family of enzymes in filamentous fungi. Recently, a protein showing agmatinase activity was reported in Neurospora crassa. Therefore, the aim of this work is to determine if the protein (AGM-1) found in the filamentous fungus N. crassa is a true agmatinase. The protein AGM-1was purified directly from N. crassa cultures, and its enzymatic characterization was carried out. The catalytic parameters such as optimum pH, thermostability, transformation kinetics, and activity in the presence of a cofactor were determined. The results show that AGM-1 can use manganese as a cofactor for its enzymatic activity, showing a transformation rate constant (kcat) of 77 s-1 and an affinity constant (KM) of 50.5 mM. The protein loses 50% of its activity when incubated 15 min at 30 °C and reaches maximal enzymatic activity at a pH range of 8-8.5. Our results indicate that the AGM-1 from N. crassa shows similar characteristics to true agmatinases already reported in other organisms. Thus, our findings strongly support that the protein annotated as hypothetical agmatinase in N. crassa is a true agmatinase.


Assuntos
Agmatina , Neurospora crassa , Catálise , Neurospora crassa/genética , Ureo-Hidrolases
4.
Fungal Genet Biol ; 132: 103264, 2019 11.
Artigo em Inglês | MEDLINE | ID: mdl-31465847

RESUMO

Agmatinase is known as a metalloenzyme which hydrolyzes agmatine to produce urea and putrescine, being crucial in the alternative pathway to produce polyamines. In this study, an agmatinase-like protein (AGM-1) (NCU 01348) in the filamentous fungus Neurospora crassa is reported. Purified AGM-1 from N. crassa displays enzymatic activity hydrolyzing agmatine; therefore, it can be considered as an agmatinase-like protein. However, its role in the alternative pathway to produce polyamines apparently is not its main function since only a slight reduction of polyamines concentration was detected in the Δagm-1 het strain. Moreover, the null mutant Δagm-1 (homokaryon strain) was unable to grow and the deficiency of agm-1 in the heterokaryon strain provoked a decrease in elongation rate, conidia and biomass production, despite of having de constitutive pathway via the ornithine decarboxylase (ODC). Additionally, mature hyphae of the Δagm-1 het strain presented unusual apical branching and a disorganized Spitzenkörper (Spk). Trying to reveal the role of AGM-1in N. crassa, the protein was tagged with GFP and interestingly the dynamics and intracellular localization of AGM-1 closely resembles the F-actin population. This finding was further examined in order to elucidate if AGM-1is in a close association with F-actin. Since polyamines, among them agmatine, have been reported to act as stabilizers of actin filaments, we evaluated in vitro G-actin polymerization in the presence of agmatine and the effect of purified AGM-1 from N. crassa on these polymerized actin filaments. It was found that polymerization of actin filaments increases in the presence of agmatine and the addition of purified AGM-1 from N. crassa depolymerizes these actin filaments. Also, it was determined that an intact substrate binding site of the enzyme is necessary for the localization pattern of the native AGM-1. These results suggest that in N. crassa AGM-1 has a close association with the F-actin population via its substrate agmatine, playing an essential role during cell development.


Assuntos
Agmatina/metabolismo , Proteínas Fúngicas/metabolismo , Neurospora crassa/enzimologia , Ureo-Hidrolases/metabolismo , Citoesqueleto de Actina/metabolismo , Actinas/genética , Actinas/metabolismo , Proteínas Fúngicas/genética , Hidrólise , Hifas/metabolismo , Neurospora crassa/genética , Neurospora crassa/fisiologia , Ureo-Hidrolases/genética
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