Mechanism and Function of Formins in the Control of Actin Assembly

Goode, Bruce L.; Eck, Michael J.

doi:10.1146/annurev.biochem.75.103004.142647

Cited by 719 publications

(790 citation statements)

References 133 publications

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“…The FH2 domain nucleates and processively elongates actin filaments by associating with growing barbed ends and creating a biochemical environment favoring actin monomer addition (Kovar, 2006) (Figure 3b). mDia family formins are tightly regulated (Goode and Eck, 2007) by a Rho-controlled autoregulatory mechanism mediated by the interaction between their N-terminal (Dia-inhibitory, or DID) and C-terminal (Dia-autoregulatory, or DAD) domains (Alberts, 2001;Li and Higgs, 2005). Activated GTP-bound Rho proteins bind to the GTPase-binding domains and occlude DAD binding to DID, thus alleviating its inhibitory influence over the FH2 domain (Goode and Eck, 2007).…”

Section: Structure and Function Of Mdia Proteinsmentioning

confidence: 99%

“…mDia family formins are tightly regulated (Goode and Eck, 2007) by a Rho-controlled autoregulatory mechanism mediated by the interaction between their N-terminal (Dia-inhibitory, or DID) and C-terminal (Dia-autoregulatory, or DAD) domains (Alberts, 2001;Li and Higgs, 2005). Activated GTP-bound Rho proteins bind to the GTPase-binding domains and occlude DAD binding to DID, thus alleviating its inhibitory influence over the FH2 domain (Goode and Eck, 2007). Newly generated actin filaments provide the underlying structures that drive changes in cell morphology to facilitate events as divergent as cell division, intracellular trafficking and chemotaxis (Chhabra and Higgs, 2007).…”

Section: Structure and Function Of Mdia Proteinsmentioning

confidence: 99%

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5q– myelodysplastic syndromes: chromosome 5q genes direct a tumor-suppression network sensing actin dynamics

et al. 2009

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Section: Structure and Function Of Mdia Proteinsmentioning

confidence: 99%

Section: Structure and Function Of Mdia Proteinsmentioning

confidence: 99%

5q– myelodysplastic syndromes: chromosome 5q genes direct a tumor-suppression network sensing actin dynamics

et al. 2009

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“…The first mechanism is mediated by the Arp2/3 complex (Goley and Welch, 2006;Mullins and Pollard, 1999;Welch et al, 1997;Welch and Mullins, 2002) that interacts with the surface of the existing actin filaments to create sites of branching for new actin polymerization and ensure actin assembly into the dendritic network that drives the protrusion of lamellipodia. The second mechanism is mediated by formins (Goode and Eck, 2007;Pruyne et al, 2002;Zigmond, 2004;Zigmond et al, 1998) that drive actin assembly into parallel cross-linked bundles that serve as a structural basis for filopodia.…”

Section: Basic Principles Of Cell Migration Overall Structure Of the mentioning

confidence: 99%

Cell biology of embryonic migration

Kurosaka¹,

Kashina²

2008

Birth Defects Research Pt C

110

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Cell migration is an evolutionarily conserved mechanism that underlies the development and functioning of uni-and multicellular organisms and takes place in normal and pathogenic processes, including various events of embryogenesis, wound healing, immune response, cancer metastases, and angiogenesis. Despite the differences in the cell types that take part in different migratory events, it is believed that all of these migrations occur by similar molecular mechanisms, whose major components have been functionally conserved in evolution and whose perturbation leads to severe developmental defects. These mechanisms involve intricate cytoskeleton-based molecular machines that can sense the environment, respond to signals, and modulate the entire cell behavior. A big question that has concerned the researchers for decades relates to the coordination of cell migration in situ and its relation to the intracellular aspects of the cell migratory mechanisms. Traditionally, this question has been addressed by researchers that considered the intra-and extracellular mechanisms driving migration in separate sets of studies. As more data accumulate researchers are now able to integrate all of the available information and consider the intracellular mechanisms of cell migration in the context of the developing organisms that contain additional levels of complexity provided by extracellular regulation. This review provides a broad summary of the existing and emerging data in the cell and developmental biology fields regarding cell migration during development.

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“…The FH2 domain is responsible for the binding to actin and for alteration of the polymerization properties of filaments. The FH1 domain can modulate this effect through interactions with profilin-actin [9][10][11]. Different formins can have other specific properties as they can depolymerise, sever or bundle filamentous actin [9,[12][13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

“…The FH1 domain can modulate this effect through interactions with profilin-actin [9][10][11]. Different formins can have other specific properties as they can depolymerise, sever or bundle filamentous actin [9,[12][13][14][15][16]. The effect of the formins on the structure of actin has been previously investigated in the case of FH2 domain of mouse Diaphanous-related protein 1 (mDia1-FH2) and it was found that the structure of the formin-bound filaments is significantly different from those polymerized in the absence of formins.…”

Section: Introductionmentioning

confidence: 99%

The effects of formins on the conformation of subdomain 1 in actin filaments

Ujfalusi

Barkó

Hild

et al. 2010

Journal of Photochemistry and Photobiology B: Biology

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In this study we investigated the effects of formins on the conformation of actin filaments by using the method of fluorescence quenching. Actin was labelled with IAEDANS at Cys 374 and the quencher was acrylamide. The results showed that formin binding induced structural changes in the subdomain 1 of actin protomers which were reflected by greater quenching constants (K SV ). Simultaneously the fraction of the fluorophore population accessible for the quencher (α) decreased. These observations suggest that the conformational distribution characteristic for the actin protomers became broader after the binding of formins, for which the structural framework was provided by a more flexible protein matrix in the microenvironment of the label. The effects of formins depended on the formin:actin molar ratio, and also on the ionic strength of the medium. These observations are in agreement with previous results and underline the importance of the intramolecular conformational changes induced by formins in the structure of actin filaments.

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Mechanism and Function of Formins in the Control of Actin Assembly

Cited by 719 publications

References 133 publications

5q– myelodysplastic syndromes: chromosome 5q genes direct a tumor-suppression network sensing actin dynamics

5q– myelodysplastic syndromes: chromosome 5q genes direct a tumor-suppression network sensing actin dynamics

Cell biology of embryonic migration

The effects of formins on the conformation of subdomain 1 in actin filaments

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