In Hyung Lee scite author profile

Movement and distribution of nuclei in fungi have been shown to be dependent on cytoplasmic microtubules and the microtubule‐associated motor cytoplasmic dynein. We have isolated hundreds of Neurospora crassa mutants, known as ropy, that are defective in nuclear distribution. Three of the ro genes, ro‐1, ro‐3 and ro‐4, have been shown to encode subunits of either cytoplasmic dynein or the dynein activator complex, dynactin. In this report, we describe the isolation and initial characterization of two additional ro genes, ro‐10 and ro‐11. ro‐10 and ro‐11 are non‐essential genes that encode novel 24 kDa and 75 kDa proteins respectively. Both ro‐10 and ro‐11 mutants retain the ability to generate long cytoplasmic microtubule tracks, suggesting that the nuclear distribution defect is not caused by a gross defect in the microtubule cytoskeleton. RO10, as well as RO4 (actin‐related protein ARP1, the most abundant subunit of dynactin), appears to be required for the stability of RO3 (p150Glued), the largest subunit of dynactin. We propose that ro‐10 mutants lack proper nuclear distribution, because RO10 is either a subunit of dynactin and required for dynactin activity or essential for assembly of the dynactin complex. ro‐11 mutations have no effect on RO1 or RO3 levels and have only a very slight effect on the localization pattern of cytoplasmic dynein and dynactin. The role of RO11 in the movement and distribution of nuclei in N. crassa hyphae remains unknown.

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Null Mutants of theNeurosporaActin-related Protein 1 Pointed-End Complex Show Distinct Phenotypes

Lee

Kumar

Plamann

2001

MBoC

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Dynactin is a multisubunit complex that regulates the activities of cytoplasmic dynein, a microtubule-associated motor. Actin-related protein 1 (Arp1) is the most abundant subunit of dynactin, and it forms a short filament to which additional subunits associate. An Arp1 filament pointed-end--binding subcomplex has been identified that consists of p62, p25, p27, and Arp11 subunits. The functional roles of these subunits have not been determined. Recently, we reported the cloning of an apparent homologue of mammalian Arp11 from the filamentous fungus Neurospora crassa. Here, we report that N. crassa ro-2 and ro-12 genes encode the respective p62 and p25 subunits of the pointed-end complex. Characterization of Delta ro-2, Delta ro-7, and Delta ro-12 mutants reveals that each has a distinct phenotype. All three mutants have reduced in vivo vesicle trafficking and have defects in vacuole distribution. We showed previously that in vivo dynactin function is required for high-level dynein ATPase activity, and we find that all three mutants have low dynein ATPase activity. Surprisingly, Delta ro-12 differs from Delta ro-2 and Delta ro-7 and other previously characterized dynein/dynactin mutants in that it has normal nuclear distribution. Each of the mutants shows a distinct dynein/dynactin localization pattern. All three mutants also show stronger dynein/dynactin-membrane interaction relative to wild type, suggesting that the Arp1 pointed-end complex may regulate interaction of dynactin with membranous cargoes.

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Microscopic Analysis of Neurospora ropy Mutants Defective in Nuclear Distribution

Minke

Lee

Plamann

1999

Fungal Genetics and Biology

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Cytoplasmic Dynein ATPase Activity Is Regulated by Dynactin-dependent Phosphorylation

Kumar

Lee²,

Plamann

2000

Journal of Biological Chemistry

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Cytoplasmic dynein is a microtubule-associated motor that utilizes ATP hydrolysis to conduct minus-end directed transport of various organelles. Dynactin is a multisubunit complex that has been proposed to both link dynein with cargo and activate dynein motor function. The mechanisms by which dynactin regulates dynein activity are not clear. In this study, we examine the role of dynactin in regulating dynein ATPase activity. We show that dynein-microtubule binding and ATP-dependent release of dynein from microtubules are reduced in dynactin null mutants, ⌬ro-3 (p150 Glued ) and ⌬ro-4 (Arp1), relative to wild-type. The dynein-microtubule binding activity, but not the ATP-dependent release of dynein from microtubules, is restored by in vitro mixing of extracts from dynein and dynactin mutants. Dynein produced in a ⌬ro-3 mutant has ϳ8-fold reduced ATPase activity relative to dynein isolated from wildtype. However, dynein ATPase activity from wild-type is not reduced when dynactin is separated from dynein, suggesting that dynein produced in a dynactin mutant is inactivated. Treatment of dynein isolated from the ⌬ro-3 mutant with protein phosphatase restores the ATPase activity to near wild-type levels. The reduced dynein ATPase activity observed in dynactin null mutants is mainly due to altered affinity for ATP. Radiolabeling experiments revealed that low molecular mass proteins, particularly 20-and 8-kDa proteins, that immunoprecipitate with dynein heavy chain are hyperphosphorylated in the dynactin mutant and dephosphorylated upon protein phosphatase treatment. The results suggest that cytoplasmic dynein ATPase activity is regulated by dynactin-dependent phosphorylation of dynein light chains.

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Apolar growth of Neurospora crassa leads to increased secretion of extracellular proteins

Lee

Walline

Plamann

1998

Molecular Microbiology

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SummaryProtein secretion in filamentous fungi has been shown to be restricted to actively growing hyphal tips. To determine whether an increase in the amount of growing surface area of a fungus can lead to an increase in the amount of protein secretion, we examined secretion in a temperature-sensitive Neurospora crassa mcb mutant that shows a loss of growth polarity when incubated at restrictive temperature. Incubation of the mcb mutant at restrictive temperature results in a three-to fivefold increase in the level of extracellular protein and a 20-fold increase in carboxymethyl cellulase activity relative to a wild-type strain. A mutation in the cr-1 gene has been shown previously to suppress the apolar growth phenotype of the mcb mutant, and we find that the level of extracellular protein produced by a mcb;cr-1 double mutant was reduced to that of the wild-type control. Immunolocalization of a secreted endoglucanase revealed that proteins are secreted mainly at hyphal tips in hyphae exhibiting polar growth and over the entire surface area of bulbous regions of hyphae that are produced after a shift of the mcb mutant to restrictive temperature. These results support the hypothesis that secretion of extracellular protein by a filamentous fungus can be significantly increased by mutations that alter growth polarity.

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In Hyung Lee

Neurospora crassa ro‐10 and ro‐11 genes encode novel proteins required for nuclear distribution

Null Mutants of theNeurosporaActin-related Protein 1 Pointed-End Complex Show Distinct Phenotypes

Microscopic Analysis of Neurospora ropy Mutants Defective in Nuclear Distribution

Cytoplasmic Dynein ATPase Activity Is Regulated by Dynactin-dependent Phosphorylation

Apolar growth of Neurospora crassa leads to increased secretion of extracellular proteins

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