Bryan C. Gibbon scite author profile

Latrunculin B Has Different Effects on Pollen Germination and Tube Growth

Gibbon

¹

,

Kovar

²

,

Staiger

³

1999

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The actin cytoskeleton is absolutely required for pollen germination and tube growth, but little is known about the regulation of actin polymer concentrations or dynamics in pollen. Here, we report that latrunculin B (LATB), a potent inhibitor of actin polymerization, had effects on pollen that were distinct from those of cytochalasin D. The equilibrium dissociation constant measured for LATB binding to maize pollen actin was determined to be 74 nM. This high affinity for pollen actin suggested that treatment of pollen with LATB would have marked effects on actin function. Indeed, LATB inhibited maize pollen germination half-maximally at 50 nM, yet it blocked pollen tube growth at one-tenth of that concentration. Low concentrations of LATB also caused partial disruption of the actin cytoskeleton in germinated maize pollen, as visualized by light microscopy and fluorescent-phalloidin staining. The amounts of filamentous actin (F-actin) in pollen were quantified by measuring phalloidin binding sites, a sensitive assay that had not been used previously for plant cells. The amount of F-actin in maize pollen increased slightly upon germination, whereas the total actin protein level did not change. LATB treatment caused a dose-dependent depolymerization of F-actin in populations of maize pollen grains and tubes. Moreover, the same concentrations of LATB caused similar depolymerization in pollen grains before germination and in pollen tubes. These data indicate that the increased sensitivity of pollen tube growth to LATB was not due to general destabilization of the actin cytoskeleton or to decreases in F-actin amounts after germination. We postulate that germination is less sensitive to LATB than tube extension because the presence of a small population of LATB-sensitive actin filaments is critical for maintenance of tip growth but not for germination of pollen, or because germination is less sensitive to partial depolymerization of the actin cytoskeleton.

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Molecular genetic approaches to developing quality protein maize

Gibbon

¹

,

Larkins

²

2005

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Profilin and actin-depolymerizing factor: modulators of actin organization in plants

Staiger

¹

,

Gibbon

²

,

Kovar

³

et al. 1997

Trends in Plant Science

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Latrunculin B Has Different Effects on Pollen Germination and Tube Growth

Gibbon¹,

Kovar²,

Staiger³

1999

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The actin cytoskeleton is absolutely required for pollen germination and tube growth, but little is known about the regulation of actin polymer concentrations or dynamics in pollen. Here, we report that latrunculin B (LATB), a potent inhibitor of actin polymerization, had effects on pollen that were distinct from those of cytochalasin D. The equilibrium dissociation constant measured for LATB binding to maize pollen actin was determined to be 74 nM. This high affinity for pollen actin suggested that treatment of pollen with LATB would have marked effects on actin function. Indeed, LATB inhibited maize pollen germination half-maximally at 50 nM, yet it blocked pollen tube growth at one-tenth of that concentration. Low concentrations of LATB also caused partial disruption of the actin cytoskeleton in germinated maize pollen, as visualized by light microscopy and fluorescent-phalloidin staining. The amounts of filamentous actin (F-actin) in pollen were quantified by measuring phalloidin binding sites, a sensitive assay that had not been used previously for plant cells. The amount of F-actin in maize pollen increased slightly upon germination, whereas the total actin protein level did not change. LATB treatment caused a dose-dependent depolymerization of F-actin in populations of maize pollen grains and tubes. Moreover, the same concentrations of LATB caused similar depolymerization in pollen grains before germination and in pollen tubes. These data indicate that the increased sensitivity of pollen tube growth to LATB was not due to general destabilization of the actin cytoskeleton or to decreases in F-actin amounts after germination. We postulate that germination is less sensitive to LATB than tube extension because the presence of a small population of LATB-sensitive actin filaments is critical for maintenance of tip growth but not for germination of pollen, or because germination is less sensitive to partial depolymerization of the actin cytoskeleton.

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Genetic analysis of opaque2 modifier loci in quality protein maize

Holding

¹

,

Hunter

²

,

Chung

³

et al. 2008

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Quality protein maize (QPM) was created by selecting genetic modifiers that convert the starchy endosperm of an opaque2 (o2) mutant to a hard, vitreous phenotype. Genetic analysis has shown that there are multiple, unlinked o2 modifiers (Opm), but their identity and mode of action are unknown. Using two independently developed QPM lines, we mapped several major Opm QTLs to chromosomes 1, 7 and 9. A microarray hybridization performed with RNA obtained from true breeding o2 progeny with vitreous and opaque kernel phenotypes identified a small group of differentially expressed genes, some of which map at or near the Opm QTLs. Several of the genes are associated with ethylene and ABA signaling and suggest a potential linkage of o2 endosperm modification with programmed cell death.

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The maize Mucronate mutation is a deletion in the 16‐kDa γ‐zein gene that induces the unfolded protein response¹

Kim¹,

Gibbon²,

Gillikin³

et al. 2006

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SummaryMucronate (Mc) was identified as a dominant maize (Zea mays L.) opaque kernel mutation that alters zein storage protein synthesis. Zein protein bodies in Mc endosperm are misshapen and are associated with increased levels of ER Lumenal Binding Protein (BiP). Using GeneCalling TM to profile endosperm RNA transcripts, we identified an aberrant RNA in Mc that encodes the 16-kDa c-zein protein. The transcript contains a 38-bp deletion (nucleotides 406-444 after the initiation codon) that creates a frame-shift mutation and an abnormal sequence for the last 63 amino acids. Genetic mapping revealed the Mc mutation is linked with the locus encoding the 16-kDa c-zein, and two-dimensional gel electrophoresis confirmed the 16-kDa c-zein protein is altered in Mc. The mutant protein exhibited changes in solubility properties and co-immunoprecipitated with the molecular chaperone, BiP. Transgenic maize plants expressing the Mc 16-kDa c-zein manifested an opaque kernel phenotype with enhanced levels of BiP in the endosperm, similar to the Mc mutant. Unlike the wild-type protein, the Mc 16-kDa c-zein interacted only weakly with the 22-kDa a-zein when expressed in the yeast twohybrid system. These results indicate that the Mc phenotype results from a frame-shift mutation in the gene encoding the 16-kDa c-zein protein, leading to the unfolded protein response in developing endosperm.

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Pollen Profilin Function Depends on Interaction with Proline-Rich Motifs

Gibbon¹,

Zonia²,

Kovar³

et al. 1998

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The actin binding protein profilin has dramatic effects on actin polymerization in vitro and in living cells. Plants have large multigene families encoding profilins, and many cells or tissues can express multiple profilin isoforms. Recently, we characterized several profilin isoforms from maize pollen for their ability to alter cytoarchitecture when microin-jected into living plant cells and for their association with poly-L-proline and monomeric actin from maize pollen. In this study, we characterize a new profilin isoform from maize, which has been designated ZmPRO4, that is expressed predominantly in endosperm but is also found at low levels in all tissues examined, including mature and germinated pollen. The affinity of ZmPRO4 for monomeric actin, which was measured by two independent methods, is similar to that of the three profilin isoforms previously identified in pollen. In contrast, the affinity of ZmPRO4 for poly-L-proline is nearly twofold higher than that of native pollen profilin and the other recombinant profilin isoforms. When ZmPRO4 was microinjected into plant cells, the effect on actin-dependent nuclear position was significantly more rapid than that of another pollen profilin isoform, ZmPRO1. A gain-of-function mutant (ZmPRO1-Y6F) was created and found to enhance poly-L-proline binding activity and to disrupt cytoarchitecture as effectively as ZmPRO4. In this study, we demonstrate that profilin iso-forms expressed in a single cell can have different effects on actin in living cells and that the poly-L-proline binding function of profilin may have important consequences for the regulation of actin cytoskeletal dynamics in plant cells.

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Tales of diversity: Genomic and morphological characteristics of forty-six Arthrobacter phages

Klyczek

¹

,

Bonilla

²

,

Jacobs-Sera

³

et al. 2017

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The vast bacteriophage population harbors an immense reservoir of genetic information. Almost 2000 phage genomes have been sequenced from phages infecting hosts in the phylum Actinobacteria, and analysis of these genomes reveals substantial diversity, pervasive mosaicism, and novel mechanisms for phage replication and lysogeny. Here, we describe the isolation and genomic characterization of 46 phages from environmental samples at various geographic locations in the U.S. infecting a single Arthrobacter sp. strain. These phages include representatives of all three virion morphologies, and Jasmine is the first sequenced podovirus of an actinobacterial host. The phages also span considerable sequence diversity, and can be grouped into 10 clusters according to their nucleotide diversity, and two singletons each with no close relatives. However, the clusters/singletons appear to be genomically well separated from each other, and relatively few genes are shared between clusters. Genome size varies from among the smallest of siphoviral phages (15,319 bp) to over 70 kbp, and G+C contents range from 45–68%, compared to 63.4% for the host genome. Although temperate phages are common among other actinobacterial hosts, these Arthrobacter phages are primarily lytic, and only the singleton Galaxy is likely temperate.

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Bryan C. Gibbon

Latrunculin B Has Different Effects on Pollen Germination and Tube Growth

Molecular genetic approaches to developing quality protein maize

Profilin and actin-depolymerizing factor: modulators of actin organization in plants

Latrunculin B Has Different Effects on Pollen Germination and Tube Growth

Genetic analysis of opaque2 modifier loci in quality protein maize

The maize Mucronate mutation is a deletion in the 16‐kDa γ‐zein gene that induces the unfolded protein response¹

Pollen Profilin Function Depends on Interaction with Proline-Rich Motifs

Tales of diversity: Genomic and morphological characteristics of forty-six Arthrobacter phages

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Bryan C. Gibbon

Latrunculin B Has Different Effects on Pollen Germination and Tube Growth

Molecular genetic approaches to developing quality protein maize

Profilin and actin-depolymerizing factor: modulators of actin organization in plants

Latrunculin B Has Different Effects on Pollen Germination and Tube Growth

Genetic analysis of opaque2 modifier loci in quality protein maize

The maize Mucronate mutation is a deletion in the 16‐kDa γ‐zein gene that induces the unfolded protein response1

Pollen Profilin Function Depends on Interaction with Proline-Rich Motifs

Tales of diversity: Genomic and morphological characteristics of forty-six Arthrobacter phages

Contact Info

Product

Resources

About

The maize Mucronate mutation is a deletion in the 16‐kDa γ‐zein gene that induces the unfolded protein response¹