Your search keyword '"Laura Beaster-Jones"' showing total 6 results

1. The Caenorhabditis elegans peb-1 Gene Encodes a Novel DNA-Binding Protein Involved in Morphogenesis of the Pharynx, Vulva, and Hindgut

Author

Laura Beaster-Jones, Christina Haun, Peter G. Okkema, Anthony P. Fernandez, and Jack D. Thatcher

Subjects

Embryo, Nonmammalian, Molecular Sequence Data, Biology, DNA-binding protein, Vulva, Sequence Homology, Nucleic Acid, Gene expression, Morphogenesis, Animals, Protein Isoforms, Amino Acid Sequence, Binding site, Cloning, Molecular, Enhancer, Caenorhabditis elegans, Caenorhabditis elegans Proteins, Promoter Regions, Genetic, Transcription factor, Gene, Molecular Biology, Gene Library, Base Sequence, Sequence Homology, Amino Acid, Cell Biology, biology.organism_classification, Molecular biology, DNA-Binding Proteins, Regulatory sequence, Pharynx, Female, Digestive System, Sequence Alignment, Developmental Biology

Abstract

Gene expression in the Caenorhabditis elegans pharynx is regulated in part by organ-specific signals, which in the myo-2 gene target a regulatory sequence called the C subelement. C subelement activity requires the organ specification factor PHA-4, a winged-helix transcription factor expressed in all pharyngeal cells. To identify additional factors involved in pharyngeal organogenesis, we performed a yeast one-hybrid screen for C subelement binding proteins. Here we describe the novel factor PEB-1, which is coexpressed with PHA-4 in many pharyngeal cell types, including muscles, epithelial cells, marginal cells, and glands, but is undetectable in the pharyngeal nervous system. PEB-1 is also detected outside the pharynx in cells surrounding the rectum and vulva, as well as in the germ line. Reduction of peb-1 function using RNAi results in morphological defects in the somatic tissues in which peb-1 is expressed. We have mapped the PEB-1 DNA-binding domain to a 158-residue region, which is unrelated to known DNA-binding proteins but shares some sequence similarity to the Drosophila Mod(mdg4) proteins. PEB-1 specifically recognizes a site in the C subelement that partially overlaps the PHA-4 binding site. Both the PEB-1 and the PHA-4 binding sites are necessary for strong C subelement enhancer activity in some cells in which these factors are coexpressed. In contrast the PEB-1 site is dispensable for C subelement activity in pharyngeal neurons. We propose that PEB-1 functions with PHA-4 to activate target gene expression in cells in which they are coexpressed.

Published

2001

2. Expression of somite segmentation genes in amphioxus: a clock without a wavefront?

Author

Linda Z. Holland, Roger A. Chastain, Laura Beaster-Jones, Demian Koop, Stacy L. Kaltenbach, and Shaochun Yuan

Subjects

Mesoderm, animal structures, Gene Expression Regulation, Developmental, Anatomy, Biology, Biological Evolution, FGF and mesoderm formation, engrailed, Cell biology, Segmentation gene, Somite, medicine.anatomical_structure, Neurula, Somites, Chordata, Nonvertebrate, Somitogenesis, embryonic structures, Genetics, medicine, Paraxial mesoderm, Animals, Developmental Biology, Body Patterning, Signal Transduction

Abstract

In the basal chordate amphioxus (Branchiostoma), somites extend the full length of the body. The anteriormost somites segment during the gastrula and neurula stages from dorsolateral grooves of the archenteron. The remaining ones pinch off, one at a time, from the tail bud. These posterior somites appear to be homologous to those of vertebrates, even though the latter pinch off from the anterior end of bands of presomitic mesoderm rather than directly from the tail bud. To gain insights into the evolution of mesodermal segmentation in chordates, we determined the expression of ten genes in nascent amphioxus somites. Five (Uncx4.1, NeuroD/atonal-related, IrxA, Pcdhdelta2-17/18, and Hey1) are expressed in stripes in the dorsolateral mesoderm at the gastrula stage and in the tail bud while three (Paraxis, Lcx, and Axin) are expressed in the posterior mesendoderm at the gastrula and neurula stages and in the tail bud at later stages. Expression of two genes (Pbx and OligA) suggests roles in the anterior somites that may be unrelated to initial segmentation. Together with previous data, our results indicate that, with the exception that Engrailed is only segmentally expressed in the anterior somites, the genetic mechanisms controlling formation of both the anterior and posterior somites are probably largely identical. Thus, the fundamental pathways for mesodermal segmentation involving Notch-Delta, Wnt/beta-catenin, and Fgf signaling were already in place in the common ancestor of amphioxus and vertebrates although budding of somites from bands of presomitic mesoderm exhibiting waves of expression of Notch, Wnt, and Fgf target genes was likely a vertebrate novelty. Given the conservation of segmentation gene expression between amphioxus and vertebrate somites, we propose that the clock mechanism may have been established in the basal chordate, while the wavefront evolved later in the vertebrate lineage.

Published

2008

3. WITHDRAWN: Amphioxus AmphiDelta: Evolution of delta protein structure, segmentation, and neurogenesis

Author

Laura Beaster-Jones, Michael Schubert, Nicholas D. Holland, Stacy L. K. Rasmussen, and Linda Z. Holland

Subjects

Neurogenesis, Segmentation, Cell Biology, Biology, Molecular Biology, Neuroscience, Developmental Biology, Delta protein

Published

2007

4. Amphioxus AmphiDelta: evolution of Delta protein structure, segmentation, and neurogenesis

Author

Laura Beaster-Jones, Stacy L. K. Rasmussen, Nicholas D. Holland, Linda Z. Holland, and Michael Schubert

Subjects

Mesoderm, animal structures, EGF-like domain, Neurogenic placodes, Cleavage Stage, Ovum, Organogenesis, Molecular Sequence Data, Ectoderm, Biology, Nervous System, Evolution, Molecular, Endocrinology, Chordata, Nonvertebrate, Somitogenesis, Genetics, medicine, Animals, Amino Acid Sequence, Receptors, Notch, Sequence Homology, Amino Acid, Neurogenesis, Intracellular Signaling Peptides and Proteins, Gene Expression Regulation, Developmental, Membrane Proteins, Cell Biology, Anatomy, Cell biology, medicine.anatomical_structure, embryonic structures, Endoderm, Neural plate, Signal Transduction

Abstract

The amphioxus genome has a single Delta gene (AmphiDelta) encoding a protein 766 amino acids long. Comparison of Delta proteins of amphioxus and other animals indicates that AmphiDelta retains features of a basal bilaterian Delta protein—in having nine epidermal growth factor (EGF) repeats and also in having characteristic numbers of amino acids separating successive cysteines between and within EGF repeats. During development, AmphiDelta is expressed in the forming somites, in some regions of pharyngeal endoderm, and in cells (presumably differentiating neurons) scattered in both the neural plate and ectoderm. Expression is strongly associated with cells initiating movements to separate themselves from parent epithelia, either en masse by evagination (endoderm and mesoderm) or by delamination as isolated cells (ectoderm). The AmphiDelta-expressing cells delaminating from the ectoderm apparently migrate beneath it as they begin differentiating into probable sensory neurons, suggesting a scenario for the evolutionary origin of the placode-derived neurons of vertebrate cranial ganglia. genesis 45:113–122, 2007. Published 2007 Wiley-Liss, Inc.

Published

2007

5. DNA binding and in vivo function of C.elegans PEB-1 require a conserved FLYWCH motif

Author

Peter G. Okkema and Laura Beaster-Jones

Subjects

Amino Acid Motifs, Molecular Sequence Data, Biology, Genome, DNA-binding protein, chemistry.chemical_compound, Structural Biology, Amino Acid Sequence, Binding site, Caenorhabditis elegans Proteins, Molecular Biology, Caenorhabditis elegans, Conserved Sequence, Genetics, Cell Nucleus, Binding Sites, Base Sequence, Sequence Homology, Amino Acid, C-terminus, DNA, biology.organism_classification, Cell biology, DNA-Binding Proteins, chemistry, Domain of unknown function, Nuclear localization sequence, Protein Binding

Abstract

Caenorhabditis elegans PEB-1 is a novel protein containing a DNA-binding domain in its N terminus, which includes a Cys/His-rich FLYWCH motif also found in Drosophila Mod(mdg4) proteins, and a large C-terminal domain of unknown function. PEB-1 is expressed in most pharyngeal cell types, but its molecular function remains unclear. Here we describe comparative and functional analyses of PEB-1. Characterization of the PEB-1 sequence from C. briggsae indicates highest conservation in the DNA-binding domain (including the FLYWCH motif) and the C terminus, suggesting two functional domains. The PEB-1 FLYWCH motif is essential for DNA-binding and in vivo function; however, it does not bind detectable metal. Likewise, the PEB-1 C terminus is necessary for full activity in vivo, although the DNA-binding domain alone is sufficient for partial function. Both the FLYWCH motif and the C-terminal domain are required for efficient nuclear localization, suggesting PEB-1 must bind DNA and other components to remain in the nucleus. Analysis of binding sites revealed a YDTGCCRW PEB-1 consensus-binding site, and matches to this consensus are widespread in the C. elegans genome.

Published

2004

6. Amphioxus AmphiDelta: Evolution of delta protein structure, segmentation, and neurogenesis

Author

Nicholas D. Holland, Laura Beaster-Jones, Linda Z. Holland, Michael Schubert, and Stacy L. K. Rasmussen

Subjects

chemistry.chemical_classification, Mesoderm, animal structures, EGF-like domain, Neurogenesis, Ectoderm, Anatomy, Cell Biology, Biology, Amino acid, Cell biology, medicine.anatomical_structure, chemistry, Epidermal growth factor, embryonic structures, medicine, Endoderm, Neural plate, Molecular Biology, Developmental Biology

Abstract

The amphioxus genome has a single Delta gene (AmphiDelta) encoding a protein 766 amino acids long. Comparison of Delta proteins of amphioxus and other animals indicates that AmphiDelta retains features of a basal bilaterian Delta protein—in having nine epidermal growth factor (EGF) repeats and also in having characteristic numbers of amino acids separating successive cysteines between and within EGF repeats. During development, AmphiDelta is expressed in the forming somites, in some regions of pharyngeal endoderm, and in cells (presumably differentiating neurons) scattered in both the neural plate and ectoderm. Expression is strongly associated with cells initiating movements to separate themselves from parent epithelia, either en masse by evagination (endoderm and mesoderm) or by delamination as isolated cells (ectoderm). The AmphiDelta-expressing cells delaminating from the ectoderm apparently migrate beneath it as they begin differentiating into probable sensory neurons, suggesting a scenario for the evolutionary origin of the placode-derived neurons of vertebrate cranial ganglia. genesis 45:113–122, 2007. Published 2007 Wiley-Liss, Inc.