Matthew J. Kourakis scite author profile

The T-box genes Tbx4 and Tbx5 have been shown to have key functions in the specification of the identity of the vertebrate forelimb (Tbx5) and hindlimb (Tbx4). Here we show that in zebrafish, Tbx5 has an additional early function that precedes the formation of the limb bud itself. Functional knockdown of zebrafish tbx5 through the use of an antisense oligonucleotide resulted in a failure to initiate fin bud formation, leading to the complete loss of pectoral fins. The function of the tbx5 gene in the development of zebrafish forelimbs seems to involve the directed migration of individual lateral-plate mesodermal cells into the future limb-bud-producing region. The primary defect seen in the tbx5-knockdown phenotype is similar to the primary defects described in known T-box-gene mutants such as the spadetail mutant of zebrafish and the Brachyury mutant of the mouse, which both similarly exhibit an altered migration of mesodermal cells. A common function for many of the T-box genes might therefore be in mediating the proper migration and/or changes in adhesive properties of early embryonic cells.

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Parallel visual circuitry in a basal chordate

Kourakis

Borba

Zhang

et al. 2019

169

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A common CNS architecture is observed in all chordates, from vertebrates to basal chordates like the ascidian Ciona. Ciona stands apart among chordates in having a complete larval connectome. Starting with visuomotor circuits predicted by the Ciona connectome, we used expression maps of neurotransmitter use with behavioral assays to identify two parallel visuomotor circuits that are responsive to different components of visual stimuli. The first circuit is characterized by glutamatergic photoreceptors and responds to the direction of light. These photoreceptors project to cholinergic motor neurons, via two tiers of cholinergic interneurons. The second circuit responds to changes in ambient light and mediates an escape response. This circuit uses GABAergic photoreceptors which project to GABAergic interneurons, and then to cholinergic interneurons. Our observations on the behavior of larvae either treated with a GABA receptor antagonist or carrying a mutation that eliminates photoreceptors indicate the second circuit is disinhibitory.

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Conserved Anterior Boundaries of Hox Gene Expression in the Central Nervous System of the LeechHelobdella

Kourakis

Master

Lokhorst

et al. 1997

Developmental Biology

106

103

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Molecular developmental studies of fly and mouse embryos have shown that the identity of individual body segments is controlled by a suite of homeobox-containing genes called the Hox cluster. To examine the conservation of this patterning mechanism in other segmented phyla, we here describe four Hox gene homologs isolated from glossiphoniid leeches of the genus Helobdella. Based on sequence similarity and phylogenetic analysis, the leech genes Lox7, Lox6, Lox20, and Lox5 are deemed to be orthologs of the Drosophila genes lab, Dfd, Scr, and Antp, respectively. Sequence similarities between Lox5 and Antp outside the homeodomain and phylogenetic reconstructions suggest that the Antennapedia family of Hox genes (as defined by Bürglin, 1994) had already expanded to include at least two discrete Antp and Ubx/abdA precursors prior to the annelid/arthropod divergence. In situ hybridization reveals that the four Lox genes described in this study are all expressed at high levels within the segmented portion of the central nervous system (CNS), with variable levels of expression in the segmental mesoderm. Little or no expression was seen in peripheral ectoderm or endoderm, or in the unsegmented head region (prostomium). Each Lox gene has a distinct anterior expression boundary within one of the four rostral segments, and the anterior-posterior (AP) order of these expression boundaries is identical to that reported for the orthologous Hox gene products in fly and mouse. This finding supports the idea that the process of AP axis differentiation is conserved among the higher metazoan phyla with respect to the regional expression of individual Hox genes along that axis. One unusual feature of leech Hox genes is the observation that some genes are only expressed during later development -- beginning at the time of terminal cell differentiation -- whereas others begin expression at a much earlier stage, and their RNA ceases to be detectable shortly after the onset of expression of the 'late' Hox genes. The functional significance of this temporal disparity is unknown, but it is noteworthy that only the two 'early' Hox genes display high levels of mesodermal expression.

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Photoreceptor specialization and the visuomotor repertoire of the primitive chordate Ciona

Salas

Vinaithirthan

Newman-Smith

et al. 2018

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The swimming tadpole larva of has one of the simplest central nervous systems (CNSs) known, with only 177 neurons. Despite its simplicity, the CNS has a common structure with the CNS of its close chordate relatives, the vertebrates. The recent completion of a larval CNS connectome creates enormous potential for detailed understanding of chordate CNS function, yet our understanding of larval behavior is incomplete. We show here that larvae have a surprisingly rich and dynamic set of visual responses, including a looming-object escape behavior characterized by erratic circular swims, as well as negative phototaxis characterized by sustained directional swims. Making use of mutant lines, we show that these two behaviors are mediated by distinct groups of photoreceptors. The connectome predicts that these two behavioral responses should act through distinct, but overlapping, visuomotor pathways, and that the escape behavior is likely to be integrated into a broader startle behavior.

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Antagonistic Inhibitory Circuits Integrate Visual and Gravitactic Behaviors

et al. 2020

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Combined-method phylogenetic analysis of Hox and ParaHox genes of the metazoa

Kourakis

Martindale

2000

J. Exp. Zool.

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The clustered Hox genes show a conserved role in patterning the body axis of bilaterian metazoans. Increasingly, a broader phylogenetic sampling of non‐model system organisms is being examined to detect a correlation, if any, between Hox gene evolution, and body plan innovations. To assess how Hox gene expression and function evolve with changing cluster arrangements, we must be able to reliably assign gene orthologies between Hox genes. Recent evidence suggests that a four‐gene proto‐Hox cluster duplicated to form the precursor of the present cluster and an additional sister‐cluster, the ParaHox group. Here, phylogenetic methods are used to determine Hox‐gene orthologies and to infer probable clustering events leading to the current bilaterian Hox complement. This analysis supports the ParaHox hypothesis and gives first confirmation that ind (intermediate neuroblasts defective) is an anterior ParaHox ortholog from protostomes. This analysis supports a proto‐Hox cluster of four genes in which the central‐class member of the ParaHox cluster may have been lost. It is also proposed here that ancestral diploblasts had central‐class members of both Hox and ParaHox clusters. Primitive Hox gene ancestors are estimated by phylogenetic methods and found to have no strong affinity to any particular class of extant Hox members. J. Exp. Zool. (Mol. Dev. Evol.) 288:175–191, 2000. © 2000 Wiley‐Liss, Inc.

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Reciprocal and dynamic polarization of planar cell polarity core components and myosin

Newman-Smith

Kourakis

Reeves

et al. 2015

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The Ciona notochord displays planar cell polarity (PCP), with anterior localization of Prickle (Pk) and Strabismus (Stbm). We report that a myosin is polarized anteriorly in these cells and strongly colocalizes with Stbm. Disruption of the actin/myosin machinery with cytochalasin or blebbistatin disrupts polarization of Pk and Stbm, but not of myosin complexes, suggesting a PCP-independent aspect of myosin localization. Wash out of cytochalasin restored Pk polarization, but not if done in the presence of blebbistatin, suggesting an active role for myosin in core PCP protein localization. On the other hand, in the pk mutant line, aimless, myosin polarization is disrupted in approximately one third of the cells, indicating a reciprocal action of core PCP signaling on myosin localization. Our results indicate a complex relationship between the actomyosin cytoskeleton and core PCP components in which myosin is not simply a downstream target of PCP signaling, but also required for PCP protein localization.DOI: http://dx.doi.org/10.7554/eLife.05361.001

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A conserved role for FGF signaling in chordate otic/atrial placode formation

Kourakis

Smith

2007

Developmental Biology

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The widely held view that neurogenic placodes are vertebrate novelties has been challenged by morphological and molecular data from tunicates suggesting that placodes predate the vertebrate divergence. Here, we examine requirements for the development of the tunicate atrial siphon primordium, thought to share homology with the vertebrate otic placode. In vertebrates, FGF signaling is required for otic placode induction and for later events following placode invagination, including elaboration and patterning of the inner ear. We show that results from perturbation of the FGF pathway in the ascidian Ciona support a similar role for this pathway: inhibition with MEK or Fgfr inhibitor at tailbud stages in Ciona results in a larva which fails to form atrial placodes; inhibition during metamorphosis disrupts development of the atrial siphon and gill slits, structures which form where invaginated atrial siphon ectoderm apposes pharyngeal endoderm. We show that laser ablation of atrial primordium ectoderm also results in a failure to form gill slits in the underlying endoderm. Our data suggest interactions required for formation of the atrial siphon and highlight the role of atrial ectoderm during gill slit morphogenesis.

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