Robert M. Krauss scite author profile

Cdo and Boc encode cell surface Ig/fibronectin superfamily members linked to muscle differentiation. Data here indicate they are also targets and signaling components of the Sonic hedgehog (Shh) pathway. Although Cdo and Boc are generally negatively regulated by Hedgehog (HH) signaling, in the neural tube Cdo is expressed within the Shh-dependent floor plate while Boc expression lies within the dorsal limit of Shh signaling. Loss of Cdo results in a Shh dosage-dependent reduction of the floor plate. In contrast, ectopic expression of Boc or Cdo results in a Shh-dependent, cell autonomous promotion of ventral cell fates and a non-cell-autonomous ventral expansion of dorsal cell identities consistent with Shh sequestration. Cdo and Boc bind Shh through a high-affinity interaction with a specific fibronectin repeat that is essential for activity. We propose a model where Cdo and Boc enhance Shh signaling within its target field.

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Gesture, Speech, and Lexical Access: The Role of Lexical Movements in Speech Production

Rauscher

1996

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111 n ic*ithiri-siibjects design t h t w r i e d idietlier speakers ic-ere n l l o w d to gestirre arid the difficiilty of lexicol nccess, spenkers were i*icleotoped ns they described otiitiintetl nctiori cortooris to n listcrier. IVIieri speakers were perttiitred to gestirre, they gestiirrd riiore oJeti diiritig pliroses with spatial coriteiit thari cliiririg phrcises witli other coritetit. Speech with spatiol coriterit itws less Jiierit itheti speakers coriid iiot gestirre tlinri u-lieii they coirld gesture; speech with riotispotid cotiterit WIS 1101 affected by gestiire condition. l'rei*eritirig gestirririg iricreciseci the relotiiv freqiiericy of rior~iirictiire fillecl pciiises iri speech icitli spntial c o~i~c t i t , hiit riot iri speech with other toritent. OrernII, the cffccts of pre\witirig spenkers frotri gestiiririg reseriiblcd those of iricrcosirig tlie difficirlty of 1e.ricril occess by other Iiiemis, except h i t the effects of gestiire restrictioti iewc specific to speech with spntinl coritetit. Tliejitiditigs siipport the hypothesis thnt gestiirnl acconipnriiriierits to sporitorieoiis speech coti fncilitnte nccess to the nieritnl lexicon.

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Lexical gestures and lexical access: a process model

2000

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Overlapping Roles and Collective Requirement for the Coreceptors GAS1, CDO, and BOC in SHH Pathway Function

et al. 2011

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Summary Secreted Hedgehog (Hh) ligands signal through the canonical receptor Patched (Ptch1). However, recent studies implicate three additional Hh-binding, cell surface proteins, Gas1, Cdo and Boc, as putative co-receptors for Hh ligands. A central question is to what degree these co-receptors function similarly and their collective requirement in Hh signal transduction. Here we provide evidence that Gas1, Cdo, and Boc, play overlapping and essential roles during Hh-mediated ventral neural patterning of the mammalian neural tube. Specifically, we demonstrate two important roles for these molecules: an early role in cell fate specification of multiple neural progenitors, and a later role in motor neuron progenitor maintenance. Most strikingly, genetic loss-of-function experiments indicate an obligatory requirement for Gas1, Cdo and Boc in Hh pathway activity in multiple tissues.

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Cdo Functions at Multiple Points in the Sonic Hedgehog Pathway, and Cdo-Deficient Mice Accurately Model Human Holoprosencephaly

et al. 2006

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Holoprosencephaly (HPE), a common defect of human forebrain development, is associated with haploinsufficiency for genes encoding Sonic Hedgehog (SHH) pathway components. Clinical expression of HPE is extremely variable, but it is rarely associated with defects in other SHH-dependent structures, such as limbs. Here we report that mice lacking the transmembrane protein Cdo, previously implicated in myogenesis, display HPE with strain-specific severity and without limb defects, modeling human HPE and implicating modifier genes as a cause of variability. Shh target gene expression is reduced in the developing forebrains of Cdo-/- mice, and Cdo positively regulates Shh signaling in vitro. Our data suggest that Cdo enhances pathway activity in multiple ways, including at signal reception and via a parallel mechanism required at the level of Gli transcription factors. Specific Cdo domains required for its promyogenic effect are dispensable for its Shh signaling role, suggesting that Cdo has multiple, independent functions.

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Robert M. Krauss

The Cell Surface Membrane Proteins Cdo and Boc Are Components and Targets of the Hedgehog Signaling Pathway and Feedback Network in Mice

Gesture, Speech, and Lexical Access: The Role of Lexical Movements in Speech Production

Lexical gestures and lexical access: a process model

Overlapping Roles and Collective Requirement for the Coreceptors GAS1, CDO, and BOC in SHH Pathway Function

Cdo Functions at Multiple Points in the Sonic Hedgehog Pathway, and Cdo-Deficient Mice Accurately Model Human Holoprosencephaly

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