Jane Mitchell scite author profile

Here we show that bioluminescent organs of the squid Euprymna scolopes possess the molecular, biochemical, and physiological capability for light detection. Transcriptome analyses revealed expression of genes encoding key visual transduction proteins in light-organ tissues, including the same isoform of opsin that occurs in the retina. Electroretinograms demonstrated that the organ responds physiologically to light, and immunocytochemistry experiments localized multiple proteins of visual transduction cascades to tissues housing light-producing bacterial symbionts. These data provide evidence that the light-organ tissues harboring the symbionts serve as extraocular photoreceptors, with the potential to perceive directly the bioluminescence produced by their bacterial partners.Euprymna ͉ evolutionary tinkering ͉ extraocular photoreceptor ͉ visual transduction

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Interaction of Calcitonin and Calcitonin Gene-Related Peptide at Receptor Sites in Target Tissues

Goltzman

Mitchell

1985

Science

289

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Discrete receptor sites for calcitonin (CT) and calcitonin gene-related peptide (CGRP) were found in the nervous system and in peripheral tissues. Each peptide was capable of cross-reacting with the specific receptor of the other. In contrast to CT receptors, CGRP receptors were not linked to adenylate cyclase. However, CGRP could stimulate adenylate cyclase in CT target tissues apparently by interacting with CT receptors. The relative abilities of CGRP and mammalian CT to inhibit CT binding suggest that CGRP could serve as an endogenous ligand for CT receptors in the central nervous system.

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Purification, Characterization, and Partial Amino Acid Sequence of a G Protein-activated Phospholipase C from Squid Photoreceptors

Mitchell

Gutierrez

Northup

1995

Journal of Biological Chemistry

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Invertebrate visual transduction is thought to be initiated by photoactivation of rhodopsin and its subsequent interaction with a guanyl nucleotide-binding protein (G protein). The identities of the G protein and its target effector have remained elusive, although evidence suggests the involvement of a phospholipase C (PLC). We have identified a phosphatidylinositol-specific PLC from the cytosol of squid retina. The enzyme was purified to near-homogeneity by a combination of carboxymethyl-Sepharose and heparin-Sepharose chromatography. The purified PLC, identified as an approximately 140-kDa protein by sodium dodecyl sulfate-polyacrylamide gels, hydrolyzed phosphatidylinositol 4,5-bisphosphate (PIP2) at a rate of 10-15 mumol/min/mg of protein with 1 microM Ca2+. The partial amino acid sequence of the protein showed homology with a PLC cloned from a Drosophila head library (PLC21) and lesser homology with Drosophila norpA protein and mammalian PLC beta isozymes. Reconstitution of purified squid PLC with an AlF(-)-activated 44-kDa G protein alpha subunit extracted from squid photoreceptor membranes resulted in a significant increase in PIP2 hydrolysis over a range of Ca2+ concentrations while reconstitution with mammalian Gt alpha or Gi 1 alpha was without effect. These results suggest that cephalopod phototransduction is mediated by G alpha-44 activation of a 140-kDa cytosolic PLC.

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Indian hedgehog: Its roles and regulation in endochondral bone development

Lai

Mitchell

2005

J of Cellular Biochemistry

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Normal endochondral bone development requires the coordination of chondrocyte proliferation and differentiation. Indian hedgehog (Ihh) is a morphogen produced by chondrocytes in the early stage of terminal differentiation and plays several key roles in this process. Ihh regulates growth of adjacent proliferative chondrocytes and can also regulate the rate of differentiation of chondrocytes indirectly through its stimulation of parathyroid hormonerelated protein (PTHrP). In this review, we focus on recent studies that have identified new functions of Ihh and how Ihh itself is being regulated.

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In VivoDistribution of Parathyroid Hormone Receptors in Bone: Evidence that a Predominant Osseous Target Cell Is Not the Mature Osteoblast*

1988

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Previous studies in vitro and in vivo have demonstrated the presence of receptor sites for PTH on cells of the osteoblast phenotype. Nevertheless, it is unclear whether the diverse functions of this hormone in bone can all be attributed to its interaction with a single cell type. In this study, we have used a radioautographic method to examine the competitive binding of 125I-labeled rat PTH-(1-34) to the long bones of rats in vivo. Our studies confirm the presence of competitive binding to mature osteoblasts and the absence of significant competitive binding to multinucleated osteoclasts. However, by light and electron microscopic radioautographic analysis, the majority of specific competitive PTH binding was present over a cell in the intertrabecular space of the metaphyseal region, which was distinct from the mature osteoblast. This large mononuclear cell with multiple cytoplasmic extensions appeared to interface with both the bone matrix and the microvascular osseous circulation and may provide an additional target to mediate hormonal effects on the skeleton.

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Jane Mitchell

Evidence for light perception in a bioluminescent organ

Interaction of Calcitonin and Calcitonin Gene-Related Peptide at Receptor Sites in Target Tissues

Purification, Characterization, and Partial Amino Acid Sequence of a G Protein-activated Phospholipase C from Squid Photoreceptors

Indian hedgehog: Its roles and regulation in endochondral bone development

In VivoDistribution of Parathyroid Hormone Receptors in Bone: Evidence that a Predominant Osseous Target Cell Is Not the Mature Osteoblast*

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