Tae H. Ji scite author profile

Environmentally friendly toxins of Bacillus thuringiensis are effective in controlling agriculturally and biomedically harmful insects. However, little is known about the insect receptor molecules that bind these toxins and the mechanism of insecticidal activity. We report here for the first time the cloning and expression of a cDNA that encodes a receptor (BT-R1) of the tobacco hornworm Manduca sexta for an insecticidal toxin of B. thuringiensis. The receptor is a 210-kDa membrane glycoprotein that specifically binds the cryIA(b) toxin of B. thuringiensis subsp. berliner and leads to death of the hornworm. BT-R1 shares sequence similarity with the cadherin superfamily of proteins.

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Rescue of defective G protein–coupled receptor function in vivo by intermolecular cooperation

Rivero-Müller

Chou

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

188

141

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G protein–coupled receptors (GPCRs) are ubiquitous mediators of signaling of hormones, neurotransmitters, and sensing. The old dogma is that a one ligand/one receptor complex constitutes the functional unit of GPCR signaling. However, there is mounting evidence that some GPCRs form dimers or oligomers during their biosynthesis, activation, inactivation, and/or internalization. This evidence has been obtained exclusively from cell culture experiments, and proof for the physiological significance of GPCR di/oligomerization in vivo is still missing. Using the mouse luteinizing hormone receptor (LHR) as a model GPCR, we demonstrate that transgenic mice coexpressing binding-deficient and signaling-deficient forms of LHR can reestablish normal LH actions through intermolecular functional complementation of the mutant receptors in the absence of functional wild-type receptors. These results provide compelling in vivo evidence for the physiological relevance of intermolecular cooperation in GPCR signaling.

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[51] Bifunctional reagents

Ji¹

1983

154

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Cross-linking of fibronectin to sulfated proteoglycans at the cell surface

Perkins

Hynest³

1979

Cell

222

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Kalirin is Under-Expressed in Alzheimer's Disease Hippocampus

Youn

Jeoung

Koo

et al. 2007

JAD

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The application of chemical crosslinking for studies on cell membranes and the identification of surface reporters

1979

Biochimica et Biophysica Acta (BBA) - Reviews on Biomembranes

192

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Structure of the Luteinizing Hormone Receptor Gene and Multiple Exons of the Coding Sequence*

et al. 1991

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The genomic structure of the LH receptor is important to our understanding of its expression mechanisms, functional domains, relationships with other hormone receptors, and evolution. We have isolated four overlapping cosmid clones and six subgenomic clones of the rat LH receptor gene. They span a total of 95.6 kilobases (kb) and extend from 23 kb upstream of the translation start site to 13 kb down-stream of the stop codon. In addition, part of the human LH receptor gene has been isolated. The coding region of the rat hormone receptor gene spans over 60 kb and consists of 11 exons and 10 introns. Southern blots hybridized with exon 1 and exon 11 probes as well as gene dose analyses demonstrate that a single copy gene encodes the rat LH receptor. Sequence comparison suggests that the porcine and human LH receptor genes have similar, if not identical, exon-intron structures. There is no consensus cAMP-responsive element within 600 basepairs up-stream of the translation start site in spite of the cAMP responsiveness of the LH receptor gene. There are, however, unconventional cAMP-responsive elements in the region: one which is identical, several which are homologous to the activating protein-2-binding elements, CCCCAGGC, and several sequences which are similar to the G-rich cAMP-responsive element found in P450c21, a steroid 21-hydroxylase. The first 10 exons encode the N-terminal half of the molecule, while exon 11 encodes the C-terminal half of the molecule. This last exon is the same in the rat and human genes. The DNA and amino acid sequences of the first 10 exons show significant similarities and reveal repetitive sequence motifs. They have similar sizes which occur in the range of 69 and 183 bases; 8 of them are from 69-81 bases. Despite these remarkable similarities, structural predictions of exons 1-10 show a diversity of structures. The N-terminal half of the LH receptor appears to have a folded structure, with frequent turns and an extensive surface area. Part of the surface is predicted to be covered by amphiphilic helices and beta structures, types of secondary structure frequently found at the interfaces between subunits or between 2 interacting molecules. The introns dividing these exons also share many similarities.(ABSTRACT TRUNCATED AT 400 WORDS)

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Tae H. Ji

G Protein-coupled Receptors

Cloning and Expression of a Receptor for an Insecticidal Toxin of Bacillus thuringiensis

Rescue of defective G protein–coupled receptor function in vivo by intermolecular cooperation

[51] Bifunctional reagents

Cross-linking of fibronectin to sulfated proteoglycans at the cell surface

Kalirin is Under-Expressed in Alzheimer's Disease Hippocampus

The application of chemical crosslinking for studies on cell membranes and the identification of surface reporters

Structure of the Luteinizing Hormone Receptor Gene and Multiple Exons of the Coding Sequence*

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