Yu-Fung Lin scite author profile

Little is known about the identity of endoplasmic reticulum (ER) export signals and how they are used to regulate the number of proteins on the cell surface. Here, we describe two ER export signals that profoundly altered the steady-state distribution of potassium channels and were required for channel localization to the plasma membrane. When transferred to other potassium channels or a G protein-coupled receptor, these ER export signals increased the number of functional proteins on the cell surface. Thus, ER export of membrane proteins is not necessarily limited by folding or assembly, but may be under the control of specific export signals.

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hu-li tai shao, a gene required for ring canal formation during Drosophila oogenesis, encodes a homolog of adducin.

Lin¹,

Spradling²

1992

Genes & Development

267

218

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Drosophila females bearing mutations in a previously undescribed gene, hu-li tai shao [(hts) too little nursing], produced egg chambers that contained fewer than the normal 15 nurse cells and that usually lacked an oocyte. The cytoplasmic bridges (ring canals) interconnecting nurse cells and the oocyte appeared abnormal, and lacked associated actin rings. The hts locus was found to encode a homolog of the mammalian membrane skeletal protein adducin. During oogenesis, hts mRNA became localized at the anterior of the oocyte and was subsequently expressed in a variety of embryonic tissues. These studies suggested that Drosophila adducin is needed to assemble actin at specialized regions of cell-cell contact in developing egg chambers and may also function at other times during the Drosophila life cycle.

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Cdc37 is a molecular chaperone with specific functions in signal transduction.

Kimura¹,

Rutherford²,

Miyata³

et al. 1997

Genes Dev.

198

196

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Cdc37 is required for cyclin-dependent kinase activation and is genetically linked with the activity of several other kinases, including oncogenic v-Src, casein kinase II, MPS-1 kinase, and sevenless. Strikingly, many pathways involving Cdc37 also involve the protein chaperone Hsp90. The identification of Cdc37 as the 50-kD protein in several Hsp90-kinase complexes, together with other data, led to the recent suggestion that Cdc37 is a kinase-targeting "subunit" of Hsp90. We directly examined the effect of Cdc37 on Hsp90 functions. Rather than simply acting as an accessory factor for Hsp90, Cdc37 is itself a protein chaperone with properties remarkably similar to those of Hsp90. In vitro, Cdc37 maintains denatured [3-galactosidase in an activation-competent state without reactivating it and stabilizes mature, but unstable, casein kinase II. In vivo, Cdc37 overexpression can compensate for decreased Hsp90 function, but the proteins are not interchangeable. Cdc37 can compensate for Hspg0 in maintaining the activity of v-Src kinase but does not maintain the activity of the glucocorticoid receptor. Thus, the very similar chaperone activities of the two proteins, uncovered through in vitro analysis, diverge in vivo in specific signal transduction pathways.

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The Polar T1 Interface Is Linked to Conformational Changes that Open the Voltage-Gated Potassium Channel

Minor

Lin

Mobley

et al. 2000

Cell

179

178

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Kv voltage-gated potassium channels share a cytoplasmic assembly domain, T1. Recent mutagenesis of two T1 C-terminal loop residues implicates T1 in channel gating. However, structural alterations of these mutants leave open the question concerning direct involvement of T1 in gating. We find in mammalian Kv1.2 that gating depends critically on residues at complementary T1 surfaces in an unusually polar interface. An isosteric mutation in this interface causes surprisingly little structural alteration while stabilizing the closed channel and increasing the stability of T1 tetramers. Replacing T1 with a tetrameric coiled-coil destabilizes the closed channel. Together, these data suggest that structural changes involving the buried polar T1 surfaces play a key role in the conformational changes leading to channel opening.

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Yu-Fung Lin

Role of ER Export Signals in Controlling Surface Potassium Channel Numbers

hu-li tai shao, a gene required for ring canal formation during Drosophila oogenesis, encodes a homolog of adducin.

Cdc37 is a molecular chaperone with specific functions in signal transduction.

The Polar T1 Interface Is Linked to Conformational Changes that Open the Voltage-Gated Potassium Channel

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