W.J. de Grip scite author profile

We have identified an opsin, melanopsin, in photosensitive dermal melanophores of Xenopus laevis. Its deduced amino acid sequence shares greatest homology with cephalopod opsins. The predicted secondary structure of melanopsin indicates the presence of a long cytoplasmic tail with multiple putative phosphorylation sites, suggesting that this opsin's function may be finely regulated. Melanopsin mRNA is expressed in hypothalamic sites thought to contain deep brain photoreceptors and in the iris, a structure known to be directly photosensitive in amphibians. Melanopsin message is also localized in retinal cells residing in the outermost lamina of the inner nuclear layer where horizontal cells are typically found. Its expression in retinal and nonretinal tissues suggests a role in vision and nonvisual photoreceptive tasks, such as photic control of skin pigmentation, pupillary aperture, and circadian and photoperiodic physiology.Photopigments consist of an integral membrane apoprotein, opsin, that is covalently linked to a retinaldehyde chromophore. Upon illumination, the chromophore is photoisomerized, forcing a conformational change in the surrounding opsin and subsequently initiating an intracellular signaling cascade. The conversion of light into neural signals within photoreceptor cells of the retina is the best studied example of opsin-mediated signaling.Dermal melanophores of Xenopus laevis, like retinal photoreceptors, are photosensitive (1). When maintained in vitro, the melanosomes in dermal melanophores migrate to the cellular periphery in response to illumination (2) or the activation of a wide variety of G protein-coupled receptors (3). The melanophore response to these agents has led to the development of innovative systems for studying functional interactions between ligands and their receptors (4, 5). Melanophore photosensitivity is reversibly activated by retinaldehydes (6) and has an action spectrum characteristic of opsinlike photopigments (2). In an effort to identify an opsin that may regulate melanosome migration, we have analyzed protein extracts of cultured melanophores for opsin immunoreactivity and screened a melanophore cDNA library for opsin-like nucleotide sequences. MATERIALS AND METHODSWestern Blot. Approximately 10 5 cultured Xenopus laevis dermal melanophores were washed twice with 1ϫ calcium-and magnesium-free Dulbecco's phosphate buffer and lysed with lysis buffer [1% IGEPAL CA-630 (Sigma)͞0.2 M NaBH 3 CN͞1 mM phenylmethylsulfonyl fluoride͞aprotinin (0.1 trypsin inhibitor unit͞ml)͞5 mM EDTA͞0.086 M NaC 2 H 3 O 2 , pH 5.0, 4°C]. A homogenate of one early postmetamorphic adult eye was also extracted as above. Lysates were centrifuged and the supernatants subjected to SDS͞PAGE analysis and subsequent electroblotting onto a poly(vinylidene difluoride) membrane. The blot was probed with a 1:2,000 dilution of antisera (CERN 886) raised against bovine rhodopsin and detected by enhanced chemiluminescence.cDNA Library Screen. A X. laevis dermal melanophore oligo(dT) cDNA library was...

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Survival of red blood cells after transfusion: a comparison between red cells concentrates of different storage periods

Luten

Roerdinkholder-Stoelwinder

et al. 2008

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The mean 24-hour PTR of both SS and LS RBCs complies with the guidelines, even in a compromised patient population. The 24-hour PTR of SS RBCs, however, is significantly higher than that of LS RBCs. The remaining population of SS and LS RBCs has a nearly identical long-term survival. Therefore, depletion of the removal-prone RBCs before transfusion may be an efficient approach for product improvement.

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The proteome of red cell membranes and vesicles during storage in blood bank conditions

et al. 2008

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The results of this analysis indicate that the storage-related changes in the RBC membrane are the results of disturbance and/or acceleration of physiologic processes such as cellular aging, including vesicle formation. The latter may serve to remove damaged membrane patches that would otherwise lead to accelerated RBC removal. These data provide a framework for future studies toward the development of better storage conditions and a reduction of the side effects of RBC transfusion.

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W.J. de Grip

Melanopsin: An opsin in melanophores, brain, and eye

Survival of red blood cells after transfusion: a comparison between red cells concentrates of different storage periods

The proteome of red cell membranes and vesicles during storage in blood bank conditions

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