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Query: EC:4.6.1.2 (
guanylate cyclase
)
8,497
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This study documents the detailed biochemical, structural, and functional identity of a novel Ca(2+)-modulated membrane
guanylate cyclase
transduction system in the inner retinal neurons. The
guanylate cyclase
is the previously characterized ROS-GC1 from the photoreceptor outer segments (PROS), and its new modulator is
neurocalcin delta
. At the membrane, the myristoylated form of
neurocalcin delta
senses submicromolar increments in free Ca(2+), binds to its specific ROS-GC1 domain, and stimulates the cyclase. Neurocalcin delta is not present in PROS, indicating the absence of the pathway in the outer segments and the dissociation of its linkage with phototransduction. Thus, the pathway is linked specifically with the visual transduction machinery in the secondary neurons of the retina. With the inclusion of this pathway, the findings broaden the understanding of the existing mechanisms showing how ROS-GC1 is able to receive and transduce diverse Ca(2+) signals into the cell-specific generation of second-messenger cyclic GMP in the retinal neurons.
...
PMID:Structural, biochemical, and functional characterization of the calcium sensor neurocalcin delta in the inner retinal neurons and its linkage with the rod outer segment membrane guanylate cyclase transduction system. 1500 6
Odorant transduction is a biochemical process by which the odorant signal generates the electric signal. The cilia of the olfactory neuroepithelium are the sites of this process. This study documents the detailed biochemical, structural and functional description of an odorant-responsive Ca2+ -modulated membrane
guanylate cyclase
transduction machinery in the cilia. Myristoylated (myr)-
neurocalcin delta
is the Ca2+ -sensor component and the cyclase, ONE-GC, the transduction component of the machinery. Myr-
neurocalcin delta
senses increments in free Ca2+, binds to a defined domain of ONE-GC and stimulates the cyclase. The findings enable the formulation of an odorant transduction model in which three pivotal signaling components--Ca2+, myr-
neurocalcin delta
and ONE-GC--of the transduction machinery are locked. A glaring feature of the model is that its Ca2+ -dependent operational principle is opposite to the phototransduction model.
...
PMID:Calcium-modulated ciliary membrane guanylate cyclase transduction machinery: constitution and operational principles. 1566 92
The Ca(2+)-modulated ONE-GC membrane
guanylate cyclase
is a central component of the cyclic GMP signaling in odorant transduction. It is a single transmembrane spanning modular protein. Its intracellular region contains Ca(2+) sensor recognition domains linked to GCAP1 and to
neurocalcin delta
, and a catalytic module. These domains sense increments in free Ca(2+) and stimulate the catalytic module. The present study makes three significant mechanistic advancements. First, to date no ligand for the extracellular (ext) domain is known, for this reason ONE-GC has been deemed as an orphan receptor. The present study identifies its ligand. Uroguanylin stimulates ONE-GC through its ext domain. Second, so far no ligand is known that directly stimulates the catalytic module of any membrane
guanylate cyclase
. The presented evidence shows that in the presence of the semimicromolar range of free Ca(2+), neurocalcin binds to the catalytic module and stimulates ONE-GC. Thus, ONE-GC has trimodal regulation, two occurring intracellularly and one extracellularly. Third, guanylin, a urine odorant, does not directly stimulate ONE-GC. This challenges the proposed hypothesis that the guanylin odorant signal occurs via ONE-GC [T. Leinders-Zufall, R.E. Cockerham, S. Michalakis, M. Biel, D.L. Garbers, R.R. Reed, F. Zufall, S.D. Munger, Contribution of the receptor
guanylyl cyclase
GC-D to chemosensory function in the olfactory epithelium, Proc. Natl. Acad. Sci. USA. 104 (2007) 14507-14512].
...
PMID:ONE-GC membrane guanylate cyclase, a trimodal odorant signal transducer. 1817 49
ROS-GC1 membrane
guanylate cyclase
is a Ca(2+) bimodal signal transduction switch. It is turned "off" by a rise in free Ca(2+) from nanomolar to the semicromolar range in the photoreceptor outer segments and the olfactory bulb neurons; by a similar rise in the bipolar and ganglion retinal neurons it is turned "on". These opposite operational modes of the switch are specified by its Ca(2+) sensing devices, respectively termed GCAPs and CD-GCAPs. Neurocalcin delta is a CD-GCAP. In the present study, the
neurocalcin delta
-modulated site, V(837)-L(858), in ROS-GC1 has been mapped. The location and properties of this site are unique. It resides within the core domain of the catalytic module and does not require the alpha-helical dimerization domain structural element (amino acids 767-811) for activating the catalytic module. Contrary to the current beliefs, the catalytic module is intrinsically active; it is directly regulated by the
neurocalcin delta
-modulated Ca(2+) signal and is dimeric in nature. A fold recognition based model of the catalytic domain of ROS-GC1 was built, and
neurocalcin delta
docking simulations were carried out to define the three-dimensional features of the interacting domains of the two molecules. These findings define a new transduction model for the Ca(2+) signaling of ROS-GC1.
...
PMID:Neurocalcin delta modulation of ROS-GC1, a new model of Ca(2+) signaling. 1850 Aug 17
In a subset of olfactory epithelium the odorant receptor
guanylate cyclase
, ONE-GC, is a central transduction component of the cyclic GMP signaling pathway. The odorant binds to the extracellular domain and activates its intracellular catalytic domain to generate the odorant second messenger, cyclic GMP. The present study demonstrates that it is a two-step, Ca(2+)-independent and Ca(2+)-dependent, sequential process. In step one, the odorant, uroguanylin, binds ONE-GC and primes it for stimulation. In step two, Ca(2+)-bound
neurocalcin delta
binds to the defined intracellular domain and saturates ONE-GC activity. A prototype model is proposed that depicts this signal transduction process.
...
PMID:Ca2+-modulated ONE-GC odorant signal transduction. 1930 80
In a subset of the olfactory sensory neurons ONE-GC($) membrane
guanylate cyclase
is a central component of two odorant-dependent cyclic GMP signaling pathways. These odorants are uroguanylin and CO(2). The present study was designed to decipher the biochemical and molecular differences between these two odorant signaling mechanisms. The study shows (1) in contrast to uroguanylin, CO(2) transduction mechanism is Ca(2+)-independent. (2) CO(2) transduction site, like that of uroguanylin-
neurocalcin delta
, resides in the core catalytic domain, aa 880-1028, of ONE-GC. (3) The site, however, does not overlap the signature
neurocalcin delta
signal transduction domain, (908)LSEPIE(913). Finally, (4) this study negates the prevailing concept that CO(2) uniquely signals ONE-GC activity (Sun et al. [19]; Guo et al. [21]). It demonstrates that it also signals the activation of photoreceptor membrane
guanylate cyclase
ROS-GC1. These results show an additional new transduction mechanism of the membrane guanylate cyclases and broaden our understanding of the molecular mechanisms by which different odorants using a single
guanylate cyclase
can regulate diverse cyclic GMP signaling pathways.
...
PMID:Distinct ONE-GC transduction modes and motifs of the odorants: Uroguanylin and CO(2). 2002 8
