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排序方式: 共有165条查询结果,搜索用时 15 毫秒
21.
Kjetill S Jakobsen Torstein Tengs Andreas Vatne Holly A Bowers David W Oldach JoAnn M Burkholder Howard B Glasgow Parke A Rublee Dag Klaveness 《Proceedings. Biological sciences / The Royal Society》2002,269(1487):211-214
Several dinoflagellate strains of the genus Pfiesteria were isolated by culturing techniques from sediment samples taken in the Oslofjord region of Norway. Pfiesteria piscicida, well known as a fish killer from the Atlantic coast of America, was identified by genetic methods and light microscopy. The related species Pfiesteria shumwayae was attracted from the sediment by the presence of fish, and has proved toxic. This present survey demonstrates the wide distribution of these potentially harmful species, but so far they have not been connected with fish kills in Europe. 相似文献
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The structural features which determine interaction of safrole and related methylenedioxyphenyl compounds with cytochromes P-450 or P-448, and determine the induction of these two classes of the cytochrome, have been studied. All methylenedioxyphenyl compounds studied interact with both cytochromes P-450 and P-448 eliciting type I spectral changes and it has been found that the allyl 4-substituent is important in these interactions. Methylenedioxyphenyl compounds with an oxidised allyl 4-substituent exhibited higher affinity for cytochrome P-448 while those possessing an intact allyl or methylvinyl group generally showed higher affinity for cytochrome P-450. Compounds possessing intact allyl and methylenedioxyphenyl groups (safrole, isosafrole and myristicine) were the most potent inducers of cytochromes P-450 and P-448; compounds containing an intact allyl group only (estragole, allybenzene and eugenol methyl ether) or an oxidized allyl group and an intact methylenedioxyphenyl group (epoxysafrole) were inducers of P-448 only. 相似文献
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29.
Vinodh B. Kurella Jessica M. Richard Courtney L. Parke Louis F. LeCour Jr. Henry D. Bellamy David K. Worthylake 《The Journal of biological chemistry》2009,284(22):14857-14865
IQGAP1 is a 190-kDa molecular scaffold containing several domains required
for interaction with numerous proteins. One domain is homologous to Ras
GTPase-activating protein (GAP) domains. However, instead of accelerating
hydrolysis of bound GTP on Ras IQGAP1, using its GAP-related domain (GRD)
binds to Cdc42 and Rac1 and stabilizes their GTP-bound states. We report here
the crystal structure of the isolated IQGAP1 GRD. Despite low sequence
conservation, the overall structure of the GRD is very similar to the GAP
domains from p120 RasGAP, neurofibromin, and SynGAP. However, instead of the
catalytic “arginine finger” seen in functional Ras GAPs, the GRD
has a conserved threonine residue. GRD residues 1099–1129 have no
structural equivalent in RasGAP and are seen to form an extension at one end
of the molecule. Because the sequence of these residues is highly conserved,
this region likely confers a functionality particular to IQGAP family GRDs. We
have used isothermal titration calorimetry to demonstrate that the isolated
GRD binds to active Cdc42. Assuming a mode of interaction similar to that
displayed in the Ras-RasGAP complex, we created an energy-minimized model of
Cdc42·GTP bound to the GRD. Residues of the GRD that contact Cdc42 map
to the surface of the GRD that displays the highest level of sequence
conservation. The model indicates that steric clash between threonine 1046
with the phosphate-binding loop and other subtle changes would likely disrupt
the proper geometry required for GTP hydrolysis.The small GTPase Ras functions as a binary switch in cell signaling
processes. When bound to GTP, Ras is able to interact with effector proteins,
including Raf kinase, and alter their activities. Ras signaling is terminated
when bound GTP is hydrolyzed to GDP and inorganic phosphate. The basal rate of
GTP hydrolysis on Ras is quite slow (∼1.2 × 10–4
s–1), but this rate of hydrolysis can be enhanced
∼105-fold by interaction with a GTPase-activating protein
(GAP)2
(1). Several RasGAPs have been
identified to date including p120 RasGAP and neurofibromin (NF1). The Rho
family of Ras-related small GTPases also function as binary switches in cell
signaling processes. Whereas the intrinsic rate of GTP hydrolysis on Rho
proteins is faster than Ras, this rate can also be stimulated by interaction
with a RhoGAP. Examination of the structures of the GAP domains of p120RasGAP
(2), neurofibromin
(3), SynGAP
(4), and the GAP domains from
the RhoGAPs p50 RhoGAP and the Bcr homology domain of phosphatidylinositol
3-kinase (5,
6) indicates that although
ostensibly different, these all-helical domains are structurally related
(7).IQGAP1 was discovered by chance during an attempt to isolate novel matrix
metalloproteinases (8).
Analysis reveals that the protein contains several discrete domains and motifs
including a region containing four isoleucine- and glutamine-rich motifs (IQ
repeats) and a region with sequence homology to the Ras-specific GAP domains
of p120RasGAP, NF1, and SynGAP
(2–4,
8). Subsequently, two homologs,
IQGAP2 and IQGAP3, have been discovered. The IQ repeats have been shown to
mediate binding to calmodulin and calmodulin-like proteins (e.g.
S100, myosin essential light chain), whereas the GAP-related domain (GRD) does
not appear to bind to Ras but instead is necessary for binding to the Rho
family GTPases Cdc42 and Rac1, primarily in their active forms
(9–11).
However, instead of accelerating hydrolysis of GTP, IQGAP1 preserves the
activated states of Cdc42 and Rac1 to the extent that overexpression of IQGAP1
in cells increases the levels of active GTPase
(12). Because IQGAP1
expression increases the level of activated Cdc42, initially there was some
confusion as to whether the protein might not represent a novel guanine
nucleotide exchange factor. However it now appears that IQGAP1 is an effector
of Cdc42 and Rac1 and preserves their activated states by tightly binding to
the GTPases and stabilizing them in a conformation not conducive to GTP
hydrolysis. IQGAP1 appears to be such an important effector for Cdc42 that
abrogation of binding to IQGAP1 not only reduces the levels of active Cdc42,
it also reduces membrane-localized Cdc42 and the cellular response to
bradykinin (12).A growing body of evidence implicates IQGAP1 in carcinogenesis. Expression
of IQGAP1 increases during the transition from a minimally to a highly
metastastic form of melanoma, and IQGAP1 has been found to be overexpressed in
ovarian, breast, lung, and colorectal cancers
(13–17).
In vitro, overexpressed IQGAP1 enhances cell motility and
invasiveness in a process that requires Cdc42 and Rac
(18). β-Catenin is one of
the many binding partners of IQGAP1 identified to date. IQGAP1 has been shown
to bind to β-catenin and interfere with β-catenin binding to
α-catenin, an interaction necessary for stable cell-cell adhesion
(19). Another study found that
IQGAP2 knock-out mice overexpress IQGAP1 and developage-dependent liver cancer
and apoptosis (20).To better understand how a protein domain homologous to others that
accelerate GTP hydrolysis can function as an effector and preserve the
GTP-bound state, we have determined the x-ray structure of the IQGAP1 GRD.
Despite low sequence identity, the GRD structure is quite similar to the GAP
domains of p120, neurofibromin, and SynGAP; however, unlike those domains, the
GRD possesses a conserved threonine in place of the catalytic arginine finger
and has a 31-residue insertion that projects from one end of the molecule.
Using the coordinates of Ras·GDP·AlF3 in complex with
the GAP domain of p120, we built a model of Cdc42·GTP bound to the GRD.
The model indicates that a steric clash between the conserved
Thr1046 and the phosphate-binding loop of Cdc42 and other subtle
changes within the active site would likely preclude nucleotide hydrolysis.
Sequence conservation mapped to the surface of the GRD indicates that the
surface with the highest degree of conservation overlaps with the surface that
makes contacts to Cdc42 in the model. 相似文献
30.
Jessie Lilly Hannele H. Honkanen Jessica R. Rodger Diego del Villar Patrick Boylan Amy Green Diego Pereiro Lorna Wilkie Richard Kennedy Andrea Barkley Robert Rosell Niall Ó. Maoiléidigh Ross O'Neill Catherine Waters Deirdre Cotter David Bailey William Roche Ross McGill James Barry Samantha V. Beck Jim Henderson Debbie Parke Frederick G. Whoriskey Brian Shields Philip Ramsden Silas Walton Melanie Fletcher Ken Whelan Colin W. Bean Sophie Elliott Adrian Bowman Colin E. Adams 《Journal of fish biology》2024,104(1):265-283
The freshwater phase of the first seaward migration of juvenile Atlantic salmon (Salmo salar) is relatively well understood when compared with our understanding of the marine phase of their migration. In 2021, 1008 wild and 60 ranched Atlantic salmon smolts were tagged with acoustic transmitters in 12 rivers in England, Scotland, Northern Ireland and Ireland. Large marine receiver arrays were deployed in the Irish Sea at two locations: at the transition of the Irish Sea into the North Atlantic between Ireland and Scotland, and between southern Scotland and Northern Ireland, to examine the early phase of the marine migration of Atlantic salmon smolts. After leaving their natal rivers' post-smolt migration through the Irish Sea was rapid with minimum speeds ranging from 14.03 to 38.56 km.day−1 for Atlantic salmon smolts that entered the Irish Sea directly from their natal river, to 9.69–39.94 km.day−1 for Atlantic salmon smolts that entered the Irish Sea directly from their natal estuary. Population minimum migration success through the study area was strongly correlated with the distance of travel, populations further away from the point of entry to the open North Atlantic exhibited lower migration success. Post-smolts from different populations experienced different water temperatures on entering the North Atlantic. This was largely driven by the timing of their migration and may have significant consequences for feeding and ultimately survivorship. The influence of water currents on post-smolt movement was investigated using data from previously constructed numerical hydrodynamic models. Modeled water current data in the northern Irish Sea showed that post-smolts had a strong preference for migrating when the current direction was at around 283° (west-north-west) but did not migrate when exposed to strong currents in other directions. This is the most favorable direction for onward passage from the Irish Sea to the continental shelf edge current, a known accumulation point for migrating post-smolts. These results strongly indicate that post-smolts migrating through the coastal marine environment are: (1) not simply migrating by current following (2) engage in active directional swimming (3) have an intrinsic sense of their migration direction and (4) can use cues other than water current direction to orientate during this part of their migration. 相似文献