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951.
Natasha B. Kelly Suzanne H. Alonzo 《Proceedings. Biological sciences / The Royal Society》2009,276(1670):3175-3183
Existing theory predicts that male signalling can be an unreliable indicator of paternal care, but assumes that males with high levels of mating success can have high current reproductive success, without providing any parental care. As a result, this theory does not hold for the many species where offspring survival depends on male parental care. We modelled male allocation of resources between advertisement and care for species with male care where males vary in quality, and the effect of care and advertisement on male fitness is multiplicative rather than additive. Our model predicts that males will allocate proportionally more of their resources to whichever trait (advertisement or paternal care) is more fitness limiting. In contrast to previous theory, we find that male advertisement is always a reliable indicator of paternal care and male phenotypic quality (e.g. males with higher levels of advertisement never allocate less to care than males with lower levels of advertisement). Our model shows that the predicted pattern of male allocation and the reliability of male signalling depend very strongly on whether paternal care is assumed to be necessary for offspring survival and how male care affects offspring survival and male fitness. 相似文献
952.
953.
Eva Forgacs Takeshi Sakamoto Suzanne Cartwright Betty Belknap Mih��ly Kov��cs Judit T��th Martin R. Webb James R. Sellers Howard D. White 《The Journal of biological chemistry》2009,284(4):2138-2149
We have determined the kinetic mechanism and motile properties of the
switch 1 mutant S217A of myosin Va. Phosphate dissociation from myosin
V-ADP-Pi (inorganic phosphate) and actomyosin V-ADP-Pi
and the rate of the hydrolysis step (myosin V-ATP → myosin
V-ADP-Pi) were all ∼10-fold slower in the S217A mutant than in
wild type (WT) myosin V, resulting in a slower steady-state rate of basal and
filamentous actin (actin)-activated ATP hydrolysis. Substrate binding and ADP
dissociation kinetics were all similar to or slightly faster in S217A than in
WT myosin V and mechanochemical gating of the rates of dissociation of ADP
between trail and lead heads is maintained. The reduction in the rate
constants of the hydrolysis and phosphate dissociation steps reduces the duty
ratio from ∼0.85 in WT myosin V to ∼0.25 in S217A and produces a motor
in which the average run length on actin at physiological concentrations of
ATP is reduced 10-fold. Thus we demonstrate that, by mutational perturbation
of the switch 1 structure, myosin V can be converted into a low duty ratio
motor that is processive only at low substrate concentrations.During the past 2 decades a considerable number of different myosins have
been discovered (1). Myosin V
is the best characterized among the so-called unconventional myosins
(i.e. those not belonging to class II), and it serves as an important
model molecule for studying actomyosin interactions and single molecule
processive motility (2). Myosin
V is a highly processive motor whose role is to transport cargo along actin
filaments or bundles inside the cell
(3–5).
The kinetic mechanism of myosin V is significantly different from that of
conventional myosins such as muscle myosin II, as it remains bound to actin
(filamentous actin) through a number of ATPase cycles
(6–8).
Myosin V has a high duty ratio: a single-headed myosin V-S1 (myosin V,
subfragment 1) is in the strongly bound AM-ADP state 80–90% of the time
during ATP hydrolysis. An additional mechanism for promoting highly processive
runs is the preferential release of ADP from the trail head because of
mechanochemical gating, which causes a drastic reduction of the rate constant
of ADP release from the lead head
(9–11).
Although there are significant differences between the ATPase mechanisms of
the different myosins, the structure of the nucleotide binding pocket
(composed of the switch 1 and 2 regions and the P-loop) is highly conserved.
The position of the Ser217 (Ser236 in
Dictyostelium myosin II) residue of the switch 1 loop (the first
serine in the NDNSSRFG sequence) is shown in
Fig. 1. It had been shown
previously by mutagenesis in Dictyostelium
(12) and in smooth muscle
myosin II (13) that the
substitution of serine 236 to alanine retains at least partial enzymatic and
motile function in these mutant myosins. Therefore, the OH group is not an
essential part of the catalytic mechanism, but the rate of steady-state ATP
hydrolysis is reduced several fold. However, neither of these studies includes
a detailed kinetic analysis to determine which steps of the catalytic
mechanism were altered by the mutation. Here we have exploited the higher
affinity of myosin V-ADP-Pi for actin to determine the effect of
the mutation on the rate constants of the product dissociation steps following
the power stroke, which could not be determined using either
Dictyostelium or smooth muscle myosin. We also conducted single
molecule motility studies using total internal reflectance fluorescence
(TIRF)5 microscopy to
determine how the changes in the kinetic mechanism affect the motile
properties of the molecule.Open in a separate windowFIGURE 1.Schematic representation of the critical residues in the ATP binding
site of myosin based on the MgADP·VO4 crystal of the
Dictyostelium motor domain (Smith and Rayment
(30)). The
serine in position 217 was mutated to alanine for these kinetic studies. The
small spheres are at the position of the oxygen of the water
molecules. 相似文献
954.
955.
Jianzhong Liu Shunqing Wang Ping Zhang Nasser Said-Al-Naief Suzanne M. Michalek Xu Feng 《The Journal of biological chemistry》2009,284(18):12512-12523
Lipopolysaccharide (LPS), a common bacteria-derived product, has long been
recognized as a key factor implicated in periodontal bone loss. However, the
precise cellular and molecular mechanisms by which LPS induces bone loss still
remains controversial. Here, we show that LPS inhibited osteoclastogenesis
from freshly isolated osteoclast precursors but stimulated osteoclast
formation from those pretreated with RANKL in vitro in tissue culture
dishes, bone slices, and a co-culture system containing osteoblasts,
indicating that RANKL-mediated lineage commitment is a prerequisite for
LPS-induced osteoclastogenesis. Moreover, the RANKL-mediated lineage
commitment is long term, irreversible, and TLR4-dependent. LPS exerts the dual
function primarily by modulating the expression of NFATc1, a master regulator
of osteoclastogenesis, in that it abolished RANKL-induced NFATc1 expression in
freshly isolated osteoclast precursors but stimulated its expression in
RANKL-pretreated cells. In addition, LPS prolonged osteoclast survival by
activating the Akt, NF-κB, and ERK pathways. Our current work has not
only unambiguously defined the role of LPS in osteoclastogenesis but also has
elucidated the molecular mechanism underlying its complex functions in
osteoclast formation and survival, thus laying a foundation for future
delineation of the precise mechanism of periodontal bone loss.LPS,2 a
common bacteria-derived product, has long been recognized as a key factor
implicated in the development of chronic periodontitis. LPS plays an important
role in periodontitis by initiating a local host response in gingival tissues
that involves recruitment of inflammatory cells, production of prostanoids and
cytokines, elaboration of lytic enzymes and activation of osteoclast formation
and function to induce bone loss
(1-3).Osteoclasts, the body''s sole bone-resorbing cells, are multinucleated giant
cells that differentiate from cells of hematopoietic lineage upon stimulation
by two critical factors: the macrophage/monocyte colony-forming factor (M-CSF)
and the receptor activator of NF-κB ligand (RANKL)
(4-6).
RANKL exerts its effects on osteoclast formation and function by binding to
its receptor, RANK (receptor activator of NF-κB) expressed on osteoclast
precursors and mature osteoclasts
(7-9).
RANKL also has a decoy receptor, osteoprotegerin, which inhibits RANKL action
by competing with RANK for binding RANKL
(10,
11).RANK is a member of the tumor necrosis factor receptor (TNFR) family
(12). Members of the TNFR
family lack intrinsic enzymatic activity, and hence they transduce
intracellular signals by recruiting various adaptor proteins including TNF
receptor-associated factors (TRAFs) through specific motifs in the cytoplasmic
domain (13,
14). It has been established
that RANK contains three functional TRAF-binding sites
(369PFQEP373, 559PVQEET564, and
604PVQEQG609) that, redundantly, play a role in
osteoclast formation and function
(15,
16). Collectively, through
these functional TRAF-binding motifs, RANK activates six major signaling
pathways, NF-κB, JNK, ERK, p38, NFATc1, and Akt, which play important
roles in osteoclast formation, function, and/or survival
(15,
17-19).
In particular, NFATc1 has been established as a master regulator of osteoclast
differentiation
(20-22).The involvement of osteoclasts in the pathogenesis of periodontal bone loss
is supported by observations that osteoclasts are physically present and
functionally involved in bone resorption in periodontal tissues
(23-27).
RANKL and RANK knockout mice develop osteopetrosis and show failure in tooth
eruption due to a lack of osteoclasts
(24,
25,
28). Moreover,
op/op mice, in which a mutation in the coding region of the
M-CSF gene generates a stop codon that leads to premature termination of
translation of M-CSF mRNA, also show osteopetrosis and failure in tooth
eruption due to a defect in osteoclast development
(26,
27).Whereas the role of osteoclasts in periodontal disease associated alveolar
bone destruction has been well established, the precise role of LPS in
osteoclastogenesis still remains controversial. The vast majority of the
previous studies demonstrated that LPS stimulates osteoclastogenesis. This is
consistent with the role that LPS, a well recognized pathogenic factor in
periodontitis, presumably plays in periodontal bone loss
(29-33).
However, two previous studies demonstrated, surprisingly, that LPS plays
bifunctional roles in osteoclastogenesis in that although it inhibits
osteoclast formation from normal osteoclast precursors, it reverses to promote
osteoclastogenesis from osteoclast precursors pretreated with RANKL
(34,
35). Given that this finding
is inconsistent with the presumed role of LPS as a pathogenic factor in
periodontal bone loss and lacks careful and further validation, the prevalent
view is still that LPS stimulates osteoclastogenesis
(1-3).
Importantly, if LPS indeed has a dual function in osteoclastogenesis, the
molecular mechanism by which LPS exerts a dual effect on osteoclastogenesis
need to be further elucidated.In the present work, using various in vitro assays, we have
demonstrated independently that LPS inhibits osteoclastogenesis from normal
osteoclast precursors but promotes the development of osteoclasts from
RANKL-pretreated cells in tissue culture dishes and bone slices in single-cell
and co-culture settings, confirming the two previous observations that LPS
play a bifunctional role in osteoclastogenesis
(34,
35). Moreover, we have further
shown that the RANKL-mediated lineage commitment is long term and irreversible
in LPS-mediated osteoclastogenesis. More importantly, we have revealed that
LPS inhibits osteoclastogenesis by suppressing NFATc1 expression and JNK
activation while it prolongs osteoclast survival by activating the Akt,
NF-κB, and ERK pathways. These studies have not only unambiguously and
precisely defined the role of LPS in osteoclastogenesis but, more importantly,
may also lead to a paradigm shift in future investigation of the molecular
mechanism of periodontal bone loss. 相似文献
956.
Uta Ulrike von Borstel Ian James Heatly Duncan Anna Kate Shoveller Katrina Merkies Linda Jane Keeling Suzanne Theresa Millman 《Applied animal behaviour science》2009,116(2-4):228-236
Rollkur, the usually coercively obtained hyperflexion of the horse's neck, is employed as a training method by some dressage riders; however, its use is controversial as it may cause discomfort and adversely affect the horse's welfare. The objectives of this study were to determine: (1) if horses showed differences in stress, discomfort and fear responses as measured by heart rate and behaviour when ridden in Rollkur (R) obtained by pressure on the reins compared to regular poll flexion (i.e. with the nose-line being at or just in front of the vertical; N), and (2) if they showed a preference between the two riding styles when given the choice. Fifteen riding horses were ridden 30 times through a Y-maze randomly alternating between sides. Riding through one arm of the Y-maze was always followed by a short round ridden in R, whereas riding through the other arm was followed by a short round ridden in N. Immediately after the conditioning phase, horses were again repeatedly ridden into the maze; however, riders left it to the horse to decide which arm of the maze to enter. During R, horses moved slower and showed more often behavioural signs of discomfort, such as tail-swishing, head-tossing or attempted bucks (P < 0.05), and 14 of the 15 horses chose significantly (P < 0.05) more often the maze-arm associated with N rather than R. Subsequently, eight of the horses were also subjected to two fear tests following a short ride in N as well as a ride in R. During R, horses tended to react stronger (P = 0.092) to the fear stimuli and to take longer (P = 0.087) to approach them. These findings indicate that a coercively obtained Rollkur position may be uncomfortable for horses and that it makes them more fearful and therefore potentially more dangerous to ride. Further studies need to assess horses’ reaction to gradual training of Rollkur, as opposed to a coercively obtained hyperflexion, in order to decide whether the practice should be banned. 相似文献
957.
David M. Conrad Suzanne J. Furlong Carolyn D. Doucette Robert T.M. Boudreau David W. Hoskin 《Cellular signalling》2009,21(8):1298-1307
Thy-1 (CD90) crosslinking by monoclonal antibodies (mAb) in the context of costimulation causes the activation of mouse T-lymphocytes; however, the associated signal transduction processes have not been studied in detail. In this study we investigated the role of mitogen-activated protein kinases (MAPKs) in Thy-1-mediated T-lymphocyte activation using mAb-coated polystyrene microspheres to crosslink Thy-1 and costimulatory CD28 on murine T-lymphocytes. Concurrent Thy-1 and CD28 crosslinking induced DNA synthesis by T-lymphocytes, as well as interleukin (IL)-2 and IL-2 receptor (IL-2R) α chain (CD25) expression. Increased phosphorylation of extracellular signal-regulated kinase (ERK) 1/2, p38 MAPK, and c-Jun N-terminal protein kinase (JNK) was also observed. Pharmacologic inhibition of ERK1/2 or JNK activation inhibited Thy-1-induced DNA synthesis and IL-2 production by T-lymphocytes. p38 MAPK inhibition also decreased DNA synthesis in Thy-1-stimulated T-lymphocytes; however, IL-2 production was increased in these cells. Inhibition of JNK, but not ERK1/2 or p38 MAPK, caused a marked reduction in Thy-1-induced CD25 expression. In addition, inhibition of p38 MAPK or JNK, but not ERK1/2, impaired the growth of IL-2-dependent CTLL-2 T-lymphocytes but did not substantially affect CD25 expression. Finally, exogenous IL-2 reversed the inhibitory effect of ERK1/2 or JNK inhibition on Thy-1-stimulated DNA synthesis by T-lymphocytes but did not substantially reverse JNK inhibition of CD25 expression. Collectively, these results suggest that during Thy-1-induced T-lymphocyte activation, ERK1/2 and JNK promoted IL-2 production whereas p38 MAPK negatively regulated IL-2 expression. JNK signalling was also required for CD25 expression. IL-2R signalling involved both p38 MAPK and JNK in CTLL-2 cells, whereas p38 MAPK was most important for IL-2R signalling in primary T-lymphocytes. MAPKs are therefore essential signalling intermediates for the Thy-1-driven proliferation of mouse T-lymphocytes. 相似文献
958.
Hong Ha Nguyen Claire Bouthier de la Tour Magali Toueille Françoise Vannier Suzanne Sommer Pascale Servant 《Molecular microbiology》2009,73(2):240-252
The nucleoid of radioresistant bacteria, including D . radiodurans , adopts a highly condensed structure that remains unaltered after exposure to high doses of irradiation. This structure may contribute to radioresistance by preventing the dispersion of DNA fragments generated by irradiation. In this report, we focused our study on the role of HU protein, a nucleoid-associated protein referred to as a histone-like protein, in the nucleoid compaction of D. radiodurans. We demonstrate, using a new system allowing conditional gene expression, that HU is essential for viability in D. radiodurans . Using a tagged HU protein and immunofluorescence microscopy, we show that HU protein localizes all over the nucleoid and that when HU is expressed from a thermosensitive plasmid, its progressive depletion at the non-permissive temperature generates decondensation of DNA before fractionation of the nucleoid into several entities and subsequent cell lysis. We also tested the effect of the absence of Dps, a protein also involved in nucleoid structure. In contrast to the drastic effect of HU depletion, no change in nucleoid morphology and cell viability was observed in dps mutants compared with the wild-type, reinforcing the major role of HU in nucleoid organization and DNA compaction in D. radiodurans . 相似文献
959.
Seung-Hwan Kim Antonia H. Holway Suzanne Wolff Andrew Dillin W. Matthew Michael 《The Journal of cell biology》2009,184(4):613-627
Yb regulates the proliferation of both germline and somatic stem cells in the Drosophila melanogaster ovary by activating piwi and hh expression in niche cells. In this study, we show that Yb protein is localized as discrete cytoplasmic spots exclusively in the somatic cells of the ovary and testis. These spots, which are different from all known cytoplasmic structures in D. melanogaster, are evenly electron-dense spheres 1.5 µm in diameter (herein termed the Yb body). The Yb body is frequently associated with mitochondria and a less electron-dense sphere of similar size that appears to be RNA rich. There are one to two Yb bodies/cell, often located close to germline cells. The N-terminal region of Yb is required for hh expression in niche cells, whereas the C-terminal region is required for localization to Yb bodies. The entire Yb protein is necessary for piwi expression in niche cells. A double mutant of Yb and a novel locus show male germline loss, revealing a function for Yb in male germline stem cell maintenance. 相似文献
960.
Activation of heterotrimeric G proteins is generally believed to induce dissociation of Gα and Gβγ subunits, which are then free to bind to and change the catalytic activity of a variety of intracellular enzymes. We have previously found that in cells, Gαq subunits remain complexed with its major effector, phospholipase Cβ1, through the activation cycle. To determine whether this behavior may be operative in other systems, we carried out Förster resonance energy transfer studies and found that eYFP-Gαi and eCFP-Gβγ remain associated after stimulation in HEK293 cells. We also found that the level of Forster resonance energy transfer between Alexa546-phospholipase Cβ2 and eGFP-Gβγ is significant and unchanged upon activation in HEK293 cells, thus showing that these proteins can localize into stable signaling complexes. To understand the basis for this stabilization, we carried out in vitro studies using a series of single-Cys mutants labeled with fluorescence tags and monitored their interaction with Gβγ subunits and changes in their fluorescence properties and accessibility upon activation and Gβγ binding. Our studies suggest a significant change in the orientation between G protein subunits upon activation that allows the G proteins to remain complexed while activating effectors. 相似文献