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61.
How can a microorganism adapt to a variety of environmental conditions despite the existence of a limited number of signal transduction mechanisms? We show that for any growing cells whose gene expression fluctuate stochastically, the adaptive cellular state is inevitably selected by noise, even without a specific signal transduction network for it. In general, changes in protein concentration in a cell are given by its synthesis minus dilution and degradation, both of which are proportional to the rate of cell growth. In an adaptive state with a higher growth speed, both terms are large and balanced. Under the presence of noise in gene expression, the adaptive state is less affected by stochasticity since both the synthesis and dilution terms are large, while for a nonadaptive state both the terms are smaller so that cells are easily kicked out of the original state by noise. Hence, escape time from a cellular state and the cellular growth rate are negatively correlated. This leads to a selection of adaptive states with higher growth rates, and model simulations confirm this selection to take place in general. The results suggest a general form of adaptation that has never been brought to light—a process that requires no specific mechanisms for sensory adaptation. The present scheme may help explain a wide range of cellular adaptive responses including the metabolic flux optimization for maximal cell growth. 相似文献
62.
63.
Zhipeng Wang Yuhei Nishimura Yasuhito Shimada Noriko Umemoto Minoru Hirano Liqing Zang Takehiko Oka Chikara Sakamoto Junya Kuroyanagi Toshio Tanaka 《Gene》2009
Beta adrenergic receptors (β-ARs) are members of the G-protein-coupled receptor superfamily and mediate various physiological processes in many species. The expression patterns and functions of β-ARs in zebrafish are, however, largely unknown. We have identified zebrafish β-AR orthologs, which we have designated as adrb1, adrb2a, adrb2b, adrb3a and adrb3b. adrb1 was found to be expressed in the heart and brain. Expression of adrb2a predominated in the brain and skin, whereas adrb2b was found to be highly expressed in muscle, pancreas and liver. Both adrb3a and adrb3b were exclusively expressed in blood. Knock-down of these β-ARs by morpholino oligonucleotides revealed a functional importance of adrb2a in pigmentation. Expression of atp5a1 and atp5b, genes that encode subunits of F1F0-ATPase, which is known to be involved in pigmentation, was significantly increased by knock-down of adrb2a. Our data suggest that adrb2a may regulate pigmentation, partly by modulating F1F0-ATPase. 相似文献
64.
Yuusuke Maruyama Toshihiko Ogura Kazuhiro Mio Kenta Kato Takeshi Kaneko Shigeki Kiyonaka Yasuo Mori Chikara Sato 《The Journal of biological chemistry》2009,284(20):13676-13685
The Ca2+ release-activated Ca2+ channel is a
principal regulator of intracellular Ca2+ rise, which conducts
various biological functions, including immune responses. This channel,
involved in store-operated Ca2+ influx, is believed to be composed
of at least two major components. Orai1 has a putative channel pore and
locates in the plasma membrane, and STIM1 is a sensor for luminal
Ca2+ store depletion in the endoplasmic reticulum membrane. Here we
have purified the FLAG-fused Orai1 protein, determined its tetrameric
stoichiometry, and reconstructed its three-dimensional structure at 21-Å
resolution from 3681 automatically selected particle images, taken with an
electron microscope. This first structural depiction of a member of the Orai
family shows an elongated teardrop-shape 150Å in height and 95Å in
width. Antibody decoration and volume estimation from the amino acid sequence
indicate that the widest transmembrane domain is located between the round
extracellular domain and the tapered cytoplasmic domain. The cytoplasmic
length of 100Å is sufficient for direct association with STIM1. Orifices
close to the extracellular and intracellular membrane surfaces of Orai1 seem
to connect outside the molecule to large internal cavities.Ca2+ is an intracellular second messenger that plays important
roles in various physiological functions such as immune response, muscle
contraction, neurotransmitter release, and cell proliferation. Intracellular
Ca2+ is mainly stored in the endoplasmic reticulum
(ER).2 This ER system
is distributed through the cytoplasm from around the nucleus to the cell
periphery close to the plasma membrane. In non-excitable cells, the ER
releases Ca2+ through the inositol 1,4,5-trisphosphate
(IP3) receptor channel in response to various signals, and the
Ca2+ store is depleted. Depletion of Ca2+ then induces
Ca2+ influx from outside the cell to help in refilling the
Ca2+ stores and to continue Ca2+ rise for several
minutes in the cytoplasm (1,
2). This Ca2+ influx
was first proposed by Putney
(3) and was named
store-operated Ca2+ influx. In the immune system, store-operated
Ca2+ influx is mainly mediated by the Ca2+
release-activated Ca2+ (CRAC) current, which is a highly
Ca2+-selective inwardly rectified current with low conductance
(4,
5). Pathologically, the loss of
CRAC current in T cells causes severe combined immunodeficiency
(6) where many Ca2+
signal-dependent gene expressions, including cytokines, are interrupted
(7). Therefore, CRAC current is
necessary for T cell functions.Recently, Orai1 (also called CRACM1) and STIM1 have been physiologically
characterized as essential components of the CRAC channel
(8–12).
They are separately located in the plasma membrane and in the ER membrane;
co-expression of these proteins presents heterologous CRAC-like currents in
various types of cells (10,
13–15).
Both of them are shown to be expressed ubiquitously in various tissues
(16–18).
STIM1 senses Ca2+ depletion in the ER through its EF hand motif
(19) and transmits a signal to
Orai1 in the plasma membrane. Although Orai1 is proposed as a regulatory
component for some transient receptor potential canonical channels
(20,
21), it is believed from the
mutation analyses to be the pore-forming subunit of the CRAC channel
(8,
22–24).
In the steady state, both Orai1 and STIM1 molecules are dispersed in each
membrane. When store depletion occurs, STIM1 proteins gather into clusters to
form puncta in the ER membrane near the plasma membrane
(11,
19). These clusters then
trigger the clustering of Orai1 in the plasma membrane sites opposite the
puncta (25,
26), and CRAC channels are
activated (27).Orai1 has two homologous genes, Orai2 and Orai3
(8). They form the Orai family
and have in common the four transmembrane (TM) segments with relatively large
N and C termini. These termini are demonstrated to be in the cytoplasm,
because both N- and C-terminally introduced tags are immunologically detected
only in the membrane-permeabilized cells
(8,
9). The subunit stoichiometry
of Orai1 is as yet controversial: it is believed to be an oligomer, presumably
a dimer or tetramer even in the steady state
(16,
28–30).Despite the accumulation of biochemical and electrophysiological data,
structural information about Orai1 is limited due to difficulties in
purification and crystallization. In this study, we have purified Orai1 in its
tetrameric form and have reconstructed the three-dimensional structure from
negatively stained electron microscopic (EM) images. 相似文献
65.
Katsunori Yoshikawa Tadamasa Tanaka Chikara Furusawa Keisuke Nagahisa Takashi Hirasawa & Hiroshi Shimizu 《FEMS yeast research》2009,9(1):32-44
We quantified the growth behavior of all available single gene deletion strains of budding yeast under ethanol stress. Genome-wide analyses enabled the extraction of the genes and determination of the functional categories required for growth under this condition. Statistical analyses revealed that the growth of 446 deletion strains under stress induced by 8% ethanol was defective. We classified these deleted genes into known functional categories, and found that many were important for growth under ethanol stress including several categories that have not been characterized, such as peroxisome. We also performed genome-wide screening under osmotic stress and identified 329 osmotic-sensitive strains. We excluded these strains from the 446 ethanol-sensitive strains to extract the genes whose deletion caused sensitivity to ethanol-specific (359 genes), osmotic-specific (242 genes), and both stresses (87 genes). We also extracted the functional categories that are specifically important for growth under ethanol stress. The genes and functional categories identified in the analysis might provide clues to improving ethanol stress tolerance among yeast cells. 相似文献
66.
The relevance of phenotype fluctuations among clones (i.e., organisms with identical genes) to evolution has recently been recognized both theoretically and experimentally. By considering the stability of the distributions of genetic variations and phenotype fluctuations, we derive a general inequality between the phenotype variance due to genetic differences and the intrinsic phenotype variance of clones. For a given mutation rate, an approximately linear relationship between the two is obtained which elucidates the consistency between the fundamental theorem of natural selection by Fisher and the evolutionary fluctuation-response relationship (fluctuation dissipation theorem) proposed recently. A general condition for the error catastrophe is also derived as the violation of the inequality, which sets up the limit to the speed of stable evolution. All of these theoretical results are confirmed by a numerical evolution experiment of a cell that consists of a catalytic reaction network. Based on the relationships proposed here, relevance of the phenotypic plasticity to evolution as well as the genetic assimilation is discussed. 相似文献
67.
68.
Abe C Kawada T Sugimachi M Morita H 《Journal of applied physiology (Bethesda, Md. : 1985)》2011,111(6):1614-1621
To examine a cooperative role for the baroreflex and the vestibular system in controlling arterial pressure (AP) during voluntary postural change, AP was measured in freely moving conscious rats, with or without sinoaortic baroreceptor denervation (SAD) and/or peripheral vestibular lesion (VL). Voluntary rear-up induced a slight decrease in AP (-5.6 ± 0.8 mmHg), which was significantly augmented by SAD (-14.7 ± 1.0 mmHg) and further augmented by a combination of VL and SAD (-21 ± 1.0 mmHg). Thus we hypothesized that the vestibular system sensitizes the baroreflex during postural change. To test this hypothesis, open-loop baroreflex analysis was conducted on anesthetized sham-treated and VL rats. The isolated carotid sinus pressure was increased stepwise from 60 to 180 mmHg while rats were placed horizontal prone or in a 60° head-up tilt (HUT) position. HUT shifted the carotid sinus pressure-sympathetic nerve activity (SNA) relationship (neural arc) to a higher SNA, shifted the SNA-AP relationship (peripheral arc) to a lower AP, and, consequently, moved the operating point to a higher SNA while maintaining AP (from 113 ± 5 to 114 ± 5 mmHg). The HUT-induced neural arc shift was completely abolished in VL rats, whereas the peripheral arc shifted to a lower AP and the operating point moved to a lower AP (from 116 ± 3 to 84 ± 5 mmHg). These results indicate that the vestibular system elicits sympathoexcitation, shifting the baroreflex neural arc to a higher SNA and maintaining AP during HUT. 相似文献
69.
Kim J Hirasawa T Saito M Furusawa C Shimizu H 《Applied microbiology and biotechnology》2011,91(1):143-151
Glutamate overproduction by Corynebacterium glutamicum is triggered by treatment with penicillin or Tween 40 and is accompanied by a decrease in 2-oxoglutarate dehydrogenase complex
(ODHC) activity. We have reported that de novo synthesis of OdhI, which inhibits ODHC activity by interacting specifically
with the E1o subunit of ODHC (OdhA), is induced by penicillin, and that odhI overexpression induces glutamate overproduction in the absence of any triggers for glutamate overproduction. In this study,
to determine the function of OdhI in glutamate overproduction by C. glutamicum, changes in OdhI levels and phosphorylation status during penicillin- and Tween 40-induced glutamate overproduction were
examined by western blot. The synthesis of both unphosphorylated and phosphorylated OdhI was increased by addition of Tween
40 or penicillin and the levels of unphosphorylated OdhI, which can inhibit ODHC activity, was significantly higher than those
of phosphorylated OdhI, which is unable to inhibit ODHC activity. Meanwhile, the OdhA levels were maintained throughout the
culture. These results indicate that OdhI synthesis is induced by additions of penicillin and Tween 40 and most synthesized
OdhI is unphosphorylated, resulting in the decrease in ODHC activity and glutamate overproduction. Similarly, in the odhI-overexpressing strain, both unphosphorylated and phosphorylated OdhI were synthesized, while the levels of OdhA were nearly
constant throughout culture. Our results suggest that high level of unphosphorylated OdhI regulates glutamate overproduction
by C. glutamicum. 相似文献
70.