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81.
Windus LC Chehrehasa F Lineburg KE Claxton C Mackay-Sim A Key B St John JA 《Cellular and molecular life sciences : CMLS》2011,68(19):3233-3247
Axons of primary olfactory neurons are intimately associated with olfactory ensheathing cells (OECs) from the olfactory epithelium until the final targeting of axons within the olfactory bulb. However, little is understood about the nature and role of interactions between OECs and axons during development of the olfactory nerve pathway. We have used high resolution time-lapse microscopy to examine the growth and interactions of olfactory axons and OECs in vitro. Transgenic mice expressing fluorescent reporters in primary olfactory axons (OMP-ZsGreen) and ensheathing cells (S100ß-DsRed) enabled us to selectively analyse these cell types in explants of olfactory epithelium. We reveal here that rather than providing only a permissive substrate for axon growth, OECs play an active role in modulating the growth of pioneer olfactory axons. We show that the interactions between OECs and axons were dependent on lamellipodial waves on the shaft of OEC processes. The motility of OECs was mediated by GDNF, which stimulated cell migration and increased the apparent motility of the axons, whereas loss of OECs via laser ablation of the cells inhibited olfactory axon outgrowth. These results demonstrate that the migration of OECs strongly regulates the motility of axons and that stimulation of OEC motility enhances axon extension and growth cone activity. 相似文献
82.
Root nodule (RN) symbiosis has a unique feature in which symbiotic bacteria fix atmospheric nitrogen. The symbiosis is established
with a limited species of land plants, including legumes. How RN symbiosis evolved is still a mystery, but recent findings
on legumes genes that are necessary for RN symbiosis may give us a clue. 相似文献
83.
84.
Amiot L Ferrone S Grosse-Wilde H Seliger B 《Cellular and molecular life sciences : CMLS》2011,68(3):417-431
Although the expression of the non-classical HLA class I molecule HLA-G was first reported to be restricted to the fetal–maternal
interface on the extravillous cytotrophoblasts, the distribution of HLA-G in normal tissues appears broader than originally
described. HLA-G expression was found in embryonic tissues, in adult immune privileged organs, and in cells of the hematopoietic
lineage. More interestingly, under pathophysiological conditions HLA-G antigens may be expressed on various types of malignant
cells suggesting that HLA-G antigen expression is one strategy used by tumor cells to escape immune surveillance. In this
article, we will focus on HLA-G expression in cancers of distinct histology and its association with the clinical course of
diseases, on the underlying molecular mechanisms of impaired HLA-G expression, on the immune tolerant function of HLA-G in
tumors, and on the use of membrane-bound and soluble HLA-G as a diagnostic or prognostic biomarker to identify tumors and
to monitor disease stage, as well as on the use of HLA-G as a novel therapeutic target in cancer. 相似文献
85.
86.
In 1905, Albert Einstein proposed that the forces that cause the random Brownian motion of a particle also underlie the resistance
to macroscopic motion when a force is applied. This insight, of a coupling between fluctuation (stochastic behavior) and responsiveness
(non-stochastic behavior), founded an important branch of physics. Here we argue that his insight may also be relevant for
understanding evolved biological systems, and we present a ‘fluctuation–response relationship’ for biology. The relationship
is consistent with the idea that biological systems are similarly canalized to stochastic, environmental, and genetic perturbations.
It is also supported by in silico evolution experiments, and by the observation that ‘noisy’ gene expression is often both
more responsive and more ‘evolvable’. More generally, we argue that in biology there is (and always has been) an important
role for macroscopic theory that considers the general behavior of systems without concern for their intimate molecular details. 相似文献
87.
Hosseinkhani S 《Cellular and molecular life sciences : CMLS》2011,68(7):1167-1182
Firefly luciferase-catalyzed reaction proceeds via the initial formation of an enzyme-bound luciferyl adenylate intermediate.
The chemical origin of the color modulation in firefly bioluminescence has not been understood until recently. The presence
of the same luciferin molecule, in combination with various mutated forms of luciferase, can emit light at slightly different
wavelengths, ranging from red to yellow to green. A historical perspective of development in understanding of color emission
mechanism is presented. To explain the variation in the color of the bioluminescence, different factors have been discussed
and five hypotheses proposed for firefly bioluminescence color. On the basis of recent results, light-color modulation mechanism
of firefly luciferase propose that the light emitter is the excited singlet state of OL− [1(OL−)*], and light emission from 1(OL−)* is modulated by the polarity of the active-site environment at the phenol/phenolate terminal of the benzothiazole fragment
in oxyluciferin. 相似文献
88.
89.
90.
Khan ZU Martín-Montañez E Baxter MG 《Cellular and molecular life sciences : CMLS》2011,68(10):1737-1754
Visual perception and memory are the most important components of vision processing in the brain. It was thought that the
perceptual aspect of a visual stimulus occurs in visual cortical areas and that this serves as the substrate for the formation
of visual memory in a distinct part of the brain called the medial temporal lobe. However, current evidence indicates that
there is no functional separation of areas. Entire visual cortical pathways and connecting medial temporal lobe are important
for both perception and visual memory. Though some aspects of this view are debated, evidence from both sides will be explored
here. In this review, we will discuss the anatomical and functional architecture of the entire system and the implications
of these structures in visual perception and memory. 相似文献