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121.
Lifestyle transitions in plant pathogenic Colletotrichum fungi deciphered by genome and transcriptome analyses 总被引:8,自引:0,他引:8
RJ O'Connell MR Thon S Hacquard SG Amyotte J Kleemann MF Torres U Damm EA Buiate L Epstein N Alkan J Altmüller L Alvarado-Balderrama CA Bauser C Becker BW Birren Z Chen J Choi JA Crouch JP Duvick MA Farman P Gan D Heiman B Henrissat RJ Howard M Kabbage C Koch B Kracher Y Kubo AD Law MH Lebrun YH Lee I Miyara N Moore U Neumann K Nordström DG Panaccione R Panstruga M Place RH Proctor D Prusky G Rech R Reinhardt JA Rollins S Rounsley CL Schardl DC Schwartz N Shenoy K Shirasu UR Sikhakolli K Stüber 《Nature genetics》2012,44(9):1060-1065
122.
Gutiérrez-López MD Gilsanz A Yáñez-Mó M Ovalle S Lafuente EM Domínguez C Monk PN González-Alvaro I Sánchez-Madrid F Cabañas C 《Cellular and molecular life sciences : CMLS》2011,68(19):3275-3292
ADAM17/TACE is a metalloproteinase responsible for the shedding of the proinflammatory cytokine TNF-α and many other cell
surface proteins involved in development, cell adhesion, migration, differentiation, and proliferation. Despite the important
biological function of ADAM17, the mechanisms of regulation of its metalloproteinase activity remain largely unknown. We report
here that the tetraspanin CD9 and ADAM17 partially co-localize on the surface of endothelial and monocytic cells. In situ
proximity ligation, co-immunoprecipitation, crosslinking, and pull-down experiments collectively demonstrate a direct association
between these molecules. Functional studies reveal that treatment with CD9-specific antibodies or neoexpression of CD9 exert
negative regulatory effects on ADAM17 sheddase activity. Conversely, CD9 silencing increased the activity of ADAM17 against
its substrates TNF-α and ICAM-1. Taken together, our results show that CD9 associates with ADAM17 and, through this interaction,
negatively regulates the sheddase activity of ADAM17. 相似文献
123.
Biegel E Schmidt S González JM Müller V 《Cellular and molecular life sciences : CMLS》2011,68(4):613-634
Microbes have a fascinating repertoire of bioenergetic enzymes and a huge variety of electron transport chains to cope with
very different environmental conditions, such as different oxygen concentrations, different electron acceptors, pH and salinity.
However, all these electron transport chains cover the redox span from NADH + H+ as the most negative donor to oxygen/H2O as the most positive acceptor or increments thereof. The redox range more negative than −320 mV has been largely ignored.
Here, we have summarized the recent data that unraveled a novel ion-motive electron transport chain, the Rnf complex, that
energetically couples the cellular ferredoxin to the pyridine nucleotide pool. The energetics of the complex and its biochemistry,
as well as its evolution and cellular function in different microbes, is discussed. 相似文献
124.
Thomae AW Baltin J Pich D Deutsch MJ Ravasz M Zeller K Gossen M Hammerschmidt W Schepers A 《Cellular and molecular life sciences : CMLS》2011,68(22):3741-3756
In eukaryotes, binding of the six-subunit origin recognition complex (ORC) to DNA provides an interactive platform for the
sequential assembly of pre-replicative complexes. This process licenses replication origins competent for the subsequent initiation
step. Here, we analyze the contribution of human Orc6, the smallest subunit of ORC, to DNA binding and pre-replicative complex
formation. We show that Orc6 not only interacts with Orc1–Orc5 but also with the initiation factor Cdc6. Biochemical and imaging
experiments reveal that this interaction is required for licensing DNA replication competent. Furthermore, we demonstrate
that Orc6 contributes to the interaction of ORC with the chaperone protein HMGA1a (high mobility group protein A1a). Binding
of human ORC to replication origins is not specified at the level of DNA sequence and the functional organization of origins
is poorly understood. We have identified HMGA1a as one factor that might direct ORC to AT-rich heterochromatic regions. The
systematic analysis of the interaction between ORC and HMGA1a revealed that Orc6 interacts with the acidic C-terminus of HMGA1a
and also with its AT-hooks. Both domains support autonomous replication if targeted to DNA templates. As such, Orc6 functions
at different stages of the replication initiation process. Orc6 can interact with ORC chaperone proteins such as HMGA1a to
facilitate chromatin binding of ORC and is also an essential factor for pre-RC formation. 相似文献
125.
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128.
Translation initiation is a critical step in protein synthesis. Previously, two major mechanisms of initiation were considered
as essential: prokaryotic, based on SD interaction; and eukaryotic, requiring cap structure and ribosomal scanning. Although
discovered decades ago, cap-independent translation has recently been acknowledged as a widely spread mechanism in viruses,
which may take place in some cellular mRNA translations. Moreover, it has become evident that translation can be initiated
on the leaderless mRNA in all three domains of life. New findings demonstrate that other distinguishable types of initiation
exist, including SD-independent in Bacteria and Archaea, and various modifications of 5′ end-dependent and internal initiation
mechanisms in Eukarya. Since translation initiation has developed through the loss, acquisition, and modification of functional
elements, all of which have been elevated by competition with viral translation in a large number of organisms of different
complexity, more variation in initiation mechanisms can be anticipated. 相似文献
129.
130.
Rodríguez-Muñoz M Sánchez-Blázquez P Vicente-Sánchez A Bailón C Martín-Aznar B Garzón J 《Cellular and molecular life sciences : CMLS》2011,68(17):2933-2949
A series of pharmacological and physiological studies have demonstrated the functional cross-regulation between MOR and NMDAR.
These receptors coexist at postsynaptic sites in midbrain periaqueductal grey (PAG) neurons, an area implicated in the analgesic
effects of opioids like morphine. In this study, we found that the MOR-associated histidine triad nucleotide-binding protein
1 (HINT1) is essential for maintaining the connection between the NMDAR and MOR. Morphine-induced analgesic tolerance is prevented
and even rescued by inhibiting PKC or by antagonizing NMDAR. However, in the absence of HINT1, the MOR becomes supersensitive
to morphine before suffering a profound and lasting desensitization that is refractory to PKC inhibition or NMDAR antagonism.
Thus, HINT1 emerges as a key protein that is critical for sustaining NMDAR-mediated regulation of MOR signaling strength.
Thus, HINT1 deficiency may contribute to opioid-intractable pain syndromes by causing long-term MOR desensitization via mechanisms
independent of NMDAR. 相似文献