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排序方式: 共有205条查询结果,搜索用时 46 毫秒
121.
Zeskind BJ Jordan CD Timp W Trapani L Waller G Horodincu V Ehrlich DJ Matsudaira P 《Nature methods》2007,4(7):567-569
We developed a deep-ultraviolet (UV) microscope capable of imaging cell mitosis and motility at 280 nm for 45 min with minimal UV-induced toxicity, and for 6 h before the onset of visible cell death in cultured human and mouse cells. Combined with computational methods that convert the intensity of each pixel into an estimate of mass, deep-UV microscopy images generate maps of nucleic acid mass, protein mass and fluorescence yield in unlabeled cells. 相似文献
122.
Masanori Bun-ya Yoshitaka Muro Toshiro Niki Jun Kondo Tatsuyuki Kamiryo 《Cell biochemistry and biophysics》2000,32(1-3):107-116
Sterol carrier protein 2 (SCP2) is a 13-kDa peroxisomal protein, identical to nonspecific lipidtransfer protein, and stimulates
various steps of cholesterol metabolism in vitro. Although the name is reminiscent of acyl carrier protein, which is involved
in fatty acid synthesis, SCP2 does not bind to lipids specifically or stoichiometrically. This protein is expressed either
as a small precursor or as a large fusion (termed SCPx) that carries at its C-terminal the complete sequence of SCP2. SCPx
exhibits 3-oxoacyl-CoA thiolase activity, as well as sterol-carrier and lipid-transfer activities. The N- and C-terminal parts
of SCPx are similar to the nematode protein P-44 and the yeast protein PXP-18, respectively. P-44, which has no SCP2 sequence,
thiolytically cleaved the side chain of bile acid intermediate at a rate comparable to that of SCPx. This, together with the
properties of other fusions with SCP2-like sequence, suggests that the SCP2 part of SCPx does not play a direct role in thiolase
reaction. PXP-18, located predominantly inside peroxisomes, is similar to SCP2 in primary structure and lipid-transfer activity,
and protects peroxisomal acyl-CoA oxidase from thermal denaturation. PXP-18 dimerized at a high temperature, formed an equimolar
complex with the oxidase subunit, and released the active enzyme from the complex when the temperature went down. This article
attempts to gain insight into the role of SPC2, and to present a model in which PXP-18, a member of the SCP2 family, functions
as a molecular chaperone in peroxisomes. 相似文献
123.
Tatsuyuki Matsudaira Yasunori Uchida Kenji Tanabe Shunsuke Kon Toshio Watanabe Tomohiko Taguchi Hiroyuki Arai 《PloS one》2013,8(7)
Retrograde transport is where proteins and lipids are transported back from the plasma membrane (PM) and endosomes to the Golgi, and crucial for a diverse range of cellular functions. Recycling endosomes (REs) serve as a sorting station for the retrograde transport and we recently identified evection-2, an RE protein with a pleckstrin homology (PH) domain, as an essential factor of this pathway. How evection-2 regulates retrograde transport from REs to the Golgi is not well understood. Here, we report that evection-2 binds to SMAP2, an Arf GTPase-activating protein. Endogenous SMAP2 localized mostly in REs and to a lesser extent, the trans-Golgi network (TGN). SMAP2 binds evection-2, and the RE localization of SMAP2 was abolished in cells depleted of evection-2. Knockdown of SMAP2, like that of evection-2, impaired the retrograde transport of cholera toxin B subunit (CTxB) from REs. These findings suggest that evection-2 recruits SMAP2 to REs, thereby regulating the retrograde transport of CTxB from REs to the Golgi. 相似文献
124.
W Li J Wang L M Coluccio P Matsudaira R J Grand 《The journal of histochemistry and cytochemistry》2000,48(1):89-94
To extend our recent observation that villin mRNA, encoding an apical microvillous protein, is dichotomously localized in the basal region of human enterocytes, we examined the localization of mRNAs for brush border myosin I (BBMI) and intestinal fimbrin (I-fim). In situ hybridization indicated that BBMI mRNA localized to the basal region of human enterocytes, whereas the mRNA for I-fim distributed diffusely. To facilitate study of potential mechanisms of mRNA targeting, we cloned a full-length cDNA for BBMI including its 5'- and 3'-untranslated regions (UTRs). This cDNA shares 86% sequence identity with bovine BBMI and 85% with rat BBMI. Sequence analysis revealed no obvious similarity between the 3'-UTRs of BBMI and villin. This study provides evidence of novel sorting pathways for intestinal microvillous cytoskeletal proteins. 相似文献
125.
126.
Pieces in the actin-severing protein puzzle 总被引:17,自引:0,他引:17
127.
128.
Tatsuyuki Takada Ian J. Okazaki Joel Moss 《Molecular and cellular biochemistry》1994,138(1-2):119-122
ADP-ribosylation is a reversible post-translational modification of proteins involving the addition of the ADP-ribose moiety of NAD to an acceptor protein or amino acid. NAD: arginine ADP-ribosyltransferase, purified from numerous animal tissues, catalyzes the transfer of ADP-ribose to an arginine residue in proteins. The reverse reaction, catalyzed by ADP-ribosylarginine hydrolase, removes ADP-ribose, regenerating free arginine. An ADP-ribosylarginine hydrolase, purified extensively from turkey erythrocytes, was a 39-kDa monomeric protein under denaturing and non-denaturing conditions, and was activated by Mg2+ and dithiothreitol. The ADP-ribose moiety was critical for substrate recognition; the enzyme hydrolyzed ADP-ribosylarginine and (2-phospho-ADP-ribosyl)arginine but not phosphoribosylarginine or ribosylarginine. The hydrolase cDNA was cloned from rat and subsequently from mouse and human brain. The rat hydrolase gene contained a 1086-base pair open reading frame, with deduced amino acid sequences identical to those obtained by amino terminal sequencing of the protein or of HPLC-purified tryptic peptides. Deduced amino acid sequences from the mouse and human hydrolase cDNAs were 94% and 83% identical, respectively to the rat. Anti-rat brain hydrolase polyclonal antibodies reacted with turkey erythrocyte, mouse and bovine brain hydrolase. The rat hydrolase, expressed inE. coli, demonstrated enhanced activity in the presence of Mg2+ and thiol, whereas the recombinant human hydrolase was stimulated by Mg2+ but was thiol-independent. In the rat and mouse enzymes, there are five cysteines in identical positions; four of the cysteines are conserved in the human hydrolase. Replacement of cysteine 108 in the rat hydrolase (not present in the human enzyme) resulted in a thiol-independent hydrolase without altering specific activity. Rabbit anti-rat brain hydrolase antibodies reacted on immunoblot with the wild-type rat hydrolase and only weakly with the mutant hydrolase. There was no immunoreactivity with either the wild-type or mutant human enzyme. Cysteine 108 in the rat and mouse hydrolase may be responsible in part for thiol-dependence as wall as antibody recognition. Based on these studies, the mammalian and avian ADP-ribosylarginine hydrolases exhibit considerable conservation in structure and function. 相似文献
129.
130.
We use a novel, microfluidics-based technique to deconstruct the classical wound healing scratch assay, decoupling the contribution of free space and cell damage on the migratory dynamics of an epithelial sheet. This method utilizes multiple laminar flows to selectively cleave cells enzymatically, and allows us to present a 'damage free' denudation. We therefore isolate the influence of free space on the onset of sheet migration. First, we observe denudation directly to measure the retraction in the cell sheet that occurs after cell-cell contact is broken, providing direct and quantitative evidence of strong tension within the sheet. We further probe the mechanical integrity of the sheet without denudation, instead using laminar flows to selectively inactivate actomyosin contractility. In both cases, retraction is observed over many cell diameters. We then extend this method and complement the enzymatic denudation with analogies to wounding, including gradients in signals associated with cell damage, such as reactive oxygen species, suspected to play a role in the induction of movement after wounding. These chemical factors are evaluated in combination with the enzymatic cleavage of cells, and are assessed for their influence on the collective migration of a non-abrasively denuded epithelial sheet. We conclude that free space alone is sufficient to induce movement, but this movement is predominantly limited to the leading edge, leaving cells further from the edge less able to move towards the wound. Surprisingly, when coupled with a gradient in ROS to simulate the chemical effects of abrasion however, motility was not restored, but further inhibited. 相似文献