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排序方式: 共有170条查询结果,搜索用时 15 毫秒
101.
Rosche E Blackmore D Tegeder M Richardson T Schroeder H Higgins TJ Frommer WB Offler CE Patrick JW 《The Plant journal : for cell and molecular biology》2002,30(2):165-175
During the storage phase, cotyledons of developing pea seeds are nourished by nutrients released to the seed apoplasm by their maternal seed coats. Sucrose is transported into pea cotyledons by sucrose/H+ symport mediated by PsSUT1 and possibly other sucrose symporters. PsSUT1 is principally localised to plasma membranes of cotyledon epidermal and subepidermal transfer cells abutting the seed coat. We tested the hypothesis that endogenous sucrose/H+ symporter(s) regulate sucrose import into developing pea cotyledons. This was done by supplementing their transport activity with a potato sucrose symporter (StSUT1), selectively expressed in cotyledon storage parenchyma cells under control of a vicilin promoter. In segregating transgenic lines, enhanced [(14)C]sucrose influx into cotyledons above wild-type levels was found to be dependent on StSUT1 expression. The transgene significantly increased (approximately 2-fold) transport activity of cotyledon storage parenchyma tissues where it was selectively expressed. In contrast, sucrose influx into whole cotyledons through the endogenous epidermal transfer cell pathway was increased by only 23% in cotyledons expressing the transgene. A similar response was found for rates of biomass gain by intact cotyledons and by excised cotyledons cultured on a sucrose medium. These observations demonstrate that transport activities of sucrose symporters influence cotyledon growth rates. The attenuated effect of StSUT1 overexpression on sucrose and dry matter fluxes by whole cotyledons is consistent with a large proportion of sucrose being taken up at the cotyledonary surface. This indicates that the cellular location of sucrose transporter activity plays a key role in determining rates of sucrose import into cotyledons. 相似文献
102.
Giantin interacts with both the small GTPase Rab6 and Rab1 总被引:1,自引:0,他引:1
The interaction of small GTPases of the Rab family and coiled coil proteins of the golgin family has been reported for example for the Rab1 GTPase and p115, GM130 and Giantin. We now show that Rab6A, a GTPase that controls retrograde trafficking within the Golgi back to the endoplasmic reticulum is also able to bind to Giantin in vivo and in vitro pointing to an interesting complex formation between Giantin and two different Rab GTPases. In Saccharomyces cerevisiae a genetic interaction between Ypt1 and Ypt6 has already been demonstrated, but in this paper we were able to describe that the mammalian Rab GTPases are able to interact on the same golgin protein, Giantin. 相似文献
103.
Recent in silico and in vivo studies have suggested that the majority of proteins destined for secretion in the haloarchaea are trafficked through the twin-arginine translocation (Tat) pathway. The presence of lipobox motifs in most haloarchaeal Tat signal sequences is intriguing as: (i) bioinformatic searches of archaeal genomes have not identified lipoprotein biogenesis enzymes and (ii) there are no known Tat substrates containing both a twin-arginine and a bona fide lipobox. We have examined six computationally designated Tat substrates in the haloarchaeon Haloferax volcanii to verify previous computational predictions and to initiate studies of lipoprotein biogenesis via the Tat pathway. Our results confirmed that the six candidate proteins were not only Tat substrates, but also belonged to diverse classes of secretory proteins. Analysis of predicted lipoprotein Tat substrates revealed that they are anchored to the archaeal membrane in a cysteine-dependent manner. Interestingly, despite the absence of an archaeal lipoprotein signal peptidase II (SPase II) homologue, the SPase II inhibitor globomycin impeded cell growth and specifically prevented maturation of lipoproteins. Together, this work not only represents the first experimental demonstration of a lipoprotein Tat substrate, but also indicates the presence of an unidentified lipoprotein biogenesis pathway in archaea. 相似文献
104.
Lee YH Foster J Chen J Voll LM Weber AP Tegeder M 《The Plant journal : for cell and molecular biology》2007,50(2):305-319
Amino acids are available to plants in some soils in significant amounts, and plants frequently make use of these nitrogen sources. The goal of this study was to identify transporters involved in the uptake of amino acids into root cells. Based on the fact that high concentrations of amino acids inhibit plant growth, we hypothesized that mutants tolerating toxic levels of amino acids might be deficient in the uptake of amino acids from the environment. To test this hypothesis, we employed a forward genetic screen for Arabidopsis thaliana mutants tolerating toxic concentrations of amino acids in the media. We identified an Arabidopsis mutant that is deficient in the amino acid permease 1 (AAP1, At1g58360) and resistant to 10 mm phenylalanine and a range of other amino acids. The transporter was localized to the plasma membrane of root epidermal cells, root hairs, and throughout the root tip of Arabidopsis. Feeding experiments with [(14)C]-labeled neutral, acidic and basic amino acids showed significantly reduced uptake of amino acids in the mutant, underscoring that increased tolerance of aap1 to high levels of amino acids is coupled with reduced uptake by the root. The growth and uptake studies identified glutamate, histidine and neutral amino acids, including phenylalanine, as physiological substrates for AAP1, whereas aspartate, lysine and arginine are not. We also demonstrate that AAP1 imports amino acids into root cells when these are supplied at ecologically relevant concentrations. Together, our data indicate an important role of AAP1 for efficient use of nitrogen sources present in the rhizosphere. 相似文献
105.
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108.
Soybean ureide transporters play a critical role in nodule development,function and nitrogen export 总被引:1,自引:0,他引:1
Ray Collier Mechthild Tegeder 《The Plant journal : for cell and molecular biology》2012,72(3):355-367
Legumes can access atmospheric nitrogen through a symbiotic relationship with nitrogen‐fixing bacteroids that reside in root nodules. In soybean, the products of fixation are the ureides allantoin and allantoic acid, which are also the dominant long‐distance transport forms of nitrogen from nodules to the shoot. Movement of nitrogen assimilates out of the nodules occurs via the nodule vasculature; however, the molecular mechanisms for ureide export and the importance of nitrogen transport processes for nodule physiology have not been resolved. Here, we demonstrate the function of two soybean proteins – GmUPS1‐1 (XP_003516366) and GmUPS1‐2 (XP_003518768) – in allantoin and allantoic acid transport out of the nodule. Localization studies revealed the presence of both transporters in the plasma membrane, and expression in nodule cortex cells and vascular endodermis. Functional analysis in soybean showed that repression of GmUPS1‐1 and GmUPS1‐2 in nodules leads to an accumulation of ureides and decreased nitrogen partitioning to roots and shoot. It was further demonstrated that nodule development, nitrogen fixation and nodule metabolism were negatively affected in RNAi UPS1 plants. Together, we conclude that export of ureides from nodules is mediated by UPS1 proteins, and that activity of the transporters is not only essential for shoot nitrogen supply but also for nodule development and function. 相似文献
109.
C Härtel K Faust S Avenarius B Bohnhorst M Emeis C Gebauer P Groneck F Heitmann T Hoehn M Hubert A Kribs H Küster R Laux M Mögel D Müller D Olbertz C Roll J Siegel A Stein M Vochem U Weller A von der Wense C Wieg J Wintgens C Hemmelmann A Simon E Herting W Göpel;German Neonatal Network 《PloS one》2012,7(6):e38304
110.
Saija?Kiljunen Maria?I?Pajunen Kieran?Dilks Stefanie?Storf Mechthild?Pohlschroder Harri?SavilahtiEmail author 《BMC biology》2014,12(1):103