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1.
Ryu J  Han K  Park J  Choi SY 《Molecules and cells》2003,16(3):385-391
Poor membrane permeability of proteins is a major limitation of protein therapy. In a previous study, we showed that the minimal sequence required for efficient transduction of Tat-GFP is the basic domain from 49-57 of HIV-1 Tat called the protein transduction domain (PTD. Here we have generated HIV-1 Tat PTD GFP fusion proteins in which HIV-1 Tat PTD is fused with the N- and/or C-termini of GFP. The various GFP fusion proteins were purified from Escherichia coli and characterized for their ability to enter mammalian cells using Western blot analysis, confocal microscopy and flow cytometry. The GFP fusion protein with Tat PTD at its C-terminus was taken up as efficiently as the GFP fusion protein with Tat PTD at its N-terminus. However, the same protein with PTDs at its both termini was taken up even more efficiently. All the GFP fusion proteins were present in both the nucleus and cytosol of the transduced cells. Uptake was lower at 4 degrees C than at 37 degrees C. The availability of the expression vectors developed in this study may help to devise novel strategies in the rational development of protein-based drugs.  相似文献   

2.
Futaki S  Nakase I  Suzuki T  Youjun Z  Sugiura Y 《Biochemistry》2002,41(25):7925-7930
A basic peptide derived from HIV-1 Tat has been reported to have the ability to translocate through cell membranes and to bring exogenous proteins into cells. We have demonstrated that these features could be observed among many arginine-rich peptides, and the presence of a ubiquitous internalization mechanism for arginine-rich oligopeptides has been suggested. In this report, we report that these features are also applicable to the peptides having branched-chain structures. Peptides that have arginine residues on four branched chains (R(n))(4) [n (number of arginine residues)= 0-6] were prepared. Fluorescence microscopic observation revealed that the (R(2))(4) peptide exhibited the most efficient translocation. The dependence on the number of arginine residues of the translocation efficiency and cellular localization was also observed for the branched-chain peptides as was seen in the linear peptides. Quite interestingly, efficient translocation was also recognized in the (RG(3)R)(4) peptide, where three glycine residues intervened between two arginine residues on each chain of (R(2))(4). The results strongly suggested that a linear structure was not indispensable for the translocation of arginine-rich peptides and that there could be considerable flexibility in the location of the arginine residue in the molecules.  相似文献   

3.
探讨了荧光蛋白作为报告蛋白用于蛋白质转运系统研究的可行性 ,结果表明海葵红色荧光蛋白聚集在细胞质内 ,不能转运至周质空间。而水母绿色荧光蛋白在Tat信号肽和Tat转运酶的共同作用下 ,以折叠形式转运至周质空间。通过荧光定量分析表明信号肽保守序列中的双精氨酸是保证绿色荧光蛋白转运及转运效率所必需的 ,且第二个精氨酸比第一个精氨酸更为重要。同时 ,揭示了Tat信号肽需要一定的高级结构才能行使功能 ;Tat信号肽不仅引导蛋白质的转运 ,而且也参与蛋白质的折叠。因此 ,绿色荧光蛋白是非常理想的报告蛋白 ,可用于研究Tat系统 ,但是海葵红色荧光蛋白易于聚集而不适合于此目的。  相似文献   

4.
In vivo dissection of the Tat translocation pathway in Escherichia coli   总被引:4,自引:0,他引:4  
The bacterial Tat pathway is capable of exporting folded proteins carrying a special twin arginine (RR) signal peptide. By using two in vivo reporter proteins, we assessed factors that affect Tat pathway transport. We observed that, like the intact RR signal peptide, those with a KR or RK substitution were still capable of mediating the translocation of the folded green fluorescent protein (GFP). However, the translocation efficiency decreased in the order of RR>KR>RK. The KK motif was unable to mediate GFP translocation. The translocation of the RR-GFP fusion required TatA, TatB and TatC proteins. By exploiting the periplasmic bactericidal property of colicin V (ColV), we constructed a translocation-suicide probe, RR-ColV. The translocation of RR-ColV fully inhibited the growth of wild-type Escherichia coli and those of the DeltatatD and DeltatatE mutants. In contrast, the deletion of the tatC gene blocked RR-ColV in the cytoplasm and this strain exhibited a normal growth phenotype. Interestingly, the growth of DeltatatA and tatB mutants was inhibited partially by RR-ColV. Moreover, KR, RK and KK motifs were capable of mediating the ColV translocation with a decreasing RR=KR>RK>KK efficiency. In addition to TatE and TatC proteins, either TatA or TatB was sufficient for the translocation of RR-ColV or KR-ColV. In contrast, TatA plus the conserved N-terminal domain of TatB were required to mediate the killing effect of ColV fused to the less-efficient RK signal peptide. Taken together, these results suggest that a fully efficient Tat pathway transport is determined by the sequence of the signal peptide, the composition of the Tat apparatus, and the intrinsic characteristics of exported proteins.  相似文献   

5.
6.
Ruminococcus albus is a Gram-positive bacterium that degrades plant cell walls in the rumen of herbivores. It was described to synthesize two major glycoside-hydrolases (Cel9B and Cel48A), which are exported and anchored at the cell surface. In bacteria, proteins destined to cross the cytoplasmic membrane are synthesized as precursors and possess a signal sequence (SS) directing them to the 'Sec' (general secretory) or 'Tat' (twin arginine translocation) pathway. SS composition of Cel9B and Cel48A suggests that these two enzymes translocate using different secretory pathways. In order to confirm this hypothesis, the SSs of Cel9B and Cel48A were fused to the green fluorescent protein (GFP) and expressed in wild-type Escherichia coli and in its Tat and Sec isogenic mutants. The SS cleavage and the formation of the mature protein were then followed by Western blot and fluorescence microscopy. This study shows that the SS of Cel9B directs the preprotein to the 'Tat' translocation pathway while the GFP fused to the SS of Cel48A is exported through the 'Sec' machinery. These observations suggest that R. albus possess a Tat pathway, in addition to the general secretory pathway.  相似文献   

7.
Summary Tat, a 86-amino acid protein involved in the replication of Human Immunodeficiency Virus type 1 (HIV-1), is able to translocate efficiently through the plasma membrane and to reach the nucleus to transactivate the viral genome. The region 37–72 of the Tat protein, centered on a cluster of basic amino acids, has been assigned to this translocation activity. Recent data in our group have attributed this membrane translocating activity to a peptide extending from residues 48 to 60, which contains a cluster of eight basic amino acids within a linear sequence of nine residues. Internalization of this peptide into cells occurred within minutes at concentrations as low as 100 nM. In order to define more precisely the involvement of these basic amino acids in peptide translocation, several analogues carrying deletions or substitutions of one, or several, of the basic residues were synthesized and tested for their cellular uptake and nuclear translocation. A direct correlation between the overall charge of the peptide and its cell internalization was found. In addition, the covalent linkage of this short basic peptide allows the efficient translocation of a non-membrane permeant peptide.  相似文献   

8.
The twin arginine translocation (Tat) pathway of bacteria and plant chloroplasts mediates translocation of essentially folded proteins across the cytoplasmic membrane. The detailed understanding of the mechanism of protein targeting to the Tat pathway has been hampered by the lack of screening or selection systems suitable for genetic analysis. We report here the development of a highly quantitative protein reporter for genetic analysis of Tat-specific export. Specifically, export via the Tat pathway rescues green fluorescent protein (GFP) fused to an SsrA peptide from degradation by the cytoplasmic proteolytic ClpXP machinery. As a result, cellular fluorescence is determined by the amount of GFP in the periplasmic space. We used the GFP-SsrA reporter to isolate gain-of-function mutants of a Tat-specific leader peptide and for the genetic analysis of the "invariant" signature RR dipeptide motif. Flow cytometric screening of trimethylamine N-oxide reductase (TorA) leader peptide libraries resulted in isolation of six gain-of function mutants that conferred significantly higher steady-state levels of export relative to the wild-type TorA leader. All the gain-of-function mutations occurred within or near the (S/T)RRXFLK consensus motif, highlighting the significance of this region in interactions with the Tat export machinery. Randomization of the consensus RR dipeptide in the TorA leader revealed that a basic side chain (R/K) is required at the first position whereas the second position can also accept Gln and Asn in addition to basic amino acids. This result indicates that twin arginine translocation does not require the presence of an arginine dipeptide within the conserved sequence motif.  相似文献   

9.
In the present study we examined the trafficking pathways of connexin49 (Cx49) fused to green fluorescent protein (GFP) in polar and non-polar cell lines. The Cx49 gene was isolated from ovine lens by RT-PCR. Cx49 cDNA was fused to GFP and the hybrid cDNA was transfected into several cell lines. After transfection of Cx49-GFP cDNA into HeLa cells, it was shown using the double whole-cell patch-clamp technique that the expressed fusion protein was still able to form conducting gap junction channels. Synthesis, assembly, and turnover of the Cx49-GFP hybrid protein were investigated using a pulse-chase protocol. A major 78-kDa protein band corresponding to Cx49-GFP could be detected with a turnover of 16-20 h and a half-life time of 10 h. The trafficking pathways of Cx49-GFP were monitored by confocal laser microscopy. Fusion proteins were localized in subcellular compartments, including the endoplasmic reticulum (ER), the ER-Golgi intermediate compartment, the Golgi apparatus, and the trans-Golgi network, as well as vesicles traveling towards the plasma membrane. Time-dependent sequential localization of Cx49-GFP in the ER and then the Golgi apparatus supports the notion of a slow turnover of Cx49-GFP compared to other connexins analyzed so far. Gap junction plaques resembling the usual punctuate distribution pattern could be demonstrated for COS-1 and MDCK cells. Basolateral distribution of Cx49-GFP was observed in polar MDCK cells, indicating specific sorting behavior of Cx49 in polarized cells. Together, this report describes the first characterization of biosynthesis and trafficking of lens Cx49.  相似文献   

10.
The human immunodeficiency virus type 1 (HIV-1) Tat protein transduction domain (PTD), which contains rich arginine and lysine residues, is responsible for the highly efficient transduction of protein through the plasma membrane. In addition, it can be secreted from infected cells and has the ability to enter neighboring cells. When the PTD of Tat is fused to proteins and exogenously added to cells, the fusion protein can cross plasma membranes. Recent reports indicate that the endogenously expressed Tat fusion protein can demonstrate biodistribution of several proteins. However, intercellular transport and protein transduction have not been observed in some studies. Therefore, this study examined the intercellular transport and protein transduction of the Tat protein. The results showed no evidence of intercellular transport (biodistribution) in a cell culture. Instead, the Tat fusion peptides were found to have a significant effect on the transduction and intercellular localization properties. This suggests that the HIV-1 PTD passes through the plasma membrane in one direction.  相似文献   

11.
    
Tat, a 86-amino acid protein involved in thereplication of Human Immunodeficiency Virus type 1(HIV-1), is able to translocate efficiently throughthe plasma membrane and to reach the nucleus totransactivate the viral genome. The region 37–72 ofthe Tat protein, centered on a cluster of basicamino acids, has been assigned to this translocationactivity. Recent data in our group have attributedthis membrane translocating activity to a peptideextending from residues 48 to 60, which contains acluster of eight basic amino acids within a linearsequence of nine residues. Internalization of thispeptide into cells occurred within minutes atconcentrations as low as 100 nM. In order to definemore precisely the involvement of these basic aminoacids in peptide translocation, several analoguescarrying deletions or substitutions of one, orseveral, of the basic residues were synthesized andtested for their cellular uptake and nucleartranslocation. A direct correlation between theoverall charge of the peptide and its cellinternalization was found. In addition, the covalentlinkage of this short basic peptide allows theefficient translocation of a non-membrane permeant peptide.  相似文献   

12.
The Gram-positive bacterium Bacillus subtilis contains two Tat translocases, which can facilitate transport of folded proteins across the plasma membrane. Previous research has shown that Tat-dependent protein secretion in B. subtilis is a highly selective process and that heterologous proteins, such as the green fluorescent protein (GFP), are poor Tat substrates in this organism. Nevertheless, when expressed in Escherichia coli, both B. subtilis Tat translocases facilitated exclusively Tat-dependent export of folded GFP when the twin-arginine (RR) signal peptides of the E. coli AmiA, DmsA, or MdoD proteins were attached. Therefore, the present studies were aimed at determining whether the same RR signal peptide-GFP precursors would also be exported Tat dependently in B. subtilis. In addition, we investigated the secretion of GFP fused to the full-length YwbN protein, a strict Tat substrate in B. subtilis. Several investigated GFP fusion proteins were indeed secreted in B. subtilis, but this secretion was shown to be completely Tat independent. At high-salinity growth conditions, the Tat-independent secretion of GFP as directed by the RR signal peptides from the E. coli AmiA, DmsA, or MdoD proteins was significantly enhanced, and this effect was strongest in strains lacking the TatAy-TatCy translocase. This implies that high environmental salinity has a negative influence on the avoidance of Tat-independent secretion of AmiA-GFP, DmsA-GFP, and MdoD-GFP. We conclude that as-yet-unidentified control mechanisms reject the investigated GFP fusion proteins for translocation by the B. subtilis Tat machinery and, at the same time, set limits to their Tat-independent secretion, presumably via the Sec pathway.  相似文献   

13.
The twin arginine (Tat) secretion pathway allows the translocation of folded proteins across the cytoplasmic membrane of bacteria. Tat-specific signal peptides contain a characteristic amino acid motif ((S/T)RRXFLK) including two highly conserved consecutive arginine residues that are thought to be involved in the recognition of the signal peptides by the Tat translocase. Here, we have analyzed the specificity of Tat signal peptide recognition by using a genetic approach. Replacement of the two arginine residues in a Tat-specific precursor protein by lysine-glutamine resulted in an export-defective mutant precursor that was no longer accepted by the wild-type translocase. Selection for restored export allowed for the isolation of Tat translocases possessing single mutations in either the amino-terminal domain of TatB or the first cytosolic domain of TatC. The mutant Tat translocases still efficiently accepted the unaltered precursor protein, indicating that the substrate specificity of the translocases was not strictly changed; rather, the translocases showed an increased tolerance toward variations of the amino acids occupying the positions of the twin arginine residues in the consensus motif of a Tat signal peptide.  相似文献   

14.
The bacterial twin arginine translocation (Tat) pathway is capable of exporting cofactor-containing enzymes into the periplasm. To assess the capacity of the Tat pathway to export heterologous proteins and to gain information about the property of the periplasm, we fused the twin arginine signal peptide of the trimethylamine N-oxide reductase to the jellyfish green fluorescent protein (GFP). Unlike the Sec pathway, the Tat system successfully exported correctly folded GFP into the periplasm of Escherichia coli. Interestingly, GFP appeared as a halo in most cells and occasionally showed a polar localization in wild type strains. When subjected to a mild osmotic up-shock, GFP relocalized very quickly at the two poles of the cells. The conversion from the halo structure to a periplasmic gathering at particular locations was also observed with spherical cells of the DeltarodA-pbpA mutant or of the wild type strain treated with lysozyme. Therefore, the periplasm is not a uniform compartment and the polarization of GFP is unlikely to be caused by simple invagination of the cytoplasmic membrane at the poles. Moreover, the polar gathering of GFP is reversible; the reversion was accelerated by glucose and inhibited by azide and carbonyl cyanide m-chlorophenylhydrazone, indicating an active adaptation of the bacteria to the osmolarity in the medium. These results strongly suggest a relocalization of periplasmic substances in response to environmental changes. The polar area might be the preferential zone where bacteria sense the change in the environment.  相似文献   

15.
In Escherichia coli, the Tat system does not translocate Tat signal sequence fused PhoA (RR-PhoA), as it requires disulfide formation for folding. Here we show that such a RR-PhoA construct can be efficiently targeted to the Tat translocon, but the transport is not completed. RR-PhoA is detectable in a 580-kDa TatBC-containing complex, which is the first substrate-bound TatBC complex detected in a bacterial system so far. A second TatBC complex near 440 kDa comprises most of the TatB and TatC but is devoid of RR-PhoA. The targeting of PhoA to the Tat translocon depends on the twin-arginine motif and results in severe growth defects. This physiological effect is likely to be due to proton leakage at the cytoplasmic membrane. The results point to mechanistic incompatibilities of the Tat system with unfolded proteins such as RR-PhoA. There does not exist an intrinsic quality control at the TatBC complex itself, although correct folding is inevitable for Tat-dependent translocation.  相似文献   

16.
The twin arginine translocation (Tat) system is a machinery which can translocate folded proteins across energy transducing membranes. Currently it is supposed that Tat substrates bind directly to Tat translocon components before a ApH-driven translocation occurs. In this review, an alternative model is presented which proposes that membrane integration could precede Tat-dependent translocation. This idea is mainly supported by the recent observations of Tat-independent membrane insertion of Tat substrates in vivo and in vitro. Membrane insertion may allow i) a quality control of the folded state by membrane bound proteases like FtsH, ii) the recognition of the membrane spanning signal peptide by Tat system components, and iii) a pulling mechanism of translocation. In some cases of folded Tat substrates, the membrane targeting process may require ATP-dependent N-terminal unfolding-steps.  相似文献   

17.
18.
The Tat system has the ability to translocate folded proteins across the bacterial cytoplasmic membrane. In Escherichia coli, three functionally different translocon components have been identified, namely TatA, TatB, and TatC. These proteins were fused to the green fluorescent protein (GFP) and their localization was determined by confocal laser scanning fluorescence microscopy. TatA-GFP was distributed in the membrane, often with higher abundance at the poles. TatB-GFP was found in distinct spots at the poles of the cells. The fluorescence of TatC-GFP was very low and required a constitutive expression system to become higher than background, but then appearing polar. All three constructs complemented the chain-formation phenotype of corresponding mutant strains, indicating the functionality of the fusion proteins. TatB-GFP and TatC-GFP also complemented TMAO respiration deficiency and TatA-GFP the SDS-sensitivity of the mutant strains. The localization of the translocon-GFP fusions coincides with the fluorescence pattern of GFP fusions to Tat substrate signal sequences. We suggest that the active translocon complexes are mainly present at polar positions in Escherichia coli.  相似文献   

19.
Extracellular signal-regulated kinase 2 (ERK2) is located in the cytoplasm of resting cells and translocates into the nucleus upon extracellular stimuli by active transport of a dimer. Passive transport of an ERK2 monomer through the nuclear pore is also reported to coexist. We attempted to characterize the cytoplasmic retention and nuclear translocation of fusion proteins between deletion and site-directed mutants of ERK2 and green fluorescent protein (GFP). The overexpressed ERK2-GFP fusion protein is usually localized to both the cytoplasm and the nucleus unless a cytoplasmic anchoring protein is coexpressed. Deletion of 45 residues, but not 43 residues, from the C terminus of ERK2 prevented the nuclear distribution of the ERK2-GFP fusion protein. Substitution of a part of residues 299-313 to alanine residues also prevented the nuclear distribution of the ERK2-GFP fusion protein without abrogation of its nuclear active transport. These observations may indicate that the passive diffusion of ERK2 into the nucleus is not simple diffusion but includes a specific interaction process between residues 299-313 and the nuclear pore complex and that this interaction is not required for the active transport. We also showed that substitution of Tyr(314) to alanine residue abrogated the cytoplasmic retention of the ERK2-GFP fusion protein by PTP-SL but not by MEK1.  相似文献   

20.
This study demonstrates a functional twin-arginine (Tat) translocation pathway present in the tsetse fly symbiont Sodalis glossinidius and its potential to export active heterologous proteins to the periplasm. Functionality was demonstrated using green fluorescent protein (GFP) fused to the Tat signal peptide of Escherichia coli trimethylamine N-oxide reductase (TorA).  相似文献   

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