Your search keyword '"signal sequence"' showing total 29 results

1. Architecture of the active post‐translational Sec translocon.

Author

Weng, Tsai‐Hsuan, Steinchen, Wieland, Beatrix, Birgitta, Berninghausen, Otto, Becker, Thomas, Bange, Gert, Cheng, Jingdong, and Beckmann, Roland

Subjects

*MEMBRANE proteins, *ENDOPLASMIC reticulum, *AMINO acid sequence, *CRYSTAL structure

Abstract

In eukaryotes, most secretory and membrane proteins are targeted by an N‐terminal signal sequence to the endoplasmic reticulum, where the trimeric Sec61 complex serves as protein‐conducting channel (PCC). In the post‐translational mode, fully synthesized proteins are recognized by a specialized channel additionally containing the Sec62, Sec63, Sec71, and Sec72 subunits. Recent structures of this Sec complex in the idle state revealed the overall architecture in a pre‐opened state. Here, we present a cryo‐EM structure of the yeast Sec complex bound to a substrate, and a crystal structure of the Sec62 cytosolic domain. The signal sequence is inserted into the lateral gate of Sec61α similar to previous structures, yet, with the gate adopting an even more open conformation. The signal sequence is flanked by two Sec62 transmembrane helices, the cytoplasmic N‐terminal domain of Sec62 is more rigidly positioned, and the plug domain is relocated. We crystallized the Sec62 domain and mapped its interaction with the C‐terminus of Sec63. Together, we obtained a near‐complete and integrated model of the active Sec complex. SYNOPSIS: The overall architecture of the eukaryotic SecY/Sec61 channel for post‐translational protein translocation, and how it recognizes N‐terminal signal sequences in transported proteins, remain unclear. Here, structural analyses reveal the molecular architecture of the engaged yeast Sec complex, which binds the signal sequence in a unique open conformation. Cryo‐EM structures of the heptameric Sec complex reveal the conformational transition from the partially open apo‐state to the fully open signal sequence‐bound state.The signal sequence binds the lateral gate of the Sec61 complex, which is stabilized by the transmembrane helices of the Sec62 subunit.The X‐ray structure of the N‐terminal cytoplasmic domain of Sec62 reveals a novel fold that is coordinated by the phosphorylated C‐terminal peptide of the Sec63 subunit. [ABSTRACT FROM AUTHOR]

Published

2021

2. Engineering the genetic components of a whole‐cell catalyst for improved enzymatic CO2 capture and utilization.

Author

Jo, Byung Hoon, Moon, Hyukjoon, and Cha, Hyung Joon

Abstract

Carbonic anhydrase (CA) is a diffusion‐limited enzyme that rapidly catalyzes the hydration of carbon dioxide (CO2). CA has been proposed as an eco‐friendly yet powerful catalyst for CO2 capture and utilization. A bacterial whole‐cell biocatalyst equipped with periplasmic CA provides an option for a cost‐effective CO2‐capturing system. However, further utilization of the previously constructed periplasmic system has been limited by its relatively low activity and stability. Herein, we engineered three genetic components of the periplasmic system for the construction of a highly efficient whole‐cell catalyst: a CA‐coding gene, a signal sequence, and a ribosome‐binding site (RBS). A stable and halotolerant CA (hmCA) from the marine bacterium Hydrogenovibrio marinus was employed to improve both the activity and stability of the system. The improved secretion and folding of hmCA and increased membrane permeability were achieved by translocation via the Sec‐dependent pathway. The engineering of RBS strength further enhanced whole‐cell activity by improving both the secretion and folding of hmCA. The newly engineered biocatalyst displayed 5.7‐fold higher activity and 780‐fold higher stability at 60°C compared with those of the previously constructed periplasmic system, providing new opportunities for applications in CO2 capture and utilization. [ABSTRACT FROM AUTHOR]

Published

2020

3. ATPase activity of human binding immunoglobulin protein (BiP) variants is enhanced by signal sequence and physiological concentrations of Mn2+.

Author

Bandla, Sravanthi, Diaz, Suraya, Nasheuer, Heinz Peter, and FitzGerald, Una

Subjects

CARRIER proteins, GLUCOSE-regulated proteins, ENDOPLASMIC reticulum, AFFINITY chromatography, PEPTIDES, ADENOSINE triphosphatase

Abstract

B‐cell immunoglobulin binding protein (BiP) is an essential endoplasmic reticulum (ER) chaperone normally found in the ER lumen. However, BiP also has other extracellular and intracellular functions. As it is unclear whether peripheral BiP has a signal and/or ER retention sequence, here we produced and biochemically characterised four variants of BiP. The variants differed depending on the presence or the absence of signal and ER retention peptides. Proteins were purified using nickel affinity chromatography, and variant size and quality were confirmed using SDS/PAGE gels. The thermal denaturing temperature of these proteins was found to be 46–47 °C. In addition, we characterised nucleotide binding properties in the absence and the presence of divalent cations. Interestingly, in the absence of cations, ADP has a higher binding affinity to BiP than ATP. The presence of divalent cations results in a decrease of the Kd values of both ADP and ATP, indicating higher affinities of both nucleotides for BiP. ATPase assays were carried out to study the enzyme activity of these variants and to characterise the kinetic parameters of BiP variants. Variants with the signal sequence had higher specific activities than those without. Both Mg2+ and Mn2+ efficiently stimulated the ATPase activity of these variants at low micromolar concentrations, whereas calcium failed to stimulate BiP ATPase. Our novel findings indicate the potential functionality of BiP variants that retain a signal sequence, and also reveal the effect of physiological concentrations of cations on the nucleotide binding properties and enzyme activities of all variants. [ABSTRACT FROM AUTHOR]

Published

2019

4. ATPase activity of human binding immunoglobulin protein (BiP) variants is enhanced by signal sequence and physiological concentrations of Mn2+.

Author

Bandla, Sravanthi, Diaz, Suraya, Nasheuer, Heinz Peter, and FitzGerald, Una

Subjects

CARRIER proteins, GLUCOSE-regulated proteins, ENDOPLASMIC reticulum, AFFINITY chromatography, PEPTIDES, ADENOSINE triphosphatase

Abstract

B‐cell immunoglobulin binding protein (BiP) is an essential endoplasmic reticulum (ER) chaperone normally found in the ER lumen. However, BiP also has other extracellular and intracellular functions. As it is unclear whether peripheral BiP has a signal and/or ER retention sequence, here we produced and biochemically characterised four variants of BiP. The variants differed depending on the presence or the absence of signal and ER retention peptides. Proteins were purified using nickel affinity chromatography, and variant size and quality were confirmed using SDS/PAGE gels. The thermal denaturing temperature of these proteins was found to be 46–47 °C. In addition, we characterised nucleotide binding properties in the absence and the presence of divalent cations. Interestingly, in the absence of cations, ADP has a higher binding affinity to BiP than ATP. The presence of divalent cations results in a decrease of the Kd values of both ADP and ATP, indicating higher affinities of both nucleotides for BiP. ATPase assays were carried out to study the enzyme activity of these variants and to characterise the kinetic parameters of BiP variants. Variants with the signal sequence had higher specific activities than those without. Both Mg2+ and Mn2+ efficiently stimulated the ATPase activity of these variants at low micromolar concentrations, whereas calcium failed to stimulate BiP ATPase. Our novel findings indicate the potential functionality of BiP variants that retain a signal sequence, and also reveal the effect of physiological concentrations of cations on the nucleotide binding properties and enzyme activities of all variants. [ABSTRACT FROM AUTHOR]

Published

2019

5. High-yield secretion of recombinant proteins from the microalga Chlamydomonas reinhardtii.

Author

Ramos‐Martinez, Erick Miguel, Fimognari, Lorenzo, and Sakuragi, Yumiko

Subjects

*RECOMBINANT proteins, *ALGAL blooms, *CHLAMYDOMONAS reinhardtii, *BIOTECHNOLOGY, *PROTEOLYTIC enzymes

Abstract

Microalga-based biomanufacturing of recombinant proteins is attracting growing attention due to its advantages in safety, metabolic diversity, scalability and sustainability. Secretion of recombinant proteins can accelerate the use of microalgal platforms by allowing posttranslational modifications and easy recovery of products from the culture media. However, currently, the yields of secreted recombinant proteins are low, which hampers the commercial application of this strategy. This study aimed at expanding the genetic tools for enhancing secretion of recombinant proteins in Chlamydomonas reinhardtii, a widely used green microalga as a model organism and a potential industrial biotechnology platform. We demonstrated that the putative signal sequence from C. reinhardtii gametolysin can assist the secretion of the yellow fluorescent protein Venus into the culture media. To increase the secretion yields, Venus was C-terminally fused with synthetic glycomodules comprised of tandem serine (Ser) and proline (Pro) repeats of 10 and 20 units [hereafter (SP)n, wherein n = 10 or 20]. The yields of the (SP)n-fused Venus were higher than Venus without the glycomodule by up to 12-fold, with the maximum yield of 15 mg/L. Moreover, the presence of the glycomodules conferred an enhanced proteolytic protein stability. The Venus-(SP)n proteins were shown to be glycosylated, and a treatment of the cells with brefeldin A led to a suggestion that glycosylation of the (SP)n glycomodules starts in the endoplasmic reticulum (ER). Taken together, the results demonstrate the utility of the gametolysin signal sequence and (SP)n glycomodule to promote a more efficient biomanufacturing of microalgae-based recombinant proteins. [ABSTRACT FROM AUTHOR]

Published

2017

6. De novo design of signal sequences to localize cargo to the 1,2-propanediol utilization microcompartment.

Author

Jakobson, Christopher M., Slininger Lee, Marilyn F., and Tullman‐Ercek, Danielle

Abstract

Organizing heterologous biosyntheses inside bacterial cells can alleviate common problems owing to toxicity, poor kinetic performance, and cofactor imbalances. A subcellular organelle known as a bacterial microcompartment, such as the 1,2-propanediol utilization microcompartment of Salmonella, is a promising chassis for this strategy. Here we demonstrate de novo design of the N-terminal signal sequences used to direct cargo to these microcompartment organelles. We expand the native repertoire of signal sequences using rational and library-based approaches and show that a canonical leucine-zipper motif can function as a signal sequence for microcompartment localization. Our strategy can be applied to generate new signal sequences localizing arbitrary cargo proteins to the 1,2-propanediol utilization microcompartments. [ABSTRACT FROM AUTHOR]

Published

2017

7. '2A-Like' Signal Sequences Mediating Translational Recoding: A Novel Form of Dual Protein Targeting.

Author

Roulston, Claire, Luke, Garry A., Felipe, Pablo, Ruan, Lin, Cope, Jonathan, Nicholson, John, Sukhodub, Andriy, Tilsner, Jens, and Ryan, Martin D.

Subjects

*SIGNAL peptides, *AMINO acid sequence, *OLIGOPEPTIDES, *POLYPEPTIDES, *CHEMICAL synthesis, *EXOCYTOSIS, *CYTOPLASM

Abstract

We report the initial characterization of an N-terminal oligopeptide '2A-like' sequence that is able to function both as a signal sequence and as a translational recoding element. Owing to this translational recoding activity, two forms of nascent polypeptide are synthesized: (i) when 2A-mediated translational recoding has not occurred: the nascent polypeptide is fused to the 2A-like N-terminal signal sequence and the fusion translation product is targeted to the exocytic pathway, and, (ii) a translation product where 2A-mediated translational recoding has occurred: the 2A-like signal sequence is synthesized as a separate translation product and, therefore, the nascent (downstream) polypeptide lacks the 2A-like signal sequence and is localized to the cytoplasm. This type of dual-functional signal sequence results, therefore, in the partitioning of the translation products between the two sub-cellular sites and represents a newly described form of dual protein targeting. [ABSTRACT FROM AUTHOR]

Published

2016

8. UBQLN4 recognizes mislocalized transmembrane domain proteins and targets these to proteasomal degradation.

Author

Suzuki, Rigel and Kawahara, Hiroyuki

Abstract

The majority of transmembrane proteins are integrated into the endoplasmic reticulum ( ER) by virtue of a signal sequence-mediated co-translational process. However, a substantial portion of transmembrane proteins fails to reach the ER, leading to mislocalized cytosolic polypeptides. Their appropriate recognition and removal are of the utmost importance to avoid proteotoxic stress. Here, we identified UBQLN4 as a BAG6-binding factor that eliminates newly synthesized defective polypeptides. Using a truncated transmembrane domain protein whose degradation occurs during a pre- ER incorporation process as a model, we show that UBQLN4 recognizes misassembled proteins in the cytoplasm and targets these to the proteasome. We suggest that the exposed transmembrane segment of the defective polypeptides is essential for the UBQLN4-mediated substrate discrimination. Importantly, UBQLN4 recognizes not only the defective model substrate but also a pool of endogenous defective proteins that were induced by the depletion of the SRP54 subunit of the signal recognition particle. This study identifies a novel quality control mechanism for newly synthesized and defective transmembrane domain polypeptides that fail to reach their correct destination at the ER membrane. [ABSTRACT FROM AUTHOR]

Published

2016

9. Low expression level of OB-Rb results from constitutive translocational attenuation attributable to a less efficient signal sequence.

Author

Choi, Ilho, Park, Joong-Yeol, Song, Youngsup, Yoon, Seung-Yong, Chang, Eun-Ju, and Kang, Sang-Wook

Subjects

*CHROMOSOMAL translocation, *GENE expression, *PROTEINASES, *MICROSOMES, *PRIONS, *PROLACTIN

Abstract

Highlights: [•] Leptin receptor (LepR) contains less efficient signal sequence. [•] Enhanced signal sequence efficiency promotes LepR expression. [•] Enhanced signal sequence efficiency potentiates leptin signaling. [•] Therapeutic enhancement of LepR translocation for leptin resistance. [ABSTRACT FROM AUTHOR]

Published

2014

10. N-terminal signal sequence is required for cellular trafficking and hyaluronan-depolymerization of KIAA1199.

Author

Yoshida, Hiroyuki, Nagaoka, Aya, Nakamura, Sachiko, Tobiishi, Megumi, Sugiyama, Yoshinori, and Inoue, Shintaro

Subjects

*N-terminal residues, *SIGNAL peptides, *DEPOLYMERIZATION, *HYALURONIC acid, *GENE expression, *AMINO acid sequence, *CELLULAR signal transduction

Abstract

Highlights: [•] Expression of full-length KIAA1199 is essential for HA depolymerizing activity. [•] The cleavage of N-terminal 30 amino acids occurs in functionally matured KIAA1199. [•] The deletion of the N-terminal portion results in altered localization of KIAA1199. [•] The N-terminal 30 amino acids of KIAA1199 are indeed the cleavable signal sequence. [Copyright &y& Elsevier]

Published

2014

11. A short C-terminal tail prevents mis-targeting of hydrophobic mitochondrial membrane proteins to the ER.

Author

Reithinger, Johannes H., Yim, Chewon, Park, Kwangjin, Björkholm, Patrik, von Heijne, Gunnar, and Kim, Hyun

Subjects

*MITOCHONDRIAL membranes, *MEMBRANE proteins, *GENE targeting, *MITOCHONDRIA, *CELL membranes, *INTRACELLULAR membranes

Abstract

Highlights: [•] C-terminal extensions to Sdh3 and Shh3 result in SRP-dependent ER mis-targeting. [•] Mitochondrial membrane proteins evade SRP recognition by having short C-terminal tails after strongly hydrophobic segments. [•] Eluding SRP recognition may be one way that hydrophobic membrane proteins ensure proper targeting to mitochondria. [ABSTRACT FROM AUTHOR]

Published

2013

12. Secretion of miraculin through the function of a signal peptide conserved in the Kunitz-type soybean trypsin inhibitor family.

Author

Takai, Ayako, Satoh, Makiko, Matsuyama, Tomomi, Ito, Akane, Nakata, Rieko, Aoyama, Takashi, and Inoue, Hiroyasu

Subjects

*MIRACULIN, *SIGNAL peptides, *TRYPSIN inhibitors, *SOYBEAN, *CELL membranes, *SEEDLINGS

Abstract

Highlights: [•] A taste-modifier protein named miraculin is secreted outside the plasma membrane. [•] This secretion is dependent on a signal peptide conserved in Kunitz-type STIs. [•] Transgenic seedlings of miraculin were cultured in liquid medium. [•] Miraculin was present in the supernatant after cellulase treatment. [•] Miraculin may have lost trypsin inhibitory activity during its evolution. [ABSTRACT FROM AUTHOR]

Published

2013

13. Export of a hyperexpressed mammalian globular cytochrome b5 precursor in Escherichia coli is dramatically affected by the nature of the amino acid flanking the secretory signal sequence cleavage bond.

Author

Kaderbhai, Naheed N., Ahmed, Khalil, and Kaderbhai, Mustak A.

Published

2010

14. Role of the Plasmodium Export Element in Trafficking Parasite Proteins to the Infected Erythrocyte.

Author

Boddey, Justin A., Moritz, Robert L., Simpson, Richard J., and Cowman, Alan F.

Subjects

*PLASMODIUM falciparum, *ERYTHROCYTES, *PARASITES, *PROTEINS, *PROTEOLYTIC enzymes, *CELLS, *ACETYLATION

Abstract

The intracellular survival of Plasmodium falciparum within human erythrocytes is dependent on export of parasite proteins that remodel the host cell. Most exported proteins require a conserved motif (RxLxE/Q/D), termed the Plasmodium export element (PEXEL) or vacuolar targeting sequence (VTS), for targeting beyond the parasitophorous vacuole membrane and into the host cell; however, the precise role of this motif in export is poorly defined. We used transgenic P. falciparum expressing chimeric proteins to investigate the function of the PEXEL motif for export. The PEXEL constitutes a bifunctional export motif comprising a protease recognition sequence that is cleaved, in the endoplasmic reticulum, from proteins destined for export, in a PEXEL arginine- and leucine-dependent manner. Following processing, the remaining conserved PEXEL residue is required to direct the mature protein to the host cell. Furthermore, we demonstrate that N acetylation of proteins following N-terminal processing is a PEXEL-independent process that is insufficient for correct export to the host cell. This work defines the role of each residue in the PEXEL for export into the P. falciparum-infected erythrocyte. [ABSTRACT FROM AUTHOR]

Published

2009

15. Optimization of the inefficient translation initiation region of the cpxP gene from Escherichia coli.

Author

Miot, Marika and Betton, Jean-Michel

Abstract

The Escherichia coli Cpx envelope stress system is comprised of three proteins; the periplasmic regulatory CpxP, the inner membrane sensor kinase CpxA, and the cytoplasmic transcriptional activator CpxR. Although misfolded envelope proteins activate the Cpx system, the molecular mechanism by which this signal is sensed remains largely unknown. In an attempt to reconstitute the Cpx system from purified proteins, we failed to produce the small CpxP protein in its natural periplasmic compartment, but a high protein level was achieved when it was produced in the cytoplasm. Silent base mutations in the first codons of the cpxP gene encoding the signal sequence or substitution by two well-characterized signal sequences, those of MalE and DsbA, resulted in a large increase of the CpxP level in the periplasm. Our results support the hypothesis that periplasmic expression could be inhibited by sequence elements in the early coding signal sequence region of cpxP. [ABSTRACT FROM AUTHOR]

Published

2007

16. A model for co-translational translocation: Ribosome-regulated nascent polypeptide translocation at the protein-conducting channel

Author

Mitra, Kakoli and Frank, Joachim

Subjects

*RIBOSOMES, *MICROSOMES, *PROTOPLASM, *ORGANELLES

Abstract

Abstract: The protein-conducting channel (PCC) must allow both the translocation of soluble polypeptide regions across, and the lateral partitioning of hydrophobic transmembrane helices (TMHs) into, the membrane. We have analyzed existing structures of ribosomes and ribosome–PCC complexes and observe conformational changes suggesting that the ribosome may sense and orient the nascent polypeptide and also facilitate conformational changes in the PCC, subsequently directing the nascent polypeptide into the appropriate PCC-mediated translocation mode. The PCC is predicted to be able to accommodate one central, consolidated channel or two segregated pores with different lipid accessibilities, which may enable the lipid-mediated partitioning of a TMH from one pore, while the other, aqueous, pore allows translocation of a hydrophilic polypeptide segment. Our hypothesis suggests a plausible mechanism for the transitioning of the PCC between different configurations. [Copyright &y& Elsevier]

Published

2006

17. A novel representation of protein sequences for prediction of subcellular location using support vector machines.

Author

Matsuda, Setsuro, Vert, Jean-Philippe, Saigo, Hiroto, Ueda, Nobuhisa, Toh, Hiroyuki, and Akutsu, Tatsuya

Abstract

As the number of complete genomes rapidly increases, accurate methods to automatically predict the subcellular location of proteins are increasingly useful to help their functional annotation. In order to improve the predictive accuracy of the many prediction methods developed to date, a novel representation of protein sequences is proposed. This representation involves local compositions of amino acids and twin amino acids, and local frequencies of distance between successive (basic, hydrophobic, and other) amino acids. For calculating the local features, each sequence is split into three parts: N-terminal, middle, and C-terminal. The N-terminal part is further divided into four regions to consider ambiguity in the length and position of signal sequences. We tested this representation with support vector machines on two data sets extracted from the SWISS-PROT database. Through fivefold cross-validation tests, overall accuracies of more than 87% and 91% were obtained for eukaryotic and prokaryotic proteins, respectively. It is concluded that considering the respective features in the N-terminal, middle, and C-terminal parts is helpful to predict the subcellular location. [ABSTRACT FROM AUTHOR]

Published

2005

18. A eukaryotic carboxyl-terminal signal sequence translocating large hydrophilic domains across membranes

Author

Zhong, Xiaotian, Malhotra, Rajeev, and Guidotti, Guido

Subjects

*MEMBRANE proteins, *AMINO acid sequence, *ADENOSINE triphosphatase, *LEAVENING agents

Abstract

Abstract: Yeast Golgi ecto-ATPase Ynd1p is an unusual type III membrane protein with the longest translocated N-terminus reported. Sequential deletion analysis reveals that translocation of this 500-residue-long hydrophilic domain across the membranes requires the C-terminal transmembrane domain of Ynd1p and its flanking regions. Additional studies indicate that the topogenic sequence of Ynd1p overrides the effect of a reverse signal-anchor sequence present at the N-terminus of Ynd1p, while it is not affected by a classic signal sequence at the N-terminus. When placed at the C-terminal end, the sequence can translocate large extracellular domains of two membrane proteins across the membranes. The data demonstrate the existence of a true eukaryotic C-terminal signal sequence. [Copyright &y& Elsevier]

Published

2005

19. Translocation of a long amino-terminal domain through ER membrane by following signal-anchor sequence.

Author

Kida, Yuichiro, Mihara, Katsuyoshi, and Sakaguchi, Masao

Subjects

*CHROMOSOMAL translocation, *CHROMOSOMES, *GENETICS, *NUCLEOPROTEINS, *ANTINEOPLASTIC agents

Abstract

Type I signal-anchor sequences mediate translocation of the N-terminal domain (N-domain) across the endoplasmic reticulum (ER) membrane. To examine the translocation in detail, dihydrofolate reductase (DHFR) was fused to the N-terminus of synaptotagmin II as a long N-domain. Translocation was arrested by the DHFR ligand methotrexate, which stabilizes the folding of the DHFR domain, and resumed after depletion of methotrexate. The targeting of the ribosome–nascent chain complex to the ER requires GTP, whereas N-domain translocation does not require any nucleotide triphosphates. Significant translocation was observed even in the absence of a lumenal hsp70 (BiP). When the nascent polypeptide was released from the ribosomes after the membrane targeting, the N-domain translocation was suppressed and the nascent chain was released from the translocon. Ribosomes have a crucial role in maintaining the translocation-intermediate state. The translocation of the DHFR domain was greatly impaired when it was separated from the signal-anchor sequence. Unfolding and translocation of the DHFR domain must be driven by the stroke of the signal-anchor sequence into translocon. [ABSTRACT FROM AUTHOR]

Published

2005

20. Characterization of the secreted chorismate mutase from the pathogenMycobacterium tuberculosis.

Author

Sasso, Severin, Ramakrishnan, Chandra, Gamper, Marianne, Hilvert, Donald, and Kast, Peter

Subjects

*BACTERIAL proteins, *GENETIC code, *MICROBIAL proteins, *NUCLEOTIDE sequence, *MYCOBACTERIUM tuberculosis, *ESCHERICHIA coli, *BACTERIAL genetics, *PATHOGENIC bacteria

Abstract

The gene encompassing ORF Rv1885c with weak sequence similarity to AroQ chorismate mutases (CMs) was cloned from the genome ofMycobacterium tuberculosisand expressed inEscherichia coli. The gene product (*MtCM) complements a CM-deficientE. colistrain, but only if produced without the predicted N-terminal signal sequence typical ofM. tuberculosis. The mature*MtCM, which was purified by exploiting its resistance to irreversible thermal denaturation, possesses high CM activityin vitro. The enzyme follows simple Michaelis–Menten kinetics, having akcat of 50 s−1 and aKm of 180 µm(at 30 °C and pH 7.5).*MtCM was shown to be a dimer by analytical ultracentrifugation and size-exclusion chromatography. Secondary-structure prediction and CD spectroscopy confirmed that*MtCM is a member of the all-α-helical AroQ class of CMs, but it seems to have a topologically rearranged AroQ fold. Because CMs are normally intracellular metabolic enzymes required for the biosynthesis of phenylalanine and tyrosine, the existence of an exported CM in Gram-positiveM. tuberculosisis puzzling. The observation that homologs of*MtCM with a predicted export sequence are generally only present in parasitic or pathogenic organisms suggests that secreted CMs may have evolved to participate in some aspect of parasitism or pathogenesis yet to be unraveled. [ABSTRACT FROM AUTHOR]

Published

2005

21. A directed evolution strategy for optimized export of recombinant proteins reveals critical determinants for preprotein discharge.

Author

Kaderbhai, Mustak A., Davey, Hazel M., and Kaderbhai, Naheed N.

Abstract

A directed evolutionary approach is described that searches short, random peptide sequences for appendage at the secretory signal peptide-mature protein junction to seek ideal algorithms for both efficient and hyper export of recombinant proteins to the periplasm of Escherichia coli. The strategy employs simple, visual detection of positive clones using a PINK expression system that faithfully reports on export status of a mammalian hemoprotein in E. coli. With-in 'sequence spaces' ranging from 1 to 13 residues, a significant but highly variable secretory fitness was scored such that the rate of secretion reciprocally correlated with the membrane-associated precursor pool of the evolved exportable hemoproteins. Three clusters of hyper, median, and hypo exporters were isolated. These had corresponding net charges of −1, 0, and +1 within the evolved sequence space, which in turn clearly correlated with the prevailing magnitude and polarity of the membrane energization states. The findings suggest that both the nature of the charged residue and the proximal sequence in the early mature region are the crucial determinants of the protonophore-dependent electrophoretic discharge of the precursor across the inner membrane of E. coli. We conclude that the directed evolutionary approach will find ready application in engineering recombinant proteins for their efficient secretion via the sec export pathway in E. coli. [ABSTRACT FROM AUTHOR]

Published

2004

22. Structural studies on a twin-arginine signal sequence

Author

Kipping, Marc, Lilie, Hauke, Lindenstrauß, Ute, Andreesen, Jan R., Griesinger, Christian, Carlomagno, Teresa, and Brüser, Thomas

Subjects

*CHROMOSOMAL translocation, *MEMBRANE proteins, *NUCLEAR magnetic resonance, *ARGININE

Abstract

Translocation of folded proteins across biological membranes can be mediated by the so-called ‘twin-arginine translocation’ (Tat) system. To be translocated, Tat substrates require N-terminal signal sequences which usually contain the eponymous twin-arginine motif. Here we report the first structural analysis of a twin-arginine signal sequence, the signal sequence of the high potential iron-sulfur protein from Allochromatium vinosum. Nuclear magnetic resonance (NMR) analyses of amide proton resonances did not indicate a signal sequence structure. Accordingly, data from H/D exchange matrix-assisted laser desorption/ionization-time of flight (MALDI-TOF) mass spectrometry showed that the amide protons of the signal sequence exchange rapidly, indicating the absence of secondary structure in the signal sequence up to L29. We conclude that the conserved twin-arginine motif does not form a structure by itself or as a result of intramolecular interactions. [Copyright &y& Elsevier]

Published

2003

23. Topological changes in the transmembrane domains of hepatitis C virus envelope glycoproteins.

Author

Cocquerel, Laurence, Op de Beeck, Anne, Lambot, Michel, Roussel, Juliette, Delgrange, David, Pillez, André, Wychowski, Czeslaw, Penin, François, and Dubuisson, Jean

Subjects

*TRANSMEMBRANE domains, *HEPATITIS C virus, *VIRAL envelope proteins, *GLYCOPROTEINS, *PEPTIDASE, *VIRAL proteins, *ENDOPLASMIC reticulum

Abstract

Hepatitis C virus proteins are synthesized as a polyprotein cleaved by a signal peptidase and viral proteases. The behaviour of internal signal sequences at the C‐terminus of the transmembrane domains of hepatitis C virus envelope proteins E1 and E2 is essential for the topology of downstream polypeptides. We determined the topology of these transmembrane domains before and after signal sequence cleavage by tagging E1 and E2 with epitopes and by analysing their accessibility in selectively permeabilized cells. We showed that, after cleavage by signal peptidase in the endoplasmic reticulum, the C‐terminal orientation of these transmembrane domains changed from luminal to cytosolic. The dynamic behaviour of these transmembrane domains is unique and it is linked to their multifunctionality. By reorienting their C‐terminus toward the cytosol and being part of a transmembrane domain, the signal sequences at the C‐terminus of E1 and E2 contribute to new functions: (i) membrane anchoring; (ii) E1E2 heterodimerization; and (iii) endoplasmic reticulum retention. [ABSTRACT FROM AUTHOR]

Published

2002

24. Archaeal protein translocation.

Author

Eichler, Jerry

Subjects

*PROTEINS, *ARCHAEBACTERIA, *BACTERIAL physiology, *MEMBRANE proteins, *CELL membranes, *PHYSIOLOGY

Abstract

Proper cell function relies on correct protein localization. As a first step in the delivery of extracytoplasmic proteins to their ultimate destinations, the hydrophobic barrier presented by lipid-based membranes must be overcome. In contrast to the well-defined bacterial and eukaryotic protein translocation systems, little is known about how proteins cross the membranes of archaea, the third and most recently described domain of life. In bacteria and eukaryotes, protein translocation occurs at proteinaceous sites comprised of evolutionarily conserved core components acting in concert with other, domain-specific elements. Examination of available archaeal genomes as well as cloning of individual genes from other archaeal strains reveals the presence of homologues to selected elements of the bacterial or eukaryotic translocation machines. Archaeal genomic searches, however, also reveal an apparent absence of other, important components of these two systems. Archaeal translocation may therefore represent a hybrid of the bacterial and eukaryotic models yet may also rely on components or themes particular to this domain of life. Indeed, considering the unique chemical composition of the archaeal membrane as well as the extreme conditions in which archaea thrive, the involvement of archaeal-specific translocation elements could be expected. Thus, understanding archaeal protein translocation could reveal the universal nature of certain features of protein translocation which, in some cases, may not be readily obvious from current comparisons of bacterial and eukaryotic systems. Alternatively, elucidation of archaeal translocation could uncover facets of the translocation process either not yet identified in bacteria or eukaryotes, or which are unique to archaea. In the following, the current status of our understanding of protein translocation in archaea is reviewed. [ABSTRACT FROM AUTHOR]

Published

2000

25. Designing sequence with low sidelobe levels at specified intervals based on PSD fitting.

Author

Wu, Hao, Song, Zhiyong, Fan, Hongqi, and Fu, Qiang

Abstract

A new approach for designing a sequence that has very low autocorrelation sidelobe levels at specified intervals is proposed. The synthesised autocorrelation function is defined for denoting the autocorrelation properties, and the design problem is formulated as a power spectral density (PSD) fitting problem. In this way, a simple optimisation objective function is obtained and an iterative optimisation technique is applied. The proposed approach is computationally efficient and can generate a sequence with autocorrelation sidelobes that are practically zero at the required lag intervals. [ABSTRACT FROM AUTHOR]

Published

2015

26. Domain structure, GTP-hydrolyzing activity and 7S RNA binding of Acidianus ambivalens Ffh-homologous protein suggest an SRP-like complex in archaea.

Author

Moll, Ralf, Schmidtke, Silke, and Schäfer, Günter

Subjects

*ARCHAEBACTERIA, *RNA-protein interactions, *BIOCHEMISTRY, *GENETICS

Abstract

In this study we provide, for the first time, experimental evidence that a protein homologous to bacterial Ffh is part of an SRP-like ribonucleoprotein complex in hyperthermophilic archaea. The gene encoding the Ffh homologue in the hyperthermophilic archaeote Acidianus ambivalens has been cloned and sequenced. Recombinant Ffh protein was expressed in E. coli and subjected to biochemical and functional studies. A. ambivalens Ffh encodes a 50.4-kDa protein that is structured by three distinct regions: the N-terminal hydrophilic N-region (N), the GTP/GDP-binding domain (G) and a C-terminal located C-domain (C). The A. ambivalens Ffh sequence shares 44–46% sequence similarity with Ffh of methanogenic archaea, 34–36% similarity with eukaryal SRP54 and 30–34% similarity with bacterial Ffh. A polyclonal antiserum raised against the first two domains of A. ambivalens Ffh reacts specifically with a single protein (apparent molecular mass: 46 kDa, termed p46) present in cytosolic and in plasmamembrane cell fractions of A. ambivalens. Recombinant Ffh has a melting point of tm = 89 °C. Its intrinsic GTPase activity obviously depends on neutral pH and low ionic strength with a preference for chloride and acetate salts. Highest rates of GTP hydrolysis have been achieved at 81 °C in presence of 0.1–1 mm Mg2+. GTP hydrolysis is significantly inhibited by high glycerol concentrations, and the GTP hydrolysis rate also markedly decreases by addition of detergents. The Km for GTP is 13.7 µm at 70 °C and GTP hydrolysis is strongly inhibited by GDP (Ki = 8 µm). A. ambivalens Ffh, which includes an RNA-binding motif in the C-terminal domain, is shown to bind specifically to 7S RNA of the related crenarchaeote Sulfolobus solfataricus. Comparative sequence analysis reveals the presence of typical signal sequences in plasma membrane as well as extracellular proteins of hyperthermophilic... [ABSTRACT FROM AUTHOR]

Published

1999

27. Influence of the signal sequence and chaperone SecB on the interaction between precursor protein prePhoE and phospholipids.

Author

Van Raalte, Anne L.J., Demel, Rudy A., Verberkmoes, Geerten, Breukink, Eefjan, Keller, Rob C.A., and De Kruijff, Ben

Subjects

*ESCHERICHIA coli, *MEMBRANE proteins, *MOLECULAR chaperones, *PHOSPHOLIPIDS, *PROTEINASES, *PEPTIDES

Abstract

To investigate in a direct way the interaction between a precursor protein and phospholipids, monolayer studies were performed using the purified precursor of Escherichia coli outer-membrane protein PhoE. It was demonstrated that prePhoE can rosen efficiently into monolayers of dioleoyiglycerophosphoglycerol (Ole2GroPGro) and dioleoylglycerophosphoethanolamine (Ole2GroPEtn), this insertion was mainly driven by hydrophobic forces. Compared with previous results obtained with PhoE signal peptide, the full-length precursor protein does not show tire specific interaction with acidic lipids. PrePhoE inserted into a Ole2GroPGro occupies an area of 28 ± 30 nm²/molecule, which is approximately 10-fold larger than the area occupied by the PhoE signal peptide. The purified mature PhoE protein has a lower capacity to insert into Ole2GroPGro and Ole2GroPEtn monolayers and is, in contrast to prePhoE. fully accessible to proteinase K after interacting with a Ole2GroPGro monolayer. The results demonstrate that in the context of the precursor protein both the signal sequence and mature domain of prePhoE insert into lipid monolayers. It was found that PhoE, like prePhoE, can form in vitro a complex with the cytosolic chaperone SecB. Complexation with SecB increases the insertion of (pre)PhoE into acidic lipid monolayers. The high lipid affinity of prePhoE was also demonstrated by vesicle-binding experiments which showed that SecB dissociates from the SecB-prePhoE complex upon binding of the precursor to the bilayer. The implications of these findings for preprotein translocation are discussed and in addition some extrapolations to the insertion of PhoE into the outer membrane are made. [ABSTRACT FROM AUTHOR]

Published

1996

28. PrlA4 prevents the rejection of signal sequence defective preproteins by stabilizing the SecA-SecY interaction during the initiation of translocation.

Author

van der Wolk, Jeroen P. W., Fekkes, Peter, Boorsma, Andre, Huie, Janet L., Silhavy, Thomas J., and Driessen, Arnold J. M.

Subjects

*ESCHERICHIA coli, *CELL membranes, *CHROMOSOMAL translocation, *ENZYMES, *GENETIC mutation, *PROTEIN precursors

Abstract

In Escherichia coli, precursor proteins are translocated across the cytoplasmic membrane by translocase. This multisubunit enzyme consists of a preprotein-binding and ATPase domain, SecA, and the SecYEG complex as the integral membrane domain. PrlA4 is a mutant of SecY that enables the translocation of preproteins with a defective, or missing, signal sequence. Inner membranes of the prlA4 strain efficiently translocate · 8proOmpA, a proOmpA derivative with a non-functional signal sequence. Owing to the signal sequence mutation, · 8proOmpA binds to the translocase with a lowered affinity and the recognition is not restored by the prlA4 SecY. At the ATP-dependent initiation of translocation, the binding affinity of SecA for SecYEG is lowered causing the premature loss of bound preproteins from the translocase. The prlA4 membranes, however, bind SecA with a much higher affinity than the wild-type, and during initiation, the SecA and preprotein remain bound at the translocation site allowing an improved efficiency of translocation. It is concluded that the prlA4 strain prevents the rejection of defective preproteins from the export pathway by stabilizing SecA at the SecYEG complex. [ABSTRACT FROM AUTHOR]

Published

1998

29. Signal peptide fragments of preprolactin and HIV-1 p-gp160 interact with calmodulin.

Author

Martoglio, Bruno, Graf, Roland, and Dobberstein, Bernhard

Subjects

*MEMBRANE proteins, *PEPTIDES, *ENDOPLASMIC reticulum, *CALMODULIN, *CROSSLINKING (Polymerization), *AMINO acids

Abstract

Secretory proteins and most membrane proteins are synthesized with a signal sequence that is usually cleaved from the nascent polypeptide during transport into the lumen of the endoplasmic reticulum. Using site-specific photo-crosslinking we have followed the fate of the signal sequence of preprolactin in a cellfree system. This signal sequence has an unusually long hydrophilic n-region containing several positively charged amino acid residues. We found that after cleavage by signal peptidase the signal sequence is in contact with lipids and subunits of the signal peptidase complex. The cleaved signal sequence is processed further and an N-terminal fragment is released into the cytosol. This signal peptide fragment was found to interact efficiently with calmodulin. Similar to preprolactin, the signal sequence of the HIV-1 envelope protein p-gp160 has the characteristic feature for calmodulin binding in its n-region. We found that a signal peptide fragment of p-gp160 was released into the cytosol and interacts with calmodulin. Our results suggest that signal peptide fragments of some cellular and viral proteins can interact with cytosolic target molecules. The functional consequences of such interactions remain to be established. However, our data suggest that signal sequences may be functionally more versatile than anticipated up to now. [ABSTRACT FROM AUTHOR]

Published

1997