Semi‐synthesis of murine prion protein by native chemical ligation and chemical activation for preparation of polypeptide‐α‐thioester

Prions are suspected as pathogen of the fatal transmissible spongiform encephalopathies. Strategies to access homogenous prion protein (PrP) are required to fully comprehend the molecular mechanism of prion diseases. However, the polypeptide fragments from PrP show a high tendency to form aggregates, which is a gigantic obstacle of protein synthesis and purification. In this study, murine prion sequence 90 to 230 that is the core three‐dimensional structure domain was constructed from three segments murine PrP (mPrP)(90–177), mPrP(178–212), and mPrP(213–230) by combining protein expression, chemical synthesis and chemical ligation. The protein sequence 90 to 177 was obtained from expression and finally converted into the polypeptide hydrazide by chemical activation of a cysteine in the tail. The other two polypeptide fragments of the C‐terminal were obtained by chemical synthesis, which utilized the strategies of isopeptide and pseudoproline building blocks to complete the synthesis of such difficult sequences. The three segments were finally assembled by sequentially using native chemical ligation. This strategy will allow more straightforward access to homogeneously modified PrP variants. Copyright © 2017 European Peptide Society and John Wiley & Sons, Ltd.     

Oxime ligation in acetic acid: efficient synthesis of aminooxy‐peptide conjugates

Oxime ligation is a powerful tool in various bioconjugation strategies. Nevertheless, high reaction rates and quantitative yields are typically reported for aldehyde‐derived compounds. In contrary, keto groups react much slower, with quantitative yields achieved at 5 h for low‐molecular weight compounds and more than 15 h for polymers or dendrimers. In this communication, we report that oxime ligation proceeds rapidly with quantitative (>95%) conversion within 1.5–2 h in pure acetic acid. The practical utility of suggested technique is illustrated by the synthesis of peptide‐steroid and peptide‐polymer conjugates of model aminooxy‐peptides. Copyright © 2016 European Peptide Society and John Wiley & Sons, Ltd.     

Fmoc‐based peptide thioester synthesis with self‐purifying effect: heading to native chemical ligation in parallel formats

The chemical synthesis of proteins has facilitated functional studies of proteins due to the site‐specific incorporation of post‐translational modifications, labels, and non‐proteinogenic amino acids. Moreover, native chemical ligation provides facile access to proteins by chemical means. However, the application of the native chemical ligation reaction in the synthesis of parallel formats such as protein arrays has been complicated because of the often cumbersome and time‐consuming synthesis of the required peptide thioesters. An Fmoc‐based peptide thioester synthesis with self‐purification on the sulfonamide ‘safety‐catch’ linker widens this bottleneck because HPLC purification can be avoided. The method is based on an on‐resin cyclization–thiolysis reaction sequence. A macrocyclization via the N‐terminus of the full‐length peptide followed by a thiolytic C‐terminal ring opening allows selective detachment of the truncation products and the full‐length peptide. A brief overview of the chemical aspects of this method is provided including the optimization steps and the automation process. Furthermore, the application of the cyclization–thiolysis approach combined with the native chemical ligation reaction in the parallel synthesis of a library of 16 SH3‐domain variants of SHO1 in yeast is described, demonstrating the value of this new technique for the chemical synthesis of protein arrays. Copyright © 2013 European Peptide Society and John Wiley & Sons, Ltd.     

Semisynthesis and optimization of G protein‐coupled receptor mimics

We have recently developed a soluble mimic of the corticotropin‐releasing factor receptor type 1 (CRF1), a membrane‐spanning G protein‐coupled receptor, which allowed investigations on receptor–ligand interactions. The CRF1 mimic consists of the receptor N‐terminus and three synthetic extracellular loops (ECL1–3), which constitute the extracellular receptor domains (ECDs) of CRF1, coupled to a linear peptide template. Here, we report the synthesis of a modified CRF1 mimic, which is more similar to the native receptor possessing a cyclic template that displays the ECDs in a more physiological conformation compared with the initial linear design. In order to facilitate detailed biophysical investigations on CRF1 mimics, we have further established a cost‐efficient access to the CRF1 mimic, which is suitable for isotopic labeling for NMR spectroscopy. To this end, the loop‐mimicking cyclic peptide of the ECL2 of CRF1 was produced recombinantly and cyclized by expressed protein ligation. Cyclic ECL2 was obtained in milligram scale, and CRF1 mimics synthesized from this material displayed the same binding properties as synthetic CRF1 constructs. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Scope and limitation of side‐chain assisted ligation

Side‐chain assisted ligation is an auxiliary‐mediated ligation strategy in which a thiol bearing cyclohexane or cyclopentane is attached to the side‐chain of Asp, Glu, Ser or Thr to function in a similar manner to Cys in a native chemical ligation. Following the ligation step, the auxiliary is removed, without product isolation, under alkaline conditions. Copyright © 2011 European Peptide Society and John Wiley & Sons, Ltd.     

Fine‐tuning sortase‐mediated immobilization of protein layers on surfaces using sequential deprotection and coupling

Increasing interest in protein immobilization on surfaces has heightened the need for techniques enabling layer‐by‐layer protein attachment. Here, we report a technique for controlling enzyme‐mediated immobilization of layers of protein on the surface using a genetically encoded protecting group. An enterokinase‐cleavable peptide sequence was inserted at the N‐terminus of bifunctional fluorescent proteins containing Sortase A substrate recognition tags at both ends to control Sortase A‐mediated protein immobilization on the surface layer‐by‐layer. Efficient, sequential immobilization of a second layer of protein using Sortase A required removal of the N‐terminal protecting group, suggesting the method enables multilayer synthesis using cyclic deprotection and coupling steps. © 2017 American Institute of Chemical Engineers Biotechnol. Prog., 33:824–831, 2017     

Protein prosthesis: β‐peptides as reverse‐turn surrogates

The introduction of non‐natural modules could provide unprecedented control over folding/unfolding behavior, conformational stability, and biological function of proteins. Success requires the interrogation of candidate modules in natural contexts. Here, expressed protein ligation is used to replace a reverse turn in bovine pancreatic ribonuclease (RNase A) with a synthetic β‐dipeptide: β²‐homoalanine–β³‐homoalanine. This segment is known to adopt an unnatural reverse‐turn conformation that contains a 10‐membered ring hydrogen bond, but one with a donor–acceptor pattern opposite to that in the 10‐membered rings of natural reverse turns. The RNase A variant has intact enzymatic activity, but unfolds more quickly and has diminished conformational stability relative to native RNase A. These data indicate that hydrogen‐bonding pattern merits careful consideration in the selection of beneficial reverse‐turn surrogates.     

The terminal 5′ phosphate and proximate phosphorothioate promote ligation‐independent cloning

Function studies of many proteins are waited to develop after genome sequencing. High‐throughout technology of gene cloning will strongly promote proteins' function studies. Here we describe a ligation‐independent cloning (LIC) method, which is based on the amplification of target gene and linear vector by PCR using phosphorothioate‐modified primers and the digestion of PCR products by λ exonuclease. The phosphorothioate inhibits the digestion and results in the generation of 3′ overhangs, which are designed to form complementary double‐stranded DNA between target gene and linear vector. We compared our phosphorothioate primer cloning methods with several LIC methods, including dU primer cloning, hybridization cloning, T4 DNA polymerase cloning, and in vivo recombination cloning. The cloning efficiency of these LIC methods are as follows: phosphorothioate primer cloning > dU primer cloning > hybridization cloning > T4 DNA polymerase cloning >> in vivo recombination cloning. Our result shows that the 3′ overhangs is a better cohesive end for LIC than 5′ overhang and the existence of 5′phosphate promotes DNA repair in Escherichia coli, resulting in the improvement of cloning efficiency of LIC. We succeeded in constructing 156 expression plasmids of Aeropyrum pernix genes within a week using our method.     

Native STIM2 and ORAI1 proteins form a calcium‐sensitive and thapsigargin‐insensitive complex in cortical neurons

In non‐excitatory cells, stromal interaction molecule 1 (STIM1) and STIM2 mediate store‐operated calcium entry via an interaction with ORAI1 calcium channels. However, in neurons, STIM2 over‐expression appears to play a role in calcium homeostasis that is different from STIM1 over‐expression. The aim of this study was to establish the role and localization of native STIM2 in the neuronal cell. Co‐immunoprecipitation experiments revealed that the interaction between endogenous STIM2 and ORAI1 was greater in a low‐calcium medium than in a high‐calcium medium. Using a Proximity Ligation Assay (PLA), the number of apparent complexes of endogenous STIM2 with ORAI1 was quantified. No change in the number of PLA signals was observed in the presence of thapsigargin, which depletes calcium from the endoplasmic reticulum (ER). However, the number of apparent STIM2‐ORAI1 complexes increased when intracellular and subsequently ER calcium concentrations were decreased by BAPTA‐AM or a low‐calcium medium. Both Fura‐2 acetoxymethyl ester calcium imaging and PLA in the same neuronal cell indicated that the calcium responses correlated strongly with the number of endogenous STIM2‐ORAI1 complexes. The small drop in calcium levels in the ER caused by decreased intracellular calcium levels appeared to initiate the calcium‐sensitive and thapsigargin‐insensitive interaction between STIM2 and ORAI1.

     

Design,synthesis, and comparative evaluation of 99mTc(CO)3‐labeled N‐terminal and C‐terminal modified asparagine–glycine–arginine peptide constructs

The present study describes modification of asparagine–glycine–arginine (NGR) peptide at N‐terminally and C‐terminally by introduction of a tridentate chelating scaffold via click chemistry reaction. The N‐terminal and C‐terminal modified peptides were radiometalated with [^99mTc(CO)₃]⁺ precursor. The influence of these moieties at the two termini on the targeting properties of NGR peptide was determined by in vitro cell uptake studies and in vivo biodistribution studies. The two radiolabeled constructs did not exhibit any significant variation in uptake in murine melanoma B16F10 cells during in vitro studies. In vivo studies revealed nearly similar tumor uptake of N‐terminally modified peptide construct 5 and C‐terminally construct 6 at 2 h p.i. (1.9 ± 0.1 vs 2.4 ± 0.2% ID/g, respectively). The tumor‐to‐blood (T/B) and tumor‐to‐liver (T/L) ratios of the two radiometalated peptides were also quite similar. The two constructs cleared from all the major organs (heart, lungs, spleen, stomach, and blood) at 4 h p.i. (<1% ID/g). Blocking studies carried out by coinjection of cCNGRC peptide led to approximately 50% reduction in the tumor uptake at 2 h p.i. This work thus illustrates the possibility of convenient modification/radiometalation of NGR peptide at either N‐ or C‐terminus without hampering tumor targeting and pharmacokinetics.     

Application of NMR spectroscopy for assignment of the absolute configuration of 8‐tert‐butyl‐2‐hydroxy‐7‐methoxy‐8‐methyl‐9‐oxa‐6‐azaspiro[4.5]dec‐6‐en‐10‐one

In order to assign the absolute configurations of 8‐tert‐butyl‐2‐hydroxy‐7‐methoxy‐8‐methyl‐9‐oxa‐6‐azaspiro[4.5]dec‐6‐en‐10‐one ( 2a , 2b ), their esters ( 5a , 5b , 5c , 5d ) with (R)‐ or (S)‐2‐methoxyphenylacetic acid ( 4a , 4b ) have been synthesized. The absolute configurations of these compounds have been determined on the basis of NOESY correlations between the protons of the tert‐butyl group and the cyclopentane fragment of the molecules. The crucial part of this analysis was assignment of the absolute configuration at C‐5. Additionally, by calculation of the chemical shift anisotropy, δ^RS, for the relevant protons, it was also possible to confirm the absolute configurations at the C‐2 centres of compounds 2a , 2b and 5a , 5b , 5c , 5d . Chirality, 25:422–426, 2013.© 2013 Wiley Periodicals, Inc.     

Assembly of binding loops on aromatic templates as VCAM‐1 mimetics

The design and synthesis of cyclic mimetics of VCAM‐1 protein that reproduce the integrin‐binding domain are presented. The unprotected peptide precursor 37 – 43 , Thr‐Gln‐Ile‐Asp‐Ser‐Pro‐Leu, was grafted onto functional templates of type naphthalene, biphenyl and benzyl through the chemoselective formation of C‐ and N‐terminal oximes resulting in a mixture of four isomeric forms due to syn–anti isomerism of the oxime bonds. Some isomers could be monitored by HPLC and identified by NMR. The molecule containing a naphthalene‐derived template was found to inhibit the VCAM‐1/VLA‐4 interaction more efficiently than previously reported for sulfur‐bridged cyclic peptides containing similar sequences. The finding confirms the importance of incorporating conformational constraints between the terminal ends of the peptide loop 37 – 43 in the design of synthetic inhibitors of the VCAM‐1/integrin interaction. Copyright © 1999 European Peptide Society and John Wiley & Sons, Ltd.     

Validated spectrofluorimetric method for the determination of carbamazepine in pharmaceutical dosage forms after reaction with 4‐chloro‐7‐‐nitrobenzo‐2‐oxa‐1,3‐diazole (NBD‐Cl)

A sensitive and simple spectrofluorimetric method has been developed and validated for the determination of the anti‐epileptic drug carbamazepine (CBZ) in its dosage forms. The method was based on a nucleophilic substitution reaction of CBZ with 4‐chloro‐7‐nitrobenzo‐2‐ oxa‐1,3‐diazole (NBD‐Cl) in borate buffer (pH 9) to form a highly fluorescent derivative that was measured at 530 nm after excitation at 460 nm. Factors affecting the formation of the reaction product were studied and optimized, and the reaction mechanism was postulated. The fluorescence–concentration plot is rectilinear over the range of 0.6–8 µg/mL with limit of detection of 0.06 µg/mL and limit of quantitation of 0.19 µg/mL. The method was applied to the analysis of commercial tablets and the results were in good agreement with those obtained using the reference method. Validation of the analytical procedures was evaluated according to ICH guidelines. Copyright © 2015 John Wiley & Sons, Ltd.     

The special optical properties and application of the heterocyclic compound diethyl 6‐anilino‐5H‐2,3‐dithia‐5,7‐diazacyclopenta(cd)indene‐1,4‐dicarboxylate

The heterocyclic compound diethyl 6‐anilino‐5H‐2,3‐dithia‐5,7‐diazacyclopenta(cd)indene‐1,4‐dicarboxylate (D1) was found to form highly emissive aggregates in polar solvents, and the aggregate emission can be tuned by the simple addition of water to a dimethylsulfoxide solution. A theoretical study based on Density functional theory (DFT) calculations, shows that intermolecular interactions of D1 with solvent may be potential factors in the fluorescence change. In addition, the phenyl ring in D1 plays an important role because of its response to solvent. In the non‐aggregated state, deprotonation of the N–H of D1 can proceed easily on the addition of base, and the deprotonated compound might interact with Ag⁺, resulting in a significant change in color and fluorescence quenching, which make it a potential chemosensor for the selective detection of trace amounts of Ag⁺. Copyright © 2013 John Wiley & Sons, Ltd.     

Asymmetrically simultaneous synthesis of L‐homophenylalanine and N6‐protected‐2‐oxo‐6‐amino‐hexanoic acid by engineered Escherichia coli aspartate aminotransferase

L ‐Homophenylalanine (L ‐HPA) and N⁶‐protected‐2‐oxo‐6‐amino‐hexanoic acid (N⁶‐protected‐OAHA) can be used as building blocks for the manufacture of angiotensin‐converting enzyme inhibitors. To synthesize L ‐HPA and N⁶‐protected‐OAHA simultaneously from 2‐oxo‐4‐phenylbutanoic acid (OPBA) and N⁶‐protected‐L ‐lysine, several variants of Escherichia coli aspartate aminotransferase (AAT) were developed by site‐directed mutagenesis and their catalytic activities were investigated. Three kinds of N⁶‐protected‐L ‐lysine were tested as potential amino donors for the bioconversion process. AAT variants of R292E/L18H and R292E/L18T exhibited specific activities of 0.70±0.01 U/mg protein and 0.67±0.02 U/mg protein to 2‐amino‐6‐tert‐butoxycarbonylamino‐hexanoic acid (BOC‐lysine) and 2‐amino‐6‐(2,2,2‐trifluoro‐acetylamino)‐hexanoic acid, respectively. E. coli cells expressing R292E/L18H variant were able to convert OPBA and BOC‐lysine to L ‐HPA and 2‐oxo‐6‐tert‐butoxycarbonylamino‐hexanoic acid (BOC‐OAHA) with 96.2% yield in 8 h. This is the first report demonstrating a process for the simultaneous production of two useful building blocks, L ‐HPA and BOC‐OAHA. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

TectoRNP: self‐assembling RNAs with peptide recognition motifs as templates for chemical peptide ligation

TectoRNA, an artificial RNA with self‐assembling ability, has been employed as a structural platform for RNA nanotechnology and RNA synthetic biology. In this study, tectoRNA was applied as a specific template for chemical peptide ligation. On the basis of a self‐assembling tectoRNA, we designed and constructed a template RNA that facilitates peptide ligation depending on controlled dimer formation. Two RNA‐binding peptides were recognized by two peptide‐binding RNA motifs embedded in the template RNA, and chemical ligation was promoted because of the entropic effect of Mg²⁺‐dependent dimerization. In a series of biochemical analyses, we determined the relationship between the structures of the tectoRNA‐based templates and the extent of acceleration in peptide ligation. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.     

All‐Manganese‐Based Binder‐Free Stretchable Lithium‐Ion Batteries

Advanced electrode materials with bendability and stretchability are critical for the rapid development of fully flexible/stretchable lithium‐ion batteries. However, the sufficiently stretchable lithium‐ion battery is still underdeveloped that is one of the biggest challenges preventing from realizing fully deformable power sources. Here, a low‐temperature hydrothermal synthesis of a cathode material for stretchable lithium‐ion battery is reported by the in situ growth of LiMn₂O₄ (LMO) nanocrystals inside 3D carbon nanotube (CNT) film networks. The LMO/CNT film composite has demonstrated the chemical bonding between the LMO active materials and CNT scaffolds, which is the most important characteristic of the stretchable electrodes. When coupled with a wrinkled MnO_x /CNT film anode, a binder‐free, all‐manganese‐based stretchable full battery cell is assembled which delivers a high average specific capacity of ≈97 mA h g^?1 and stabilizes after over 300 cycles with an enormous strain of 100%. Furthermore, combining with other merits such as low cost, natural abundance, and environmentally friendly, the all‐manganese design is expected to accelerate the practical applications of stretchable lithium‐ion batteries for fully flexible and biomedical electronics.     

HS‐SPME‐GC‐FID method for detection and quantification of Bacillus cereus ATCC 10702 mediated 2‐acetyl‐1‐pyrroline

A rapid micro‐scale solid‐phase micro‐extraction (SPME) procedure coupled with gas‐chromatography with flame ionized detector (GC‐FID) was used to extract parts per billion levels of a principle basmati aroma compound “2‐acetyl‐1‐pyrroline” (2‐AP) from bacterial samples. In present investigation, optimization parameters of bacterial incubation period, sample weight, pre‐incubation time, adsorption time, and temperature, precursors and their concentrations has been studied. In the optimized conditions, detection of 2‐AP produced by Bacillus cereus ATCC10702 using only 0.5 g of sample volume was 85 μg/kg. Along with 2‐AP, 15 other compounds produced by B. cereus were also reported out of which 14 were reported for the first time consisting mainly of (E)?2‐hexenal, pentadecanal, 4‐hydroxy‐2‐butanone, n‐hexanal, 2–6‐nonadienal, 3‐methoxy‐2(5H) furanone and 2‐acetyl‐1‐pyridine and octanal. High recovery of 2‐AP (87 %) from very less amount of B. cereus samples was observed. The method is reproducible fast and can be used for detection of 2‐AP production by B. cereus. © 2014 American Institute of Chemical Engineers Biotechnol. Prog., 30:1356–1363, 2014