Studies on the interaction of FKBP65, a putative molecular chaperone, with tropoelastin and an elastin model polypeptide

Cheung, Kevin

05 1900

<p> FKBP65 is a 65 kDa FK-506 binding protein containing 4 putative peptidyl prolyl isomerase (PPiase) domains, whose expression level parallels that oftropoelastin, the soluble precursor ofelastin. Studies from other laboratories have established that FKBP65 associates with tropoelastin (TE) in the endoplasmic reticulum (ER) and dissociates from TE before reaching the Golgi apparatus (Patterson et al., 2000). TE contains 12% proline residues, which are often found in VPGVG repeats, and it has been suggested that these repeats formp-turns and subsequently P-spirals (Urry et al., 1992). The formation ofthe P-spiral is thought to be essential to endow the elastic properties of the elastin fibers. In order to form a P-turn, the proline residue at position 2 ofthe VPGVG sequence must be in trans conformation (Urry et al., 1995). Therefore, it was hypothesized by Davis and coworkers (Davis et al., 1998) that FKBP65, as a PPiase, may play an important role in the folding oftropoelastin by enhancing the formation ofP-turns in the ER, and thus elastic fiber formation. In the present study we have studied the coacervation (a reversible, temperature-dependent, self association process) ofTE and recombinant elastin model polypeptide, EP4, in the absence or presence ofrecombinant FKBP65 (rFKBP65). rFKBP65 was shown to enhance the coacervation process of TE, by lowering the coacervation temperature (T c) and increasing the overall extent of coacervation. In the kinetic study ofcoacervation ofTE at a constant temperature, rFKBP65 increased both the initial rate ofthe coacervation process and the overall extent ofcoacervation. These effects are specific to rFKBP65, as FKBP12 has no effect on the coacervation process. Rapamycin, an inhibitor ofthe PPiase activity ofFK-506 binding proteins, did not alter rFKBP65's effect on TE coacervation. </p> <p>In contrast to TE, rFKBP65 affected the coacervation process ofEP4 by increasing the T c, and by enhancing the dissociation of coacervates when temperature is decreased. Once again, these effects are specific to rFKBP65, as FKBP12 and BSA were shown to have no effect on the coacervation ofEP4. The effect of small pH changes on rFKBP65 was also investigated, and it was found that lowering the pH from 7.5 to 6.0 had no effect on rFKBP65's secondary structure or coacervation-altering activity. </p> <p> In summary, this study, along with an earlier study from this laboratory, has shown that FKBP65 affects the coacervation process ofTE. In addition, the coacervation pro·cess of an elastin model polypeptide, EP4, is also modulated by FKBP65. However, the mechanism ofthese effects remains unclear. Nevertheless, along with the data established by other laboratories, FKBP65 does appear to be a strong candidate as a molecular chaperone for tropoelastin, and may play an important role in the elastogenesis process. </p> / Thesis / Master of Science (MSc)

FKBP65

molecular chaperone

putative

tropoelastin

elastin model

polypeptide

Heterologous Protein Expression: Production of Tissue Plasminogen Activator in Pichia Pastoris and Probing Intein Activity on Elastin-Like Polypeptide Aggregates

Xie, Limin

12 1900

<p> Tissue plasminogen activator (tPA), is commonly used as thrombolytic agent for the treatment of various cardiovascular diseases. This thesis constitutes the first report on cloning and expression of tPA in the methylotrphic yeast Pichia pastoris. </p> <p> The tPA gene was first cloned into an E. coli/Pichia shuttle plasmid and then integrated into the Pichia genome. The recombinant Pichia was able to express tPA intracellularly, under methanol induction. The tPA produced by the Pichia had a similar molecular weight as native tPA and it had serine protease activity. At the shake flask scale, the recombinant Pichia strain was able to produce twice as much tPA as reported for E. coli. </p> <p> Elastin-like polypeptides (ELP) are proteins that have a peculiar characteristic: they are able to undergo a reversible inverse phase transition temperature within a very narrow temperature range. On a second aspect of heterologous protein, a construct composed of thioredoxin-intein-ELP was used to provide direct evidence, for the first time, that protein folding and activity, in this case the intein, was maintained when the tripartite fusion was present in the aggregated state. These results are important, since they provide the necessary degree of confidence to stimulate future work directed towards expression and maintenance of proper folding of aggregation-prone proteins when expressed in-vivo E. Coli as ELP directed inclusion bodies. It is also shown that the intein-ELP system may be a very interesting system to be used as a drug delivery vehicle. </p> / Thesis / Master of Applied Science (MASc)

Heterologous

Protein Expression

Plasminogen

Pichia Pastoris

Probing Intein

Polypeptide Aggregates

Small Molecules as Amyloid Inhibitors: Molecular Dynamic Simulations with Human Islet Amyloid Polypeptide (IAPP)

King, Kelsie Marie

09 June 2021

Islet amyloid polypeptide (IAPP) is a 37-residue amyloidogenic hormone implicated in the progression of Type II Diabetes (T2D). T2D affects an estimated 422 million people yearly and is a co-morbidity with numerous diseases. IAPP forms toxic oligomers and amyloid fibrils that reduce pancreatic β-cell mass and exacerbate the T2D disease state. Toxic oligomer formation is attributed, in part, to the formation of inter-peptide β-strands comprised of residues 23-27 (FGAIL). Flavonoids, a class of polyphenolic natural products, have been found experimentally to inhibit IAPP aggregate formation. Many of these known IAPP aggregation attenuating small flavonoids differ structurally only slightly; the influence of functional group placement on inhibiting the aggregation of the IAPP(20-29) has yet to be explored. To probe the role of small-molecule structural features that impede IAPP aggregation, molecular dynamics (MD) simulations were performed on a model fragment of IAPP(20-29) in the presence of morin, quercetin, dihydroquercetin, epicatechin, and myricetin. Contacts between Phe23 residues are critical to oligomer formation, and small-molecule contacts with Phe23 are a key predictor of β-strand reduction. Structural properties influencing the ability of compounds to disrupt Phe23-Phe23 contacts include carbonyl and hydroxyl group placement. These structural features influence aromaticity and hydrophobicity, principally affecting ability to disrupt IAPP(20-29) oligomer formation. This work provides key information on design considerations for T2D therapeutics. / Master of Science in Life Sciences / Type II Diabetes (T2D) affects an estimated 422 million people worldwide, with the World Health Organization (WHO) reporting that approximately 1.5 million deaths were directly caused by T2D in 2019. The progression of T2D has been attributed to a protein, called islet amyloid polypeptide (IAPP, or amylin) that is co-secreted with insulin after individuals eat or consumes calories. IAPP has been discovered to form toxic aggregates or clumps of protein material that worsen the disease state and cause a loss of mass of pancreatic cells. There is a large market for therapeutics of T2D and more small molecule drugs are needed to slow progression and severity of T2D. Flavonoids, a class of natural molecules, have been found to inhibit the processes by which IAPP promotes T2D disease progression by stopping the aggregation of IAPP. The structures of these flavonoid compounds differ slightly but show difference in ability to slow IAPP aggregation. By understanding how those differences confer more or less protection against T2D and inhibit IAPP aggregation, we can design more potent and specific drugs to target IAPP. To probe the role of molecular structure in preventing IAPP aggregation, molecular dynamics (MD) simulations — a powerful computational technique — were performed on a model fragment of IAPP in the presence of molecules morin, quercetin, dihydroquercetin, epicatechin, and myricetin. MD simulations provide extremely detailed information about potential drug interactions with a given target, serving as an important tool in the development of new drugs. This work has identified key features and predictors of effective IAPP drugs, providing a framework for the further development of therapeutics against T2D and similar diseases.

amyloids

islet amyloid polypeptide

flavonoids

molecular dynamics simulations

drug discovery

Lineare und verzweigte Blockcopolymere aus Polypeptiden und synthetischen Polymeren

Kukula, Hildegard

January 2001

Die vorliegende Arbeit beschäftigt sich mit der Synthese und den Eigenschaften von linearen und verzweigten amphiphilen Polypeptid-Blockcopolymeren. Die Frage nach dem Einfluss der Topologie und Konformation der Blockcopolymere auf die supramolekularen und kolloidalen Eigenschaften bildete einen wichtigen Aspekt bei den Untersuchungen. Die Blockcopolymere wurden nach einem mehrstufigen Reaktionsschema durch Kombination von anionischer und ringöffnender Polymerisation von Aminosäuren-N-Carboxyanhydriden (NCA) synthetisiert. Die Untersuchung der Polypeptid-Blockcopolymere hinsichtlich ihres Aggregationsverhaltens in fester Phase sowie in verdünnter wässriger Lösung erfolgte mittels Streumethoden (SAXS, WAXS, DLS) sowie abbildender Methoden (TEM). Durch Einsatz der Blockcopolymere als polymere Stabilisatoren in der Emulsionspolymerisation wurden Oberflächen funktionalisierte Latizes erhalten. Als Beispiel für eine pharmazeutische Anwendung wurden bioverträgliche Polypeptid-Blockcopolymere als Wirkstoff-Trägersysteme in der Krebstherapie eingesetzt. / This work describes the synthesis and characterization of linear and branched polypeptide block copolymers having amphiphilic character. The studies focused on the impact of the block copolymers' conformation and architecture on the supramolecular and colloidal properties. The polypeptide block copolymers were prepared in a multi-step process involving the anionic synthesis of (poly)amino-functional polymers (polystyrene and polybutadiene) which where used as macroinitiators for the ring-opening polymerization of N-carboxyanhydrides (NCA) of protected a-aminoacids. Supramolecular structures of the block copolymers in the solid state as well as in diluted aqueous solution were investigated using scattering (SAXS, WAXS, DLS) and microscopic (TEM) methods. Both linear and branched polypeptide block copolymers were used as polymeric stabilizers in the emulsion polymerization of styrene to yield polypeptide-decorated latexes. Biocompatible block copolymers were used as drug-delivery systems in lymphatic cancer therapy.

XXX

Chemistry and allied sciences

Étude théorique de peptides amyloidogènes : Ensemble conformationnel, oligomérisation et inhibition par des ligands peptidomimétiques / Theoretical Study of Amyloidogenic Peptide : Conformational Ensemble, Oligomerization and Inhibition by Peptidomimetic Ligands

Tran, Thi Thuy Linh

15 December 2016

De nombreuses protéines associées aux maladies neurodégénératives humaines sont intrinsèquement désordonnées. Ce sont des protéines qui sont dépourvues de structure tertiaire ou secondaire stable dans des conditions physiologiques. Plus précisément, les protéines intrinsèquement désordonnées (IDPs) subissent diverses changements conformationnels entre la pelote aléatoire, des conformations hélicoïdales et des structures en feuillet-β, ces deux dernières étant généralement impliquées dans la reconnaissance protéine-protéine. Parmi une vingtaine de peptides amyloïdogènes connus liés aux maladies dégénératives humaines, notre étude porte sur deux protéines désordonnées: le peptide Amyloïde-β (Aβ) associé à la maladie d'Alzheimer et l'Islet Amyloid Polypeptide (IAPP) impliqué dans le diabète de type II. Aβ possède deux alloformes courants de 40 et 42 résidus, tandis que IAPP est une hormone peptidique de 37 résidus. Les agrégats de Aβ sont toxiques pour les cellules du cerveau, tandis que la fibrillisation de IAPP affecte les cellules-β du pancréas. Le mécanisme d'agrégation de ces deux peptides reste encore mal connu, mais il a été proposé qu’en solution, ces peptides visitent différentes conformations, l'une d'entre elles étant riche en feuillets-β. Cela conduirait à l’oligomérisation de ces peptides, par le biais d’interactions feuillet-β / feuillet-β et, éventuellement, à la formation de fibrilles. Le but de notre étude est de mieux caractériser la dynamique conformationnelle de ces deux peptides, dans leur forme monomérique et oligomérique. Comprendre les premières étapes de leur agrégation est crucial pour le développement de nouvelles molécules thérapeutiques efficaces contre ces protéines amyloïdes. / Many proteins associated with human neurodegenerative diseases are intrinsically disordered. They are proteins which lack stable tertiary or secondary structure under physiological conditions. More specifically, intrinsically disordered proteins (IDPs) undergo various structural conversions between random coil, helical conformations and β-strand structures, these two latter being generally involved in protein-protein recognition. Among about twenty known amyloidogenic peptides related to human degenerative diseases, we focus our study on two disordered proteins: the Amyloid-β peptide (Aβ) associated to the Alzheimer’s disease and the Islet Amyloid Polypeptide (IAPP) involved in type II diabetes. Aβ has two common alloforms of 40 and 42 residues in length, meanwhile IAPP is a 37-residues peptide hormone. Aggregates of Aβ are toxic to the brain cells, meanwhile IAPP fibrillization affects the pancreatic β-cells. The aggregation mechanism of these two peptides is not known in detail, but it was proposed that in solution, these peptides visit various conformations, one of them being rich in β-strands. This would lead to peptide oligomerization, through β-strand / β-strand interactions and eventually to the fibril formation. The aim of our study is to provide insights into the conformational dynamics of these two peptides in monomeric and oligomeric forms. Understanding the early steps of their aggregation is crucial for the development of new effective therapeutic molecules against these amyloid proteins.De nombreuses protéines associées aux maladies neurodégénératives humaines sont intrinsèquement désordonnées. Ce sont des protéines qui sont dépourvues de structure tertiaire ou secondaire stable dans des conditions physiologiques. Plus précisément, les protéines intrinsèquement désordonnées (IDPs) subissent diverses changements conformationnels entre la pelote aléatoire, des conformations hélicoïdales et des structures en feuillet-β, ces deux dernières étant généralement impliquées dans la reconnaissance protéine-protéine. Parmi une vingtaine de peptides amyloïdogènes connus liés aux maladies dégénératives humaines, notre étude porte sur deux protéines désordonnées: le peptide Amyloïde-β (Aβ) associé à la maladie d'Alzheimer et l'Islet Amyloid Polypeptide (IAPP) impliqué dans le diabète de type II. Aβ possède deux alloformes courants de 40 et 42 résidus, tandis que IAPP est une hormone peptidique de 37 résidus. Les agrégats de Aβ sont toxiques pour les cellules du cerveau, tandis que la fibrillisation de IAPP affecte les cellules-β du pancréas. Le mécanisme d'agrégation de ces deux peptides reste encore mal connu, mais il a été proposé qu’en solution, ces peptides visitent différentes conformations, l'une d'entre elles étant riche en feuillets-β. Cela conduirait à l’oligomérisation de ces peptides, par le biais d’interactions feuillet-β / feuillet-β et, éventuellement, à la formation de fibrilles. Le but de notre étude est de mieux caractériser la dynamique conformationnelle de ces deux peptides, dans leur forme monomérique et oligomérique. Comprendre les premières étapes de leur agrégation est crucial pour le développement de nouvelles molécules thérapeutiques efficaces contre ces protéines amyloïdes.

Peptides amyloidogènes

Peptidomimétiques

Peptide Amyloïde-Β

Islet Amyloid Polypeptide

Molecular modelling

Amyloidogenic peptides

Peptidomimetic

Intrinsically disordered proteins

Amyloid-Β peptide

Islet Amyloid Polypeptide

Modélisation moléculaire

Design and Evaluation of a Disulphide-crosslinked Hyaluronan Hydrogel for Regeneration of the Intervertebral Disc

Windisch, Leah Marianne

26 February 2009

A cysteine-containing elastin-like polypeptide (ELP2cys) was successfully synthesized and purified, and was shown to behave in a similar fashion to other well-characterized ELPs. Incorporating the ELP2cys as a crosslinking agent into a solution of sulphated hyaluronan (CMHA-S) not only decreased the gelation time of the solution but also increased the crosslinking density of the resultant hydrogel, in turn increasing both the resiliency and stiffness of the construct. Preliminary in vitro work involved culture of human disc cells, followed by their encapsulation within the hydrogel. Unfortunately the results were inconclusive, although it appeared as though the addition of ELP2cys to the matrix did not negatively affect the viability of the cells, as compared to hydrogels with CMHA-S only. This study showed that ELP2cys is a valuable addition to the family of recombinant elastin-like polypeptides, and shows promise as a crosslinking agent in the formation of hyaluronan hydrogels.

hyaluronan hydrogel

elastin-like polypeptide

nucleus pulposus

regeneration

mechanical response

coacervation

0541

0542

Matériaux stimulables et structures à base de copolymères portant des greffons polypeptides

Dossin, Maxime

01 February 2008

Dans cette thèse nous nous sommes intéressés aux copolymères hybrides qui combinent des segments polypeptides et polymères classiques au sein de la même macromolécule. Relier ces chaînes de façon covalente permet d'allier intimement les propriétés des deux composants : la solubilité, la processabilité, les propriétés de nanostructuration des copolymères classiques, avec les propriétés de biocompatibilité, d'auto-structuration ou de stimulabilité des polypeptides. Ce travail concerne l'étude de matériaux nanostructurés et stimulables à base de copolymères hybrides greffés. Trois types ont été préparés. Le premier type est constitué d'un squelette poly(N,N-diméthylacrylamide) hydrophile, et de greffons courts poly(L-Lysine) présentant des transitions entre les conformations hélice-alpha, feuillet-beta et désordonnée. En solution aqueuse, ces transitions sont induites par variations de pH et de température. Nous présentons un système dont le changement réversible d'état macroscopique -solution liquide/gel- dépend d'un changement de structure secondaire des greffons. Le deuxième type de copolymère est basé sur le même squelette hydrophile, avec des greffons hydrophobes poly(gamma-benzyl-L-glutamate) se structurant en hélice-alpha. Dans l'eau, ce copolymère amphiphile forme des superstructures membranaires et vésiculaires de l'échelle de la dizaine de microns. La formation de ces agrégats est attribuée à l'association des hélices-alpha, contrainte à deux dimensions du fait de la présence du squelette hydrophile. La synthèse d'un troisième type de copolymère hybride greffé a été testée. Cette synthèse met en jeu le couplage entre segments peptidiques préformés et un polystyrène réactif.

DGA

MRIS

copolymère greffé

polypeptide

structuration

gélification

squelette vinylique

greffons peptidiques

Intestinal peptides and ethnic differences in insulin secretion

Higgins, Paul B.

January 2006

Thesis (Ph. D.)--University of Alabama at Birmingham, 2006. / Title from first page of PDF file (viewed Feb. 22, 2007). Includes bibliographical references (p. 92-107).

Polyproline and the "spectroscopic ruler" revisited with single-molecule fluorescence

Schuler, Benjamin, Lipman, Everett A., Steinbach, Peter J., Kumke, Michael, Eaton, William A.

January 2005

To determine whether Förster resonance energy transfer (FRET) measurements can provide quantitative distance information in single-molecule fluorescence experiments on polypeptides, we measured FRET efficiency distributions for donor and acceptor dyes attached to the ends of freely diffusing polyproline molecules of various lengths. The observed mean FRET efficiencies agree with those determined from ensemble lifetime measurements but differ considerably from the values expected from Förster theory, with polyproline treated as a rigid rod. At donor–acceptor distances much less than the Förster radius R0, the observed efficiencies are lower than predicted, whereas at distances comparable to and greater than R0, they are much higher. Two possible contributions to the former are incomplete orientational averaging during the donor lifetime and, because of the large size of the dyes, breakdown of the point-dipole approximation assumed in Förster theory. End-to-end distance distributions and correlation times obtained from Langevin molecular dynamics simulations suggest that the differences for the longer polyproline peptides can be explained by chain bending, which considerably shortens the donor–acceptor distances.

Förster resonance energy transfer

molecular dynamics

polypeptide

FRET

Chemistry and allied sciences

Polypeptide-Based Nanoscale Materials

Aili, Daniel

January 2008

Self-assembly has emerged as a promising technique for fabrication of novel hybrid materials and nanostructures. The work presented in this thesis has been focused on developing nanoscale materials based on synthetic de novo designed polypeptides. The polypeptides have been utilized for the assembly of gold nanoparticles, fibrous nanostructures, and for sensing applications. The 42-residue polypeptides are designed to fold into helix-loop-helix motifs and dimerize to form four-helix bundles. Folding is primarily driven by the formation of a hydrophobic core made up by the hydrophobic faces of the amphiphilic helices. The peptides have either a negative or positive net charge at neutral pH, depending on the relative abundance of Glu and Lys. Charge repulsion thus prevents homodimerization at pH 7 while promoting hetero-dimerization through the formation of stabilising salt bridges. A Cys incorporated in position 22, located in the loop region, allowed for directed, thiol-dependent, immobilization on planar gold surfaces and gold nanoparticles. The negatively charged (Glu-rich) peptide formed homodimers and folded in solution at pH &lt; 6 or in the presence of certain metal ions, such as Zn2+. The folding properties of this peptide were retained when immobilized directly on gold, which enabled reversible assembly of gold nanoparticles resulting in aggregates with well-defined interparticle separations. Particle aggregation was found to induce folding of the immobilized peptides but folding could also be utilized to induce aggregation of the particles by exploiting the highly specific interactions involved in both homodimerization and hetero-association. The possibility to control the assembly of polypeptide-functionalized gold nanoparticles was utilized in a colorimetric protein assay. Analyte binding to immobilized ligands prevented the formation of dense particle aggregates when subjecting the particles to conditions normally causing extensive aggregation. Analyte binding could hence easily be distinguished by the naked eye. Moreover, the peptides were utilized to assemble gold nanoparticles on planar gold and silica substrates. Fibrous nanostructures were realized by linking monomers through a disulphide-bridge. The disulphide-linked peptides were found to spontaneously assemble into long and extremely thin peptide fibres as a result of a propagating association mediated by folding into four-helix bundles. / Ingenjörer och vetenskapsmän har ofta inspirerats av naturen i sökandet efter lösningar på tekniska problem. Allt ifrån byggnadskonstruktioner, flygplansvingar, kompositmaterial till kardborrebandet har skapats med utgångspunkt från förebilder i naturen. Många av de material och konstruktioner som återfinns i naturen har åtråvärda egenskaper som är svåra att erhålla i syntetiska matrial med traditionell teknik. Även om vi i flera fall kan härma sammansättningen och formen blir resultatet inte nödvändigtvis det samma. Den största skillnaden mellan syntetiska material och material producerade av levande organismer är hur deras komponenter sinsemellan är organiserade och sammansatta. I syntetiska material är komponenterna ofta inbördes mer eller mindre slumpvis ordnade medan de i biologiska material är organiserade med en oerhörd precision som sträcker sig ända ned på molekyl- och atomnivå. Naturens byggstenar har genom evolutionens gång förfinats för att spontant kunna organisera sig och bilda komplexa material  och strukturer. Denna process, som styrs genom att många svaga krafter inom och mellan byggstenarna samverkar, kallas ofta för självorganisering och är en förutsättning för allt liv. Självorganisering har också blivit en allt viktigare metod inom nanotekniken för att konstruera material och strukturer med nanometerprecision. I den här avhandlingen beskrivs en typ av självorganiserande material där byggstenarna utgörs av nanometerstora guldpartiklar och syntetiska proteiner. De syntetiska proteinerna är designade för att efterlikna naturliga biomolekyler och antar en välbestämd tredimensionell struktur när två av dem interagerar med varandra. Denna interaktion är mycket specifik men kan styras genom att variera kemiska parametrar som surhet och jonstyrka vilket ger en möjlighet att påverka och kontrollera proteinernas struktur. Proteinerna har vidare modifierats för att spontant organisera sig till fibrer som är flera mikrometer långa men endast några nanometer tjocka. Proteinfibrer utgör en mycket viktig typ av strukturer i biologiska system och finns i alltifrån spindelväv till muskler. Syntetiska proteinfibrer är därför både ett intressant modellsystem och ett material med många potentiellt intressanta användningsområden. Genom att fästa de syntetiska proteinerna på ytan av guldnanopartiklar går interaktionerna mellan partiklarna att kontrollera på samma sätt som interaktionerna mellan proteinerna. Krafterna mellan proteinerna och interaktionerna involverade i proteinernas veckning har använts för att reversibelt aggregera och organisera nanopartiklarna. Ett antal olika byggstenar har studerats och utvecklats till något som liknar ett mycket enkelt nano-Lego, som på en given signal spontant bygger ihop sig eller trillar isär. Guldnanopartiklar är intressanta eftersom de är stabila och lätta att modifiera kemiskt men också på grund av deras optiska egenskaper som ger dem en ovanligt vacker vinröd färg. Färgen uppstår på grund av partiklarnas ringa storlek och varierar naturligt med egenskaperna hos den omgivande miljön. Detta gör det enkelt att studera hur partiklarna interagerar eftersom de byter färg när de närmar sig varandra, men gör dem också intressanta för sensortillämpningar. En enkel och robust sensor beskrivs i avhandlingen där syntetiska proteiner, speciellt utformade för att upptäcka och binda andra molekyler, har fästs på nanopartiklarna. Med partiklarnas hjälp går det att med blotta ögat detektera ett mänskligt protein i koncentrationer under ett tusendels gram per liter. En tidig diagnos av sjukdomstillstånd kan i de flesta fall avsevärt underlätta behandlingen och behovet av enkla sensorer för att bestämma närvaro och koncentration av medicinskt intressanta molekyler är därför mycket stort.

Gold nanoparticle

polypeptide

helix-loop-helix

four-helix bundle

self-assembly

folding

Chemistry

Kemi