Your search keyword '"Piszczek, Grzegorz"' showing total 25 results

1. Modulation of biophysical properties of nucleocapsid protein in the mutant spectrum of SARS-CoV- 2.

Author

Ai Nguyen, Huaying Zhao, Myagmarsuren, Dulguun, Srinivasan, Sanjana, Di Wu, Jiji Chen, Piszczek, Grzegorz, and Schuck, Peter

Published

2024

2. Assembly of SARS-CoV-2 nucleocapsid protein with nucleic acid.

Author

Zhao, Huaying, Syed, Abdullah M, Khalid, Mir M, Nguyen, Ai, Ciling, Alison, Wu, Di, Yau, Wai-Ming, Srinivasan, Sanjana, Esposito, Dominic, Doudna, Jennifer A, Piszczek, Grzegorz, Ott, Melanie, and Schuck, Peter

Published

2024

3. Size Exclusion Chromatography–Mass Photometry: A New Method for Adeno-Associated Virus Product Characterization.

Author

Wu, Di, Zhao, Xiaonan, Jimenez, Diego Antonio, and Piszczek, Grzegorz

Subjects

ADENO-associated virus, GEL permeation chromatography, PHOTOMETRY, GENE therapy, GENOME editing

Abstract

Over the past decade, adeno-associated viruses (AAVs) have attained significant prominence in gene therapy and genome editing applications, necessitating the development of robust and precise methodologies to ensure the quality and purity of AAV products. Existing AAV characterization techniques have proven effective for the analysis of pure and homogeneous AAV samples. However, there is still a demand for a rapid and low-sample-consumption method suitable for the characterization of lower purity or heterogeneous AAV samples commonly encountered in AAV products. Addressing this challenge, we propose the SEC-MP method, which combines size exclusion chromatography (SEC) with mass photometry (MP). In this novel approach, SEC effectively separates monomeric AAV particles from impurities, while the UV detector determines the virus particle concentration. MP complements this process by estimating the fraction of fully packaged AAVs in the total population of AAV particles. This combined methodology enables accurate determination of the titer of effective, fully packaged AAVs in samples containing aggregates, incorrectly packaged AAVs with incomplete genomes, protein or DNA fragments, and other impurities. Our experimental results demonstrate that SEC-MP provides valuable guidance for sample quality control and subsequent applications in the field of AAV research. [ABSTRACT FROM AUTHOR]

Published

2023

4. Mass photometry: A powerful tool for carbohydrates-proteins conjugation monitoring and glycoconjugates molecular mass determination.

Author

Wu, Di, Xu, Peng, Kelly, Meagan, Ryan, Edward T., Kováč, Pavol, and Piszczek, Grzegorz

Abstract

Glycoconjugate vaccines are important additions to the existing means for prevention of diseases caused by bacterial and viral pathogens. Conjugating carbohydrates to proteins is a crucial step in the development of these vaccines. Traditional mass spectrometry techniques, such as MALDI-TOF and SELDI-TOF, have difficulties in detecting glycoconjugates with high molecular masses. Mass photometry (MP) is a single-molecule technique that has been recently developed, which allows mass measurements of individual molecules and generates mass distributions based on hundreds to thousands of these measurements. In this study, we evaluated the performance of MP in monitoring carbohydrate-protein conjugation reactions and characterization of conjugates. Three different glycoconjugates were prepared from carrier protein BSA, and one from a large protein complex, a virus capsid with 3.74 MDa molecular mass. The masses measured by MP were consistent with those obtained by SELDI-TOF-MS and SEC-MALS. The conjugation of BSA dimer to carbohydrate antigen was also successfully characterized. This study shows that the MP technique is a promising alternative to methods developed earlier for monitoring glycoconjugation reactions and characterization of glycoconjugates. It measures intact molecules in solution and it is highly accurate over a wide mass range. MP requires only a very small amount of sample and has no specific buffer constraints. Other MP advantages include minimal cost of consumables and rapid data collection and analysis. Its advantages over other methods make it a valuable tool for researchers in the glycoconjugation field. [ABSTRACT FROM AUTHOR]

Published

2023

5. The dimeric form of bacterial l‐asparaginase YpAI is fully active.

Author

Strzelczyk, Pawel, Zhang, Di, Alexandratos, Jerry, Piszczek, Grzegorz, Wlodawer, Alexander, and Lubkowski, Jacek

Subjects

QUATERNARY structure, YERSINIA pestis, ASPARAGINASE, HOMODIMERS, ESCHERICHIA coli

Abstract

l‐asparaginases from mesophilic bacteria (ASNases), including two enzymes very successfully used in the treatment of leukaemia, have been consistently described as homotetramers. On the contrary, structural studies show that homodimers of these enzymes should be sufficient to carry out the catalytic reaction. In this report, we investigated whether the type I Yersinia pestis asparaginase (YpAI) is active in a dimeric form or whether the tetrameric quaternary structure is critical for its activity. Using multiple biophysical techniques that investigate enzymatic properties and quaternary structure at either high or low protein concentration, we found that dimeric YpAI is fully active, suggesting that the tetrameric form of this subfamily of enzymes does not bear significant enzymatic relevance. In this process, we extensively characterized YpAI, showing that it is a cooperative enzyme, although the mechanism of allostery is still not definitely established. We showed that, like most type I ASNases, the substrate affinity of YpAI is low and this enzyme is very similar in terms of both the structure and enzymatic properties to homologous type I ASNase from Escherichia coli (EcAI). We extended these studies to more medically relevant type II ASNases, used as anti‐leukaemia drugs. We confirmed that type II ASNases are not allosteric, and that they might also be functional in a dimeric form. However, the determination of the accurate tetramer⇆dimer dissociation constants of these enzymes that most likely lie in the picomolar range is not possible with currently available biophysical techniques. [ABSTRACT FROM AUTHOR]

Published

2023

6. A New Structural Model of Apolipoprotein B100 Based on Computational Modeling and Cross Linking.

Author

Jeiran, Kianoush, Gordon, Scott M., Sviridov, Denis O., Aponte, Angel M., Haymond, Amanda, Piszczek, Grzegorz, Lucero, Diego, Neufeld, Edward B., Vaisman, Iosif I., Liotta, Lance, Baranova, Ancha, and Remaley, Alan T.

Subjects

LIPID transfer protein, STRUCTURAL models, CHOLESTERYL ester transfer protein, LIGAND binding (Biochemistry), MASS spectrometry, APOLIPOPROTEINS, LOW density lipoproteins

Abstract

ApoB-100 is a member of a large lipid transfer protein superfamily and is one of the main apolipoproteins found on low-density lipoprotein (LDL) and very low-density lipoprotein (VLDL) particles. Despite its clinical significance for the development of cardiovascular disease, there is limited information on apoB-100 structure. We have developed a novel method based on the "divide and conquer" algorithm, using PSIPRED software, by dividing apoB-100 into five subunits and 11 domains. Models of each domain were prepared using I-TASSER, DEMO, RoseTTAFold, Phyre2, and MODELLER. Subsequently, we used disuccinimidyl sulfoxide (DSSO), a new mass spectrometry cleavable cross-linker, and the known position of disulfide bonds to experimentally validate each model. We obtained 65 unique DSSO cross-links, of which 87.5% were within a 26 Å threshold in the final model. We also evaluated the positions of cysteine residues involved in the eight known disulfide bonds in apoB-100, and each pair was measured within the expected 5.6 Å constraint. Finally, multiple domains were combined by applying constraints based on detected long-range DSSO cross-links to generate five subunits, which were subsequently merged to achieve an uninterrupted architecture for apoB-100 around a lipoprotein particle. Moreover, the dynamics of apoB-100 during particle size transitions was examined by comparing VLDL and LDL computational models and using experimental cross-linking data. In addition, the proposed model of receptor ligand binding of apoB-100 provides new insights into some of its functions. [ABSTRACT FROM AUTHOR]

Published

2022

7. A multi-laboratory benchmark study of isothermal titration calorimetry (ITC) using Ca2+ and Mg2+ binding to EDTA.

Author

Velazquez-Campoy, Adrian, Claro, Bárbara, Abian, Olga, Höring, Jonas, Bourlon, Louis, Claveria-Gimeno, Rafael, Ennifar, Eric, England, Patrick, Chaires, Jonathan Brad, Wu, Di, Piszczek, Grzegorz, Brautigam, Chad, Tso, Shih-Chia, Zhao, Huaying, Schuck, Peter, Keller, Sandro, and Bastos, Margarida

Subjects

ISOTHERMAL titration calorimetry, BINDING constant, STANDARD deviations, INTEGRATED software, DATA analysis

Abstract

A small-scale ITC benchmarking study was performed involving 9 biophysics laboratories/facilities, to evaluate inter-laboratory and intra-laboratory basal levels of uncertainty. Our prime goal was to assess a number of important factors that can influence both the data gathered by this technique and the thermodynamic parameter values derived therefrom. In its first part, the study involved 5 laboratories and 13 different instruments, working with centrally prepared samples and the same experimental protocol. The second part involved 4 additional laboratories and 6 more instruments, where the users prepared their own samples according to provided instructions and did the experiments following the same protocol as in the first part. The study design comprised: (1) selecting a minimal set of laboratories; (2) providing very stable samples; (3) providing samples not requiring preparation or manipulation; and (4) providing a well-defined and detailed experimental protocol. Thus, we were able to assess: (i) the variability due to instrument and data analysis performed by each user on centrally prepared samples; (ii) the comparability of data retrieved when using 4 different software packages to analyze the same data, besides the data analysis carried out by the different users on their own experimental results; and (iii) the variability due to local sample preparation (second part of the study). Individual values, as well as averages and standard deviations for the binding parameters for EDTA-cation interaction, were used as metrics for comparing the equilibrium association constant (logK), enthalpy of interaction (ΔH), and the so-called "stoichiometry" (n), a concentration-correction factor. [ABSTRACT FROM AUTHOR]

Published

2021

8. Standard protocol for mass photometry experiments.

Author

Wu, Di and Piszczek, Grzegorz

Subjects

MOLECULAR weights, SAMPLING (Process), ACQUISITION of data, PHOTOMETRY, DATA analysis

Abstract

Mass photometry (MP) is a relatively new experimental technique with a quickly expanding list of applications. Using optical detection, MP measures the mass of individual molecules to obtain molecular mass distributions of proteins and other biomolecules in solution. The combination of speed, sensitivity, and very low sample consumption with label- and immobilization-free detection sets MP apart from other analytical methods. An increasing number of laboratories incorporates mass photometry as a routine sample analysis technique. However, MP measurements can sometimes be challenging, especially for users without previous experience with single-molecule techniques. Here, we present a protocol for the determination of protein molecular mass distributions by MP. It describes the sample and materials preparation as well as data collection and analysis. The advantages and limitations of this technique and the potential sources of artifacts are also given. This protocol can be used by new MP users and serve as a checklist for laboratories routinely performing MP experiments to guide consistent data collection and documentation. [ABSTRACT FROM AUTHOR]

Published

2021

9. Reformulation of an extant ATPase active site to mimic ancestral GTPase activity reveals a nucleotide base requirement for function.

Author

Updegrove, Taylor B., Harke, Jailynn, Anantharaman, Vivek, Jin Yang, Gopalan, Nikhil, Di Wu, Piszczek, Grzegorz, Stevenson, David M., Amador-Noguez, Daniel, Wang, Jue D., Aravind, L., and Ramamurthi, Kumaran S.

Published

2021

10. Investigating cyclic nucleotide and cyclic dinucleotide binding to HCN channels by surface plasmon resonance.

Author

Hayoz, Sebastien, Tiwari, Purushottam B., Piszczek, Grzegorz, Üren, Aykut, and Brelidze, Tinatin I.

Subjects

CYCLIC nucleotides, HYPERPOLARIZATION (Cytology), SURFACE plasmon resonance, BIOLOGICAL rhythms, C-terminal residues

Abstract

Hyperpolarization-activated cyclic nucleotide-modulated (HCN) channels control cardiac and neuronal rhythmicity. HCN channels contain cyclic nucleotide-binding domain (CNBD) in their C-terminal region linked to the pore-forming transmembrane segment with a C-linker. The C-linker couples the conformational changes caused by the direct binding of cyclic nucleotides to the HCN pore opening. Recently, cyclic dinucleotides were shown to antagonize the effect of cyclic nucleotides in HCN4 but not in HCN2 channels. Based on the structural analysis and mutational studies it has been proposed that cyclic dinucleotides affect HCN4 channels by binding to the C-linker pocket (CLP). Here, we first show that surface plasmon resonance (SPR) can be used to accurately measure cyclic nucleotide binding affinity to the C-linker/CNBD of HCN2 and HCN4 channels. We then used SPR to investigate cyclic dinucleotide binding in HCN channels. To our surprise, we detected no binding of cyclic dinucleotides to the isolated monomeric C-linker/CNBDs of HCN4 channels with SPR. The binding of cyclic dinucleotides was further examined with isothermal calorimetry (ITC), which indicated no binding of cyclic dinucleotides to both monomeric and tetrameric C-linker/CNBDs of HCN4 channels. Taken together, our results suggest that interaction of the C-linker/CNBD with other parts of the channel is necessary for cyclic-dinucleotide binding in HCN4 channels. [ABSTRACT FROM AUTHOR]

Published

2017

11. Effect of ATP and regulatory light-chain phosphorylation on the polymerization of mammalian nonmuscle myosin II.

Author

Xiong Liu, Billington, Neil, Shi Shu, Shu-Hua Yu, Piszczek, Grzegorz, Sellers, James R., and Korn, Edward D.

Subjects

LIGHT scattering, MYOSIN, GLOBULINS, PHOSPHORYLATION, CHEMICAL reactions

Abstract

Addition of 1 mM ATP substantially reduces the light scattering of solutions of polymerized unphosphorylated nonmuscle myosin IIs (NM2s), and this is reversed by phosphorylation of the regulatory light chain (RLC). It has been proposed that these changes result from substantial depolymerization of unphosphorylated NM2 filaments to monomers upon addition of ATP, and filament repolymerization upon RLC-phosphorylation. We now show that the differences in myosin monomer concentration of RLC-unphosphorylated and -phosphorylated recombinant mammalian NM2A, NM2B, and NM2C polymerized in the presence of ATP aremuch too small to explain their substantial differences in light scattering. Rather, we find that the decrease in light scattering upon addition of ATP to polymerized unphosphorylated NM2s correlates with the formation of dimers, tetramers, and hexamers, in addition to monomers, an increase in length, and decrease in width of the bare zones of RLC-unphosphorylated filaments. Both effects of ATP addition are reversed by phosphorylation of the RLC. Our data also suggest that, contrary to previous models, assembly of RLCphosphorylated NM2s at physiological ionic strength proceeds from folded monomers to folded antiparallel dimers, tetramers, and hexamers that unfold and polymerize into antiparallel filaments. This model could explain the dynamic relocalization of NM2 filaments in vivo by dephosphorylation of RLC-phosphorylated filaments, disassembly of the dephosphorylated filaments to folded monomers, dimers, and small oligomers, followed by diffusion of these species, and reassembly of filaments at the new location following rephosphorylation of the RLC. [ABSTRACT FROM AUTHOR]

Published

2017

12. The POTRA domains of Toc75 exhibit chaperone-like function to facilitate import into chloroplasts.

Author

O'neil, Patrick K., Richardson, Lynn G. L., Paila, Yamuna D., Piszczek, Grzegorz, Chakravarthy, Srinivas, Noinaj, Nicholas, and Schnell, Danny

Subjects

CHLOROPLASTS, MOLECULAR chaperones, GRAM-negative bacteria, CYTOPLASM, MITOCHONDRIA

Abstract

Protein trafficking across membranes is an essential function in cells; however, the exact mechanism for how this occurs is not well understood. In the endosymbionts, mitochondria and chloroplasts, the vast majority of proteins are synthesized in the cytoplasm as preproteins and then imported into the organelles via specialized machineries. In chloroplasts, protein import is accomplished by the TOC (translocon on the outer chloroplast membrane) and TIC (translocon on the inner chloroplast membrane) machineries in the outer and inner envelope membranes, respectively. TOC mediates initial recognition of preproteins at the outer membrane and includes a core membrane channel, Toc75, and two receptor proteins, Toc33/34 and Toc159, each containing GTPase domains that control preprotein binding and translocation. Toc75 is predicted to have a ß-barrel fold consisting of an N-terminal intermembrane space (IMS) domain and a C-terminal 16-stranded ß-barrel domain. Here we report the crystal structure of the N-terminal IMS domain of Toc75 from Arabidopsis thaliana, revealing three tandem polypeptide transportassociated (POTRA) domains, with POTRA2 containing an additional elongated helix not observed previously in other POTRA domains. Functional studies show an interaction with the preprotein, preSSU, which is mediated through POTRA2-3. POTRA2-3 also was found to have chaperone-like activity in an insulin aggregation assay, which we propose facilitates preprotein import. Our data suggest a model in which the POTRA domains serve as a binding site for the preprotein as it emerges from the Toc75 channel and provide a chaperonelike activity to prevent misfolding or aggregation as the preprotein traverses the intermembrane space. [ABSTRACT FROM AUTHOR]

Published

2017

13. V-1 regulates capping protein activity in vivo.

Author

Jung, Goeh, Alexander, Christopher J., Hammer, John A., Wu, Xufeng S., Piszczek, Grzegorz, Bi-Chang Chen, and Betzig, Eric

Subjects

CAPPING proteins, ACTIN-related proteins, MYOTROPHIN, DICTYOSTELIUM, ACTIN, PROTEIN genetics, GENETIC overexpression, HOMOLOGY (Biology), PHYSIOLOGY

Abstract

Capping Protein (CP) plays a central role in the creation of the Arp2/ 3-generated branched actin networks comprising lamellipodia and pseudopodia by virtue of its ability to cap the actin filament barbed end, which promotes Arp2/3-dependent filament nucleation and optimal branching. The highly conserved protein V-1/Myotrophin binds CP tightly in vitro to render it incapable of binding the barbed end. Here we addressed the physiological significance of this CP antagonist in Dictyostelium, which expresses a V-1 homolog that we show is very similar biochemically to mouse V-1. Consistent with previous studies of CP knockdown, overexpression of V-1 in Dictyostelium reduced the size of pseudopodia and the cortical content of Arp2/3 and induced the formation of filopodia. Importantly, these effects scaled positively with the degree of V-1 overexpression and were not seen with a V-1 mutant that cannot bind CP. V-1 is present in molar excess over CP, suggesting that it suppresses CP activity in the cytoplasm at steady state. Consistently, cells devoid of V-1, like cells overexpressing CP described previously, exhibited a significant decrease in cellular F-actin content. Moreover, V-1-null cells exhibited pronounced defects in macropinocytosis and chemotactic aggregation that were rescued by V-1, but not by the V-1 mutant. Together, these observations demonstrate that V-1 exerts significant influence in vivo on major actin-based processes via its ability to sequester CP. Finally, we present evidence that V-1's ability to sequester CP is regulated by phosphorylation, suggesting that cells may manipulate the level of active CP to tune their "actin phenotype.". [ABSTRACT FROM AUTHOR]

Published

2016

14. Fixation-resistant photoactivatable fluorescent proteins for CLEM.

Author

Paez-Segala, Maria G, Sun, Mei G, Shtengel, Gleb, Viswanathan, Sarada, Baird, Michelle A, Macklin, John J, Patel, Ronak, Allen, John R, Howe, Elizabeth S, Piszczek, Grzegorz, Hess, Harald F, Davidson, Michael W, Wang, Yalin, and Looger, Loren L

Subjects

FLUORESCENT proteins, PHOTOACTIVATION, ELECTRON microscopy, IMAGING systems in biology, FLUORESCENCE

Abstract

Fluorescent proteins facilitate a variety of imaging paradigms in live and fixed samples. However, they lose their fluorescence after heavy fixation, hindering applications such as correlative light and electron microscopy (CLEM). Here we report engineered variants of the photoconvertible Eos fluorescent protein that fluoresce and photoconvert normally in heavily fixed (0.5-1% OsO4), plastic resin-embedded samples, enabling correlative super-resolution fluorescence imaging and high-quality electron microscopy. [ABSTRACT FROM AUTHOR]

Published

2015

15. Capping protein regulatory cycle driven by CARMIL and V-1 may promote actin network assembly at protruding edges.

Author

Ikuko Fujiwara, Remmert, Kirsten, Piszczek, Grzegorz, and Hammer, John A.

Subjects

CAPPING proteins, MYOTROPHIN, FLUORESCENCE anisotropy, EXCHANGE reactions, ISOTHERMAL titration calorimetry, SURFACE plasmon resonance

Abstract

Although capping protein (CP) terminates actin filament elongation, it promotes Arp2/3-dependent actin network assembly and accelerates actin-based motility both in vitro and in vivo. In vitro, capping protein Arp2/3 myosin I linker (CARMIL) antagonizes CP by reducing its affinity for the barbed end and by uncapping CPcapped filaments, whereas the protein V-1/myotrophin sequesters CP in an inactive complex. Previous work showed that CARMIL can readily retrieve CP from the CP:V-1 complex, thereby converting inactive CP into a version with moderate affinity for the barbed end. Here we further clarify the mechanism of this exchange reaction, and we demonstrate that the CP:CARMIL complex created by complex exchange slows the rate of barbed-end elongation by rapidly associating with, and dissociating from, the barbed end. Importantly, the cellular concentrations of V-1 and CP determined here argue that most CP is sequestered by V-1 at steady state in vivo. Finally, we show that CARMIL is recruited to the plasma membrane and only at cell edges undergoing active protrusion. Assuming that CARMIL is active only at this location, our data argue that a large pool of freely diffusing, inactive CP (CP:V-1) feeds, via CARMIL-driven complex exchange, the formation of weakcapping complexes (CP:CARMIL) at the plasma membrane of protruding edges. In vivo, therefore, CARMIL should promote Arp2/3-dependent actin network assembly at the leading edge by promoting barbed-end capping there. [ABSTRACT FROM AUTHOR]

Published

2014

16. An Engineered Palette of Metal Ion Quenchable Fluorescent Proteins.

Author

Yu, Xiaozhen, Strub, Marie-Paule, Barnard, Travis J., Noinaj, Nicholas, Piszczek, Grzegorz, Buchanan, Susan K., and Taraska, Justin W.

Subjects

METAL ions, FLUORESCENT proteins, QUENCHING (Chemistry), BIOSENSORS, PATHOLOGICAL physiology, CRYSTALLOGRAPHY, MEMBRANE proteins

Abstract

Many fluorescent proteins have been created to act as genetically encoded biosensors. With these sensors, changes in fluorescence report on chemical states in living cells. Transition metal ions such as copper, nickel, and zinc are crucial in many physiological and pathophysiological pathways. Here, we engineered a spectral series of optimized transition metal ion-binding fluorescent proteins that respond to metals with large changes in fluorescence intensity. These proteins can act as metal biosensors or imaging probes whose fluorescence can be tuned by metals. Each protein is uniquely modulated by four different metals (Cu2+, Ni2+, Co2+, and Zn2+). Crystallography revealed the geometry and location of metal binding to the engineered sites. When attached to the extracellular terminal of a membrane protein VAMP2, dimeric pairs of the sensors could be used in cells as ratiometric probes for transition metal ions. Thus, these engineered fluorescent proteins act as sensitive transition metal ion-responsive genetically encoded probes that span the visible spectrum. [ABSTRACT FROM AUTHOR]

Published

2014

17. Tubulin tyrosine ligase structure reveals adaptation of an ancient fold to bind and modify tubulin.

Author

Szyk, Agnieszka, Deaconescu, Alexandra M, Piszczek, Grzegorz, and Roll-Mecak, Antonina

Subjects

TUBULINS, TYROSINE, X-ray scattering, ENZYMES, CATALYSTS

Abstract

Tubulin tyrosine ligase (TTL) catalyzes the post-translational C-terminal tyrosination of ?-tubulin. Tyrosination regulates recruitment of microtubule-interacting proteins. TTL is essential. Its loss causes morphogenic abnormalities and is associated with cancers of poor prognosis. We present the first crystal structure of TTL (from Xenopus tropicalis), defining the structural scaffold upon which the diverse TTL-like family of tubulin-modifying enzymes is built. TTL recognizes tubulin using a bipartite strategy. It engages the tubulin tail through low-affinity, high-specificity interactions, and co-opts what is otherwise a homo-oligomerization interface in structurally related ATP grasp-fold enzymes to form a tight hetero-oligomeric complex with the tubulin body. Small-angle X-ray scattering and functional analyses reveal that TTL forms an elongated complex with the tubulin dimer and prevents its incorporation into microtubules by capping the tubulin longitudinal interface, possibly modulating the partition of tubulin between monomeric and polymeric forms. [ABSTRACT FROM AUTHOR]

Published

2011

18. DNA dynamics: a fluorescence resonance energy transfer study using a long-lifetime metal-ligand complex.

Author

Kang, Jung, Lakowicz, Joseph, and Piszczek, Grzegorz

Abstract

Fluorescent probes bound to DNA typically display nanosecond decay times and reveal only nanosecond motions. We extend the time range of measurable DNA dynamics using [Ru(bpy)2(dppz)]2+ (bpy=2,2’-bipyridine, dppz=dipyrido[3,2-a:2’,3’-c]phenazine) (RuBD) which displays a mean lifetime near 90 ns. To test the usefulness of RuBD as a probe for diffusive processes in calf thymus DNA, we compared the efficiencies of fluorescence resonance energy transfer (FRET) using three donors which display lifetimes near 5 ns for acridine orange (AO), 22 ns for ethidium bromide (EB) and 92 ns for RuBD, with nile blue (NB) as the acceptor. The Förster distances for AO-NB, EB-NB and RuBD-NB donor-acceptor pairs were 42.3, 52.3, and 30.6 A, respectively. All three donors showed dramatic decreases in fluorescence intensities and more rapid intensity decays with increasing NB concentrations. The intensity decays of AO and EB in the presence of varying concentrations of NB were satisfactorily described by the one-dimensional FRET model without diffusion (Blumen and Manz, 1979). In the case of the long-lifetime donor RuBD, the experimental phase and modulation somewhat deviated from the recovered values computed from this model. The recovered NB concentrations and FRET efficiencies from the model were slightly larger than the expected values, however, the recovered and expected values did not show a significant difference. Thus, it is suggested that the lifetime of RuBD is too short to measure diffusive processes in calf thymus DNA. [ABSTRACT FROM AUTHOR]

Published

2002

19. Enhanced Emission Induced by FRET from a Long-Lifetime, Low Quantum Yield Donor to a Long-Wavelength, High Quantum Yield Acceptor.

Author

Kang, Jung, Piszczek, Grzegorz, and Lakowicz, Joseph

Abstract

We report observation of high quantum yield, long-lifetime fluorescence from a red dye BO-PRO-3 excited by resonance energy transfer (RET). The acceptor fluorescence was highly enhanced upon binding to the donor-labeled DNA. A ruthenium complex (Ru) was chosen as a donor in this system because of its long fluorescence lifetime. Both donor and acceptor were non-covalently bound to DNA. Emission from the donor-acceptor system (DA) at wavelengths exceeding 600 nm still preserves the long-lifetime component of the Ru donor, retaining average fluorescence lifetimes in the range of 30–50 ns. Despite the low quantum yield of the Ru donor in the absence of acceptor, its overall quantum yield of the DA pair was increased by energy transfer to the higher quantum yield acceptor BO-PRO-3. The wavelength-integrated intensity of donor and acceptor bound to DNA was many-fold greater than the intensity of the donor and acceptor separately bound to DNA. The origin of this effect is due to an efficient energy transfer from the donor, competing with non-radiative depopulation of the donor excited state. The distinctive features of DA complexes can be used in the development of a new class of engineered luminophores that display both long lifetime and long-wavelength emission. Similar DA complexes can be applied as proximity indicators, exhibiting strong fluorescence of adjacently located donors and acceptors over the relatively weak fluorescence of separated donors and acceptors. [ABSTRACT FROM AUTHOR]

Published

2002

20. Multiphoton Ligand-Enhanced Excitation of Lanthanides.

Author

Piszczek, Grzegorz, Maliwal, Badri, Gryczynski, Ignacy, Dattelbaum, Jonathan, and Lakowicz, Joseph

Abstract

We describe multiphoton excitation of the lanthanides europium (Eu3+) and terbium (Tb3+) when these ions are complexed with nucleic acids, proteins, and fluorescent chelators. In all cases excitation occurs by multiphoton absorption of the sensitizers. For the nucleotide GDP and an oligonucleotide with several guanines, the sensitized emission of Tb3+ excited at 776 nm indicated a three-photon process. For Tb3+ bound to the wild-type troponin C and a single tryptophan mutant (26W), excitation at 794 nm was also close to a three-photon process. For lanthanide chelators containing various sensitizers, we observed three-photon excitation in the case of methyl anthranilate, a mixuture of two- and three-photon excitation for carbostyril 124, and a two-photon process with a coumarin derivative. In the case of coumarin-sensitized emission of Eu3+ varied from a two- to a three-photon process at wavelengths ranging from 780 to 880 nm. The sensitized luminescence also shows significantly higher photostability compared to the fluorescence from the organic fluorophores alone. These results suggest the use of multiphoton-induced sensitized lanthanide fluorescence in biochemistry and cellular imaging. [ABSTRACT FROM AUTHOR]

Published

2001

21. Multiphoton Excitation of Lanthanides.

Author

Lakowicz, Joseph R., Piszczek, Grzegorz, P. Maliwal, Badri, and Gryczynski, Ignacy

Published

2001

22. Donor fluorescence decay analysis for energy transfer in double-helical DNA with various acceptor concentrations.

Author

Murata, Shin-Ichi, Kuśba, Józef, Piszczek, Grzegorz, Gryczynski, Ignacy, and Lakowicz, Joseph R.

Published

2000

23. End-to-End Diffusion on the Microsecond Timescale Measured with Resonance Energy Transfer from a Long-lifetime Rhenium Metal-Ligand Complex.

Author

Lakowicz, Joseph R., Nair, Rajesh, Piszczek, Grzegorz, and Gryczynski, Ignacy

Published

2000

24. Multi-Photon Sensitized Excitation of Near Infrared Emitting Lanthanides.

Author

Piszczek, Grzegorz, Gryczynski, Ignacy, Maliwal, Badri, and Lakowicz, Joseph

Abstract

Near infrared (NIR) multi-photon excitation of the NIR-emitting lanthanides neodymium (Nd3+) and ytterbium (Yb3+) sensitized by a fluorescein-linked chelator was demonstrated. Because tissues display minimal absorbance near the excitation wavelength of 800 nm, and because the lanthanides display long decay times, these results suggest the use of Nd3+ and Yb3+ as luminescent probes in tissues with multi-photon excitation. [ABSTRACT FROM AUTHOR]

Published

2002

25. Corrigendum: Fixation-resistant photoactivatable fluorescent proteins for CLEM.

Author

Paez-Segala, Maria G, Sun, Mei G, Shtengel, Gleb, Viswanathan, Sarada, Baird, Michelle A, Macklin, John J, Patel, Ronak, Allen, John R, Howe, Elizabeth S, Piszczek, Grzegorz, Hess, Harald F, Davidson, Michael W, Wang, Yalin, and Looger, Loren L

Subjects

FLUORESCENT proteins, TISSUE fixation (Histology)

Abstract

A correction to the article "Fixation-resistant photoactivatable fluorescent proteins for CLEM," by Maria G. Paez-Segala, Mei G. Sun, and Sarada Viswanathan that was published online on January 12, 2015 is presented.

Published

2015