Search

Your search keyword '"Braiman, M."' showing total 99 results
Start Over Author "Braiman, M."
99 results on '"Braiman, M."'

2. Novel mercuric iodide polycrystalline nuclear particle counters

Author

Schieber, M., Zuck, A., Braiman, M., Nissenbaum, J., Turchetta, R., Dulinski, W., Husson, D., and Riester, J.L.

Subjects
Crystal detectors -- Research, Iodides -- Research, Particles (Nuclear physics) -- Research, Business, Electronics, Electronics and electrical industries
Abstract

Polycrystalline mercuric iodide nuclear radiation detectors have been produced in a novel technology. Unlike the normal single-crystal technology, there is no intrinsic limit to the surface on which these detectors can be produced. Detectors with areas up to about 1.5 [cm.sup.2], thicknesses from 30 to 600 [[micro]meter], and with single electrodes as well as microstrip and pixel contacts have been fabricated and successfully tested with photons in the range of 40-660 keV, [Beta] particle's emitted from a Sr-Y source, and high energy (100 GeV) muons. Results on both charge collection and counting efficiency are reported as well as some very preliminary imaging results. The experimental results on charge collection have been compared with simulation, and a combined [Mu][Tau] product [10.sup.-7] [cm.sup.2]/V for electrons has been estimated. Index Terms - Imaging, mercuric iodide, radiation detectors.

Published
1997

4. VLSI readout for imaging with polycrystalline mercuric iodide detectors

Author

Turchetta, R., Dulinski, W., Husson, D., Klein, N., Riester, J. L., Schieber, M., Zuck, A., Braiman, M., Melekhov, L., Nissenbaum, J., Stefano Sanguinetti, Turchetta, R, Dulinski, W, Husson, D, Klein, N, Riester, J, Schieber, M, Zuck, A, Braiman, M, Melekhov, L, Nissenbaum, J, and Sanguinetti, S

Subjects
Mercury Iodide, Detector
Abstract

Recently polycrystalline mercuric iodide have become available, for room temperature radiation detectors over large areas at low cost. Though the quality of this material is still under improvement, ceramic detectors have been already been successfully tested with dedicated low-noise, low-power mixed signal VLSI electronics which can be used for compact, imaging solutions. The detectors used are of different kinds: microstrips and pixels; of different sizes, up to about 1 square inch; and of different thickness, up to 600 microns. The properties of this first-generation detectors are quite uniform from one detector to another. Also for each single detector the response is quite uniform and no charge loss in the inter-electrode space have been detected. Because of the low cost and of the polycrystallinity, detectors can be potentially fabricated in any size and shape, using standard ceramic technology equipment, which is an attractive feature where low cost and large area applications are needed. Radiation detectors have been fabricated from very thick films (100 - 600 mu m) of mercuric iodide (HgI2). These devices, which function as nuclear particle counters, have been prepared with single continuos electrical contacts, linear microstrips and square pixel contacts. The word ceramic is used to distinguish the detectors from single crystals which are usually studied for this application. The detectors have been tested with a beta source as well as in a high energy beam of 100 GeV muons at CERN, connected to VLSI electronics, low noise electronics. Charge collection efficiency and uniformity have been studied The charge is efficiently connected even in the space between strips indicating fill factors of 100% could be reached in imaging applications with direct detection of radiation. Single photon counting capability is reached with VLSI electronics. These results show the potential of this material for applications demanding position sensitive, radiation resistant, room-temperature operating radiation detectors, where position resolution is essential, as it can be found in some applications in high energy physics, nuclear medicine and astrophysics.

Published
1998

5. Optimized in vitro and in vivo expression of proteorhodopsin: a seven-transmembrane proton pump

Author

Gourdon, P., Alfredsson, A., Pedersen, A., Malmerberg, E., Nyblom, M., Widell, M., Berntsson, R., Pinhassi, Jarone, Braiman, M., Hansson, Ö., Bonander, N., Karlsson, G., Neutze, R., Gourdon, P., Alfredsson, A., Pedersen, A., Malmerberg, E., Nyblom, M., Widell, M., Berntsson, R., Pinhassi, Jarone, Braiman, M., Hansson, Ö., Bonander, N., Karlsson, G., and Neutze, R.

Published
2008

6. Characterization Studies of Purified HgI2 Precursors

Author

Schieber, M, Zuck, A, Montalti, M, Braiman, M, Melekhov, J., N, J, Turchetta, R, Dulinski, W, Husson, D, Riester, J, Sanguinetti, S, Grilli, E, Guzzi, M, J. Nissenbaum, Riester, JL, SANGUINETTI, STEFANO, GRILLI, EMANUELE ENRICO, GUZZI, MARIO, Schieber, M, Zuck, A, Montalti, M, Braiman, M, Melekhov, J., N, J, Turchetta, R, Dulinski, W, Husson, D, Riester, J, Sanguinetti, S, Grilli, E, Guzzi, M, J. Nissenbaum, Riester, JL, SANGUINETTI, STEFANO, GRILLI, EMANUELE ENRICO, and GUZZI, MARIO

Abstract

The ability of HgI2 powders, used as precursors in mercuric iodide crystal growth, to produce high-quality detectors may be predicted by non-destructive methods like photoluminescence. In fact, it is possible to correlate the presence and the intensity ratio of specific bands in the photoluminescence spectrum of a HgI2 crystal to its impurity content and stoichiometry. These quantities determine the detector grade that may be achieved using that starting material. Nine different HgI2 precursors, obtained by different purification methods, have been characterized. The lowest impurity content is achieved via poly-ethylene treatment, which gives also a powder of relatively good stoichiometric quality.

Published
1999

7. Large area HgI2 pixel detector experiments

Author

Blouke, MM, Schieber, M, Zuck, A, Braiman, M, Melekhov, L, Nissenbaum, J, Turchetta, R, Dulinsk, W, Husson, D, Riester, J, Sanguinetti, S, Montalti, M, Guzzi, M, Riester, JL, SANGUINETTI, STEFANO, GUZZI, MARIO, Blouke, MM, Schieber, M, Zuck, A, Braiman, M, Melekhov, L, Nissenbaum, J, Turchetta, R, Dulinsk, W, Husson, D, Riester, J, Sanguinetti, S, Montalti, M, Guzzi, M, Riester, JL, SANGUINETTI, STEFANO, and GUZZI, MARIO

Abstract

he direct deposition of polycrystalline semiconductor HgI2 detectors on pre-deposited specially designed pixel electrodes is described, using two methods, the hot wall vapor deposition, HWVD, and thick film screen print (SP) methods. Some characterization results of the HgI2 material used to fabricate the detectors are described. The pre-deposited substrate is made by standard hybrid technology. The electrode pattern is a 16*16 pixel square pattern each with a size of 1.48 mm and with 0.1 mm spacing; the total area covered by the pixels is (25.28 mm)(2) = 639.078 mm(2). In order to fan out the pixels to read-out electronics, holes were made through the ceramic thickness and connecting lines were drawn on the opposite side of the ceramic alumina substrate, where complicated patterns can be produced. The pixel detector is tested with beta particles, and data showing the leakage current vs, bias, are given showing a resistivity of about 2*10(12) ohm cm. The current and the average charge signal are reported for three different HgI2 pixel detectors. The signal for one of the detectors is about 1100 electrons at 800 V bias voltage and for the second detector, the resistivity is in the same order of magnitude and the charge collection is somewhat better, reaching 1600 electrons at 700 V. One of the detectors was connected to a second hybrid designed for mounting of 8 CASTOR 1.0 chips. CASTOR 1.0 is a VLSI circuit designed for imaging and the results are being evaluated.

Published
1998

8. VLSI readout for imaging with polycrystalline mercuric iodide detectors

Author

Turchetta, R, Dulinski, W, Husson, D, Klein, N, Riester, J, Schieber, M, Zuck, A, Braiman, M, Melekhov, L, Nissenbaum, J, Sanguinetti, S, Riester, JL, SANGUINETTI, STEFANO, Turchetta, R, Dulinski, W, Husson, D, Klein, N, Riester, J, Schieber, M, Zuck, A, Braiman, M, Melekhov, L, Nissenbaum, J, Sanguinetti, S, Riester, JL, and SANGUINETTI, STEFANO

Abstract

Recently polycrystalline mercuric iodide have become available, for room temperature radiation detectors over large areas at low cost. Though the quality of this material is still under improvement, ceramic detectors have been already been successfully tested with dedicated low-noise, low-power mixed signal VLSI electronics which can be used for compact, imaging solutions. The detectors used are of different kinds: microstrips and pixels; of different sizes, up to about 1 square inch; and of different thickness, up to 600 microns. The properties of this first-generation detectors are quite uniform from one detector to another. Also for each single detector the response is quite uniform and no charge loss in the inter-electrode space have been detected. Because of the low cost and of the polycrystallinity, detectors can be potentially fabricated in any size and shape, using standard ceramic technology equipment, which is an attractive feature where low cost and large area applications are needed. Radiation detectors have been fabricated from very thick films (100 - 600 mu m) of mercuric iodide (HgI2). These devices, which function as nuclear particle counters, have been prepared with single continuos electrical contacts, linear microstrips and square pixel contacts. The word ceramic is used to distinguish the detectors from single crystals which are usually studied for this application. The detectors have been tested with a beta source as well as in a high energy beam of 100 GeV muons at CERN, connected to VLSI electronics, low noise electronics. Charge collection efficiency and uniformity have been studied The charge is efficiently connected even in the space between strips indicating fill factors of 100% could be reached in imaging applications with direct detection of radiation. Single photon counting capability is reached with VLSI electronics. These results show the potential of this material for applications demanding position sensitive, radiation resistant, ro

Published
1998

9. Towards imaging with polycrystalline mercuric iodide semiconductor detectors

Author

Schieber, M, Zuck, A, Braiman, M, Melekhov, L, Nissenbaum, J, Turchetta, R, Dulinski, W, Husson, D, Riester, J, Schlesinger, T, Toney, J, Sanguinetti, S, Montalti, M, Guzzi, M, Riester, JL, Schlesinger, TE, SANGUINETTI, STEFANO, GUZZI, MARIO, Schieber, M, Zuck, A, Braiman, M, Melekhov, L, Nissenbaum, J, Turchetta, R, Dulinski, W, Husson, D, Riester, J, Schlesinger, T, Toney, J, Sanguinetti, S, Montalti, M, Guzzi, M, Riester, JL, Schlesinger, TE, SANGUINETTI, STEFANO, and GUZZI, MARIO

Abstract

Preparation of polycrystalline mercuric iodide very thin (1 mu m) films using laser ablation and thick films (100-600 mu m), using hot pressing, hot wall vapor deposition and screen printing methods, fabricated as radiation detector plates are briefly described. X-ray diffraction, photoluminescence and optical microscopic measurements as well as response to nuclear radiation will be given. Finally, recent results obtained with a large area imaging pixel detector will be shown

Published
1997

10. Characterization studies of purified HgI2 precursors

Author

Schieber, M, primary, Zuck, A, additional, Sanguinetti, S, additional, Montalti, M, additional, Braiman, M, additional, Melekhov, L, additional, Nissenbaum, J, additional, Grilli, E, additional, Guzzi, M, additional, Turchetta, R, additional, Dulinski, W, additional, Husson, D, additional, and Riester, J.L, additional

Published
1999
Full Text
View/download PDF

12. Large-area HgI 2 pixel detector experiments

Author

Schieber, Michael M., primary, Zuck, Asaf, additional, Braiman, M., additional, Melekhov, Leonid, additional, Nissenbaum, J., additional, Turchetta, Renato A. D., additional, Dulinski, Wojtek, additional, Husson, D., additional, Riester, J. L., additional, Sanguinetti, S., additional, Montalti, M., additional, and Guzzi, M., additional

Published
1998
Full Text
View/download PDF

22. Modeling Vibrational Spectra of Amino Acid Side Chains in Proteins:  Effects of Protonation State, Counterion, and Solvent on Arginine C−N Stretch Frequencies

Author

Braiman, M. S., Briercheck, D. M., and Kriger, K. M.

Abstract

The vibrational spectrum of arginine's side chain in various protein environments is modeled by measuring IR spectra of ethylguanidinium (EG) salts under varying conditions. Characteristic νC-N stretch vibrational frequencies of monoalkylguanidinium are assigned to observed IR bands at 1655−1685 cm-1, 1615−1635 cm-1, and 1170−1180 cm-1. Each of these bands is observed to downshift by 4−9 cm-1 upon [15N]2 substitution at the terminal nitrogens. Additional weaker bands from vibrations involving nitrogen motion are also discernible at ~920, ~1085, and ~1440 cm-1. Deprotonation of EG−Cl is accompanied by an overall decrease in IR absorption intensity and substantial changes in the νC-N vibrational bands. The ~1670 and ~1180 cm-1 bands appear to shift substantially in the deprotonated state. A strong band near 1635 cm-1 remains in ethylguanidine, but this is interpreted as being due to a δ(NH2) scissor mode based on previously published assignments of the guanidine IR spectrum. New bands attributable to C−N stretch vibrations of deprotonated EG are observed at 1600, 1566, and 1208 cm-1. The νC-N bands of EG cation also show characteristic shifts of up to ~40 cm-1 depending on solvent and counterion conditions. The biggest effects are seen for counterion variations in the solid state, where the highest νC-N frequency ranges from 1695 cm-1 for EG−carbonate down to 1652 cm-1 for EG−bromide. In nonpolar solvent, ion pairing occurs, as evidenced by reproducible differences seen for vibrational frequencies of different EG salts, e.g., 1185 cm-1 for the acetate vs 1179 cm-1 for the iodide. In polar solvents (methanol, ethanol, dimethyl sulfoxide, or water), however, there is little if any difference in the vibrational frequencies of EG acetate, chloride, bromide, iodide, or phenolate, indicating independently solvated anion and cation. We conclude that when arginine's side chain is buried as part of an ion pair within a hydrophobic region of a protein, its strongly IR-absorbing νC-N frequencies are likely to be sensitive to perturbations such as changing the nature or position of the counterion or altering the hydrogen-bonding capacity of nearby neutral amino acids.

Published
1999

23. Two Bathointermediates of the Bacteriorhodopsin Photocycle, Distinguished by Nanosecond Time-Resolved FTIR Spectroscopy at Room Temperature

Author

Dioumaev, A. K. and Braiman, M. S.

Abstract

FTIR step-scan spectroscopy with 10 ns nominal time resolution was applied to the early stages of the photocycle of bacteriorhodopsin at room temperature. Kinetic data analysis with global fitting revealed two distinct bathointermediates prior to relaxation into the L state. The late bathointermediate (which we term KL) is the K state as originally defined by Lozier et al. (Biophys. J. 1975, 15, 955). The earlier bathointermediate, KE, decays to KL with an apparent time constant of 640 ± 90 ns at 5 °C; this decay process is approximately 50−100 ns at 25 °C. The transient change in vibrational difference bands associated with this transition are spread throughout the 1800−800 cm-1 range. However, the largest differences in the spectra of KE and KL appear to be mostly associated with a relaxation of the Schiff base end of the retinal chromophore and/or its immediate environment. Both our KE and KL IR spectra are different from the spectra of bathoproducts obtained at cryogenic temperatures. Our fitted time constants also imply that neither of these intermediates (KE and KL) can be identified with the K or KL states as defined by Shichida et al. (Biochim. Biophys. Acta 1983, 723, 240), and consequently, our spectra for KE and KL are markedly different from IR spectra calculated for those states by Weidlich and Siebert (Appl. Spectrosc. 1993, 47, 1394) and Sasaki et al. (Biophys. J. 1995, 68, 2073). That is, here we characterize a new nanosecond bathointermediate, KE, in the bacteriorhodopsin photocycle under physiological conditions, which was not detected in previous studies.

Published
1997

24. Millisecond Fourier-transform infrared difference spectra of bacteriorhodopsin's M412 photoproduct.

Author

Braiman, M S, Ahl, P L, and Rothschild, K J

Abstract

We have obtained room-temperature transient infrared difference spectra of the M412 photoproduct of bacteriorhodopsin (bR) by using a "rapid-sweep" Fourier-transform infrared (FT-IR) technique that permits the collection of an entire spectrum (extending from 1000 to 2000 cm-1 with 8-cm-1 resolution) in 5 ms. These spectra exhibit less than 10(-4) absorbance unit of noise, even utilizing wet samples containing approximately 10 pmol of bR in the measuring beam. The bR----M transient difference spectrum is similar to FT-IR difference spectra previously obtained under conditions where M decay was blocked (low temperature or low humidity). In particular, the transient spectrum exhibits a set of vibrational difference bands that were previously attributed to protonation changes of several tyrosine residues on the basis of isotopic derivative spectra of M at low temperature. Our rapid-sweep FT-IR spectra demonstrate that these tyrosine/tyrosinate bands are also present under more physiological conditions. Despite the overall similarity to the low-temperature and low-humidity spectra, the room-temperature bR----M transient difference spectrum shows significant additional features in the amide I and amide II regions. These features' presence suggests that a small alteration of the protein backbone accompanies M formation under physiological conditions and that this conformational change is inhibited in the absence of liquid water.

Published
1987
Full Text
View/download PDF

25. Are C14-C15 single bond isomerizations of the retinal chromophore involved in the proton-pumping mechanism of bacteriorhodopsin?

Author

Smith, S O, Hornung, I, van der Steen, R, Pardoen, J A, Braiman, M S, Lugtenburg, J, and Mathies, R A

Abstract

Resonance Raman spectroscopy is used to examine the possibility that C14-C15 single bond isomerizations of the retinal prosthetic group are involved in the photochemical reactions of bacteriorhodopsin. Normal mode calculations show that the vibration that contains predominantly C14-C15 stretch character is approximately equal to 70 cm-1 lower in frequency in the 14-s-cis conformer than in the s-trans case. This geometric effect is insensitive to out-of-plane twists and should be observed in the sterically hindered 13-cis, 14-s-cis retinal protonated Schiff base, which has been proposed as the chromophore in the K and L intermediates of bacteriorhodopsin. Resonance Raman spectra were obtained of K625 by using the low temperature (77 K) spinning-cell technique. Isotopic substitutions with 13C and 2H show that significant C14-C15 stretch character is observed in normal modes at approximately equal to 1185-1195 cm-1. The relatively high frequency of the C14-C15 stretch argues that K625 contains a 13-cis, 14-s-trans chromophore. Similarly, isotopic derivatives show that L550 has a localized C14-C15 stretch at 1172 cm-1, consistent with a 14-s-trans chromophore. These results argue that the primary step in bacteriorhodopsin is a C13=C14 trans----cis photoisomerization that does not involve C14-C15 s-cis structures.

Published
1986
Full Text
View/download PDF

26. Resonance Raman spectra of bacteriorhodopsin's primary photoproduct: evidence for a distorted 13-cis retinal chromophore.

Author

Braiman, M and Mathies, R

Abstract

We have obtained the resonance Raman spectrum of bacteriorhodopsin's primary photoproduct K with a novel low-temperature spinning sample technique. Purple membrane at 77 K is illuminated with spatially separated actinic (pump) and probe laser beams. The 514-nm pump beam produces a photostationary steady-state mixture of bacteriorhodopsin and K. This mixture is then rotated through the red (676 nm) probe beam, which selectively enhances the Raman scattering from K. The essential advantage of our successive pump-and-probe technique is that it prevents the fluorescence excited by the pump beam from masking the red probe Raman scattering. K exhibits strong Raman lines at 1516, 1294, 1194, 1012, 957, and 811 cm-1. The effects of C15 deuteration on K's fingerprint lines correlate well with those seen in 13-cis model compounds, indicating that K has a 13-cis chromophore. However, the presence of unusually strong "low-wavenumber" lines at 811 and 957 cm-1, attributable to hydrogen out-of-plane wags, indicates that the protein holds the chromophore in a distorted conformation after trans leads to cis isomerization.

Published
1982
Full Text
View/download PDF

27. Structure-function studies on bacteriorhodopsin. IV. Purification and renaturation of bacterio-opsin polypeptide expressed in Escherichia coli.

Author

Braiman, M S, Stern, L J, Chao, B H, and Khorana, H G

Abstract

Expression of the bacterio-opsin gene in Escherichia coli has been described in the accompanying papers. We now describe rapid and efficient methods for the purification of the E. coli-expressed bacterio-opsin. Bacterio-opsin can be extracted from E. coli membranes in a denatured form by using an organic solvent containing chloroform, methanol, water, and triethylamine. The bacterio-opsin, enriched to 30-50% in the extract, can be further purified to 90% by ion-exchange chromatography on DEAE-Trisacryl or hydroxylapatite chromatography in organic solvents or by preparative sodium dodecyl sulfate gel electrophoresis. In appropriate aqueous phospholipid/detergent mixtures, up to 80% of purified protein refolds and binds retinal covalently to regenerate the bacteriorhodopsin chromophore. When reconstituted into phospholipid vesicles, bacteriorhodopsin from E. coli shows the expected proton pumping activity in response to illumination.

Published
1987
Full Text
View/download PDF

28. TWO-CONFIGURATION APPROXIMATION FOR ATOMIC SPECIES OF OXYGEN TYPE.

Author

AMERICAN METEOROLOGICAL SOCIETY BOSTON MASS, Bolotin,A. B., Shironas,I. I., Braiman,M. Yu., AMERICAN METEOROLOGICAL SOCIETY BOSTON MASS, Bolotin,A. B., Shironas,I. I., and Braiman,M. Yu.

Abstract

The parameters of analytic orbitals are evaluated for the configurations 1s(2) 2s2p(5) and 1s(2) 2p(6) of the atomic species O, F(+), Ne(++), Na(3+), and Mg(4+). The energy correction is found for the application of the two-configuration approximation 1s(2) 2s(2) 2p(4) - 1s(2) 2p(6). The theoretical results are compared with experimental data wherever possible. Values are determined for the total dipole strength and other transition-theory quantities, viz., the transition probability and oscillator strength, with single-configuration and two-configuration approximations. (Author), Dvukhkonfiguratsionnoe Priblizhenie v Sluchae Atomov Tipa Kisloroda, trans. of Vilna Univ. Mokslo Darbai (Lithuanian SSR), n33 Mathematikos, Fizikos ir Chemijos Mokslu Serija n9 p107-12 1960.

Published
1967

29. Long-Lived Delocalized Electron States in Quantum Dots:  A Step-Scan Fourier Transform Infrared Study

Author

Shim, M., Shilov, S. V., Braiman, M. S., and Guyot-Sionnest, P.

Abstract

Visible light-induced IR absorption in colloidal CdSe quantum dots is observed by step-scan FTIR spectroscopy. Size dependence and the effect of surface modification are investigated. The introduction of surface hole trap states enhances and prolongs the IR absorption in photoexcited quantum dots. Our measurements reveal long-lived (>1 ms) delocalized electron states in 6 nm average diameter dots capped with thiocresol.

Published
2000

30. Studies on light transduction by bacteriorhodopsin and rhodopsin

Author

Braiman, M., Jose Bubis, Doi, T., Chen, H. -B, Flitsch, S. L., Franke, R. R., Gilles-Gonzalez, M. A., Graham, R. M., Karnik, S. S., Khorana, H. G., Knox, B. E., Krebs, M. P., Marti, T., Mogi, T., Nakayama, T., Oprian, D. D., Puckett, K. L., Sakmar, T. P., and Stern, L. J.

35. Characterization studies of purified HgI2 precursors

Author

Stefano Sanguinetti, Renato Turchetta, J. Nissenbaum, Mario Guzzi, Leonid Melekhov, A. Zuck, Emanuele Grilli, M. Montalti, J.L. Riester, Michael M. Schieber, D. Husson, W. Dulinski, M. Braiman, Schieber, M, Zuck, A, Montalti, M, Braiman, M, Melekhov, J., N, J, Turchetta, R, Dulinski, W, Husson, D, Riester, J, Sanguinetti, S, Grilli, E, and Guzzi, M

Subjects
Physics, Nuclear and High Energy Physics, Photoluminescence, business.industry, Semiconductors, Spectroscopy, Analytical chemistry, Crystal growth, Characterization (materials science), Crystal, Semiconductor, Impurity, business, Spectroscopy, Instrumentation, Stoichiometry
Abstract

The ability of HgI2 powders, used as precursors in mercuric iodide crystal growth, to produce high-quality detectors may be predicted by non-destructive methods like photoluminescence. In fact, it is possible to correlate the presence and the intensity ratio of specific bands in the photoluminescence spectrum of a HgI2 crystal to its impurity content and stoichiometry. These quantities determine the detector grade that may be achieved using that starting material. Nine different HgI2 precursors, obtained by different purification methods, have been characterized. The lowest impurity content is achieved via poly-ethylene treatment, which gives also a powder of relatively good stoichiometric quality.

Published
1999
Full Text
View/download PDF

36. Large area HgI2 pixel detector experiments

Author

J. Nissenbaum, W. Dulinski, A. Zuck, J.L. Riester, M. Braiman, Renato Turchetta, Stefano Sanguinetti, Leonid Melekhov, D. Husson, Michael M. Schieber, M. Montalti, Mario Guzzi, Blouke, MM, Schieber, M, Zuck, A, Braiman, M, Melekhov, L, Nissenbaum, J, Turchetta, R, Dulinsk, W, Husson, D, Riester, J, Sanguinetti, S, Montalti, M, and Guzzi, M

Subjects
Materials science, Pixel, detector, business.industry, Detector, Biasing, Chemical vapor deposition, Signal, Semiconductor, FIS/01 - FISICA SPERIMENTALE, Electrical resistivity and conductivity, Electrode, Optoelectronics, business, Mercury iodide
Abstract

The direct deposition of polycrystalline semiconductor HgI 2 detectors on pre-deposited specially designed pixel electrodes is described, using two methods, the hot wall vapor deposition, HWVD, and thick film screen print (SP) methods. Some characterization results of the HgI 2 material used to facilitate the detectors are described. The pre-deposited substrate is made by standard hybrid technology. The electrode pattern is a 16*16 pixel square pattern each with a size of 1.48 mm and with 0.1 mm spacing; the total area covered by the pixels is (25.28 mm) 2 equals 639.078 mm 2 . In order to fan out the pixels to read-out electronics, holes were made through the ceramic thickness and connecting lines were drawn on the opposite side of the ceramic alumina substrate, where complicated patterns can be produced. The pixel detector is tested with beta particles, and data showing the leakage current vs. bias, are given showing a resistivity of about 2*10 12 ohm cm. The current and the average charge signal are reported for three different HgI 2 pixel detectors. The signal for one of the detectors is about 1100 electrons at 800 V bias voltage and for the second detector, the resistivity is in the same order of magnitude and the charge collection is somewhat better, reaching 1600 electrons at 700 V. One of the detectors was connected to a second hybrid designed for mounting of 8 castor 1.0 chips. CASTOR 1.0 is a VLSI circuit designed for imaging and the results are being evaluated.

Published
1998

37. Towards imaging with polycrystalline mercuric iodide semiconductor detectors

Author

M. Braiman, J. Nissenbaum, A. Zuck, J.L. Riester, Michael M. Schieber, M. Guzzi, R. Turchetta, W. Dulinski, Tuviah E. Schlesinger, M. Montalti, Leonid Melekhov, James E. Toney, D. Husson, Stefano Sanguinetti, Schieber, M, Zuck, A, Braiman, M, Melekhov, L, Nissenbaum, J, Turchetta, R, Dulinski, W, Husson, D, Riester, J, Schlesinger, T, Toney, J, Sanguinetti, S, Montalti, M, and Guzzi, M

Subjects
Mercury Iodide, Materials science, Laser ablation, Photoluminescence, business.industry, Detector, Chemical vapor deposition, Hot pressing, Particle detector, Semiconductor detector, FIS/01 - FISICA SPERIMENTALE, Screen printing, Optoelectronics, Crystallite, business
Abstract

Preparation of polycrystalline mercuric iodide very thin (1 μm) films using laser ablation and thick films (100–600μm), using hot pressing, hot wall vapor deposition and screen printing methods, fabricated as radiation detector plates are briefly described. X-ray diffraction, photoluminescence and optical microscopic measurements as well as response to nuclear radiation will be given. Finally, recent results obtained with a large area imaging pixel detector will be shown.

Published
1997

38. Learning From a National Quality Improvement Collaborative for Brief Resolved Unexplained Events.

Author

Hochreiter D, Sullivan E, DeLaroche AM, Jain S, Knochel ML, Kim E, Neuman MI, Prusakowski MK, Braiman M, Colgan JY, Payson AY, and Tieder JS

Subjects
Infant, Humans, Child, Hospitalization, Risk Factors, Hospitals, Quality Improvement, Brief, Resolved, Unexplained Event
Abstract

Objective: In 2016, the American Academy of Pediatrics published the Brief Resolved Unexplained Event (BRUE) Clinical Practice Guideline (CPG). A multicenter quality improvement (QI) collaborative aimed to improve CPG adherence., Methods: A QI collaborative of 15 hospitals aimed to improve testing adherence, the hospitalization of lower-risk infants, the correct use of diagnostic criteria, and risk classification. Interventions included CPG education, documentation practices, clinical pathways, and electronic medical record integration. By using medical record review, care of emergency department (ED) and inpatient patients meeting BRUE criteria was displayed via control or run charts for 3 time periods: pre-CPG publication (October 2015 to June 2016), post-CPG publication (July 2016 to September 2018), and collaborative (April 2019 to June 2020). Collaborative learning was used to identify and mitigate barriers to iterative improvement., Results: A total of 1756 infants met BRUE criteria. After CPG publication, testing adherence improved from 56% to 64% and hospitalization decreased from 49% to 27% for lower-risk infants, but additional improvements were not demonstrated during the collaborative period. During the collaborative period, correct risk classification for hospitalized infants improved from 26% to 49% (ED) and 15% to 33% (inpatient) and the documentation of BRUE risk factors for hospitalized infants improved from 84% to 91% (ED)., Conclusions: A national BRUE QI collaborative enhanced BRUE-related hospital outcomes and processes. Sites did not improve testing and hospitalization beyond the gains made after CPG publication, but they did shift the BRUE definition and risk classification. The incorporation of caregiver perspectives and the use of shared decision-making tools may further improve care., (Copyright © 2024 by the American Academy of Pediatrics.)

Published
2024
Full Text
View/download PDF

39. Ocular Cellulitis

Author

Mejia E, Vohra V, and Braiman M

Abstract

Orbital cellulitis is an infection causing inflammation of the orbital contents posterior to the orbital septum. These contents include the periorbital fat and extra-ocular muscles, but exclude the involvement of the globe itself.  In distinction, preseptal (periorbital) cellulitis is an infection anterior to the orbital septum, mainly involving the eyelids.  Although periorbital cellulitis is a much more common entity, especially in children, it is important to recognize the differences of orbital cellulitis as its complications are much more severe and can become life-threatening. , (Copyright © 2022, StatPearls Publishing LLC.)

Published
2022

40. Value of Blood Cultures in the Management of Children Hospitalized with Community-Acquired Pneumonia.

Author

Youssef AS, Fanous M, Siddiqui FJ, Estrada J, Chorny V, Braiman M, and Mayer EF

Abstract

Background and objectives Current guidelines for the management of community-acquired pneumonia (CAP) in children recommend obtaining a blood culture for children with moderate to severe pneumonia; yet, there is no guidance to assess the severity of the disease. Thus, a blood culture is obtained for the majority of children admitted with CAP, regardless of the severity of their symptoms. The study was designed to investigate and identify the prevalence of bacteremia in pediatric patients hospitalized with CAP and to evaluate the clinical and laboratory variables associated with bacteremia. Methods We conducted a medical record review of children aged from two months to 18 years diagnosed with CAP between January 1, 2013, and December 31, 2017, at our two urban tertiary centers. We used binary logistic regression analysis and chi-square tests to look at factors associated with blood culture positivity. Results A total of 464 patients were admitted with CAP. Blood cultures were obtained in 357 (76.9%) patients; 23 patients had repeated cultures. Fifteen patients had positive cultures: 5/380 (1.3%) were considered true positive results and 10/380 (2.6%) were considered contaminants. Intensive care unit (ICU) admission (OR 5.6 with 95% CI (1- 31), p<0.03), toxic appearance (OR 12.8 with 95% CI (1.3-125), p<0.01), and significantly elevated C-reactive protein (CRP) (>300 mg/L (p<0.01) were associated with bacteremia. Conclusion The prevalence of bacteremia among children admitted for CAP is low. The use of routine blood cultures should be reserved for children with moderate to severe pneumonia. Further studies are required to better risk-stratify children with CAP., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2020, Youssef et al.)

Published
2020
Full Text
View/download PDF

41. Case 3: Rapidly Expanding Neck Mass Leading to Cardiopulmonary Arrest in a 14-year-old Boy.

Author

Lee S, Aly A, Bhakta P, Parameswaran K, Chorny V, Pinto R, Zeng J, Hong R, and Braiman M

Subjects
Adolescent, Aneurysm, False complications, Angiography, Carotid Arteries diagnostic imaging, Diagnosis, Differential, Head and Neck Neoplasms complications, Head and Neck Neoplasms pathology, Hemangioma complications, Hemangioma pathology, Humans, Hyoid Bone diagnostic imaging, Male, Tomography, X-Ray Computed, Aneurysm, False diagnosis, Head and Neck Neoplasms diagnosis, Heart Arrest etiology, Hemangioma diagnosis, Hyoid Bone pathology, Tongue blood supply
Published
2020
Full Text
View/download PDF

42. Optimized in vitro and in vivo expression of proteorhodopsin: a seven-transmembrane proton pump.

Author

Gourdon P, Alfredsson A, Pedersen A, Malmerberg E, Nyblom M, Widell M, Berntsson R, Pinhassi J, Braiman M, Hansson O, Bonander N, Karlsson G, and Neutze R

Subjects
Bioreactors, Cloning, Molecular, Gammaproteobacteria genetics, Gammaproteobacteria metabolism, Gene Expression, Nuclear Magnetic Resonance, Biomolecular, Protein Sorting Signals, Proton Pumps, Rhodopsins, Microbial, Rhodopsin biosynthesis, Rhodopsin chemistry, Rhodopsin genetics, Rhodopsin isolation & purification
Abstract

Proteorhodopsin is an integral membrane light-harvesting proton pump that is found in bacteria distributed throughout global surface waters. Here, we present a protocol for functional in vitro production of pR using a commercial cell-free synthesis system yielding 1.0mg purified protein per milliliter of cell lysate. We also present an optimized protocol for in vivo over-expression of pR in Escherichia coli, and a two-step purification yielding 5mg of essentially pure functional protein per liter of culture. Both approaches are straightforward, rapid, and easily scalable. Thus either may facilitate the exploitation of pR for commercial biotechnological applications. Finally, the implications of some observations of the in vitro synthesis behavior, as well as preliminary results towards a structural determination of pR are discussed.

Published
2008
Full Text
View/download PDF

43. Modeling amino acid side chains in proteins: 15N NMR spectra of guanidino groups in nonpolar environments.

Author

Xiao Y and Braiman M

Subjects
Hydrogen Bonding, Nitrogen Isotopes, Spectroscopy, Fourier Transform Infrared, Amino Acids chemistry, Guanidine chemistry, Nuclear Magnetic Resonance, Biomolecular methods, Proteins chemistry
Abstract

Natural-abundance 15N NMR spectroscopy on dodecylguanidine reveals solvent and protonation effects that model those that could occur for the arginine side chain in proteins. Our results demonstrate that the 15N chemical shifts of the terminal guanine nitrogens strongly depend on the solvent chosen for measurements. A polar H-bond-donating solvent like water has strongly deshielding effects on the neutral guanidine group (with the latter acting predominantly as an H-bond acceptor). As a result, a substantial upfield shift occurs when neutral guanidine is dissolved instead in a non-H-bonding solvent (chloroform). These solvent effects can be as large as those induced by protonation changes. This limits the ability of 15N chemical shifts to distinguish the protonation state of the arginine side chain, at least without specific knowledge of its environment. These results help to reconcile previous interpretations about the protonation state arg-82 in the M state of bacteriorhodopsin based on FTIR and 15N NMR spectroscopy. That is, contrary to earlier conclusions from solid-state NMR, the side chain of arg-82 could undergo a deprotonation between the bR and M states, but only if it also experienced a significant decrease in the H-bonding character and polarity of its environment. In fact, the average 15N chemical shift of the two Neta of arg-82 in bacteriorhodopsin's M intermediate (from the previous NMR measurements) is 17 ppm upfield from the corresponding value for the deprotonated arginine side chain in aqueous solution at pH >14, but only 3 ppm upfield from the value for deprotonated dodecylguanidine in chloroform.

Published
2005
Full Text
View/download PDF

44. Time-resolved FTIR spectroscopy of the photointermediates involved in fast transient H+ release by proteorhodopsin.

Author

Xiao Y, Partha R, Krebs R, and Braiman M

Subjects
Dimyristoylphosphatidylcholine chemistry, Hydrogen-Ion Concentration, Photochemistry, Rhodopsins, Microbial, Sensitivity and Specificity, Spectroscopy, Fourier Transform Infrared methods, Time Factors, Rhodopsin chemistry
Abstract

Proteorhodopsin (pR) is a homologue of bacteriorhodopsin (bR) that has been recently discovered in oceanic bacterioplankton. Like bR, pR functions as a light-driven proton pump. As previously characterized by laser flash induced absorption spectroscopy (Krebs, R. A.; Alexiev, U.; Partha, R.; DeVita, A. M.; Braiman, M. S. BMC Physiol. 2002, 2, 5), the pR photocycle shows evidence of light-induced H(+) release on the 10-50 micros time scale, and of substantial accumulation of the M intermediate, only at pH values above 9 and after reconstitution into phospholipid followed by extensive washing to remove detergent. We have therefore measured the time-resolved FTIR difference spectra of pR intermediates reconstituted into DMPC vesicles at pH 9.5. A mixture of K- and L-like intermediates, characterized by a 1516 cm(-1) positive band and a 1742 cm(-1) negative band respectively, appears within 20 micros after photolysis. This mixture decays to an M-like state, with a clear band at 1756 cm(-1) due to protonation of Asp-97. The 50-70 micros rise of M at pH 9.5 is similar to (but a little slower than) the rise times for M formation and H(+) release that were reported earlier based on flash photolysis measurements of pR reconstituted into phospholipids with shorter acyl chains. We conclude that, at pH 9.5, H(+) release occurs while Asp-97 is still protonated; i.e., this aspartic acid cannot be the H(+) release group observed by flash photolysis under similar conditions.

Published
2005
Full Text
View/download PDF

45. Halide dependence of the halorhodopsin photocycle as measured by time-resolved infrared spectra.

Author

Hutson MS, Shilov SV, Krebs R, and Braiman MS

Subjects
Bacteriorhodopsins drug effects, Bacteriorhodopsins physiology, Halobacterium salinarum physiology, Halorhodopsins, Kinetics, Light, Retinaldehyde chemistry, Retinaldehyde metabolism, Spectroscopy, Fourier Transform Infrared methods, Thermodynamics, Time Factors, Bacteriorhodopsins chemistry, Bromides pharmacology, Potassium Chloride pharmacology, Potassium Compounds pharmacology
Abstract

Time-resolved Fourier transform infrared (FTIR) difference spectra of the halorhodopsin (hR) photocycle have been collected from 3 micros to 100 ms in saturating concentrations of KCl or KBr. Kinetic analysis of these data revealed two decay processes, with time constants of tau(1) approximately 150 micros and tau(2) approximately 16 ms in the presence of either halide, with tau(2) describing the return to the starting (hR) state. Comparison to previous low-temperature FTIR spectra of hR intermediates confirms that characteristic hK and hL spectral features are both present before the tau(1) decay, in a state previously defined as hK(L) (Dioumaev, A., and M. Braiman. 1997. Photochem. Photobiol. 66:755-763). However, the relative sizes of these features depend on which halide is present. In Br-, the hL features are clearly more dominant than in Cl-. Therefore, the state present before tau(1) is probably best described as an hK(L)/hL(1) equilibrium, instead of a single hK(L) state. Different halides affect the relative amounts of hK(L) and hL(1) present, i.e., Cl- produces a much more significant back-reaction from hL(1) to hK(L) than does Br-. The halide dependence of this back-reaction could therefore explain the halide selectivity of the halorhodopsin anion pump.

Published
2001
Full Text
View/download PDF

46. Evidence for a perturbation of arginine-82 in the bacteriorhodopsin photocycle from time-resolved infrared spectra.

Author

Hutson MS, Alexiev U, Shilov SV, Wise KJ, and Braiman MS

Subjects
Alanine genetics, Arginine genetics, Bacteriorhodopsins genetics, Carboxylic Acids chemistry, Halobacterium salinarum genetics, Mutagenesis, Site-Directed, Photochemistry, Protons, Spectroscopy, Fourier Transform Infrared methods, Temperature, Arginine chemistry, Bacteriorhodopsins chemistry
Abstract

Arginine-82 (R82) of bacteriorhodopsin (bR) has long been recognized as an important residue due to its absolute conservation in the archaeal rhodopsins and the effects of R82 mutations on the photocycle and proton release. However, the nature of interactions between R82 and other residues of the protein has remained difficult to decipher. Recent NMR studies showed that the two terminal nitrogens of R82 experience a highly perturbed asymmetric environment during the M state trapped at cryogenic temperatures [Petkova et al. (1999) Biochemistry 38, 1562-1572]. Although previous low-temperature FT-IR spectra of wild-type and mutant bR samples have demonstrated effects of R82 on vibrations of other amino acid side chains, no bands in these spectra were assignable to vibrations of R82 itself. We have now measured time-resolved FT-IR difference spectra of bR intermediates in the wild-type and R82A proteins, as well as in samples of the R82C mutant with and without thioethylguanidinium attached via a disulfide linkage at the unique cysteine site. Several bands in the bR --> M difference spectrum are attributable to guanidino group vibrations of R82, based on their shift upon isotope substitution of the thioethylguanidinium attached to R82C and on their disappearance in the R82A spectrum. The frequencies and intensities of these IR bands support the NMR-based conclusion that there is a significant perturbation of R82 during the bR photocycle. However, the unusually low frequencies attributable to R82 guandino group vibrations in M, approximately 1640 and approximately 1545 cm(-)(1), would require a reexamination of a previously discarded hypothesis, namely, that the perturbation of R82 involves a change in its ionization state.

Published
2000
Full Text
View/download PDF

47. Arginine to glutamine substitutions in the fourth module of Xenopus interphotoreceptor retinoid-binding protein.

Author

Baer CA, Van Niel EE, Cronk JW, Kinter MT, Sherman NE, Braiman MS, and Gonzalez-Fernandez F

Subjects
Amino Acid Substitution, Animals, Arginine, Cloning, Molecular, Escherichia coli, Eye Proteins chemistry, Eye Proteins metabolism, Eye Proteins physiology, Gene Expression, Glutamine, Mutagenesis, Site-Directed, Recombinant Fusion Proteins, Retinol-Binding Proteins chemistry, Retinol-Binding Proteins metabolism, Stearic Acids pharmacokinetics, Vitamin A pharmacokinetics, Xenopus, Retinol-Binding Proteins physiology
Abstract

Purpose: Interphotoreceptor retinoid-binding protein (IRBP) is unusual for a lipid-binding protein in that its gene is expressed uniquely by cells of photoreceptor origin and consists of four homologous repeats, each coding for a module of approximately 300 amino acid residues. All-trans retinol binding domains, which appear to be present in each module, are composed of conserved hydrophobic regions [Baer et al, Exp Eye Res 1998; 66:249-262]. Here we investigate the role of highly conserved arginines contained in these regions., Methods: To study the arginines in an individual module without the interference of ligand-binding activity elsewhere in the protein, we expressed in E. coli the fourth module of Xenopus IRBP by itself as a soluble thioredoxin fusion protein (X4IRBP). Arginines 1005, 1041, 1073 and 1122 were separately replaced by glutamine using PCR overlap extension mutagenesis. The glutamine substitutions were confirmed by liquid chromatography-tandem mass spectrometry. The binding of all-trans retinol and 9-(9-anthroyloxy)stearic acid (9-AS) to X4IRBP and each of the mutants was evaluated by fluorescence spectroscopy. Binding was followed by monitoring the enhancement of ligand fluorescence and the quenching of protein endogenous fluorescence. The ability of the recombinant proteins to protect all-trans retinol from oxidative degradation was evaluated by monitoring absorbance at 325 nm over time., Results: The substitution of Gln for Arg1005 about doubled the amount of ligand necessary to attain saturation and about doubled the level of fluorescence enhancement obtained at saturation for both all-trans retinol and 9-AS. Although there was not a significant change in the Kd, the substitution increased the calculated number of binding sites (N) from approximately 2 to approximately 4 per polypeptide. The other Arg->Gln mutants did not significantly change the Kd or N. None of the mutations compromised the ability of the module to protect all-trans retinol from degradation., Conclusions: Our data suggest that the function of the conserved arginines in IRBP is fundamentally different from that of other retinoid-binding proteins. These residues do not appear to play a role in defining the specificity of the ligand-binding domain. Rather, Arg1005 appears to play a role in defining the capacity of the domain. Our data suggest that the binding site consists of a single hydrophobic cavity promiscuous for fatty acids and all-trans retinol.

Published
1998

48. Fourth module of Xenopus interphotoreceptor retinoid-binding protein: activity in retinoid transfer between the retinal pigment epithelium and rod photoreceptors.

Author

Gonzalez-Fernandez F, Baer CA, Baker E, Okajima TI, Wiggert B, Braiman MS, and Pepperberg DR

Subjects
Animals, Bufo marinus, Cattle, Ligands, Microscopy, Immunoelectron, Pigment Epithelium of Eye metabolism, Protein Conformation, Recombinant Proteins pharmacology, Retinal Rod Photoreceptor Cells metabolism, Retinal Rod Photoreceptor Cells ultrastructure, Retinol-Binding Proteins metabolism, Vision, Ocular, Xenopus laevis, Eye Proteins pharmacology, Pigment Epithelium of Eye drug effects, Retinal Pigments physiology, Retinal Rod Photoreceptor Cells drug effects, Retinaldehyde metabolism, Retinol-Binding Proteins pharmacology
Abstract

Purpose: Interphotoreceptor retinoid-binding protein (IRBP), an extracellular protein believed to support the exchange of retinoids between the neural retina and retinal pigment epithelium (RPE) in the vertebrate eye, exhibits a modular, i.e., repeat, structure. The present study was undertaken to determine whether an individual module of IRBP has activity in retinoid transfer between the RPE and rod photoreceptors., Methods: The retinoid transfer activity of a recombinant protein corresponding to the fourth module of Xenopus laevis IRBP (X4IRBP) was examined in two ways. First, X4IRBP was tested for its ability to support the regeneration of porphyropsin in detached/reattached Xenopus retina/RPE-eyecups. Following illumination and removal of native IRBP, Xenopus eyecups supplemented with 42 microM X4IRBP or (as a control) Ringer's solution were incubated in darkness and then analyzed for regenerated porphyropsin. Second, toad (Bufo marinus) RPE-eyecup preparations were used to evaluate X4IRBP's ability to promote the release of 11-cis retinal from the RPE., Results: The regeneration of porphyropsin in X4IRBP-supplemented Xenopus retina/RPE-eyecups (0.45 +/- 0.04 nmol; mean +/- SEM, n = 11) exceeded that in controls (0.13 +/- 0.02 nmol, n = 11). For promoting the release of 11-cis retinal from the toad RPE, 42 microM X4IRBP was more effective than equimolar bovine serum albumin although considerably less than that of 26 microM native bovine IRBP., Conclusions: The results indicate a low but significant activity of IRBP's fourth module in reactions relevant to retinoid exchange.

Published
1998
Full Text
View/download PDF

49. Soluble expression in E. coli of a functional interphotoreceptor retinoid-binding protein module fused to thioredoxin: correlation of vitamin A binding regions with conserved domains of C-terminal processing proteases.

Author

Baer CA, Retief JD, Van Niel E, Braiman MS, and Gonzalez-Fernandez F

Subjects
Amino Acid Sequence, Animals, Conserved Sequence, Exons, Models, Chemical, Molecular Sequence Data, Sequence Alignment, Sequence Analysis, DNA, Xenopus, Endopeptidases metabolism, Escherichia coli genetics, Eye Proteins, Recombinant Fusion Proteins metabolism, Retinol-Binding Proteins genetics, Thioredoxins genetics, Vitamin A metabolism
Abstract

The exchange of all-trans retinol and 11-cis retinal between the photoreceptors and retinal pigmented epithelium is mediated by interphotoreceptor retinoid-binding protein (IRBP). IRBP contains binding sites for retinoids, docosahexaenoic acid and probably cell surface and matrix receptors. IRBP arose through the quadruplication of an ancient protein, represented by its carboxy-terminal module (module 4 in amphibians and mammals). Module 4 has retinol binding activity and is composed of regions coded for by each of IRBP's four exons. Determining the function of the exons has been hampered by insoluble expression of module 4 in Escherichia coli. Here, we found that module 4 of Xenopus IRBP (X4IRBP), as well as its exon segments, can be expressed in a soluble form as thioredoxin fusion proteins. The recombinant proteins were purified by ion exchange and arsenical-based affinity chromatography. Liquid chromatography/mass spectrometry confirmed that the sequence of X4IRBP is correct. All-trans retinol binding was characterized by monitoring enhancement of retinol fluorescence, quenching of intrinsic protein fluorescence, and transfer of energy to the bound retinol. Retinol bound to X4IRBP at 2.20+/-0.29 sites with a KD=1.25+/-0.39. One of the two sites was localized to Exons(2+3) and had a KD=0.26+/-0.13 micron. This site, which supported protein quenching and energy transfer, probably contains at least one of the two conserved tryptophans present in this segment. The second site was localized to Exon 4. This site supported the enhancement of retinol fluorescence but not protein quenching or energy transfer and had a KD=1.94+/-0.20 micron. Exon 1 had no retinol binding activity. The location of the retinol binding regions correlated with the distribution of domains conserved between IRBPs and the newly recognized family of C-terminal processing proteases (CtpAs), proteins which bind and cleave non-polar carboxy termini., (Copyright 1998 Academic Press Limited.)

Published
1998
Full Text
View/download PDF

50. Nano- and microsecond time-resolved FTIR spectroscopy of the halorhodopsin photocycle.

Author

Dioumaev AK and Braiman MS

Subjects
Halorhodopsins, Kinetics, Photochemistry, Spectroscopy, Fourier Transform Infrared, Temperature, Thermodynamics, Bacteriorhodopsins chemistry
Abstract

Step-scan Fourier transform infrared spectroscopy with 50 ns time resolution was applied to the early stages of the photocycle of halorhodopsin (hR) for the temperature range 3-42 degrees C. Kinetic data analysis with global fitting revealed two distinct kinetic processes associated with relaxations of the early red-shifted photoproduct hK; these processes have time constants tau 1 approximately equal to 280 ns and tau 2 approximately equal to 360 microns at 20 degrees C. Spectral features demonstrate that the tau 1 process corresponds to a transition between two distinct bathointermediates, hKE and hKL. The vibrational difference bands associated with both tau 1 and tau 2 transitions are spread throughout the whole 1800-900 cm-1 range. However, the largest bands correspond to ethylenic C=C stretches, fingerprint C-C stretches and hydrogen out-of-plane (HOOP) wags of the retinal chromophore. The time evolution of these difference bands indicate that both the tau 1 and tau 2 decay processes involve principally a relaxation of the chromophore and its immediate environment. The decay of the intense HOOP vibrations is nearly equally divided between the tau 1 and tau 2 processes, indicating a complex chromophore relaxation from a twisted nonrelaxed conformation in the primary (hKE) bathointermediate, to a less-twisted structure in hKL, and finally to a roughly planar structure in the hypsochromically shifted hL intermediate. This conclusion is also supported by the unexpectedly large positive entropy of activation observed for the tau 1 process. The two relaxations from hKE to hL are largely analogous to corresponding relaxations (KE-->KL-->L) in the bacteriorhodopsin photocycle, except that the second step is slowed down by over 200-fold in hR.

Published
1997
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results