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4313 Publications

Showing 3631-3640 of 4313 results
09/01/10 | Subtomogram alignment by adaptive Fourier coefficient thresholding.
Amat F, Comolli LR, Moussavi F, Smit J, Downing KH, Horowitz M
Journal of Structural Biology. 2010 Sep;171(3):332-44. doi: 10.1016/j.jsb.2010.05.013

In the past few years, three-dimensional (3D) subtomogram alignment has become an important tool in cryo-electron tomography (CET). This technique allows one to produce higher resolution images of structures which can not be reconstructed using single-particle methods. Building on previous work, we present a new dissimilarity measure between subtomograms that works well for the noisy images that often occur in CET images. A technique that is more robust to noise provides the ability to analyze macromolecules in thicker samples such as whole cells or lower the defocus in thinner samples to push the first zero of the Contrast Transfer Function (CTF). Our method, Threshold Constrained Cross-Correlation (TCCC), uses statistics of the noise to automatically select only a small percentage of the Fourier coefficients to compute the cross-correlation, which has two main advantages: first, it reduces the influence of the noise by looking at only those peaks dominated by signal; and second, it avoids the missing wedge normalization problem since we consider the same number of coefficients for all possible pairs of subtomograms. We present results with synthetic and real data to compare our approach with other existing methods under different SNR and missing wedge conditions, and show that TCCC improves alignment results for datasets with SNR<0.1. We have made our source code freely available for the community.

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Grigorieff Lab
04/06/10 | Subunit interactions in bovine papillomavirus.
Wolf M, Garcea RL, Grigorieff N, Harrison SC
Proceedings of the National Academy of Sciences of the United States of America. 2010 Apr 6;107:6298-303. doi: 10.1073/pnas.0914604107

Papillomaviruses, members of a group of dsDNA viruses associated with epithelial growths and tumors, have compact capsids assembled from 72 pentamers of the protein L1. We have determined the structure of bovine papillomavirus by electron cryomicrosopy (cryoEM), at approximately 3.6 A resolution. The density map, obtained from single-particle analysis of approximately 4,000 particle images, shows the trace of the L1 polypeptide chain and reveals how the N- and C-terminal "arms" of a subunit (extensions from its beta-jelly-roll core) associate with a neighboring pentamer. Critical contacts come from the C-terminal arm, which loops out from the core of the subunit, forms contacts (including a disulfide) with two subunits in a neighboring pentamer, and reinserts into the pentamer from which it emanates. This trace corrects one feature of an earlier model. We discuss implications of the structure for virion assembly and for pathways of infectious viral entry. We suggest that it should be possible to obtain image reconstructions of comparable resolution from cryoEM images of asymmetric particles. From the work on papillomavirus described here, we estimate that such a reconstruction will require about 1.5 million images to achieve the same number of averaged asymmetric units; structural variability will increase this number substantially.

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01/01/93 | Suffix arrays: a new method for on-line string searches.
Manber U, Myers E
SIAM Journal on Scientific Computing: A Publication of the Society for Industrial and Applied Mathematics. 1993;22:935-48

A new and conceptually simple data structure, called a suffix array, for on-line string searches is introduced in this paper. Constructing and querying suffix arrays is reduced to a sort and search paradigm that employs novel algorithms. The main advantage of suffix arrays over suffix trees is that, in practice, they use three to five times less space. From a complexity standpoint, suffix arrays permit on-line string searches of the type, ‘‘Is W a substring of A?’’ to be answered in time O(P + log N), where P is the length of W and N is the length of A, which is competitive with (and in some cases slightly better than) suffix trees. The only drawback is that in those instances where the underlying alphabet is finite and small, suffix trees can be constructed in O(N) time in the worst case, versus O(N log N) time for suffix arrays.

However, we give an augmented algorithm that, regardless of the alphabet size, constructs suffix arrays in O(N) expected time, albeit with lesser space efficiency. We believe that suffix arrays will prove to be better in practice than suffix trees for many applications.

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07/20/17 | Suite2p: beyond 10,000 neurons with standard two-photon microscopy.
Pachitariu M, Stringer C, Dipoppa M, Schröder S, Rossi LF, Dalgleish H, Carandini M, Harris KD
bioRxiv. 2017 Jul 20:061507. doi: https://doi.org/10.1101/061507

Two-photon microscopy of calcium-dependent sensors has enabled unprecedented recordings from vast populations of neurons. While the sensors and microscopes have matured over several generations of development, computational methods to process the resulting movies remain inefficient and can give results that are hard to interpret. Here we introduce Suite2p: a fast, accurate and complete pipeline that registers raw movies, detects active cells, extracts their calcium traces and infers their spike times. Suite2p runs on standard workstations, operates faster than real time, and recovers ~2 times more cells than the previous state-of-the-art method. Its low computational load allows routine detection of ~10,000 cells simultaneously with standard two-photon resonant-scanning microscopes. Recordings at this scale promise to reveal the fine structure of activity in large populations of neurons or large populations of subcellular structures such as synaptic boutons.

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04/15/04 | Sum frequency vibrational spectroscopy of leucine molecules adsorbed at air-water interface.
Ji N, Shen Y
The Journal of Chemical Physics. 2004 Apr 15;120(15):7107-12. doi: 10.1063/1.1669375

Sum frequency vibrational spectroscopy was used to study adsorption of leucine molecules at air-water interface from solutions with different concentrations and pH values. The surface density and the orientation of the isopropyl head group of the adsorbed leucine molecules could be deduced from the measurements. It was found that the orientation depends on the surface density, but only weakly on bulk pH value at the saturated surface density. The vibrational spectra of the interfacial water molecules appeared to be strongly affected by the charge state of the adsorbed leucine molecules. Enhancement and inversion of polar orientation of interfacial water molecules by surface charges or field controllable by the bulk pH value were observed.

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10/25/02 | Sum-frequency spectroscopy of electronic resonances on a chiral surface monolayer of bi-naphthol.
Ji N
Physical Review B. 2002 Oct 25;66:165415. doi: 10.1103/PhysRevB.66.165415

We study chiral response in optical sum-frequency generation near electronic resonances from a 1,1 ′ −bi−2  -naphthol (BN) monolayer adsorbed on water. The polarization dependence of the spectra indicates that the molecules are well oriented at the surface with their symmetry axis along the surface normal. Orientational ordering effectively enhances the chiral response per BN molecule. The results can be quantitatively understood with a simple coupled-oscillator model for BN.

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05/01/03 | Sum-frequency vibrational spectroscopic study of surface glass transition of poly(vinyl alcohol).
Ji N
Macromolecules. 2003 May;36:3303. doi: 10.1021/ma025681s

Sum-frequency vibrational spectroscopy was employed to study surface glass transition of

poly(vinyl alcohol) by monitoring the relaxation of rubbing-induced alignment of surface chains with

increase of temperature. The observed chain relaxation is two-dimensional, parallel to the surface. The

surface transition temperature is 58 ( 2 °C, essentially the same as the bulk one.

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01/06/22 | SUMOylation of linker histone H1 drives chromatin condensation and restriction of embryonic cell fate identity
Daoud Sheban , Tom Shani , Roey Maor , Alejandro Aguilera-Castrejon , Nofar Mor , Bernardo Oldak , Merav D. Shmueli , Avital Eisenberg-Lerner , Jonathan Bayerl , Jakob Hebert , Sergey Viukov , Guoyun Chen , Assaf Kacen , Vladislav Krupalnik , Valeriya Chugaeva , Shadi Tarazi , Alejandra Rodríguez-delaRosa , Mirie Zerbib , Adi Ulman , Solaiman Masarwi , Meital Kupervaser , Yishai Levin , Efrat Shema , Yael David , Noa Novershtern , Jacob H. Hanna , Yifat Merbl
Molecular Cell. 01/2022;82:106-122.e9. doi: https://doi.org/10.1016/j.molcel.2021.11.011

Summary The fidelity of the early embryonic program is underlined by tight regulation of the chromatin. Yet, how the chromatin is organized to prohibit the reversal of the developmental program remains unclear. Specifically, the totipotency-to-pluripotency transition marks one of the most dramatic events to the chromatin, and yet, the nature of histone alterations underlying this process is incompletely characterized. Here, we show that linker histone H1 is post-translationally modulated by SUMO2/3, which facilitates its fixation onto ultra-condensed heterochromatin in embryonic stem cells (ESCs). Upon SUMOylation depletion, the chromatin becomes de-compacted and H1 is evicted, leading to totipotency reactivation. Furthermore, we show that H1 and SUMO2/3 jointly mediate the repression of totipotent elements. Lastly, we demonstrate that preventing SUMOylation on H1 abrogates its ability to repress the totipotency program in ESCs. Collectively, our findings unravel a critical role for SUMOylation of H1 in facilitating chromatin repression and desolation of the totipotent identity.

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04/29/19 | Super resolution imaging of a distinct chromatin loop in human lymphoblastoid cells.
Jacqueline Jufen Zhu , Zofia Parteka , Byoungkoo Lee , Przemyslaw Szalaj , Ping Wang , Karolina Jodkowska , Jesse Aaron , Teng-Leong Chew , Dariusz Plewczynski , Yijun Ruan
bioRxiv. 2019 Apr 29:. doi: 10.1101/621920

The three-dimensional genome structure plays a fundamental role in gene regulation and cellular functions. Recent studies in genomics based on sequencing technologies inferred the very basic functional chromatin folding structures of the genome known as chromatin loops, the long-range chromatin interactions that are often mediated by protein factors. To visualize the looping structure of chromatin we applied super-resolution microscopy iPALM to image a specific chromatin loop in GM12878 cells. Totally, we have generated six images of the target chromatin region at the single molecule resolution. To infer the chromatin structures from the captured images, we modeled them as looping conformations using different computational algorithms and then evaluated the models by comparing with Hi-C data to examine the concordance. The results showed a good correlation between the imaging data and sequencing data, suggesting the visualization of higher-order chromatin structures for the very short genomic segments can be realized by microscopic imaging.

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12/01/11 | Super-resolution 3D microscopy of live whole cells using structured illumination.
Shao L, Kner P, Rego EH, Gustafsson MG
Nature Methods. 2011 Dec;8:1044-6. doi: 10.1038/nmeth.1734

Three-dimensional (3D) structured-illumination microscopy (SIM) can double the lateral and axial resolution of a wide-field fluorescence microscope but has been too slow for live imaging. Here we apply 3D SIM to living samples and record whole cells at up to 5 s per volume for >50 time points with 120-nm lateral and 360-nm axial resolution. We demonstrate the technique by imaging microtubules in S2 cells and mitochondria in HeLa cells.

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