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Multiple competition reactions for RPA order the assembly of the DNA polymerase delta holoenzyme.
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Processive extension of DNA in eukaryotes requires three factors to coordinate their actions. First, DNA polymerase alpha-primase synthesizes the primed site. Then replication factor C loads a proliferating cell nuclear antigen (PCNA) clamp onto the primer. Following this, DNA polymerase delta assembles with PCNA for processive extension. This report shows that these proteins each bind the primed site tightly and trade places in a highly coordinated fashion such that the primer terminus is never left free of protein. Replication protein A (RPA), the single-stranded DNA-binding protein, forms a common touchpoint for each of these proteins and they compete with one another for it. Thus these protein exchanges are driven by competition-based protein switches in which two proteins vie for contact with RPA. 相似文献
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Aruna Kasoju M Lakshmi Narasu Charuvaka Muvva Bathula VV SubbaRao 《Bioinformation》2012,8(14):684-686
Aflatoxins are polyketide-derived secondary metabolites produced by Aspergillus spp. The toxic effects of aflatoxins have adverse
consequences for human health and agricultural economics. The aflR gene, a regulatory gene for aflatoxin biosynthesis, encodes a
protein containing a zinc-finger DNA-binding motif. AFLR-Protein three-dimensional model was generated using Robetta server.
The modeled AFLR-Protein was further optimization and validation using Rampage. In the simulations, we monitored the
backbone atoms and the C-α-helix of the modeled protein. The low RMSD and the simulation time indicate that, as expected, the
3D structural model of AFLR-protein represents a stable folding conformation. This study paves the way for generating computer
molecular models for proteins whose crystal structures are not available and which would aid in detailed molecular mechanism of
inhibition of aflatoxin. 相似文献
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Dergunova L. V. Dmitrieva V. G. Filippenkov I. B. Stavchansky V. V. Denisova A. E. Yuzhakov V. V. Sevan’kaeva L. E. Valieva L. V. Sudarkina O. Y. Gubsky L. V. Myasoedov N. F. Limborska S. A. 《Molecular Biology》2021,55(3):346-353
Molecular Biology - Due to its nootropic, neuroprotective, and immunomodulatory effects, the peptide Semax is utilized in the treatment of ischemic stroke. Our earlier RNA-Seq analysis of the... 相似文献
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Visualization of molecular structures aids in the understanding of structural and functional roles of biological macromolecules.
Macromolecular transport between the cell nucleus and cytoplasm is facilitated by the nuclear pore complex (NPC). The ring
structure of the NPC is large and contains several distinct proteins (nucleoporins) which function as a selective gate for the passage
of certain molecules into and out of the nucleus. In this note we demonstrate the utility of a python code that allows direct
mapping of the physiochemical properties of the constituent nucleoporins on the scaffold of the yeast NPC׳s cytoplasmic view. We
expect this tool to be useful for researchers to visualize the NPC based on their physiochemical properties and how it alters when
specific mutations are introduced in one or more of the nucleoporins. The code developed using Python is available freely from the
authors. 相似文献
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Olga I. Baum Vladimir Y. Zaitsev Alexey V. Yuzhakov Alexander P. Sviridov Maria L. Novikova Alexander L. Matveyev Lev A. Matveev Alexander A. Sovetsky Emil N. Sobol 《Journal of biophotonics》2020,13(1)
Moderate heating of collagenous tissues such as cartilage and cornea by infrared laser irradiation can produce biologically nondestructive structural rearrangements and relaxation of internal stresses resulting in the tissue reshaping. The reshaping results and eventual changes in optical and biological properties of the tissue strongly depend on the laser‐irradiation regime. Here, a speckle‐contrast technique based on monochromatic illumination of the tissue in combination with strain mapping by means of optical coherence elastography (OCE) is applied to reveal the interplay between the temperature and thermal stress fields producing tissue modifications. The speckle‐based technique ensured en face visualization of cross correlation and contrast of speckle images, with evolving proportions between contributions of temperature increase and thermal‐stresses determined by temperature gradients. The speckle‐technique findings are corroborated by quantitative OCE‐based depth‐resolved imaging of irradiation‐induced strain‐evolution. The revealed relationships can be used for real‐time control of the reshaping procedures (e.g., for laser shaping of cartilaginous implants in otolaryngology and maxillofacial surgery) and optimization of the laser‐irradiation regimes to ensure the desired reshaping using lower and biologically safer temperatures. The figure of waterfall OCE‐image demonstrates how the strain‐rate maximum arising in the heating‐beam center gradually splits and drifts towards the zones of maximal thermal stresses located at the temperature‐profile slopes. 相似文献
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Vladimir Y. Zaitsev Alexander L. Matveyev Lev A. Matveev Grigory V. Gelikonov Olga I. Baum Alexander I. Omelchenko Dmitry V. Shabanov Alexander A. Sovetsky Alexey V. Yuzhakov Anatoly A. Fedorov Vladimir I. Siplivy Andrey V. Bolshunov Emil N. Sobol 《Journal of biophotonics》2019,12(3)
Moderate heating of such collagenous tissues as cornea and cartilages by infra‐red laser (IR laser) irradiation is an emerging technology for nondestructive modification of the tissue shape and microstructure for a variety of applications in ophthalmology, otolaryngology and so on. Postirradiation high‐resolution microscopic examination indicates the appearance of microscopic either spheroidal or crack‐like narrow pores depending on the tissue type and irradiation regime. Such examinations usually require special tissue preparation (eg, staining, drying that affect microstructure themselves) and are mostly suitable for studying individual pores, whereas evaluation of their averaged parameters, especially in situ, is challenging. Here, we demonstrate the ability of optical coherence tomography (OCT) to visualize areas of pore initiation and evaluate their averaged properties by combining visualization of residual irradiation‐induced tissue dilatation and evaluation of the accompanying Young‐modulus reduction by OCT‐based compressional elastography. We show that the averaged OCT‐based data obtained in situ fairly well agree with the microscopic examination results. The results obtained develop the basis for effective and safe applications of novel nondestructive laser technologies of tissue modification in clinical practice. PICTURE: Elastographic OCT‐based images of an excised rabbit eye cornea subjected to thermomechanical laser‐assisted reshaping. Central panel shows resultant cumulative dilatation in cornea after moderate (~45‐50°C) pulse‐periodic heating by an IR laser together with distribution of the inverse Young modulus 1/E before (left) and after (right) IR irradiation. Significant modulus decrease in the center of irradiated region is caused by initiated micropores. Their parameters can be extracted by analyzing the elastographic images. 相似文献