排序方式: 共有86条查询结果,搜索用时 15 毫秒
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Ahmad Golaraei Kamdin Mirsanaye Yeji Ro Serguei Krouglov Margarete K. Akens Brian C. Wilson Virginijus Barzda 《Journal of biophotonics》2019,12(1)
Polarization‐dependent second‐harmonic generation (P‐SHG) microscopy is used to characterize molecular nonlinear optical properties of collagen and determine a three‐dimensional (3D) orientation map of collagen fibers within a pig tendon. C6 symmetry is used to determine the nonlinear susceptibility tensor components ratios in the molecular frame of reference and , where the latter is a newly extracted parameter from the P‐SHG images and is related to the chiral structure of collagen. The is observed for collagen fibers tilted out of the image plane, and can have positive or negative values, revealing the relative polarity of collagen fibers within the tissue. The P‐SHG imaging was performed using a linear polarization‐in polarization‐out (PIPO) method on thin sections of pig tendon cut at different angles. The nonlinear chiral properties of collagen can be used to construct the 3D organization of collagen in the tissue and determine the orientation‐independent molecular susceptibility ratios of collagen fibers in the molecular frame of reference. 相似文献
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Richard Cisek Leigh Spencer Nicole Prent Donatas Zigmantas George S. Espie Virginijus Barzda 《Photosynthesis research》2009,102(2-3):111-141
Emerging as well as the most frequently used optical microscopy techniques are reviewed and image contrast generation methods in a microscope are presented, focusing on the nonlinear contrasts such as harmonic generation and multiphoton excitation fluorescence. Nonlinear microscopy presents numerous advantages over linear microscopy techniques including improved deep tissue imaging, optical sectioning, and imaging of live unstained samples. Nonetheless, with the exception of multiphoton excitation fluorescence, nonlinear microscopy is in its infancy, lacking protocols, users and applications; hence, this review focuses on the potential of nonlinear microscopy for studying photosynthetic organisms. Examples of nonlinear microscopic imaging are presented including isolated light-harvesting antenna complexes from higher plants, starch granules, chloroplasts, unicellular alga Chlamydomonas reinhardtii, and cyanobacteria Leptolyngbya sp. and Anabaena sp. While focusing on nonlinear microscopy techniques, second and third harmonic generation and multiphoton excitation fluorescence microscopy, other emerging nonlinear imaging modalities are described and several linear optical microscopy techniques are reviewed in order to clearly describe their capabilities and to highlight the advantages of nonlinear microscopy. 相似文献
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Elena M. Ibryashkina Giedrius Sasnauskas Alexander S. Solonin Virginijus Siksnys 《Journal of molecular biology》2009,387(1):10-16
The GIY-YIG nuclease domain has been identified in homing endonucleases, DNA repair and recombination enzymes, and restriction endonucleases. The Type II restriction enzyme Eco29kI belongs to the GIY-YIG nuclease superfamily and, like most of other family members, including the homing endonuclease I-TevI, is a monomer. It recognizes the palindromic sequence 5′-CCGC/GG-3′ (“/” marks the cleavage position) and cuts it to generate 3′-staggered ends. The Eco29kI monomer, which contains a single active site, either has to nick sequentially individual DNA strands or has to form dimers or even higher-order oligomers upon DNA binding to make a double-strand break at its target site. Here, we provide experimental evidence that Eco29kI monomers dimerize on a single cognate DNA molecule forming the catalytically active complex. The mechanism described here for Eco29kI differs from that of Cfr42I isoschisomer, which also belongs to the GIY-YIG family but is functional as a tetramer. This novel mechanism may have implications for the function of homing endonucleases and other enzymes of the GIY-YIG family. 相似文献
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Tomas Sinkunas Giedrius Gasiunas Sakharam P Waghmare Mark J Dickman Rodolphe Barrangou Philippe Horvath Virginijus Siksnys 《The EMBO journal》2013,32(3):385-394
Clustered regularly interspaced short palindromic repeats (CRISPR)‐encoded immunity in Type I systems relies on the Cascade (CRISPR‐associated complex for antiviral defence) ribonucleoprotein complex, which triggers foreign DNA degradation by an accessory Cas3 protein. To establish the mechanism for adaptive immunity provided by the Streptococcus thermophilus CRISPR4‐Cas (CRISPR‐associated) system (St‐CRISPR4‐Cas), we isolated an effector complex (St‐Cascade) containing 61‐nucleotide CRISPR RNA (crRNA). We show that St‐Cascade, guided by crRNA, binds in vitro to a matching proto‐spacer if a proto‐spacer adjacent motif (PAM) is present. Surprisingly, the PAM sequence determined from binding analysis is promiscuous and limited to a single nucleotide (A or T) immediately upstream (?1 position) of the proto‐spacer. In the presence of a correct PAM, St‐Cascade binding to the target DNA generates an R‐loop that serves as a landing site for the Cas3 ATPase/nuclease. We show that Cas3 binding to the displaced strand in the R‐loop triggers DNA cleavage, and if ATP is present, Cas3 further degrades DNA in a unidirectional manner. These findings establish a molecular basis for CRISPR immunity in St‐CRISPR4‐Cas and other Type I systems. 相似文献
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Eric C. Beyer Joanna Gemel AgustÍ N Martí nez Viviana M. Berthoud Virginijus Valiunas Alonso P. Moreno Peter R. Brink 《Cell communication & adhesion》2001,8(4):199-204
Cx43 is widely expressed in many different cell types, and many of these cells also express other connexins. If these connexins are capable of mixing, the functional properties of channels containing heteromeric connexons may substantially influence intercellular communication between such cells. We used biochemical strategies (sedimentation through sucrose gradients, co-immunoprecipitation, or co-purification by Ni-NTA chromatography) to examine heteromeric mixing of Cx43 with other connexins (including Cx26, Cx37, Cx40, Cx45, and Cx56) in transfected cells. These analyses showed that all of the tested connexins except Cx26 formed heteromeric connexons with Cx43. We used the double whole-cell patch-camp technique to analyze the electrophysiological properties of gap junction channels in pairs of co-expressing cells. Cx37 and Cx45 made a large variety of functional heteromeric combinations with Cx43 based on detection of many different single channel conductances. Most of the channel event sizes observed in cells co-expressing Cx40 and Cx43 were similar to those of homomeric Cx43 or Cx40 hemichannels in homo- or hetero-typic configurations. Our data suggest several different possible consequences of connexin co-expression: (1) some combinations of connexins may form heteromeric connexons with novel proeprties; (2) some connexins may form heteromeric channels that do not have unique properties, and (3) some connexins may be incompatible for heteromeric mixing. 相似文献
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Shlyakhtenko LS Gilmore J Portillo A Tamulaitis G Siksnys V Lyubchenko YL 《Biochemistry》2007,46(39):11128-11136
Interactions between distantly separated DNA regions mediated by specialized proteins lead to the formation of synaptic protein-DNA complexes. This is a ubiquitous phenomenon which is critical in various genetic processes. Although such interactions typically occur between two sites, interactions among three specific DNA regions have been identified, and a corresponding model has been proposed. Atomic force microscopy was used to test this model for the EcoRII restriction enzyme and provide direct visualization and characterization of synaptic protein-DNA complexes involving three DNA binding sites. The complex appeared in the images as a two-loop structure, and the length measurements proved the site specificity of the protein in the complex. The protein volume measurements showed that an EcoRII dimer is the core of the three-site synaptosome. Other complexes were identified and analyzed. The protein volume data showed that the dimeric form of the protein is responsible for the formation of other types of synaptic complexes as well. The applications of these results to the mechanisms of the protein-DNA interactions are discussed. 相似文献
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Gasiunas G Sasnauskas G Tamulaitis G Urbanke C Razaniene D Siksnys V 《Nucleic acids research》2008,36(3):938-949
The GIY-YIG nuclease domain was originally identified in homing endonucleases and enzymes involved in DNA repair and recombination. Many of the GIY-YIG family enzymes are functional as monomers. We show here that the Cfr42I restriction endonuclease which belongs to the GIY-YIG family and recognizes the symmetric sequence 5′-CCGC/GG-3′ (‘/’ indicates the cleavage site) is a tetramer in solution. Moreover, biochemical and kinetic studies provided here demonstrate that the Cfr42I tetramer is catalytically active only upon simultaneous binding of two copies of its recognition sequence. In that respect Cfr42I resembles the homotetrameric Type IIF restriction enzymes that belong to the distinct PD-(E/D)XK nuclease superfamily. Unlike the PD-(E/D)XK enzymes, the GIY-YIG nuclease Cfr42I accommodates an extremely wide selection of metal-ion cofactors, including Mg2+, Mn2+, Co2+, Zn2+, Ni2+, Cu2+ and Ca2+. To our knowledge, Cfr42I is the first tetrameric GIY-YIG family enzyme. Similar structural arrangement and phenotypes displayed by restriction enzymes of the PD-(E/D)XK and GIY-YIG nuclease families point to the functional significance of tetramerization. 相似文献