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排序方式: 共有249条查询结果,搜索用时 31 毫秒
71.
Mamaev DD Khodakov DA Dement'eva EI Filatov IV Iurasov DA Cherepanov AI Vasiliskov VA Smoldovskaia OV Zimenkov DV Griadunov DA Mikhaĭlovich VM Zasedatelev AS 《Prikladnaia biokhimiia i mikrobiologiia》2011,47(2):231-240
A method and a microfluidic device for automated extraction and purification of nucleic acids from biological samples have been developed. The method involves disruption of bacterial cells and/or viral particles by combining enzymatic and chemical lysis procedures followed by solid-phase sorbent extraction and purification of nucleic acids. The procedure is carried out in an automated mode in a microfluidic module isolated from the outside environment, which minimizes contact of the researcher with potentially infectious samples and, consequently, decreases the risk of laboratory-acquired infections. The module includes reservoirs with lyophilized components for lysis and washing buffers; a microcolumn with a solid-phase sorbent; reservoirs containing water, ethanol, and water-ethanol buffer solutions for dissolving freeze-dried buffer components, rinsing the microcolumn, and eluting of nucleic acids; and microchannels and valves needed for directing fluids inside the module. The microfluidic module is placed into the control unit that delivers pressure, heats, mixes reagents, and flows solutions within the microfluidic module. The microfluidic system performs extraction and purification of nucleic acids with high efficiency in 40 min, and nucleic acids extracted can be directly used in PCR reaction and microarray assays. 相似文献
72.
Rubisco, the primary photosynthetic carboxylase, evolved 3-4 billion years ago in an anaerobic, high CO(2) atmosphere. The combined effect of low CO(2) and high O(2) levels in the modern atmosphere, and the inability of Rubisco to distinguish completely between CO(2) and O(2), leads to the occurrence of an oxygenation reaction that reduces the efficiency of photosynthesis. Among land plants, C(4) photosynthesis largely solves this problem by facilitating a high CO(2)/O(2) ratio at the site of Rubisco that resembles the atmosphere in which the ancestral enzyme evolved. The prediction that such conditions favor Rubiscos with higher kcat(CO2) and lower CO(2)/O(2) specificity (S(C/O)) is well supported, but the structural basis for the differences between C(3) and C(4) Rubiscos is not clear. Flaveria (Asteraceae) includes C(3), C(3)-C(4) intermediate, and C(4) species with kinetically distinct Rubiscos, providing a powerful system in which to study the biochemical transition of Rubisco during the evolution from C(3) to C(4) photosynthesis. We analyzed the molecular evolution of chloroplast rbcL and nuclear rbcS genes encoding the large subunit (LSu) and small subunit (SSu) of Rubisco from 15 Flaveria species. We demonstrate positive selection on both subunits, although selection is much stronger on the LSu. In Flaveria, two positively selected LSu amino acid substitutions, M309I and D149A, distinguish C(4) Rubiscos from the ancestral C(3) species and statistically account for much of the kinetic difference between the two groups. However, although Flaveria lacks a characteristic "C(4)" SSu, our data suggest that specific residue substitutions in the SSu are correlated with the kinetic properties of Rubisco in this genus. 相似文献
73.
A selective sweep in the chloroplast DNA of dioecious silene (section Elisanthe) 总被引:1,自引:1,他引:0 下载免费PDF全文
Gene flow occurs predominantly via pollen in angiosperms, leading to stronger population subdivision for maternally inherited markers, relative to paternally or biparentally inherited genes. In contrast to this trend, population subdivision within Silene latifolia and S. dioica, as well as subdivision between the two species, is substantially lower in maternally inherited chloroplast genes compared to paternally inherited Y-linked genes. A significant frequency spectrum bias toward rare polymorphisms and a significant loss of polymorphism in chloroplast genes compared to Y-linked and autosomal genes suggest that intra- and inter-specific subdivision in the chloroplast DNA may have been eroded by a selective sweep that has crossed the S. latifolia and S. dioica species boundary. 相似文献
74.
S. A. Lukshin I. V. Filatov J. V. Milchevsky A. D. Sushko Yu. V. Kravatsky V. A. Namiot N. G. Esipova V. G. Tumanyan 《Biophysics》2007,52(6):567-574
The structures of D-period segments of collagen (234 amino residues or ~1/4 of whole length) are established by methods of molecular mechanics and geometry analysis. Each D-period segment proves to have a unique spatial structure. The distributions of local helical parameters along the molecule are calculated. It is found that a second hydrogen bond is formed in every case when the second residue in the tripeptide G-X-Y is an amino acid. With such a combined H-bond network, all the peptide CO groups of glycines and of the third residues in tripeptides have quasi-equivalent positions on the surface of the collagen molecule. The local deformations of the polyproline II helix in the triple complex give rise to the observed modulation of structure at the macromolecular level, which may be important for the mutual orientation of collagen molecules during fibrillogenesis. 相似文献
75.
Batyanovskii A. V. Namiot V. A. Filatov I. V. Esipova N. G. Volotovskii I. D. 《Biophysics》2019,64(2):167-169
Biophysics - A multimodal mathematical approach is proposed that makes it possible to consider the Fourier objects that arise when macromolecules are described in spherical coordinates. With... 相似文献
76.
Background
Rubisco (ribulose-1,5-bisphosphate carboxylase/oxygenase) catalyses the key reaction in the photosynthetic assimilation of CO2. In C4 plants CO2 is supplied to Rubisco by an auxiliary CO2-concentrating pathway that helps to maximize the carboxylase activity of the enzyme while suppressing its oxygenase activity. As a consequence, C4 Rubisco exhibits a higher maximum velocity but lower substrate specificity compared with the C3 enzyme. Specific amino-acids in Rubisco are associated with C4 photosynthesis in monocots, but it is not known whether selection has acted on Rubisco in a similar way in eudicots.Methodology/Principal Findings
We investigated Rubisco evolution in Amaranthaceae sensu lato (including Chenopodiaceae), the third-largest family of C4 plants, using phylogeny-based maximum likelihood and Bayesian methods to detect Darwinian selection on the chloroplast rbcL gene in a sample of 179 species. Two Rubisco residues, 281 and 309, were found to be under positive selection in C4 Amaranthaceae with multiple parallel replacements of alanine by serine at position 281 and methionine by isoleucine at position 309. Remarkably, both amino-acids have been detected in other C4 plant groups, such as C4 monocots, illustrating a striking parallelism in molecular evolution.Conclusions/Significance
Our findings illustrate how simple genetic changes can contribute to the evolution of photosynthesis and strengthen the hypothesis that parallel amino-acid replacements are associated with adaptive changes in Rubisco. 相似文献77.
T. A. Shtam S. N. Naryzhny S. B. Landa V. S. Burdakov T. O. Artamonova M. V. Filatov 《Cell and Tissue Biology》2012,6(4):317-325
Exosomes are natural nanoparticles secreted by different cells and capable of carrying protein markers and genetic information,
thus participating in cellular communication. There is good reason to think that quantitative and qualitative characterization
of these microparticles produced by different tissues in normal and pathological states can give valuable diagnostic and prognostic
information and be a biomarker of different diseases, including oncological ones. Elaboration of the purification of exosomes
and their proteome analysis was the aim of the present work. An original approach to enhancing exosome production in cultured
transformed human cells was developed. The data obtained allowed us to detect exosomes in cultural conditioned samples and
control the quality of produced exosomes at all stages of their purification. Electrophoretic analysis of proteins obtained
from exosomes of different origins shows differences in protein profiles. Proteins from exosomes of glioblastoma cell lines
were separated by two-dimensional electrophoresis. Protein profiles were further analyzed by densitometry and mass spectrometry,
which allowed more than 30 proteins, including specific tumor markers, to be identified. 相似文献
78.
Kaandorp JA Blom JG Verhoef J Filatov M Postma M Müller WE 《Proceedings. Biological sciences / The Royal Society》2008,275(1651):2569-2575
We present a mathematical model of the genetic regulation controlling skeletogenesis and the influence of the physical environment on a branching sponge with accretive growth (e.g. Haliclona oculata or Lubomirskia baikalensis). From previous work, it is known that high concentrations of silicate induce spicule formation and upregulate the silicatein gene. The upregulation of this gene activates locally the production of spicules in the sponge and the deposition of the skeleton. Furthermore, it is known that the expression of the gene Iroquois induces the formation of an aquiferous system, consisting of exhalant and inhalant pores. We propose a model of the regulatory network controlling the separation in time and space of the skeletogenesis and the formation of the aquiferous system. The regulatory network is closely linked with environmental influences. In building a skeleton, silicate is absorbed from the environment. In our model, silicate is transported by diffusion through the environment and absorbed at the surface of a geometric model of the sponge, resulting in silicate gradients emerging in the neighbourhood of the sponge. Our model simulations predict sponge morphology and the positioning of the exhalant pores over the surface of the sponge. 相似文献
79.
80.
The recent origin of sex chromosomes in plant species provides an opportunity to study the early stages of sex chromosome evolution. This review focuses on the cytogenetic aspects of the analysis of sex chromosome evolution in plants and in particular, on the best-studied case, the sex chromosomes in Silene latifolia. We discuss the emerging picture of sex chromosome evolution in plants and the further work that is required to gain better understanding of the similarities and differences between the trends in animal and plant sex chromosome evolution. Similar to mammals, suppression of recombination between the X and Y in S. latifolia species has occurred in several steps, however there is little evidence that inversions on the S. latifolia Y chromosome have played a role in cessation of X/Y recombination. Secondly, in S. latifolia there is a lack of evidence for genetic degeneration of the Y chromosome, unlike the events documented in mammalian sex chromosomes. The insufficient number of genes isolated from this and other plant sex chromosomes does not allow us to generalize whether the trends revealed on S. latifolia Y chromosome are general for other dioecious plants. Isolation of more plant sex-linked genes and their cytogenetic mapping with fluorescent in situ hybridisation (FISH) will ultimately lead to a much better understanding of the processes driving sex chromosome evolution in plants. 相似文献