Molecular Biology 

About: Molecular Biology is an academic journal. The journal publishes majorly in the area(s): DNA & Gene. It has an ISSN identifier of 0026-8933. Over the lifetime, 5615 publications have been published receiving 28114 citations.

Radius of gyration as an indicator of protein structure compactness

Abstract: Identification and study of the main principles underlying the kinetics and thermodynamics of protein folding generate a new insight into the factors that control this process. Statistical analysis of the radius of gyration for 3769 protein domains of four major classes (α, β, α/β, and α + β) showed that each class has a characteristic radius of gyration that determines the protein structure compactness. For instance, α proteins have the highest radius of gyration throughout the protein size range considered, suggesting a less tight packing as compared with β-and (α + β)-proteins. The lowest radius of gyration and, accordingly, the tightest packing are characteristic of α/β-proteins. The protein radius of gyration normalized by the radius of gyration of a ball with the same volume is independent of the protein size, in contrast to compactness and the number of contacts per residue.

Radius of gyration is indicator of compactness of protein structure

Abstract: Search and study of the general principles that govern kinetics and thermodynamics of protein folding generate a new insight into the factors controlling this process. Statistical analysis of radii of gyration for 3769 protein structures from four general structural classes (all-alpha, all-beta, alpha/beta, alpha + beta) demonstrates that each class of proteins has its own class-specific radius of gyration, which determines compactness of protein structures: alpha-proteins have the largest radius of gyration. This indicates that they are less tightly packed than beta- and alpha + beta-proteins. Finally, alpha/beta-proteins are the most tightly packed proteins with the least radius of gyration. It should be underlined that radius of gyration normalized on the radius of gyration of ball with the same volume, is independent of the length in comparison with such parameters as compactness and number of contacts per residue.

MicroRNAs and cancer

Abstract: The review is devoted to analyzing the data on the role of microRNAs in human tumor progression. The following topics are thoroughly discussed in the review: (1) general characteristics of microRNAs; (2) their expression pattern in human tumors and specificity of this expression; (3) the possible role of microRNAs as oncogenes and tumor growth suppressors; and (4) their participation in the processes responsible for the transformed phenotype of tumor cells; and (5) the role of microRNAs in early diagnostics of the disease and its prognosis.

Software for analysis of bacterial genomes

Abstract: GenomeExplorer is a program for comparative analysis of regulation in prokaryotic genomes. The program has options for signal search, comparison of gene samples, search for paralogs and orthologs, iterative construction of signal profiles. The program has a convenient graphic interface, allowing for navigation in the annotation window, in the genome map, and in the table of gene similarities. The use of the system clipboard allows one to export the results of analysis into Word and Excel, and to call external programs via the Internet.

Diversity of Mitochondrial DNA Haplogroups in Ethnic Populations of the Volga-Ural Region

Abstract: The mtDNA polymorphism was analyzed in eight ethnic groups (N = 979) of the Volga–Ural region. Most mtDNA variants belonged to haplogroups H, U, T, J, W, I, R, and N1 characteristic of West Eurasian populations. The most frequent were haplogroups H (12–42%) and U (18–44%). East Eurasian mtDNA types (A, B, Y, F, M, N9) were also observed. Genetic diversity was higher in Turkic than in Finno-Ugric populations. The frequency of mtDNA types characteristic of Siberian and Central Asian populations substantially increased in the ethnic groups living closer to the Urals, a boundary between Europe and Asia. Geographic distances, rather than linguistic barriers, were assumed to play the major role in distribution of mtDNA types in the Volga–Ural region. Thus, as concerns the maternal lineage, the Finno-Ugric populations of the region proved to be more similar to their Turkic neighbors rather than to linguistically related Balto-Finnish ethnic groups.