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921.
An alternating conformation characterizes the phosphodiester backbone of poly(dA-dT) in solution. 总被引:10,自引:0,他引:10
A highly homogeneous 145-base-pair fragment of double helical poly(dA-dT) . poly(dA-dT) was obtained by micrococcal nuclease digestion of a semisynthetic chromatin prepared from the nucleosome core histones (H2A, H2B, H3, H4) and the synthetic polydeoxyribonucleotide. In contrast to higher molecular weight alternating copolymers, this fragment displayed two resolved 31P NMR signals, separated by 24 Hz at 10.93 MHz. The two signals were of equal intensity at all temperatures less than the Tm for the fragment. Analyses of the possible origins for the two reasonances leads to the conclusion that the phosphodiester backbone of this DNA contains two distinct phosphorus environments, probably in an alternating array. We suggest that this may indicate the presence of sequence-dependent local variation in the helical structure of DNA in general. 相似文献
922.
Richardson Alan E. George Timothy S. Hens Maarten Delhaize Emmanuel Ryan Peter R. Simpson Richard J. Hocking Peter J. 《Plant and Soil》2022,476(1-2):161-180
Plant and Soil - Organic anions commonly released from plant roots and microorganisms are widely reported to mobilize soil phosphorus (P). We characterized soil organic P that was mobilized by... 相似文献
923.
924.
One of the many obstacles to spinal cord repair following trauma is the formation of a cyst that impedes axonal regeneration. Accordingly, we examined the potential use of electrospinning to engineer an implantable polarized matrix for axonal guidance. Polydioxanone, a resorbable material, was electrospun to fabricate matrices possessing either aligned or randomly oriented fibers. To assess the extent to which fiber alignment influences directional neuritic outgrowth, rat dorsal root ganglia (DRGs) were cultured on these matrices for 10 days. Using confocal microscopy, neurites displayed a directional growth that mimicked the fiber alignment of the underlying matrix. Because these matrices are generated from a material that degrades with time, we next determined whether a glial substrate might provide a more stable interface between the resorbable matrix and the outgrowing axons. Astrocytes seeded onto either aligned or random matrices displayed a directional growth pattern similar to that of the underlying matrix. Moreover, these glia-seeded matrices, once co-cultured with DRGs, conferred the matrix alignment to and enhanced outgrowth exuberance of the extending neurites. These experiments demonstrate the potential for electrospinning to generate an aligned matrix that influences both the directionality and growth dynamics of DRG neurites. 相似文献
925.
926.
Walling BE Munasinghe J Berrigan D Bailey MQ Simpson RM 《Obesity (Silver Spring, Md.)》2007,15(1):69-77
Objective: To assess proton magnetic resonance spectroscopy (1H‐MRS) as a means to distinguish among mice with disparate intra‐abdominal body fat compositions, and to measure changes in intra‐abdominal fat burden during weight loss and regain. Research Methods and Procedures: Intra‐abdominal fat burden was analyzed as a ratio of integrated areas under the curves of fat to water 1H‐MRS signals collected from a region of interest standardized across B6.V‐Lepob, C57BL/6, and A‐ZIP/F mice that exhibited various genotypically related body fat compositions, ranging from obese (B6.V‐Lepob) to minimal body fat (A‐ZIP/F). 1H‐MRS analysis of fat burden was compared with intra‐abdominal fat volume and with a single cross‐sectional intra‐abdominal fat area calculated from segmented magnetic resonance images. Similar measurements were made from obese B6.V‐Lepob mice before, during, and after they were induced to lose weight by leptin administration. Results: Relative amounts of intra‐abdominal fat analyzed by 1H‐MRS differed significantly according to body composition and genotype of the three strains of mice (p < 0.05). Intra‐abdominal fat assessed by 1H‐MRS correlated with both intra‐abdominal fat volume (r = 0.88, p < 0.001) and body weight (r = 0.82, p < 0.001) among, but not within, all three genotypes. During weight loss and regain, there was a significant overall pattern of changes in intra‐abdominal fat quantity that occurred, which was reflected by 1H‐MRS (p = 0.006). Discussion: Results support the use of localized 1H‐MRS for assessing differences in intra‐abdominal fat. Refinements in 1H‐MRS voxel region of interest size and location as well as instrument precision may result in improved correlations within certain body compositions. 相似文献
927.
Susan Amin Eva Matalova Carol Simpson Hiroki Yoshida Abigail S Tucker 《BMC developmental biology》2007,7(1):134
Background
The middle ear of mammals is composed of three endochondrial ossicles, the stapes, incus and malleus. Joints link the malleus to the incus and the incus to the stapes. In the mouse the first arch derived malleus and incus are formed from a single Sox9 and Type II collagen expressing condensation that later subdivides to give rise to two separate ossicles. In contrast the stapes forms from a separate condensation derived from the second branchial arch. Fusion of the malleus and incus is observed in a number of human syndromes and results in conductive hearing loss. Understanding how this joint forms during normal development is thus an important step in furthering our understanding of such defects. 相似文献928.
929.
Pía Villanueva Ron Nudel Alexander Hoischen María Angélica Fernández Nuala H. Simpson Christian Gilissen Rose H. Reader Lillian Jara María Magdalena Echeverry Clyde Francks Gillian Baird Gina Conti-Ramsden Anne O’Hare Patrick F. Bolton Elizabeth R. Hennessy SLI Consortium Hernán Palomino Luis Carvajal-Carmona Joris A. Veltman Jean-Baptiste Cazier Zulema De Barbieri Simon E. Fisher Dianne F. Newbury 《PLoS genetics》2015,11(6)
930.
Hela Azaiez Amanda R. Decker Kevin T. Booth Allen C. Simpson A. Eliot Shearer Patrick L. M. Huygen Fengxiao Bu Michael S. Hildebrand Paul T. Ranum Seiji B. Shibata Ann Turner Yuzhou Zhang William J. Kimberling Robert A. Cornell Richard J. H. Smith 《PLoS genetics》2015,11(3)
Hereditary hearing loss is a clinically and genetically heterogeneous disorder. More than 80 genes have been implicated to date, and with the advent of targeted genomic enrichment and massively parallel sequencing (TGE+MPS) the rate of novel deafness-gene identification has accelerated. Here we report a family segregating post-lingual progressive autosomal dominant non-syndromic hearing loss (ADNSHL). After first excluding plausible variants in known deafness-causing genes using TGE+MPS, we completed whole exome sequencing in three hearing-impaired family members. Only a single variant, p.Arg185Pro in HOMER2, segregated with the hearing-loss phenotype in the extended family. This amino acid change alters a highly conserved residue in the coiled-coil domain of HOMER2 that is essential for protein multimerization and the HOMER2-CDC42 interaction. As a scaffolding protein, HOMER2 is involved in intracellular calcium homeostasis and cytoskeletal organization. Consistent with this function, we found robust expression in stereocilia of hair cells in the murine inner ear and observed that over-expression of mutant p.Pro185 HOMER2 mRNA causes anatomical changes of the inner ear and neuromasts in zebrafish embryos. Furthermore, mouse mutants homozygous for the targeted deletion of Homer2 present with early-onset rapidly progressive hearing loss. These data provide compelling evidence that HOMER2 is required for normal hearing and that its sequence alteration in humans leads to ADNSHL through a dominant-negative mode of action. 相似文献