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排序方式: 共有291条查询结果,搜索用时 46 毫秒
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Haydee L. Gutierrez Rio Tsutsumi Talia Y. Moore Kimberly L. Cooper 《Evolution & development》2019,21(6):320-329
In many vertebrate animals that run or leap, the metatarsals and/or metacarpals of the distal limb are fused into a single larger element, likely to resist fracture due to high ground‐reaction forces during locomotion. Although metapodial fusion evolved independently in modern birds, ungulates, and jerboas, the developmental basis has only been explored in chickens, which diverged from the mammalian lineage approximately 300 million years ago. Here, we use a bipedal rodent, the lesser Egyptian jerboa (Jaculus jaculus), to understand the cellular processes of metatarsal fusion in a mammal, and we revisit the developing chicken to assess similarities and differences in the localization of osteoblast and osteoclast activities. In both species, adjacent metatarsals align along flat surfaces, osteoblasts cross the periosteal membrane to unite the three elements in a single circumference, and osteoclasts resorb bone at the interfaces leaving a single marrow cavity. However, the pattern of osteoclast activity differs in each species; osteoclasts are highly localized to resorb bone at the interfaces of neighboring jerboa metatarsals and are distributed throughout the endosteum of chicken metatarsals. Each species, therefore, provides an opportunity to understand mechanisms that pattern osteoblast and osteoclast activities to alter bone shape during development and evolution. 相似文献
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Maria-Grazia Ascenzi Andre Lutz Xia Du Laureen Klimecky Neal Kawas Talia Hourany Joelle Jahng Jesse Chin Yin Tintut Udo Nackenhors Joyce Keyak 《Journal of biomechanics》2014
To improve bone strength prediction beyond limitations of assessment founded solely on the bone mineral component, we investigated the effect of hyperlipidemia, present in more than 40% of osteoporotic patients, on multiscale structure of murine bone. Our overarching purpose is to estimate bone strength accurately, to facilitate mitigating fracture morbidity and mortality in patients. Because (i) orientation of collagen type I affects, independently of degree of mineralization, cortical bone?s micro-structural strength; and, (ii) hyperlipidemia affects collagen orientation and μCT volumetric tissue mineral density (vTMD) in murine cortical bone, we have constructed the first multiscale finite element (mFE), mouse-specific femoral model to study the effect of collagen orientation and vTMD on strength in Ldlr−/−, a mouse model of hyperlipidemia, and its control wild type, on either high fat diet or normal diet. Each µCT scan-based mFE model included either element-specific elastic orthotropic properties calculated from collagen orientation and vTMD (collagen-density model) by experimentally validated formulation, or usual element-specific elastic isotropic material properties dependent on vTMD-only (density-only model). We found that collagen orientation, assessed by circularly polarized light and confocal microscopies, and vTMD, differed among groups and that microindentation results strongly correlate with elastic modulus of collagen-density models (r2=0.85, p=10−5). Collagen-density models yielded (1) larger strains, and therefore lower strength, in simulations of 3-point bending and physiological loading; and (2) higher correlation between mFE-predicted strength and 3-point bending experimental strength, than density-only models. This novel method supports ongoing translational research to achieve the as yet elusive goal of accurate bone strength prediction. 相似文献
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De Temmerman PJ Van Doren EA Verleysen E Van der Stede Y Abi Daoud Francisco M Mast J 《Journal of nanobiotechnology》2012,10(1):24
ABSTRACT: BACKGROUND: The interaction of a nanomaterial (NM) with a biological system depends not only on the sizeof its primary particles but also on the size, shape and surface topology of its aggregates andagglomerates. A method based on transmission electron microscopy (TEM), to visualize theNM and on image analysis, to measure detected features quantitatively, was assessed for itscapacity to characterize the aggregates and agglomerates of precipitated and pyrogenicsynthetic amorphous silicon dioxide (SAS), or silica, NM. RESULTS: Bright field (BF) TEM combined with systematic random imaging and semi-automatic imageanalysis allows measuring the properties of SAS NM quantitatively. Automation allows measuring multiple and arithmetically complex parameters simultaneously on high numbersof detected particles. This reduces operator-induced bias and assures a statistically relevantnumber of measurements, avoiding the tedious repetitive task of manual measurements.Access to multiple parameters further allows selecting the optimal parameter in function of aspecific purpose.Using principle component analysis (PCA), twenty-three measured parameters wereclassified into three classes containing measures for size, shape and surface topology of theNM. CONCLUSION: The presented method allows a detailed quantitative characterization of NM, like dispersionsof precipitated and pyrogenic SAS based on the number-based distributions of their meandiameter, sphericity and shape factor. 相似文献
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Hurtado-Gómez E Abián O Muñoz FJ Hernáiz MJ Velázquez-Campoy A Neira JL 《Biophysical journal》2008,95(3):1336-1348
The bacterial PEP:sugar PTS consists of a cascade of several proteins involved in the uptake and phosphorylation of carbohydrates, and in signal transduction pathways. Its uniqueness in bacteria makes the PTS a target for new antibacterial drugs. These drugs can be obtained from peptides or protein fragments able to interfere with the first reaction of the protein cascade: the phosphorylation of the HPr by the first enzyme, the so-called enzyme EI. To that end, we designed a peptide, HPr9-30, spanning residues 9 to 30 of the intact HPr protein, containing the active site histidine (His-15) and the first α-helix of HPr of Streptomyces coelicolor, HPrsc. By using fluorescence and circular dichroism, we first determined qualitatively that HPrsc and HPr9-30 did bind to EIsc, the enzyme EI from S. coelicolor. Then, we determined quantitatively the binding affinities of HPr9-30 and HPrsc for EIsc by using ITC and STD-NMR. The STD-NMR experiments indicate that the epitope region of HPr9-30 was formed by residues Leu-14, His-15, Ile-21, and Val-23. The binding reaction between EIsc and HPrsc is enthalpy driven and in other species is entropy driven; further, the affinity of HPrsc for EIsc was smaller than in other species. However, the affinity of HPr9-30 for EIsc was only moderately lower than that of EIsc for HPrsc, suggesting that this peptide could be considered a promising hit compound for designing new inhibitors against the PTS. 相似文献