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971.
Nakajima T Hasegawa G Kamiuchi K Fukui M Yamasaki M Tominaga M Asano M Hosoda H Yoshikawa T Nakamura N 《Redox report : communications in free radical research》2006,11(5):223-230
Advanced diabetic nephropathy is characterized by abnormal synthesis of extracellular matrix (ECM) proteins, such as collagen I (COL I). The present experiments were designed to test the hypothesis that the presence of abnormal ECM proteins may be responsible for increased generation of reactive oxygen species (ROS) that are thought to have an important role in the pathogenesis of diabetic nephropathy. SV40 MES 13 murine mesangial cells were plated on COL I or collagen IV (COL IV) for 3 h at 5.5 or 25 mM D-glucose concentration. Increased intracellular ROS generation and reduced intracellular nitric oxide (NO) production was measured in cells attached to COL I compared with cells attached to COL IV. Treatment with N(omega)-nitro-L-arginine methyl ester hydrochloride (L-NAME), an inhibitor of NO synthase, reduced this difference in ROS generation between cells attached to either COL I or IV. The results using antibodies against integrins also indicated that an alpha(2) integrin-mediated pathway was involved in the different response in ROS generation caused by ECM proteins. These results suggest that contact between altered ECM proteins that are present in advanced diabetic nephropathy and mesangial cells has the potential to increase intracellular oxidative stress, leading to progressive glomerular damage. 相似文献
972.
Nakuci E Xu M Pujana MA Valls J Elshamy WM 《The international journal of biochemistry & cell biology》2006,38(7):1207-1220
Previous studies suggested that geminin plays a vital role in both origin assembly and DNA re-replication during S-phase; however, no data to support a role for geminin in G2/M cells have been described. Here it is shown that in G2/M-phase, geminin participates in the promotion of proper cytokinesis. This claim can be supported through a series of observations. First, geminin in G2/M is loaded onto chromatin after it is tyrosine phosphorylated. It is unlike S-phase geminin that resides in the nuclear soluble fraction, where it is exclusively S/T phosphorylated. Secondly, on chromatin, geminin gets S/T phosphorylated in late G1; this modification causes the release of geminin from the chromatin. Cyclins bind and phosphorylate geminin in a sequential, cell cycle-dependent manner. These modifications correlated well with geminin departure from the chromatin. This suggests that cyclin functions to either release geminin from chromatin or at least keep it at bay until late S-phase. Thirdly, depletion of geminin from a diploid mammary epithelial cell line (HME) causes cells to arrest in late G2/M-phase. Massive serine-10 phosphorylated histone H3 staining and survivin localization to mid-body were observed; this suggests that they could be arrested in either mitosis or at cytokinesis. Finally, while in the absence of geminin, cyclin B1, chk1 and cdc7 are all over expressed. This paper will demonstrate that only cdc7 is important in maintaining the cytokinesis arrest in the absence of geminin. Only double depletion of geminin and cdc7 induce apoptosis. Our results taken together show, for the first time, that phosphorylation-induction activates oscillation of geminin between both nuclear soluble and chromatin compartments. Chromatin-bound geminin species functions to initiate or maintain proper cytokineses. In the absence of geminin, cells arrest in cytokinesis; this defines a novel checkpoint, monitored by cdc7, rather than cyclin B1 or chk1. 相似文献
973.
974.
Decomposition of aboveground and belowground organs of the emergent macrophyte Z.latifolia was investigated using a litterbag technique for a period of 359 days in a freshwater marsh in Japan. Aboveground parts were
classified into: leaves, sheaths and stems. Belowground parts were classified into: horizontal rhizomes (new rhizome, hard
rhizome, soft rhizome) and vertical rhizome (stembase). The decay rate (k) was 0.0036 day−1, 0.0033 day−1 and 0.0021 day−1 for leaves, sheaths and stems, respectively. For belowground parts, the decay rate varied considerably from 0.0018 day−1 to 0.0079 day−1, according to differences in the initial chemical compositions of rhizomes. After 359 days of decay, new rhizomes lost 94%
of their original dry mass, compared with a loss of 48–84% for the other rhizomes. There was a significant positive relationship
between litter quality and decay rate for horizontal rhizomes. For the new rhizomes, which had an internal nitrogen content
of 24.2 mg N g−1 dry mass, the mass loss was 40% higher than that of soft rhizomes, which had an internal N content of 9.8 mg N g−1 dry mass. Over the period of 359 days, the nitrogen concentration in all rhizome types decreased to levels lower than initial
values, but the phosphorus concentration remained constant after an initial leaching loss. Most nitrogen and phosphorus were
lost during the first 45 days of decay. Changes in carbon to nitrogen (C:N) and carbon to phosphorus (C:P) ratios basically
followed inversed trends of the nitrogen and phosphorus concentrations. 相似文献
975.
Andrew Wilby La Pham Lan Kong Luen Heong Nguyen Phi Dieu Huyen Nguyen Huu Quang Nguyen Viet Minh Matt. B Thomas 《Ecosystems》2006,9(4):538-549
Declining biodiversity in agro-ecosystems, caused by intensification of production or expansion of monocultures, is associated
with the emergence of agricultural pests. Understanding how land-use and management control crop-associated biodiversity is,
therefore, one of the key steps towards the prediction and maintenance of natural pest-control. Here we report on relationships
between land-use variables and arthropod community attributes (for example, species diversity, abundance and guild structure)
across a diversification gradient in a rice-dominated landscape in the Mekong delta, Vietnam. We show that rice habitats contained
the most diverse arthropod communities, compared with other uncultivated and cultivated land-use types. In addition, arthropod
species density and Simpson’s diversity in flower, vegetable and fruit habitats was positively related to rice cover in the
local landscape. However, across the landscape as a whole, reduction in heterogeneity and the amount of uncultivated cover
was associated, generally, with a loss of diversity. Furthermore, arthropod species density in tillering and flowering stages
of rice was positively related to crop and vegetation richness, respectively, in the local landscape. Differential effects
on feeding guilds were also observed in rice-associated communities with the proportional abundance of predators increasing
and the proportional abundance of detritivores decreasing with increased landscape rice cover. Thus, we identify a range of
rather complex, sometimes contradictory patterns concerning the impact of rice cover and landscape heterogeneity on arthropod
community attributes. Importantly, we conclude that that land-use change associated with expansion of monoculture rice need
not automatically impact diversity and functioning of the arthropod community. 相似文献
976.
New quantitative trait loci that regulate wound healing in an intercross progeny from DBA/1J and 129×1/SvJ inbred strains of mice 总被引:1,自引:0,他引:1
Masinde GL Li R Nguyen B Yu H Srivastava AK Edderkaoui B Wergedal JE Baylink DJ Mohan S 《Functional & integrative genomics》2006,6(2):157-163
Wound healing/regeneration mouse models are few, and studies performed have mainly utilized crosses between MRL/MPJ (a good
healer) and SJL/J (a poor healer) or MRL/lpr (a good healer) and C57BL/6J (a poor healer). Wound healing is a complex trait
with many genes involved in the expression of the phenotype. Based on data from previous studies that common and additional
quantitative trait loci (QTL) were identified using different crosses of inbred strains of mice for various complex traits,
we hypothesized that a new cross would identify common and additional QTL, unique modes of inheritance, and interacting loci,
which are responsible for variation in susceptibility to fast wound healing. In this study, we crossed DBA/1J (DBA, a good
healer) and 129/SvJ (129, a poor healer) and performed a genome-wide scan using 492 (DBA×129) F2 mice and 98 markers to identify
QTL that regulate wound healing/regeneration. Four QTL on chromosomes 1, 4, 12, and 18 were identified which contributed toward
wound healing in F2 mice and accounted for 17.1% of the phenotypic variation in ear punch healing. Surprisingly, locus interactions
contributed to 55.7% of the phenotype variation in ear punch healing. In conclusion, we have identified novel QTL and shown
that minor interacting loci contribute significantly to wound healing in DBA×129 mice cross.
The authors Masinde, Li, and Nguyen contributed equally to this article. 相似文献
977.
Suryawan A Escobar J Frank JW Nguyen HV Davis TA 《American journal of physiology. Endocrinology and metabolism》2006,291(4):E849-E859
The rapid growth of neonates is driven by high rates of skeletal muscle protein synthesis. This high rate of protein synthesis, which is induced by feeding, declines with development. Overnight-fasted 7- and 26-day-old pigs either remained fasted or were refed, and the abundance and phosphorylation of growth factor- and nutrient-induced signaling components that regulate mRNA translation initiation were measured in skeletal muscle and liver. In muscle, but not liver, the activation of inhibitors of protein synthesis, phosphatase and tensin homolog deleted on chromosome 10, protein phosphatase 2A, and tuberous sclerosis complex 1/2 increased with age. Serine/threonine phosphorylation of the insulin receptor and insulin receptor substrate-1, which downregulates insulin signaling, and the activation of AMP-activated protein kinase, an inhibitor of protein synthesis, were unaffected by age and feeding in muscle and liver. Activation of positive regulators of protein synthesis, mammalian target of rapamycin (mTOR), ribosomal protein S6 kinase 1 (S6K1), and eIF4E-binding protein-1 (4E-BP1) decreased with age in muscle but not liver. Feeding enhanced mTOR, S6K1, and 4E-BP1 activation in muscle, and this response decreased with age. In liver, activation of S6K1 and 4E-BP1, but not mTOR, was increased by feeding but was unaffected by age. Raptor abundance and the association between raptor and mTOR were greater in 7- than in 26-day-old pigs. The results suggest that the developmental decline in skeletal muscle protein synthesis is due in part to developmental regulation of the activation of growth factor and nutrient-signaling components. 相似文献
978.
979.
Cao L Kim S Xiao C Wang RH Coumoul X Wang X Li WM Xu XL De Soto JA Takai H Mai S Elledge SJ Motoyama N Deng CX 《The EMBO journal》2006,25(10):2167-2177
BRCA1 is a checkpoint and DNA damage repair gene that secures genome integrity. We have previously shown that mice lacking full-length Brca1 (Brca1(delta11/delta11)) die during embryonic development. Haploid loss of p53 completely rescues embryonic lethality, and adult Brca1(delta11/delta11)p53+/- mice display cancer susceptibility and premature aging. Here, we show that reduced expression and/or the absence of Chk2 allow Brca1(delta11/delta11) mice to escape from embryonic lethality. Compared to Brca1(delta11/delta11)p53+/- mice, lifespan of Brca1(delta11/delta11)Chk2-/- mice was remarkably extended. Analysis of Brca1(delta11/delta11)Chk2-/- mice revealed that p53-dependent apoptosis and growth defect caused by Brca1 deficiency are significantly attenuated in rapidly proliferating organs. However, in later life, Brca1(delta11/delta11)Chk2-/- female mice developed multiple tumors. Furthermore, haploid loss of ATM also rescued Brca1 deficiency-associated embryonic lethality and premature aging. Thus, in response to Brca1 deficiency, the activation of the ATM-Chk2-p53 signaling pathway contributes to the suppression of neoplastic transformation, while leading to compromised organismal homeostasis. Our data highlight how accurate maintenance of genomic integrity is critical for the suppression of both aging and malignancy, and provide a further link between aging and cancer. 相似文献
980.
Katayama Y Tran VK Hoan NT Zhang Z Goji K Yagi M Takeshima Y Saiki K Nhan NT Matsuo M 《Human genetics》2006,119(5):516-519
Duchenne muscular dystrophy (DMD) is an X-linked recessive disorder. Here, we report a novel mechanism for the occurrence of DMD in females. In a Vietnamese DMD girl, conventional PCR amplification analysis disclosed a deletion of exons 12–19 of the dystrophin gene on Xp21.2, with a karyotype of 46, XY. Furthermore, a novel mutation in the androgen-receptor gene on Xq11.2-q12 was identified in this girl, which led to male pseudohermaphroditism. Co-occurrence of mutations of these two genes constitutes a novel mechanism underlying female DMD. 相似文献