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91.
Adaptor protein (AP) complexes function in the intracellular sorting and vesicular transport of membrane proteins. The clathrin-associated AP-1 complex functions at the trans-Golgi network and endosomes, and some forms of this complex are thought to mediate the sorting of proteins in plasma membranes of polarized epithelial cells. A null mutation of the mouse Ap1g1 gene, which encodes the gamma-1 subunit of the AP-1 complex, causes embryonic lethality when homozygous, indicating its critical importance in early development but precluding studies of its possible roles during later stages. Here, we describe our analyses of a new spontaneous mutation of Ap1g1 named “figure eight” (symbol fgt) and show that it is an in-frame deletion of 6 bp, which results in the elimination of two amino acids of the encoded protein. In contrast to Ap1g1 ?/? null mice, mice homozygous for the recessive fgt mutation are viable with adult survival similar to controls. Although Ap1g1 is ubiquitously expressed, the phenotype of Ap1g1 fgt mutant mice is primarily restricted to abnormalities in sensory epithelial cells of the inner ear, pigmented epithelial cells of the retina, follicular epithelial cells of the thyroid gland, and the germinal epithelium of the testis, suggesting that impaired AP-1 sorting and targeting of membrane proteins in these polarized cells may underlie the observed pathologies. Ap1g1 fgt mutant mice provide a new animal model to study the in vivo roles of gamma-1 adaptin and the AP-1 complex throughout development and to investigate factors that underlie its associated phenotypic abnormalities. 相似文献
92.
Neuropeptide Y (NPY) in cerebrospinal fluid from patients with Huntington's Disease: increased NPY levels and differential degradation of the NPY1–30 fragment 下载免费PDF全文
93.
Gao S Chen J Brodsky SV Huang H Adler S Lee JH Dhadwal N Cohen-Gould L Gross SS Goligorsky MS 《The Journal of biological chemistry》2004,279(16):15968-15974
Despite growing evidence for a mitochondrial localization of nitric oxide (NO) synthase and a broadening spectrum of NO actions on mitochondrial respiration and apoptosis, the basis for interaction between the enzyme and the organelle remain obscure. Here we investigated mitochondrial localization of endothelial nitric oxide synthase (eNOS) in human umbilical vein endothelial cells and human embryonic kidney cells transfected or infected with eNOS expression vectors. Copurification of eNOS with mitochondria was observed in both human umbilical vein endothelial cells and eNOS-expressing human embryonic kidney cells. Immunodetectable eNOS was cleaved from mitochondria by proteinase K treatment, suggesting eNOS association with the outer mitochondrial membrane. Localization of eNOS to a proteinase K-cleavable site on the cytoplasmic face of the outer membrane was confirmed by immunogold labeling of non-permeabilized mitochondria. Markers for mitochondrial subfractions ruled out the possibility of eNOS association with an intramitochondrial site or inverted mitochondrial particles. Denaturation of eNOS did not attenuate association with mitochondria. Mutant eNOS lacking a pentabasic amino acid sequence within the autoinhibitory domain (residues 628-632 of the bovine eNOS) showed dramatically reduced binding to the mitochondrial but not to the plasma membrane, which was associated with increased oxygen consumption. Collectively, these findings argue in favor of eNOS localization to the outer mitochondrial membrane in endothelial cells and identify elements of a novel anchoring mechanism. 相似文献
94.
Theresa Dutschei Irena Beidler Daniel Bartosik Julia-Maria Seeßelberg Michelle Teune Marcus Bäumgen Soraia Querido Ferreira Julia Heldmann Felix Nagel Joris Krull Leona Berndt Karen Methling Martin Hein Dörte Becher Peter Langer Mihaela Delcea Michael Lalk Michael Lammers Matthias Höhne Jan-Hendrik Hehemann Thomas Schweder Uwe T. Bornscheuer 《Environmental microbiology》2023,25(9):1713-1727
Marine Bacteroidetes that degrade polysaccharides contribute to carbon cycling in the ocean. Organic matter, including glycans from terrestrial plants, might enter the oceans through rivers. Whether marine bacteria degrade structurally related glycans from diverse sources including terrestrial plants and marine algae was previously unknown. We show that the marine bacterium Flavimarina sp. Hel_I_48 encodes two polysaccharide utilization loci (PULs) which degrade xylans from terrestrial plants and marine algae. Biochemical experiments revealed activity and specificity of the encoded xylanases and associated enzymes of these PULs. Proteomics indicated that these genomic regions respond to glucuronoxylans and arabinoxylans. Substrate specificities of key enzymes suggest dedicated metabolic pathways for xylan utilization. Some of the xylanases were active on different xylans with the conserved β-1,4-linked xylose main chain. Enzyme activity was consistent with growth curves showing Flavimarina sp. Hel_I_48 uses structurally different xylans. The observed abundance of related xylan-degrading enzyme repertoires in genomes of other marine Bacteroidetes indicates similar activities are common in the ocean. The here presented data show that certain marine bacteria are genetically and biochemically variable enough to access parts of structurally diverse xylans from terrestrial plants as well as from marine algal sources. 相似文献
95.
Data on the frequency of aneuploidy in farm animals are lacking and there is the need for a reliable technique which is capable of detecting all chromosomes simultaneously in a single cell. With the employment of comparative genomic hybridization coupled with the whole genome amplification technique, this study brings new information regarding the aneuploidy of individual chromosomes in pigs. Focus is directed on in vivo porcine blastocysts and late morulas, 4.7% of which were found to carry chromosomal abnormality. Further, ploidy abnormalities were examined using FISH in a sample of porcine embryos. True polyploidy was relatively rare (1.6%), whilst mixoploidy was presented in 46.8% of embryos, however it was restricted to only a small number of cells per embryo. The combined data indicates that aneuploidy is not a prevalent cause of embryo mortality in pigs. 相似文献
96.
HS Chong L Campbell MP Padula C Hill E Harry SS Li MR Wilkins B Herbert D Carter 《PloS one》2012,7(8):e42835
Cryptococcus gattii is an encapsulated fungus capable of causing fatal disease in immunocompetent humans and animals. As current antifungal therapies are few and limited in efficacy, and resistance is an emerging issue, the development of new treatment strategies is urgently required. The current study undertook a time-course analysis of the proteome of C. gattii during treatment with fluconazole (FLC), which is used widely in prophylactic and maintenance therapies. The aims were to analyze the overall cellular response to FLC, and to find fungal proteins involved in this response that might be useful targets in therapies that augment the antifungal activity of FLC. During FLC treatment, an increase in stress response, ATP synthesis and mitochondrial respiratory chain proteins, and a decrease in most ribosomal proteins was observed, suggesting that ATP-dependent efflux pumps had been initiated for survival and that the maintenance of ribosome synthesis was differentially expressed. Two proteins involved in fungal specific pathways were responsive to FLC. An integrative network analysis revealed co-ordinated processes involved in drug response, and highlighted hubs in the network representing essential proteins that are required for cell viability. This work demonstrates the dynamic cellular response of a typical susceptible isolate of C. gattii to FLC, and identified a number of proteins and pathways that could be targeted to augment the activity of FLC. 相似文献
97.
Michael D. Wyatt James M. Allan Albert Y. Lau Tom E. Ellenberger Leona D. Samson 《BioEssays : news and reviews in molecular, cellular and developmental biology》1999,21(8):668-676
The genome continuously suffers damage due to its reactivity with chemical and physical agents. Finding such damage in genomes (that can be several million to several billion nucleotide base pairs in size) is a seemingly daunting task. 3-Methyladenine DNA glycosylases can initiate the base excision repair (BER) of an extraordinarily wide range of substrate bases. The advantage of such broad substrate recognition is that these enzymes provide resistance to a wide variety of DNA damaging agents; however, under certain circumstances, the eclectic nature of these enzymes can confer some biological disadvantages. Solving the X-ray crystal structures of two 3-methyladenine DNA glycosylases, and creating cells and animals altered for this activity, contributes to our understanding of their enzyme mechanism and how such enzymes influence the biological response of organisms to several different types of DNA damage. BioEssays 21:668–676, 1999. © 1999 John Wiley & Sons, Inc. 相似文献
98.
Olga V. Glinskii Virginia H. Huxley Vladimir V. Glinskii Leona J. Rubin Vladislav V. Glinsky 《PloS one》2013,8(12)
In postmenopausal women, estrogen (E2) deficiencies are frequently associated with higher risk of intracranial hemorrhage, increased incidence of stroke, cerebral aneurysm, and decline in cognitive abilities. In younger postpartum women and those using oral contraceptives, perturbations in E2 are associated with higher risk of cerebral venous thrombosis. A number of serious intracranial pathologic conditions linked to E2 deficiencies, such as dural sinus thrombosis, dural fistulae, non-parenchymal intracranial hemorrhages, migraines, and spontaneous cerebrospinal fluid leaks, involve the vessels not of the brain itself, but of the outer fibrous membrane of the brain, the dura mater (DM). The pathogenesis of these disorders remains mysterious and how estrogen regulates structural and functional integrity of DM vasculature is largely unknown. Here, we demonstrate that post ovariectomy (OVX) DM vascular remodeling is manifested by microvessel destabilization, capillary rarefaction, increased vascular permeability, and aberrant angio-architecture, and is the result of disrupted E2-regulated PDGF-BB signaling within dura microvasculature. These changes, associated with the reduction in systemic PDGF-BB levels, are not corrected by a flat-dose E2 hormone replacement therapy (HRT), but are largely prevented using HRT schedules mimicking physiological E2 fluctuations. We demonstrate that 1) E2 regulates PDGF-BB production by endothelial cells in a dose-dependent manner and 2) optimization of PDGF-BB levels and induction of robust PDGF-mediated endothelial cell-vascular pericyte interactions require high (estrous) E2 concentrations. We conclude that high (estrous) levels of E2 are important in controlling PDGF-mediated crosstalk between endothelial cells and pericytes, a fundamental mechanism governing microvessel stability and essential for preserving intracranial homeostasis. 相似文献
99.
DNA bases carrying an exocyclic amino group, namely adenine (A), guanine (G) and cytosine (C), encounter deamination under nitrosative stress. Oxanine (O), derived from deamination of guanine, is a cytotoxic and potentially mutagenic lesion and studies of its enzymatic repair are limited. Previously, we reported that the murine alkyladenine glycosylase (Aag) acts as an oxanine DNA glycosylase (JBC (2004), 279: 38177). Here, we report our recent findings on additional oxanine DNA glycosylase (ODG) activities in Aag knockout mouse tissues and other mammalian tissues. Analysis of the partially purified proteins from the mammalian cell extracts indicated the existence of ODG enzymes in addition to Aag. Data obtained from oxanine DNA cleavage assays using purified human glycosylases demonstrated that two known glycosylases, hNEIL1 and hSMUG1, contained weak but detectable ODG activities. ODG activity was the highest in hAAG and lowest in hSMUG1. 相似文献
100.
Singh J Chuaqui CE Boriack-Sjodin PA Lee WC Pontz T Corbley MJ Cheung HK Arduini RM Mead JN Newman MN Papadatos JL Bowes S Josiah S Ling LE 《Bioorganic & medicinal chemistry letters》2003,13(24):4355-4359
We describe the discovery, using shape-based virtual screening, of a potent, ATP site-directed inhibitor of the TβRI kinase, an important and novel drug target for fibrosis and cancer. The first detailed report of a TβRI kinase small molecule co-complex confirms the predicted binding interactions of our small molecule inhibitor, which stabilizes the inactive kinase conformation. Our results validate shape-based screening as a powerful tool to discover useful leads against a new drug target. 相似文献