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111.
Flow-dependent regulation of angiopoietin-2 总被引:1,自引:0,他引:1
112.
Peptide specificity and lipid activation of the lysosomal transport complex ABCB9 (TAPL) 总被引:1,自引:0,他引:1
The lysosomal ABC transporter associated with antigen processing-like (TAPL, ABCB9) acts as an ATP-dependent polypeptide transporter with broad length selectivity. To characterize in detail its substrate specificity, a procedure for functional reconstitution of human TAPL was developed. By intensive screening of detergents, ideal solubilization conditions were evolved with respect to efficiency, long term stability, and functionality of TAPL. TAPL was isolated in a two-step procedure with high purity and, subsequently, reconstituted into proteoliposomes. The peptide transport activity of reconstituted TAPL strongly depends on the lipid composition. With the help of combinatorial peptide libraries, the key positions of the peptides were localized to the N- and C-terminal residues with respect to peptide transport. At both ends, TAPL favors positively charged, aromatic, or hydrophobic residues and disfavors negatively charged residues as well as asparagine and methionine. Besides specific interactions of both terminal residues, electrostatic interactions are important, since peptides with positive net charge are more efficiently transported than negatively charged ones. 相似文献
113.
Comparative analysis of meiotic progression in female mice bearing mutations in genes of the DNA mismatch repair pathway 总被引:1,自引:0,他引:1
Kan R Sun X Kolas NK Avdievich E Kneitz B Edelmann W Cohen PE 《Biology of reproduction》2008,78(3):462-471
The DNA mismatch repair (MMR) family functions in a variety of contexts to preserve genome integrity in most eukaryotes. In particular, members of the MMR family are involved in the process of meiotic recombination in germ cells. MMR gene mutations in mice result in meiotic disruption during prophase I, but the extent of this disruption often differs between male and female meiocytes. To address the role of MMR proteins specifically in female meiosis, we explored the progression of oocytes through prophase I and the meiotic divisions in mice harboring deletions in members of the MMR pathway (Mlh1, Mlh3, Exo1, and an ATPase-deficient variant of Mlh1, Mlh1(G67R)). The colocalization of MLH1 and MLH3, key proteins involved in stabilization of nascent crossovers, was dependent on intact heterodimer formation and was highly correlated with the ability of oocytes to progress through to metaphase II. The exception was Exo1(-/-) oocytes, in which normal MLH1/MLH3 localization was observed followed by failure to proceed to metaphase II. All mutant oocytes were able to resume meiosis after dictyate arrest, but they showed a dramatic decline in chiasmata (to less than 25% of normal), accompanied by varied progression through metaphase I. Taken together, these results demonstrate that MMR function is required for the formation and stabilization of crossovers in mammalian oocytes and that, in the absence of a functional MMR system, the failure to maintain chiasmata results in a reduced ability to proceed normally through the first and second meiotic divisions, despite near-normal levels of meiotic resumption after dictyate arrest. 相似文献
114.
Lörinczi E Tsivkovskii R Haase W Bamberg E Lutsenko S Friedrich T 《Biochimica et biophysica acta》2008,1778(4):896-906
Cu-transporting ATPase ATP7B (Wilson disease protein) is essential for the maintenance of intracellular copper concentration. In hepatocytes, ATP7B is required for copper excretion, which is thought to occur via a transient delivery of the ATP7B- and copper-containing vesicles to the apical membrane. The currently available experimental systems do not allow analysis of ATP7B at the cell surface. Using epitope insertion, we identified an extracellular loop into which the HA-epitope can be introduced without inhibiting ATP7B activity. The HA-tagged ATP7B was expressed in Xenopus oocytes and the presence of ATP7B at the plasma membrane was demonstrated by electron microscopy, freeze-fracture experiments, and surface luminescence measurements in intact cells. Neither the deletion of the entire N-terminal copper-binding domain nor the inactivating mutation of catalytic Asp1027 affected delivery to the plasma membrane of oocytes. In contrast, surface targeting was decreased for the ATP7B variants with mutations in the ATP-binding site or the intra-membrane copper-binding site, suggesting that ligand-stabilized conformation(s) are important for ATP7B trafficking. The developed system provides significant advantages for studies that require access to both sides of ATP7B in the membrane. 相似文献
115.
Andreas Buthe Alice Kapitain Winfried Hartmeier Marion B. Ansorge-Schumacher 《Journal of Molecular Catalysis .B, Enzymatic》2005,35(4-6):93-99
Because of the broad versatility of lipases as biocatalysts, interest has for some years been focused on the improvement of the economy of processes using these enzymes, especially by appropriate immobilisation. In this study, a method was developed to emulsify aqueous solutions of lipase A of Candida antarctica (CALA) and lipase of Thermomyces lanuginosa (TLL) in silicone elastomers yielding elastic beads. The persistent water-organic interface created by this static emulsion enabled an improved performance of the immobilised lipases due to the well known fact that from a kinetic point of view these enzymes show a higher efficiency in biphasic than in monophasic systems. The entrapped lipases catalysed the esterification of octanol and caprylic acid in hexane with an activity that, related to the free enzyme, was enhanced about 31-fold for CALA and 250-fold for TLL. Comparison to the activity of the same enzymes in sol–gels revealed that for CALA immobilisation in static emulsion was the only method yielding active biocatalysts, whereas activation of TLL was in the same range in static emulsion and sol–gels. However, apparent activity of TLL in static emulsion was considerably higher than in sol–gels due to the feasible high enzyme loading. The results indicate that immobilising lipases as static emulsion is a technique suitable for biotechnological application. Moreover, a transfer to enzymes of other classes seems possible. 相似文献
116.
Andreas Buthe Tobias Recker Matthias Heinemann Winfried Hartmeier Jochen Bü chs Marion B. Ansorge-Schumacher 《Biocatalysis and Biotransformation》2005,23(5):307-314
Though lipases are frequently applied in ester synthesis, fundamental information on optimal pH or substrate concentration, can almost only be found for the reverse reaction - hydrolysis. This study demonstrates that the pH-optima of lipase-catalysed esterifications differ significantly from the optima of the hydrolysis reaction. In the esterification of n-butanol and propionic acid with lipases of Candida rugosa (CRL) and Thermomyces lanuginosa (TLL) pH-optima of 3.5 and 4.25, respectively, were found. This is about 3-4 units (CRL) and 7 units (TLL) in pH lower than optimum for hydrolysis. Enzyme activity increased with increasing concentrations of protonated acid indicating that the protonated acid rather than the deprotonated form is substrate for esterification. The rate of esterification can be drastically increased by ensuring acid concentrations up to 1000 mmol L-1 for CRL and 600 mmol L-1 for TLL in the reaction system. 相似文献
117.
118.
We analyzed HeLa nuclear proteins binding to the (gaa)n harbouring intron 1 of nine frataxin alleles and characterized the structures of the repeats. Fragments with blocks longer than (gaa)9 form spontaneously different intramolecular H-y topoisomeres in linear state. The observed triplexes depend on the length of the repeat. Interruption of the perfectly repeated (gaa)n block entails two structural regions. At least two HeLa nuclear proteins bind to the (gaa)n fragments resulting in a distinct major retarded complex as revealed by EMSA. One of these proteins is zinc dependent. Importantly, the fragment harbouring (gan)121 binds additional proteins. Protein binding appears to be locus specific, and the binding affinity was found to be not random. The affinities of the different target fragments varied by a factor of four. Binding affinities of the fragments were not obviously correlated to differences in the composition of the repeats. DNase I footprinting revealed only weakly protected binding regions, but multiple HS sites in the repeat regions of the fragments. These findings and the fact, that DNA conformers observed in EMSA and electron microscopical experiments bind proteins, lead to the assumption that the proteins recognize, both, B-DNA and triple helical structures, but with different affinity. Possible functions of the proteins are discussed in the context of transformation of triple helical structures into B-DNA and the pathogenesis of FRDA. 相似文献
119.
120.