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21.
CO2 limitation induces specific redox-dependent protein phosphorylation in Chlamydomonas reinhardtii
Acclimation of the green alga Chlamydomonas reinhardtii to limiting environmental CO2 induced specific protein phosphorylation at the surface of photosynthetic thylakoid membranes. Four phosphopeptides were identified and sequenced by nanospray quadrupole TOF MS from the cells acclimating to limiting CO2. One phosphopeptide originated from a protein that has not been annotated. We found that this unknown expressed protein (UEP) was encoded in the genome of C. reinhardtii. Three other phosphorylated peptides belonged to Lci5 protein encoded by the low-CO2-inducible gene 5 (lci5). The phosphorylation sites were mapped in the tandem repeats of Lci5 ensuring phosphorylation of four serine and three threonine residues in the protein. Immunoblotting with Lci5-specific antibodies revealed that Lci5 was localized in chloroplast and confined to the stromal side of the thylakoid membranes. Phosphorylation of Lci5 and UEP occurred strictly at limiting CO2; it required reduction of electron carriers in the thylakoid membrane, but was not induced by light. Both proteins were phosphorylated in the low-CO2-exposed algal mutant deficient in the light-activated protein kinase Stt7. Phosphorylation of previously unknown basic proteins UEP and Lci5 by specific redox-dependent protein kinase(s) in the photosynthetic membranes reveals the early response of green algae to limitation in the environmental inorganic carbon. 相似文献
22.
Vainonen Yu. P. Kurilova S. A. Avaeva S. M. 《Russian Journal of Bioorganic Chemistry》2002,28(5):385-391
The conditions were found for obtaining trimeric, dimeric, and monomeric forms of the Escherichia coli inorganic pyrophosphatase from its native hexameric form. Interconversions of the oligomers were studied, and rate constants for their dissociation and association were determined. All forms were found to be catalytically active, with the activity decreasing in the following order: hexamer–trimer–dimer–monomer. The activity of trimeric and dimeric forms was high enough to study and to compare their catalytic properties. The monomeric form of the enzyme was unstable. 相似文献
23.
Vainonen JP Aboulaich N Turkina MV Strålfors P Vener AV 《Biochemical and biophysical research communications》2004,320(2):480-486
Caveolin, the principal structural protein of caveolae membrane domains, has a cytosol-exposed N-terminal part that was cleaved off by trypsin treatment of caveolae vesicles isolated from primary human adipocytes. Sequencing of the released tryptic peptides by nanospray quadrupole time-of-flight mass spectrometry revealed that both caveolin-1alpha and caveolin-1beta were processed by excision of the starting methionines. The N-terminus of the mature caveolin-1alpha was acetylated, while caveolin-1beta was found in acetylated as well as in non-acetylated forms. Fractional phosphorylation of serine-36 in the mature caveolin-1alpha and of the homologous serine-5 in caveolin-1beta was identified. This is the first experimental evidence for in vivo phosphorylation of caveolin-1 at the consensus site for phosphorylation by protein kinase C. The phosphorylation was found in both the acetylated and non-acetylated variants of caveolin-1beta. This variability in modifications is consistent with critical involvement of the N-terminal domain of caveolin in the regulation of caveolae. 相似文献
24.
Nicole YP Souren Pavlo Lutsik Gilles Gasparoni Sascha Tierling Jasmin Gries Matthias Riemenschneider Jean-Pierre Fryns Catherine Derom Maurice P Zeegers J?rn Walter 《Genome biology》2013,14(5):R44
Background
Low birth weight is associated with an increased adult metabolic disease risk. It is widely discussed that poor intra-uterine conditions could induce long-lasting epigenetic modifications, leading to systemic changes in regulation of metabolic genes. To address this, we acquire genome-wide DNA methylation profiles from saliva DNA in a unique cohort of 17 monozygotic monochorionic female twins very discordant for birth weight. We examine if adverse prenatal growth conditions experienced by the smaller co-twins lead to long-lasting DNA methylation changes.Results
Overall, co-twins show very similar genome-wide DNA methylation profiles. Since observed differences are almost exclusively caused by variable cellular composition, an original marker-based adjustment strategy was developed to eliminate such variation at affected CpGs. Among adjusted and unchanged CpGs 3,153 are differentially methylated between the heavy and light co-twins at nominal significance, of which 45 show sensible absolute mean β-value differences. Deep bisulfite sequencing of eight such loci reveals that differences remain in the range of technical variation, arguing against a reproducible biological effect. Analysis of methylation in repetitive elements using methylation-dependent primer extension assays also indicates no significant intra-pair differences.Conclusions
Severe intra-uterine growth differences observed within these monozygotic twins are not associated with long-lasting DNA methylation differences in cells composing saliva, detectable with up-to-date technologies. Additionally, our results indicate that uneven cell type composition can lead to spurious results and should be addressed in epigenomic studies. 相似文献25.
Rodina E Vorobieva N Kurilova S Mikulovich J Vainonen J Aro EM Nazarova T 《Biochimie》2011,93(9):1576-1583
Inorganic pyrophosphatase (PPase) is a conserved and essential enzyme catalyzing the hydrolysis of pyrophosphate PPi. Its activity is required to promote a lot of thermodynamically unfavorable reactions including biosynthesis of activated precursors of sugars and amino acids. Several protein partners of PPase were found so far in Escherichia coli by large-scale approaches. Functional role of these interactions was not studied. In this paper we report the identification of three protein partners of E. coli PPase not found earlier. Pull-down assay on the Ni2+-chelating column using 6His-tagged PPase as bait was used to isolate PPase complexes from stationary-phase cells. Of several isolated protein components, five were identified by MALDI-TOF mass-spectrometry: two chaperones (DnaK and GroEL) and three enzymes of carbohydrate and amino acid metabolism (FbaB, fructose-1,6-bisphosphate aldolase, class I; GadA, l-glutamate decarboxylase; and KduI, 5-keto-4-deoxyuronate isomerase). These three proteins were cloned, expressed and purified in 6His-tagged and/or tag-free forms. Their binary interactions with PPase were verified by independent approaches. Initial characterization of the complexes indicates that PPase may stabilize its protein partners against unfolding or degradation. Comparative analysis of the PPase protein partners allowed an insight into its possible involvement in the cell metabolic regulation. 相似文献
26.
This study aims to obtain osmosis-induced swelling strains of normal and proteoglycan (PG) depleted articular cartilage using an ultrasound system and to investigate the changes in its mechanical properties due to the PG depletion using a layered triphasic model. The swelling strains of 20 cylindrical cartilage-bone samples collected from different bovine patellae were induced by decreasing the concentration of bath saline and monitored by the ultrasound system. The samples were subsequently digested by a trypsin solution for approximately 20 min to deplete proteoglycans, and the swelling behaviors of the digested samples were measured again. The bi-layered triphasic model proposed in our previous study (Wang et al., J Biomech Eng-Trans ASME 2007; 129: 413-422) was used to predict the layered aggregate modulus Hafrom the data of depth-dependent swelling strain, fixed charge density and water content. It was found that the region near the bone, for the normal specimens, had a significantly higher aggregate modulus (Ha1= 20.6±18.2 MPa) in comparison with the middle zone and the surface layer (Ha2= 7.8±14.5 MPa and Ha3= 3.6±3.2 MPa, respectively) (p < 0.001). The normalized thickness of the deep layer h1 was 0.68±0.20. After the trypsin digestion, the parametric values decreased to Ha1 = 13.6±9.6 MPa, Ha2 = 6.7±11.5 MPa, Ha3 = 2.7±3.2 MPa, and h1 = 0.57±0.28. Other models were also used to analyze data and the results were compared. This study showed that high-frequency ultrasound measurement combined with the triphasic modeling was capable of nondestructively quantifying the alterations in the layered mechanical properties of the proteoglycan-depleted articular cartilage. 相似文献