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排序方式: 共有280条查询结果,搜索用时 15 毫秒
61.
Yu LR Zhu Z Chan KC Issaq HJ Dimitrov DS Veenstra TD 《Journal of proteome research》2007,6(11):4150-4162
Enrichment is essential for phosphoproteome analysis because phosphorylated proteins are usually present in cells in low abundance. Recently, titanium dioxide (TiO2) has been demonstrated to enrich phosphopeptides from simple peptide mixtures with high specificity; however, the technology has not been optimized. In the present study, significant non-specific bindings were observed when proteome samples were applied to TiO2 columns. Column wash with an NH4Glu solution after loading peptide mixtures significantly increased the efficiency of TiO2 phosphopeptide enrichment with a recovery of up to 84%. Also, for proteome samples, more than a 2-fold increase in unique phosphopeptide identifications has been achieved. The use of NH4Glu for a TiO2 column wash does not significantly reduce the phosphopeptide recovery. A total of 858 phosphopeptides corresponding to 1034 distinct phosphosites has been identified from HeLa cells using the improved TiO2 enrichment procedure in combination with data-dependent neutral loss nano-RPLC-MS2-MS3 analysis. While 41 and 35% of the phosphopeptides were identified only by MS2 and MS3, respectively, 24% was identified by both MS2 and MS3. Cross-validation of the phosphopeptide assignment by MS2 and MS3 scans resulted in the highest confidence in identification (99.5%). Many phosphosites identified in this study appear to be novel, including sites from antigen Ki-67, nucleolar phosphoprotein p130, and Treacle protein. The study also indicates that evaluation of confidence levels for phosphopeptide identification via the reversed sequence database searching strategy might underestimate the false positive rate. 相似文献
62.
W. Veenstra J. op den Buijs S. Pauws M. Westerterp M. Nagelsmit 《Netherlands heart journal》2015,23(6):334-340
Background
Our hypothesis was that telehealth in combination with an optimised care program coordinated amongst care professionals in primary, secondary and tertiary care can achieve beneficial outcomes in heart failure. The objective was to evaluate the clinical effects of introduction of telehealth in an optimised care program in a community hospital in the north of the Netherlands.Methods
We compared the number of unplanned admissions for heart failure in the year before and after adding telehealth to the optimised care program. Furthermore, blood pressure and N-terminal pro-B-type natriuretic peptide (NT-proBNP) levels were evaluated at baseline and 3, 6 and 12 months after telehealth. Quality of life and knowledge about the disease were regularly evaluated via surveys on the telehealth system.Findings
The number of unplanned admissions for heart failure decreased from on average 1.29 to 0.31 admissions per year after telehealth introduction. Blood pressure decreased independent of medication and NT-proBNP levels improved as well. Quality of life increased during the telehealth intervention and disease knowledge remained high throughout the follow-up period. Unplanned admissions that remained after telehealth introduction could be accurately predicted at baseline by a multivariate regression model. 相似文献63.
64.
Mitochondrial degeneration and not apoptosis is the primary cause of embryonic lethality in ceramide transfer protein mutant mice 总被引:3,自引:0,他引:3
Xin Wang Raghavendra Pralhada Rao Teresa Kosakowska-Cholody M. Athar Masood Eileen Southon Helin Zhang Cyril Berthet Kunio Nagashim Timothy K. Veenstra Lino Tessarollo Usha Acharya Jairaj K. Acharya 《The Journal of cell biology》2009,184(1):143-158
Ceramide transfer protein (CERT) functions in the transfer of ceramide from the endoplasmic reticulum (ER) to the Golgi. In this study, we show that CERT is an essential gene for mouse development and embryonic survival and, quite strikingly, is critical for mitochondrial integrity. CERT mutant embryos accumulate ceramide in the ER but also mislocalize ceramide to the mitochondria, compromising their function. Cells in mutant embryos show abnormal dilation of the ER and degenerating mitochondria. These subcellular changes manifest as heart defects and cause severely compromised cardiac function and embryonic death around embryonic day 11.5. In spite of ceramide accumulation, CERT mutant mice do not die as a result of enhanced apoptosis. Instead, cell proliferation is impaired, and expression levels of cell cycle–associated proteins are altered. Individual cells survive, perhaps because cell survival mechanisms are activated. Thus, global compromise of ER and mitochondrial integrity caused by ceramide accumulation in CERT mutant mice primarily affects organogenesis rather than causing cell death via apoptotic pathways. 相似文献
65.
Rui Gong Bang K. Vu Yang Feng DaRue A. Prieto Marzena A. Dyba Joseph D. Walsh Ponraj Prabakaran Timothy D. Veenstra Sergey G. Tarasov Rieko Ishima Dimiter S. Dimitrov 《The Journal of biological chemistry》2009,284(21):14203-14210
The immunoglobulin (Ig) constant CH2 domain is critical for antibody
effector functions. Isolated CH2 domains are promising as scaffolds for
construction of libraries containing diverse binders that could also confer
some effector functions. However, previous work has shown that an isolated
murine CH2 domain is relatively unstable to thermally induced unfolding. To
explore unfolding mechanisms of isolated human CH2 and increase its stability
γ1 CH2 was cloned and a panel of cysteine mutants was constructed. Human
γ1 CH2 unfolded at a higher temperature (Tm = 54.1
°C, as measured by circular dichroism) than that previously reported for a
mouse CH2 (41 °C). One mutant (m01) was remarkably stable
(Tm = 73.8 °C). Similar results were obtained by
differential scanning calorimetry. This mutant was also significantly more
stable than the wild-type CH2 against urea induced unfolding (50% unfolding at
urea concentration of 6.8 m versus 4.2 m). The
m01 was highly soluble and monomeric. The existence of the second disulfide
bond in m01 and its correct position were demonstrated by mass spectrometry
and nuclear magnetic resonance spectroscopy, respectively. The loops were on
average more flexible than the framework in both CH2 and m01, and the overall
secondary structure was not affected by the additional disulfide bond. These
data suggest that a human CH2 domain is relatively stable to unfolding at
physiological temperature, and that both CH2 and the highly stable mutant m01
are promising new scaffolds for the development of therapeutics against human
diseases.Monoclonal antibodies
(mAbs)2 with high
affinity and specificity are now well established therapeutics and invaluable
tools for biological research. It appears that their use will continue to
expand in both targets and disease indications. However, a fundamental problem
for full-size mAbs that limits their applications is their poor penetration
into tissues (e.g. solid tumors) and poor or absent binding to
regions on the surface of some molecules (e.g. on the HIV envelope
glycoprotein) that are accessible by molecules of smaller size. Antibody
fragments, e.g. Fabs (∼60 kDa) or single chain Fv fragments
(scFvs) (20∼30 kDa), are significantly smaller than full-size antibodies
(∼150 kDa), and have been used as imaging reagents and candidate
therapeutics. Even smaller fragments of antibodies are of great interest and
advantageous for pharmaceutical applications including cancer targeting and
imaging.During the last decade a large amount of work has been aimed at developing
of small size binders with scaffolds based on various highly stable human and
non-human molecules
(1–8).
A promising direction is the development of binders based on the heavy or
light chain variable region of an antibody; these fragments ranging in size
from 11 kDa to 15 kDa were called “domain antibodies” or
“dAbs” (7,
9). A unique kind of antibodies
composed only of heavy chains are naturally formed in camels, dromedaries, and
llamas, and their variable regions can also recognize antigens as single
domain fragments (10). Not
only is the overall size of the dAbs much smaller than that of full-size
antibodies but also their paratopes are concentrated over a smaller area so
that the dAbs provide the capability of interacting with novel epitopes that
are inaccessible to conventional antibodies or antibody fragments with paired
light and heavy chain variable domains.The structure of the constant antibody domains is similar to that of the
variable domains consisting of β-strands connected mostly with loops or
short helices. The second domain of the α, δ, and γ heavy
chain constant regions, CH2, is unique in that it exhibits very weak
carbohydrate-mediated interchain protein-protein interactions in contrast to
the extensive interchain interactions that occur between the other domains.
The expression of murine CH2 in bacteria, which does not support
glycosylation, results in a monomeric domain
(11). It has been hypothesized
that the CH2 domain (CH2 of IgG, IgA, and IgD, and CH3 of IgE and IgM) could
be used as a scaffold and could offer additional advantages compared with
those of dAbs because it contains binding sites or portions of binding sites
conferring effector and stability functions
(12).It was found previously that an isolated murine CH2 is relatively unstable
at physiological temperature with a temperature of 50% unfolding
(Tm) slightly higher than 37 °C
(11). We have hypothesized
that human CH2 would exhibit different stability because of significant
differences in the sequence compared with its murine counterpart. Therefore,
we have extensively characterized the stability of an isolated unglycosylated
single CH2 domain. We found that its stability is significantly higher than
the previously reported for the murine CH2. We further increased the stability
of the human CH2 by engineering an additional disulfide bond between the A and
G strands. One of the newly developed mutants, denoted as m01, exhibited
significantly higher stability (Tm = 73.8 °C) than
that of wild type CH2. We suggest that both the wild type CH2 and the newly
developed mutant, m01, could be used as scaffolds for binders. These results
also demonstrate for the first time that the stability of constant antibody
domains can be dramatically increased by engineering of an additional
disulfide bond. The increase in stability of isolated domains may result in an
increase in stability of larger antibody fragments, e.g. Fc, and
therefore could have implications as a general method for increasing antibody
stability. Thus, it appears that further development of CH2 and its more
stable variants as scaffolds could provide new opportunities for
identification of potentially useful therapeutics. 相似文献
66.
67.
68.
Increased oxidation and degradation of cytosolic proteins in alcohol-exposed mouse liver and hepatoma cells 总被引:1,自引:0,他引:1
We recently developed a sensitive method using biotin-N-maleimide (biotin-NM) as a probe to positively identify oxidized mitochondrial proteins. In this study, biotin-NM was used to identify oxidized cytosolic proteins in alcohol-fed mouse livers. Alcohol treatment for 6 wk elevated the levels of CYP2E1 and nitrotyrosine, a marker of oxidative stress. Markedly increased levels of oxidized proteins were detected in alcohol-fed mouse livers compared to pair-fed controls. The biotin-NM-labeled oxidized proteins from alcohol-exposed mouse livers were subsequently purified with streptavidin-agarose and resolved on 2-DE. More than 90 silver-stained protein spots that displayed differential intensities on 2-D gels were identified by MS. Peptide sequence analysis revealed that many enzymes or proteins involved in stress response, chaperone activity, intermediary metabolism, and antioxidant defense systems such as peroxiredoxin were oxidized after alcohol treatment. Smaller fragments of many proteins were repeatedly detected only in alcohol-fed mice, indicating that many oxidized proteins after alcohol exposure were degraded. Immunoblot results showed that the level of oxidized peroxiredoxin (inactivated) was markedly increased in the alcohol-exposed mouse livers and ethanol-sensitive hepatoma cells compared to the corresponding controls. Our results may explain the underlying mechanism for cellular dysfunction and increased susceptibility to other toxic agents following alcohol-mediated oxidative stress. 相似文献
69.
Jan A. Veenstra 《Insect biochemistry and molecular biology》2009,39(3):161-170
Arthropods do not have one, but two genes encoding an allatostatin C-like peptide. The newly discovered paralog gene was called Ast-CC, and the peptide which it is predicted to make was called allatostatin double C (ASTCC). Genes for both allatostatin C (ASTC) and its paralog were found in the tick Ixodes scapularis as well as dipteran, lepidopteran, coleopteran, aphidoidean and phthirapteran insect species. In addition partial or complete cDNAs derived from Ast-CCs were found in a number of species, including Drosophila melanogaster, Bombyx mori and Rhodnius prolixus. The ASTCC precursors have a second conserved peptide sequence suggesting that they may produce two biologically active peptides. The predicted precursors encoded by the Ast-CCs have some unusual features, particularly in Drosophila, where they lack a signal peptide, and have instead a peptide anchor. These unusual structural features suggest that they are perhaps expressed by cells that are not specialized in neuropeptide synthesis and that in Drosophila ASTCC may be a juxtacrine. Data from the Fly Atlas project show that in Drosophila Ast-CC is little expressed. Nevertheless a P-element insertion in this gene is embryonic lethal, suggesting that it is an essential gene. Similarity between the precursors and receptors of ASTC/ASTCC and somatostatin suggests that ASTC/ASTCC and somatostatin have a common ancestor. 相似文献
70.