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21.
Jun-Lin Guan Anna Katharina Simon Mark Prescott Javier A. Menendez Fei Liu Fen Wang Chenran Wang Ernst Wolvetang Alejandro Vazquez-Martin Jue Zhang 《Autophagy》2013,9(6):830-849
Autophagy is a highly conserved cellular process by which cytoplasmic components are sequestered in autophagosomes and delivered to lysosomes for degradation. As a major intracellular degradation and recycling pathway, autophagy is crucial for maintaining cellular homeostasis as well as remodeling during normal development, and dysfunctions in autophagy have been associated with a variety of pathologies including cancer, inflammatory bowel disease and neurodegenerative disease. Stem cells are unique in their ability to self-renew and differentiate into various cells in the body, which are important in development, tissue renewal and a range of disease processes. Therefore, it is predicted that autophagy would be crucial for the quality control mechanisms and maintenance of cellular homeostasis in various stem cells given their relatively long life in the organisms. In contrast to the extensive body of knowledge available for somatic cells, the role of autophagy in the maintenance and function of stem cells is only beginning to be revealed as a result of recent studies. Here we provide a comprehensive review of the current understanding of the mechanisms and regulation of autophagy in embryonic stem cells, several tissue stem cells (particularly hematopoietic stem cells), as well as a number of cancer stem cells. We discuss how recent studies of different knockout mice models have defined the roles of various autophagy genes and related pathways in the regulation of the maintenance, expansion and differentiation of various stem cells. We also highlight the many unanswered questions that will help to drive further research at the intersection of autophagy and stem cell biology in the near future. 相似文献
22.
Spatial scan statistics are widely used in various fields. The performance of these statistics is influenced by parameters, such as maximum spatial cluster size, and can be improved by parameter selection using performance measures. Current performance measures are based on the presence of clusters and are thus inapplicable to data sets without known clusters. In this work, we propose a novel overall performance measure called maximum clustering set–proportion (MCS-P), which is based on the likelihood of the union of detected clusters and the applied dataset. MCS-P was compared with existing performance measures in a simulation study to select the maximum spatial cluster size. Results of other performance measures, such as sensitivity and misclassification, suggest that the spatial scan statistic achieves accurate results in most scenarios with the maximum spatial cluster sizes selected using MCS-P. Given that previously known clusters are not required in the proposed strategy, selection of the optimal maximum cluster size with MCS-P can improve the performance of the scan statistic in applications without identified clusters. 相似文献
23.
Fei Ling Huan Zhang Yunliang Sun Jinyi Meng Jaceline Gislaine Pires Sanches He Huang Qingqing Zhang Xiao Yu Bo Wang Li Hou Jun Zhang 《Cell death & disease》2021,12(11)
Hepatocellular carcinoma (HCC) is one of the most common cancers worldwide, and metastasis is the major cause of the high mortality of HCC. In this study, we identified that AnnexinA7 (ANXA7) and Sorcin (SRI) are overexpressed and interacting proteins in HCC tissues and cells. In vitro functional investigations revealed that the interaction between ANXA7 and SRI regulated epithelial–mesenchymal transition (EMT), and then affected migration, invasion, and proliferation in HCC cells. Furthermore overexpression/knockdown of ANXA7 was remarkably effective in promoting/inhibiting tumorigenicity and EMT in vivo. Altogether, our study unveiled a mechanism that ANXA7 promotes EMT by interacting with SRI and further contributes to the aggressiveness in HCC, which provides a novel potential therapeutic target for preventing recurrence and metastasis in HCC.Subject terms: Medical research, Genetics research 相似文献
24.
25.
26.
Qiang Fei Rongzhan Fu Longan Shang Christopher J. Brigham Ho Nam Chang 《Bioprocess and biosystems engineering》2015,38(4):691-700
Volatile fatty acids (VFAs) that can be derived from food wastes were used for microbial lipid production by Chlorella protothecoides in heterotrophic cultures. The usage of VFAs as carbon sources for lipid accumulation was investigated in batch cultures. Culture medium, culture temperature, and nitrogen sources were explored for lipid production in the heterotrophic cultivation. The concentration and the ratio of VFAs exhibited significant influence on cell growth and lipid accumulation. The highest lipid yield coefficient and lipid content of C. protothecoides grown on VFAs were 0.187 g/g and 48.7 %, respectively. The lipid content and fatty acids produced using VFAs as carbon sources were similar to those seen on growth and production using glucose. The techno-economic analysis indicates that the biodiesel derived from the lipids produced by heterotrophic C. protothecoides with VFAs as carbon sources is very promising and competitive with other biofuels and fossil fuels. 相似文献
27.
28.
Lathyrus sativus seeds were treated with 60Coγ-ray and EMS(ethyl methane sulfonate), and their emergence rate and SOD,POD and CAT activities were determined. The result indicated that the treatment decreased the emergence rate. The activities of SOD and POD were changed in accordance with the increase of irradiation dose and EMS concentration, while that of CAT had no obvious change. After treatment, the ODAP content in Lathyrus sativus decreased. Amutant was developed, with toxin content of 0.1%, compared to 0.2% in control. 相似文献
29.
Aggregation of the Ure2 protein is at the origin of the [URE3]
prion trait in the yeast Saccharomyces cerevisiae. The N-terminal
region of Ure2p is necessary and sufficient to induce the [URE3]
phenotype in vivo and to polymerize into amyloid-like fibrils in
vitro. However, as the N-terminal region is poorly ordered in the native
state, making it difficult to detect structural changes in this region by
spectroscopic methods, detailed information about the fibril assembly process
is therefore lacking. Short fibril-forming peptide regions (4–7
residues) have been identified in a number of prion and other amyloid-related
proteins, but such short regions have not yet been identified in Ure2p. In
this study, we identify a unique cysteine mutant (R17C) that can greatly
accelerate the fibril assembly kinetics of Ure2p under oxidizing conditions.
We found that the segment QVNI, corresponding to residues 18–21 in
Ure2p, plays a critical role in the fast assembly properties of R17C,
suggesting that this segment represents a potential amyloid-forming region. A
series of peptides containing the QVNI segment were found to form fibrils
in vitro. Furthermore, the peptide fibrils could seed fibril
formation for wild-type Ure2p. Preceding the QVNI segment with a cysteine or a
hydrophobic residue, instead of a charged residue, caused the rate of assembly
into fibrils to increase greatly for both peptides and full-length Ure2p. Our
results indicate that the potential amyloid stretch and its preceding residue
can modulate the fibril assembly of Ure2p to control the initiation of prion
formation.The [URE3] phenotype of Saccharomyces cerevisiae arises
because of conversion of the Ure2 protein to an aggregated propagatable prion
state (1,
2). Ure2p contains two regions:
a poorly structured N-terminal region and a compactly folded C-terminal region
(3,
4). The N-terminal region is
rich in Asn and Gln residues, is highly flexible, and is without any
detectable ordered secondary structure
(4–6).
This region is necessary and sufficient for prion behavior in vivo
(2) and amyloid-forming
capacity in vitro (5,
7), so it is referred to as the
prion domain (PrD).2
The C-terminal region has a fold similar to the glutathione
S-transferase superfamily
(8,
9) and possesses
glutathione-dependent peroxidase activity
(10). Upon fibril formation,
the N-terminal region undergoes a significant conformational change from an
unfolded to a thermally resistant conformation
(11), whereas the glutathione
S-transferase-like C-terminal domain retains its enzymatic activity,
suggesting that little conformational change occurs
(10,
12). Ure2p fibrils show
various morphologies, including variations in thickness and the presence or
absence of a periodic twist
(13–16).
The overall structure of the fibrils imaged by cryoelectron microscopy
suggests that the intact fibrils contain a 4-nm amyloid filament backbone
surrounded by C-terminal globular domains
(17).It is widely accepted that disulfide bonds play a critical role in
maintaining protein stability
(18–21)
and also affect the process of protein folding by influencing the folding
pathway
(22–25).
A recent study shows that the presence of a disulfide bond in a protein can
markedly accelerate the folding process
(26). Therefore, a disulfide
bond is a useful tool to study protein folding. In the study of prion and
other amyloid-related proteins, cysteine scanning has been widely used to
study the structure of amyloid fibrils, the driving force of amyloid
formation, and the plasticity of amyloid fibrils
(13,
27–31).Short segments from amyloid-related proteins, including IAPP
(islet amyloid polypeptide),
β2-microglobulin, insulin, and the amyloid-β peptide,
show amyloid-forming capacity
(32–34).
Hence, the amyloid stretch hypothesis has been proposed, which suggests that a
short amino acid stretch bearing a highly amyloidogenic motif might supply
most of the driving force needed to trigger the self-catalytic assembly
process of a protein to form fibrils
(35,
36). In support of this
hypothesis, it was found that the insertion of an amyloidogenic stretch into a
non-amyloid-related protein can trigger the amyloidosis of the protein
(36). At the same time, the
structural information obtained from microcrystals formed by amyloidogenic
stretches and bearing cross-β-structure has contributed significantly to
our understanding of the structure of intact fibrils at the atomic level
(34,
37). However, no amyloidogenic
stretches <10 amino acids have so far been identified in the yeast prion
protein Ure2.In this study, we performed a cysteine scan within the N-terminal PrD of
Ure2p and found a unique cysteine mutant (R17C) that eliminates the lag phase
of the Ure2p fibril assembly reaction upon the addition of oxidizing agents.
Furthermore, we identified a 4-residue region adjacent to Arg17 as
a potential amyloid stretch in Ure2p. 相似文献