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391.
Takahiro Ide Wang Kyaw Twan Hao Lu Yayoi Ikawa Lin-Xenia Lim Nicole Henninger Hiromi Nishimura Katsuyoshi Takaoka Vijay Narasimhan Xiumin Yan Hidetaka Shiratori Sudipto Roy Hiroshi Hamada 《PLoS genetics》2020,16(12)
Motile cilia can beat with distinct patterns, but how motility variations are regulated remain obscure. Here, we have studied the role of the coiled-coil protein CFAP53 in the motility of different cilia-types in the mouse. While node (9+0) cilia of Cfap53 mutants were immotile, tracheal and ependymal (9+2) cilia retained motility, albeit with an altered beat pattern. In node cilia, CFAP53 mainly localized at the base (centriolar satellites), whereas it was also present along the entire axoneme in tracheal cilia. CFAP53 associated tightly with microtubules and interacted with axonemal dyneins and TTC25, a dynein docking complex component. TTC25 and outer dynein arms (ODAs) were lost from node cilia, but were largely maintained in tracheal cilia of Cfap53-/- mice. Thus, CFAP53 at the base of node cilia facilitates axonemal transport of TTC25 and dyneins, while axonemal CFAP53 in 9+2 cilia stabilizes dynein binding to microtubules. Our study establishes how differential localization and function of CFAP53 contributes to the unique motion patterns of two important mammalian cilia-types. 相似文献
392.
Le Cong Huan Duong Tien Anh Bui Xuan Truong Phan Huy Duc Pham‐The Hai Lai Duc‐Anh Le‐Thi‐Thu Huong Eun Jae Park Hye Jin Lee Jong Soon Kang Phuong‐Thao Tran Dinh Thi Thanh Hai Dao Thi Kim Oanh Sang‐Bae Han Nguyen‐Hai Nam 《化学与生物多样性》2020,17(3)
In our search for new small molecules activating procaspase‐3, we have designed and synthesized a series of new acetohydrazides incorporating both 2‐oxoindoline and 4‐oxoquinazoline scaffolds. Biological evaluation showed that a number of these acetohydrazides were comparably or even more cytotoxic against three human cancer cell lines (SW620, colon cancer; PC‐3, prostate cancer; NCI?H23, lung cancer) in comparison to PAC‐1, a first procaspase‐3 activating compound, which was used as a positive control. One of those new compounds, 2‐(6‐chloro‐4‐oxoquinazolin‐3(4H)‐yl)‐N′‐[(3Z)‐5‐methyl‐2‐oxo‐1,2‐dihydro‐3H‐indol‐3‐ylidene]acetohydrazide activated the caspase‐3 activity in U937 human lymphoma cells by 5‐fold higher than the untreated control. Three of the new compounds significantly induced necrosis and apoptosis in U937 cells. 相似文献
393.
394.
In this study, Streptococcus gordonii‐specific quantitative real‐time polymerase chain reaction (qPCR) primers, RTSgo‐F2/RTSgo‐R2, were developed based on the nucleotide sequences of RNA polymerase β‐subunit gene (rpoB). The specificity of the RTSgo‐F2/RTSgo‐R2 primers was assessed by conventional PCR on 99 strains comprising 63 oral bacterial species, including the type strain and eight clinical isolates of S. gordonii. PCR products were amplified from the genomic DNAs of only S. gordonii strains. The qPCR primers were able to detect as little as 40 fg of S. gordonii genomic DNA at a cycle threshold value of 33. These findings suggest that these qPCR primers detect S. gordonii with high specificity and sensitivity. 相似文献
395.
All-atom force fields are now routinely used for more detailed understanding of protein folding mechanisms. However, it has been pointed out that use of all-atom force fields does not guarantee more accurate representations of proteins; in fact, sometimes it even leads to biased structural distributions. Indeed, several issues remain to be solved in force field developments, such as accurate treatment of implicit solvation for efficient conformational sampling and proper treatment of backbone interactions for secondary structure propensities. In this study, we first investigate the quality of several recently improved backbone interaction schemes in AMBER for folding simulations of a beta-hairpin peptide, and further study their influences on the peptide's folding mechanism. Due to the significant number of simulations needed for a thorough analysis of tested force fields, the implicit Poisson-Boltzmann solvent was used in all simulations. The chosen implicit solvent was found to be reasonable for studies of secondary structures based on a set of simulations of both alpha-helical and beta-hairpin peptides with the TIP3P explicit solvent as benchmark. Replica exchange molecular dynamics was also utilized for further efficient conformational sampling. Among the tested AMBER force fields, ff03 and a revised ff99 force field were found to produce structural and thermodynamic data in comparably good agreement with the experiment. However, detailed folding pathways, such as the order of backbone hydrogen bond zipping and the existence of intermediate states, are different between the two force fields, leading to force field-dependent folding mechanisms. 相似文献
396.
The Prospects for Payment for Ecosystem Services (PES) in Vietnam: A Look at Three Payment Schemes 总被引:1,自引:0,他引:1
To PX Dressler WH Mahanty S Pham TT Zingerli C 《Human ecology: an interdisciplinary journal》2012,40(2):237-249
Global conservation discourses and practices increasingly rely on market-based solutions to fulfill the dual objective of
forest conservation and economic development. Although varied, these interventions are premised on the assumption that natural
resources are most effectively managed and preserved while benefiting livelihoods if the market-incentives of a liberalised
economy are correctly in place. By examining three nationally supported payment for ecosystem service (PES) schemes in Vietnam
we show how insecure land tenure, high transaction costs and high opportunity costs can undermine the long-term benefits of
PES programmes for local households and, hence, potentially threaten their livelihood viability. In many cases, the income
from PES programmes does not reach the poor because of political and economic constraints. Local elite capture of PES benefits
through the monopolization of access to forestland and existing state forestry management are identified as key problems.
We argue that as PES schemes create a market for ecosystem services, such markets must be understood not simply as bald economic
exchanges between ‘rational actors’ but rather as exchanges embedded in particular socio-political and historical contexts
to support the sustainable use of forest resources and local livelihoods in Vietnam. 相似文献
397.
ATR and Chk1 are protein kinases that perform major roles in the DNA replication checkpoint that delays entry into mitosis in response to DNA replication stress by hydroxyurea (HU) treatment. They are also activated by ionizing radiation (IR) that induces DNA double-strand breaks. Studies in human tissue culture and Xenopus egg extracts identified Claspin as a mediator that increased the activity of ATR toward Chk1. Because the in vivo functions of Claspin are not known, we generated Drosophila lines that each contained a mutated Claspin gene. Similar to the Drosophila mei-41/ATR and grp/Chk1 mutants, embryos of the Claspin mutant showed defects in checkpoint activation, which normally occurs in early embryogenesis in response to incomplete DNA replication. Additionally, Claspin mutant larvae were defective in G2 arrest after HU treatment; however, the defects were less severe than those of the mei-41/ATR and grp/Chk1 mutants. In contrast, IR-induced G2 arrest, which was severely defective in mei-41/ATR and grp/Chk1 mutants, occurred normally in the Claspin mutant. We also found that Claspin was phosphorylated in response to HU and IR treatment and a hyperphosphorylated form of Claspin was generated only after HU treatment in mei-41/ATR-dependent and tefu/ATM-independent way. In summary, our data suggest that Drosophila Claspin is required for the G2 arrest that is induced by DNA replication stress but not by DNA double-strand breaks, and this difference is probably due to distinct phosphorylation statuses. 相似文献
398.
Pawan K Dhar Chaw Su Thwin Kyaw Tun Yuko Tsumoto Sebastian Maurer-Stroh Frank Eisenhaber Uttam Surana 《Journal of biological engineering》2009,3(1):2-10
Background
The current knowledge of genes and proteins comes from 'naturally designed' coding and non-coding regions. It would be interesting to move beyond natural boundaries and make user-defined parts. To explore this possibility we made six non-natural proteins in E. coli. We also studied their potential tertiary structure and phenotypic outcomes. 相似文献399.
Nguyen Huu Tung Chau Van Minh Tran Thu Ha Phan Van Kiem Hoang Thanh Huong Nguyen Tien Dat Nguyen Xuan Nhiem Bui Huu Tai Jae-Hee Hyun Hee-Kyoung Kang Young Ho Kim 《Bioorganic & medicinal chemistry letters》2009,19(16):4584-4588
Two new C29 sterols with a cyclopropane ring at C-25 and C-26, petrosterol-3,6-dione (1) and 5α,6α-epoxy-petrosterol (2), along with petrosterol (3), were isolated from the Vietnamese marine sponge Ianthella sp. The structures of the new compounds were elucidated by comprehensive spectroscopic analyses. Compounds 1?3 showed cytotoxic activities on A549, HL-60, MCF-7, SK-OV-3, and U937 cancer cell lines with IC50 in the range of 8.4–22.6 μM, whereas compounds 1?3 exhibited only weak cytotoxic activities on HT-29 cell. After HL-60 cells were treated with the compounds, several apoptosis events like chromatin condensation and the increase of the population of sub-G1 hypodiploid cells were observed. These data supported that the compounds might have potential for leukemia treatment. 相似文献
400.
In plants, the division of peroxisomes is mediated by several classes of proteins, including PEROXIN11 (PEX11), FISSION1 (FIS1) and DYNAMIN-RELATED PROTEIN3 (DRP3). DRP3A and DRP3B are two homologous dynamin-related proteins playing overlapping roles in the division of both peroxisomes and mitochondria, with DRP3A performing a stronger function than DRP3B in peroxisomal fission. Here, we report the identification and characterization of the peroxisome division defective 2 (pdd2) mutant, which was later proven to be another drp3A allele. The pdd2 mutant generates a truncated DRP3A protein and exhibits pale green and retarded growth phenotypes. Intriguingly, this mutant displays much stronger peroxisome division deficiency in root cells than in leaf mesophyll cells. Our data suggest that the partial GTPase effector domain retained in pdd2 may have contributed to the distinct mutant phenotype of this mutant.Key words: peroxisome division, dynamin-related protein, arabidopsisIn eukaryotic cells, peroxisomes are surrounded by single membranes and house a variety of oxidative metabolic pathways such as lipid metabolism, detoxification and plant photorespiration.1,2 To accomplish multiple tasks, the morphology, abundance and positioning of peroxisomes need to be highly regulated. Three families of proteins, whose homologs are present across different kingdoms, have been shown to be involved in peroxisome division in Arabidopsis. The PEX11 protein family is composed of five integral membrane proteins with primary roles in peroxisome elongation/tubulation, the initial step in peroxisome division.3–5 Although the exact function of PEX11s has not been demonstrated, these proteins are believed to participate in peroxisome membrane modification.6,7 The FIS1 family consists of two isoforms, which are C-terminal tail-anchored membrane proteins with rate limiting functions at the fission step.8,9 DRP3A and DRP3B belong to a superfamily of dynamin-related proteins, which are large and self-assembling GTPases involved in the fission and fusion of membranes by acting as mechanochemical enzymes or signaling GTPases.10 The function of PEX11 seems to be exclusive to peroxisomes, whereas DRP3 and FIS1 are shared by the division machineries of both peroxisomes and mitochondria in Arabidopsis.8,9,11–16 FIS1 proteins are believed to tether DRP proteins to the peroxisomal membrane,17,18 but direct evidence has not been obtained from plants. DRP3A and DRP3B share 77% sequence identity at the protein level and are functionally redundant in regulating mitochondrial division; however, DRP3A''s role on the peroxisome seems stronger and cannot be substituted by DRP3B in peroxisome division.8,13,15In a continuous effort to identify components of the plant peroxisome division apparatus from Arabidopsis, we performed genetic screens in a peroxisomal marker background expressing the YFP (yellow fluorescent protein)-PTS1 (peroxisome targeting signal 1, containing Ser-Lys-Leu) fusion protein. Mutants with defects in the morphology and abundance of fluorescently labeled peroxisomes are characterized. Following our analysis of the pdd1 mutant, which turned out to be a strong allele of DRP3A,8 we characterized the pdd2 mutant.In root cells of the pdd2 mutant, extremely elongated peroxisomes and a beads-on-a-string peroxisomal phenotype are frequently observed (Fig. 1A and B). These peroxisome phenotypes resemble those of pdd1 and other strong drp3A alleles previously reported.8,15 However, the peroxisome phenotype seems to be less dramatic in leaf mesophyll cells. For instance, in addition to the decreased number of total peroxisomes, peroxisomes in leaf cells are only slightly elongated or exhibit a beads-on-a-string phenotype (Fig. 1C and D). Previously, we reported the phenotypes of three strong drp3A alleles, all of which contain a large number of peroxules, long and thin membrane extensions from the peroxisome,8 yet such peroxisomal structures are not observed in pdd2. On the other hand, pdd2 has a more severe growth phenotype than most drp3A alleles, as it is slow in growth and has pale green leaves (Fig. 1E). Genetic analysis showed that pdd2 segregates as a single recessive mutation (data not shown).Open in a separate windowFigure 1Phenotypic analyses of pdd2 and identification of the PDD2 gene. (A–D) Confocal micrographs of root and mesophyll cells in 3-week-old wild type and pdd2 mutant plants. Green signals show peroxisomes; red signals show chloroplasts. Scale bars = 20 µm. (E) Growth phenotype of 3-week-old mutants. (F) Map-based cloning of the PDD2 gene. Genetic distance from PDD2 is shown under each molecular marker. Positions for mutations in previously analyzed drp3A alleles and pdd2 are indicated in the gene schematic. drp3A-1 and drp3A-2 are T-DNA insertion mutants, whereas pdd1 is an EMS mutant containing a premature stop codon in exon 6. (G) A schematic of the DRP3A (PDD2) protein with functional domains indicated. The pdd2 allele encodes a truncated protein lacking part of the GED domain.The unique combination of peroxisomal and growth phenotypes of pdd2 prompted us to use map-based cloning to identify the PDD2 gene, with the hope to discover novel proteins in the peroxisome division machinery. A population of approximately 6,000 F2 plants (pdd2 × Ler) was generated. After screening 755 F2 mutants, the pdd2 mutation was mapped to the region between markers T10C21 and F4B14 on the long arm of chromosome 4 (Fig. 1F). Since this region contains DRP3A, we sequenced the entire DRP3A gene in pdd2 and identified a G→A transition at the junction of the 18th exon and intron (Fig. 1F). Further analysis revealed that the point mutation at this junction caused mis-splicing of intron 18, introducing a stop codon in the GTPase effector domain GED near the C terminus (Fig. 1G).DRPs share with the classic dynamins an N-terminal GTPase domain, a middle domain (MD), and a regulatory motif named the GTPase effector domain (GED) (Fig. 1G). To date, a total of 26 drp3A mutant alleles carrying missense or nonsense mutations along the length of the DRP3A gene have been isolated.8,15 The combined peroxisomal and growth phenotype of pdd2 and the nature of the mutation in this allele are unique among all the drp3A alleles, indicating that the partial GED domain retained in pdd2 may have created some novel function for this protein. Further analysis of the truncated protein may be necessary to test this prediction. 相似文献